CN215448641U - Sewage collection system for environmental detection - Google Patents

Abstract

The utility model provides a sewage collection device for environmental detection, which comprises a liquid storage pipe and a liquid discharge hole, wherein the liquid discharge hole is formed in the vertical hole at the bottommost end in the liquid storage pipe, the liquid inlet hole is formed in the horizontal holes in the left lower part and the right lower part of the bottom of the liquid storage pipe, a limiting groove is formed in the opening at the rear end of the inner wall of the liquid storage pipe, a limiting component for preventing sewage from running out is embedded in the liquid storage pipe, an extending column is embedded above the inside of the liquid storage pipe, an operating rod is embedded above the inside of the extending column, and an external sampling component capable of adjusting sampling depth is embedded outside the liquid storage pipe. According to the utility model, the liquid inlet hole of the liquid storage pipe can be closed after sampling the sewage, so that the sewage is prevented from running out when the collected sewage is taken out, the sewage at different depths can be simultaneously sampled while sampling, the flexibility is higher, and the sewage collection and sampling are more convenient.

Description

Sewage collection system for environmental detection

Technical Field

The utility model relates to the technical field of sewage collection equipment, in particular to a sewage collection device for environmental detection.

Background

The environment detection mainly comprises water quality detection, air detection and soil detection, and as the main pollutants in the sewage are pathogen pollutants, aerobic pollutants, plant nutrients, toxic pollutants and the like, the most common environmental monitoring at present is to sample the discharged sewage by a sampling device and then carry out assay analysis on the sewage by equipment so as to confirm whether the sewage reaches the discharge standard or not;

according to the sewage collection device for environmental detection, which is disclosed as patent No. ZL201921406315.0 in the prior art, the shell can be submerged into water for sampling through a rubber pipeline fixedly connected with the top of the shell, the collection bottle can be controlled to extend out of a collection bottle sleeve through the matching of a control switch and a transmission rib, sewage is sampled, after the sampling is completed, the collection bottle is controlled to retract into the collection bottle sleeve through the control switch, the sewage collected in the collection bottle is sealed, the sewage of other water layers is prevented from flowing into the collection bottle, after the shell is pulled out of the water surface, a push plate is pushed downwards, the push plate pushes a baffle plate through a connecting rod to seal the collection bottle, and the subsequent detection of the sewage is prevented from being influenced by air;

through research and analysis, the following results are found:

because collection system's opening II sets up in collection system's upper right side, need manually seal opening II with the push pedal after the device has gathered sewage, and trickle out from opening II easily at the in-process sewage that the hoisting device moved up, and follow-up need slope open the push pedal just can take out sewage, gather the sample comparatively inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the background technology, and provides a sewage collecting device for environment detection.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a sewage collection device for environmental detection, includes liquid storage pipe and outage, the inside vertical trompil in bottom of liquid storage pipe is provided with the outage, the equal horizontal trompil in left side below and right side below of liquid storage bottom of tubes portion is provided with the feed liquor hole, the inner wall rear end opening of liquid storage pipe is provided with the spacing groove, the inside embedding of liquid storage pipe is provided with the spacing subassembly that prevents sewage and run out, the inside top embedding of liquid storage pipe is provided with the extension post, the inside top embedding of extension post is provided with the action bars, the outside nestification of liquid storage pipe is provided with the subassembly of drawing a sample outward of adjustable sample depth.

Preferably, spacing subassembly includes inner tube and spacing post, the inner tube sets up the middle part at spacing subassembly, the equal horizontal trompil in left side below and the right side below of inner tube is provided with the hole, spacing post is installed to the rear end of inner tube.

Preferably, the limiting column at the rear end of the inner tube is embedded in a limiting groove of the liquid storage tube, and the limiting column rotates forwards and backwards 45 degrees in the limiting groove.

Preferably, the liquid inlet hole of the liquid storage pipe and the inner hole of the inner pipe are both positioned on the same horizontal plane.

Preferably, outer sampling subassembly includes outer crown plate, floating block, magnet board, weeping hole and corrosion resistant plate, outer crown plate sets up the middle part at outer sampling subassembly, the inside slip embedding of outer crown plate has the floating block, the magnet board is installed to the upper surface outer wall of floating block, the vertical trompil in inside of outer crown plate is provided with the weeping hole, corrosion resistant plate is installed to the inner wall top of outer crown plate, the equal horizontal trompil in upper left side and the upper right side of outer crown plate inner wall is provided with the through-hole.

Preferably, the outer wall of the floating block is tightly attached to the inner wall of the outer ring plate, the thickness of the floating block is larger than the vertical cutting length of the through hole, and the magnet plate and the stainless steel plate are both located on the same vertical horizontal plane.

Preferably, the inner wall of inner tube is hugged closely to the outer wall that extends the post, it is the rectangle setting to extend the post, the screw thread of action bars outer wall meshes with the screw thread that extends the post inner wall mutually.

And sealing plugs are embedded into the liquid discharge hole and the through hole.

And a top rod is vertically inserted at the upper right of the outer ring plate.

The utility model provides a sewage collecting device for environment detection, which has the following beneficial effects:

the liquid inlet hole of the liquid storage pipe can be closed after the sewage is sampled, so that the sewage is prevented from running out when the collected sewage is taken out, the sewage at different depths can be simultaneously sampled while the sampling is carried out, meanwhile, the overall length of the device can be adjusted, the flexibility is higher, and the sewage collection and sampling are more convenient.

Drawings

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

FIG. 2 is a front sectional view of a part of the outer ring plate according to the present invention;

FIG. 3 is a schematic top view of a partial structure of the floating block of the present invention;

FIG. 4 is a schematic sectional top view of a partial structure of the inner tube of the present invention.

Illustration of the drawings:

the liquid storage pipe comprises a liquid storage pipe 1, a liquid discharge hole 2, a liquid inlet hole 201, a limiting groove 202, an inner pipe 3, an inner hole 301, a limiting column 302, an extension column 4, an operating rod 5, an outer ring plate 6, a floating block 7, a magnet plate 701, a liquid leakage hole 702, a stainless steel plate 703 and a through hole 704.

Detailed Description

Referring to fig. 1-4, a sewage collection device for environmental detection, including liquid storage pipe 1 and outage 2, the vertical trompil in the bottom of liquid storage pipe 1 inside is provided with outage 2, the equal horizontal trompil in left side below and the right side below of liquid storage pipe 1 bottom is provided with feed liquor hole 201, the inner wall rear end opening of liquid storage pipe 1 is provided with spacing groove 202, the inside embedding of liquid storage pipe 1 is provided with the spacing subassembly that prevents sewage run out, the inside top embedding of liquid storage pipe 1 is provided with extension column 4, the inside top embedding of extension column 4 is provided with action bars 5, the nested outside of liquid storage pipe 1 is provided with the subassembly that takes a sample outward of adjustable sample depth.

In this embodiment, spacing subassembly includes inner tube 3 and spacing post 302, inner tube 3 sets up the middle part at spacing subassembly, the equal horizontal trompil in left side below and the right side below of inner tube 3 is provided with hole 301, spacing post 302 is installed to the rear end of inner tube 3, during the sample in the device embedding to sewage, sewage passes the inside that liquid storage pipe 1's feed liquor hole 201 and inner tube 3's hole 301 got into liquid storage pipe 1, sewage is storing up back counter-rotation action bars 5, make action bars 5 drive inner tube 3 through extension post 4 and rotate, make inner tube 3 block liquid storage pipe 1's feed liquor hole 201, sewage is discharged along inner tube 3's hole 301 follow liquid storage pipe 1's feed liquor hole 201 when avoiding follow-up device to take out, it is more convenient to gather the sample.

In this embodiment, the embedding of spacing post 302 of inner tube 3 rear end is in the spacing groove 202 of stock solution pipe 1, 45 rotations around spacing post 302 is in spacing groove 202, sewage is behind the inside that gets into stock solution pipe 1, the reverse rotation action bars 5, make action bars 5 drive inner tube 3 through extending post 4 and rotate, let inner tube 3 block the feed liquor hole 201 of stock solution pipe 1, avoid subsequent device sewage to discharge in the feed liquor hole 201 of stock solution pipe 1 along inner tube 3's hole 301 when taking out.

In this embodiment, the feed liquor hole 201 of liquid storage pipe 1 and the hole 301 of inner tube 3 all are in same horizontal plane, when sampling with device embedding to sewage, sewage passes the feed liquor hole 201 of liquid storage pipe 1 and the hole 301 of inner tube 3 gets into the inside of liquid storage pipe 1 and stores.

In this embodiment, outer appearance subassembly includes outer crown plate 6, floating block 7, magnet board 701, weeping hole 702 and corrosion resistant plate 703, outer crown plate 6 sets up the middle part at outer appearance subassembly, outer crown plate 6's inside slip embedding has floating block 7, magnet board 701 is installed to floating block 7's upper surface outer wall, outer crown plate 6's inside vertical trompil is provided with weeping hole 702, corrosion resistant plate 703 is installed to outer crown plate 6's inner wall top, the equal horizontal trompil in upper left side and the upper right side of outer crown plate 6 inner wall is provided with through-hole 704, when the device embedding is in the appearance of taking samples in sewage, outer crown plate 6 and then carry out the simultaneous sampling to the sewage of different degree of depth simultaneously, slide in reservoir pipe 1 through outer crown plate 6 that slides from top to bottom, adjustable outer crown plate 6's sample depth.

In this embodiment, the outer wall of the floating block 7 is tightly attached to the inner wall of the outer ring plate 6, the thickness of the floating block 7 is greater than the vertical cutting length of the through hole 704, the magnet plate 701 and the stainless steel plate 703 are both located on the same vertical horizontal plane, when sewage passes through the through hole 704 and enters the inner portion of the outer ring plate 6, the sewage can pass through the liquid leakage hole 702 of the floating block 7 and be stored at the bottom end of the inner portion of the outer ring plate 6, so that the floating block 7 generates buoyancy and moves upwards, and when the magnet plate 701 of the floating block 7 is tightly attached to the stainless steel plate 703 above the outer ring plate 6, the floating block 7 automatically seals the through hole 704.

In this embodiment, the inner wall of inner tube 3 is hugged closely to the outer wall that extends post 4, and extension post 4 is the rectangle form setting, and the screw thread of 5 outer walls of action bars meshes with the screw thread that extends 4 inner walls of post mutually, up extends in extending post 4 through rotating action bars 5 for the whole lengthening of device, and when pulling extension post 4 slided from top to bottom in inner tube 3, the adjustable interval that extends between post 4's the bottom and 1 bottom of stock solution pipe, the realization was adjusted the sample volume of sewage.

The magnet plate 701 has the main function that when the upper surface of the floating block 7 is tightly attached to the top end of the inner wall of the outer ring plate 6, the magnet plate 701 of the floating block 7 is tightly attached to the stainless steel plate 703 of the outer ring plate 6, so that the floating block 7 is prevented from shaking in the conveying process of the device.

The working principle is as follows: when the device is used, the extending column 4 is held by hands, the operating rod 5 is rotated to slide in the extending column 4, so that the whole device is lengthened, the extending column 4 is pulled to slide up and down in the inner pipe 3, the distance between the bottom end of the extending column 4 and the bottom end of the liquid storage pipe 1 is adjusted, and the sampling amount of sewage is adjusted;

when the device is embedded into sewage for sampling, the sewage passes through the liquid inlet hole 201 of the liquid storage pipe 1 and the inner hole 301 of the inner pipe 3 to enter the liquid storage pipe 1, the operating rod 5 is reversely rotated after the sewage is fully stored, so that the operating rod 5 drives the inner pipe 3 to rotate through the extension column 4, the inner pipe 3 blocks the liquid inlet hole 201 of the liquid storage pipe 1, and the sewage is prevented from being discharged from the liquid inlet hole 201 of the liquid storage pipe 1 along the inner hole 301 of the inner pipe 3 when a subsequent device is taken out;

meanwhile, sewage can pass through the through hole 704 to enter the inner part of the outer ring plate 6, the sewage can pass through the liquid leakage hole 702 of the floating block 7 after entering the outer ring plate 6 and is stored at the bottom end of the inner part of the outer ring plate 6, the floating block 7 generates buoyancy to move upwards, and when the magnet plate 701 of the floating block 7 is tightly attached to the stainless steel plate 703 above the outer ring plate 6, the floating block 7 automatically seals the through hole 704.

Claims (7)

1. The utility model provides a sewage collection device for environmental detection, includes liquid storage pipe (1) and outage (2), the vertical trompil in the bottom of liquid storage pipe (1) inside is provided with outage (2), its characterized in that, the equal horizontal trompil in left side below and right side below of liquid storage pipe (1) bottom is provided with feed liquor hole (201), the inner wall rear end opening of liquid storage pipe (1) is provided with spacing groove (202), the inside embedding of liquid storage pipe (1) is provided with the spacing subassembly that prevents sewage run out, the inside top embedding of liquid storage pipe (1) is provided with extension column (4), the inside top embedding of extension column (4) is provided with action bars (5), the outside nestification of liquid storage pipe (1) is provided with the outer subassembly of getting a sample of adjustable sampling depth.

2. The sewage collection device for environment detection according to claim 1, wherein the limiting assembly comprises an inner pipe (3) and a limiting column (302), the inner pipe (3) is arranged in the middle of the limiting assembly, inner holes (301) are transversely formed in the left lower portion and the right lower portion of the inner pipe (3), and the limiting column (302) is installed at the rear end of the inner pipe (3).

3. The sewage collecting device for environmental detection according to claim 2, wherein the limiting post (302) at the rear end of the inner pipe (3) is embedded in the limiting groove (202) of the liquid storage pipe (1), and the limiting post (302) rotates 45 degrees back and forth in the limiting groove (202).

4. The sewage collection device for environmental detection according to claim 2, wherein the liquid inlet hole (201) of the liquid storage pipe (1) and the inner hole (301) of the inner pipe (3) are both located on the same horizontal plane.

5. The sewage collection device for environment detection according to claim 1, wherein the outer sampling assembly comprises an outer ring plate (6), a floating block (7), a magnet plate (701), a liquid leakage hole (702) and a stainless steel plate (703), the outer ring plate (6) is arranged in the middle of the outer sampling assembly, the floating block (7) is embedded in the outer ring plate (6) in a sliding manner, the magnet plate (701) is installed on the outer wall of the upper surface of the floating block (7), the liquid leakage hole (702) is formed in the vertical opening of the inner part of the outer ring plate (6), the stainless steel plate (703) is installed above the inner wall of the outer ring plate (6), and through holes (704) are formed in the upper left side and the upper right side of the inner wall of the outer ring plate (6) in a transverse manner.

6. The sewage collection device for environmental detection according to claim 5, wherein the outer wall of the floating block (7) is tightly attached to the inner wall of the outer ring plate (6), the thickness of the floating block (7) is larger than the vertical cutting length of the through hole (704), and the magnet plate (701) and the stainless steel plate (703) are both located on the same vertical horizontal plane.

7. The sewage collection device for environment detection according to claim 1, wherein the outer wall of the extension column (4) is tightly attached to the inner wall of the inner tube (3), the extension column (4) is rectangular, and the thread of the outer wall of the operating rod (5) is engaged with the thread of the inner wall of the extension column (4).

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