CN211652272U - Soil detection liquid preparation device - Google Patents

Abstract

The utility model discloses a soil detection liquid preparation device, which comprises a slag particle filtering structure, a detection liquid stirring and mixing structure and a filter paper dialysis structure; the slag particle filtering structure comprises a filtering vessel, a circular groove guide seat structure and a supporting structure column; the circular groove flow guide seat structure comprises a rotary support structure shaft block and an annular groove; the center of the circular groove diversion seat structure is upwards provided with the rotary supporting structure shaft block; the rotary supporting structure shaft block supports the filtering vessel; the driving device drives the rotating support structure shaft block to drive the filtering vessel to rotate circumferentially; the mud inlet end of the annular groove is arranged corresponding to the mud outlet end of the filtering vessel; a sludge discharge pipeline structure is connected to the sludge outlet end of the annular groove; the sludge discharge pipeline structure corresponds to a sludge inlet of the detection liquid stirring and mixing structure; the detection liquid stirring and mixing structure is communicated with the filter paper dialysis structure through a mixed liquid pipeline structure. The utility model discloses preparation that can be quick goes out soil detection liquid.

Description

Soil detection liquid preparation device

Technical Field

The utility model relates to a soil detects the liquid field, especially relates to soil and detects liquid preparation field.

Background

The soil detection work has important significance for the life of organisms and the ecology of the environment. Soil detection can enable us to judge the pollution degree of local soil better, and make sufficient preparation for later-stage treatment work. The soil detection is to detect the mixed liquid of soil components and distilled water; therefore, a certain amount of soil detection solution needs to be prepared before the detection work is started, and then the components in the soil detection solution are detected by using a related detection instrument.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the deficiencies in the prior art, the utility model provides a soil detection liquid preparation facilities can realize the effect of a large amount of preparation soil detection liquid fast.

The technical scheme is as follows: in order to achieve the above purpose, the technical scheme of the utility model is as follows:

a soil detection liquid preparation device comprises a slag particle filtering structure, a detection liquid stirring and mixing structure and a filter paper dialysis structure; the slag particle filtering structure comprises a filtering vessel, a circular groove guide seat structure and a supporting structure column; the circular groove flow guide seat structure comprises a rotary support structure shaft block and an annular groove; the center of the circular groove diversion seat structure is upwards provided with the rotary supporting structure shaft block; the driving device is in driving connection with the rotating support structure shaft block; the rotary supporting structure shaft block supports the filtering vessel; the rotary supporting structure shaft block drives the filtering vessel to rotate circumferentially; the detection liquid stirring and mixing structure comprises an embedded structure block; the supporting structure columns are circumferentially and symmetrically distributed; the embedded structure block is connected with the circular groove flow guide seat structure through the supporting structure column; the annular groove is arranged around the rotating support structure shaft block; the mud inlet end of the annular groove is arranged corresponding to the mud outlet end of the filtering vessel; a sludge discharge pipeline structure is connected to the sludge outlet end of the annular groove; the sludge discharge pipeline structure corresponds to a sludge inlet of the detection liquid stirring and mixing structure; the detection liquid stirring and mixing structure is communicated with the filter paper dialysis structure through a mixed liquid pipeline structure.

Furthermore, the bottom of the filtering vessel is upward in a solid arc structure; the filtering vessel comprises a distilled water and soil inlet structure, a filtering net structure and a mud outlet pipeline opening structure; the central top of the filtering vessel is provided with the distilled water and soil inlet structure; the filter screen structure is arranged in the filter vessel, and the filter screen structure is positioned at the bottom of the filter vessel; the filtering net structures are arranged above the arc-shaped structure at the bottom of the filtering vessel at intervals; the lower-lying part at the bottom of the filtering vessel is communicated with the mud outlet pipeline port structure; the mud outlet end of the mud outlet pipeline port structure extends out of the filtering vessel; the mud outlet end of the mud outlet pipeline port structure is positioned right above the annular groove; and the mud outlet pipeline port is structurally provided with a control valve.

Furthermore, the embedded structure block comprises a mud inlet structure and a distilled water inlet structure; the sludge inlet structure and the distilled water inlet structure are symmetrically arranged; the sludge inlet structure is communicated with the sludge discharge end of the sludge discharge pipeline structure; the distilled water inlet structure is communicated with the outside.

Furthermore, the detection liquid stirring and mixing structure also comprises a test tube bottle structure and a rotary stirring shaft structure; the center of the embedded structure block extends downwards to form the rotary stirring shaft structure; the rotary stirring shaft structure extends downwards to the interior of the test tube bottle structure; the power structure is in driving connection with the rotary stirring shaft structure; the wall surface of the rotary stirring shaft structure is uniformly and symmetrically provided with a plurality of stirring rod structures; the rotary stirring shaft structure drives the stirring rod structure to rotate in the circumferential direction in the test bottle structure; the bottom of the test tube bottle structure is communicated with the mud inlet pipe orifice structure of the mixed liquid pipeline structure.

Furthermore, the outer wall surface of the test tube bottle structure is provided with capacity scales from bottom to top, and the test tube bottle structure is a plastic transparent glass structure.

Further, the filter paper dialysis structure comprises a filter paper leaching structure; the filter paper filtering and sprinkling structure is of a box structure; the upper end surface and the lower end surface of the filter paper filtering and leaching structure are of open structures; the filter paper filtering and leaching structure is positioned right below the mud outlet end structure of the mixed liquid pipeline structure; the filter paper filter-leaching structure comprises a filter-leaching shell, a filter paper supporting beam and a filter paper layer structure; the filter paper supporting beam is transversely arranged inside the bottom end of the filter spray shell; a plurality of the filter paper supporting beams are distributed in parallel at intervals; and the filter paper layer structure is laid on the filter paper supporting beam.

Further, the filter paper dialysis structure further comprises a detection liquid containing vessel; the top of the detection liquid accommodating vessel is of an open structure; the opposite sides of the two ends of the filter paper filtering and leaching structure are provided with a protruding block structure; the filter paper filtering and sprinkling structure is arranged in the detection liquid containing vessel through the cross arm of the protruding block structure.

Has the advantages that: the utility model discloses can simplify the work that soil detection liquid prepared, quick preparation goes out soil detection liquid. Including but not limited to the following technical effects:

1) when the device is in operation, distilled water or a soil sample can be added from the feed inlet, so that the normal operation of the device is not influenced;

2) the liquid capacity can be looked over according to the capacity scale on the outer wall of test tube bottle structure, prepares a certain amount of detection liquid as required, avoids extravagant soil sample.

Drawings

FIG. 1 is a view showing the overall structure of the apparatus;

FIG. 2 is a cross-sectional view of the interior of the apparatus;

FIG. 3 is a sectional view of a slag particle filtering structure;

FIG. 4 is a cross-sectional view of a filter paper elution structure.

Detailed Description

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

As shown in figures 1-4: a soil detection liquid preparation device comprises a slag particle filtering structure 1, a detection liquid stirring and mixing structure 2 and a filter paper dialysis structure 3; the slag particle filtering structure 1 comprises a filtering vessel 11, a circular groove diversion seat structure 12 and a supporting structure column 13; the circular groove flow guide seat structure 12 comprises a rotary support structure shaft block 121 and an annular groove 122; the center of the circular groove diversion seat structure 12 is upwards provided with the rotary supporting structure shaft block 121; the driving device is in driving connection with the rotating support structure shaft block 121; the rotary support structure shaft block 121 supports the filter vessel 11; the driving device drives the rotating support structure shaft block 121, and the rotating support structure shaft block 121 drives the filtering vessel 11 to rotate circumferentially; the filter vessel 11 rotates in the circumferential direction to enable muddy water in the filter vessel to rotate, so that the filtering of slag particles is easily finished, and the slag particles can be prevented from blocking filter meshes; the detection liquid stirring and mixing structure 2 comprises an embedded structure block 22; a plurality of the support structure columns 13 are circumferentially and symmetrically distributed; the embedded structure block 22 is connected with the circular groove diversion seat structure 12 through the supporting structure column 13; the upper end of the supporting structure column 13 is connected with the circular groove diversion seat structure 12, and the lower end is fixedly connected with the embedded structure block 22; the annular groove 122 is arranged around the rotating support structure shaft block 121; the mud inlet end of the annular groove 122 is arranged corresponding to the mud outlet end of the filtering vessel 11; a mud discharging pipeline structure 123 is connected to the mud discharging end of the annular groove 122; the sludge discharge pipeline structure 123 corresponds to a sludge inlet of the detection liquid stirring and mixing structure 2; the detection liquid stirring and mixing structure 2 is communicated with the filter paper dialysis structure 3 through a mixed liquid pipeline structure 31; the muddy water flowing out of the filter vessel 11 flows into the detection liquid stirring and mixing structure 2 through the mud discharge pipeline structure 123 and then flows into the filter paper dialysis structure 3 through the mixed liquid pipeline structure 31.

The bottom of the filtering vessel 11 is upward in a solid arc structure; the middle part is convex, and the peripheral part is low, so that the muddy water can be converged to the periphery of the bottom of the filtering vessel 11; the filtering vessel 11 comprises a distilled water and soil inlet structure 113, a filter screen structure 111 and a sludge outlet pipe opening structure 112; the central top of the filtering vessel 11 is provided with the distilled water and soil inlet structure 113; is arranged at the top center, and can also add soil and distilled water when the filtering vessel 11 is in rotary operation; the filter screen structure 111 is arranged in the filter vessel 11, and the filter screen structure 111 is positioned at the bottom of the filter vessel 11; the filter screen structures 111 are arranged above the arc-shaped structure at the bottom of the filter vessel 11 at intervals; by the design, more slag particles can be filtered; the lower part of the bottom of the filtering vessel 11 is communicated with the mud outlet pipeline port structure 112; the mud outlet end of the mud outlet pipeline opening structure 112 extends out of the filtering vessel 11; the mud outlet end of the mud outlet pipeline opening structure 112 is positioned right above the annular groove 122; the muddy water can just flow into the annular groove 122; a control valve is arranged on the mud outlet pipe port structure 112.

The embedded structure block 22 comprises a mud inlet structure 221 and a distilled water inlet structure 222; the sludge inlet structure 221 and the distilled water inlet structure 222 are symmetrically arranged; the sludge inlet structure 221 is communicated with a sludge discharge end of the sludge discharge pipeline structure 123; the mud water discharged from the mud discharge pipeline structure 123 enters the detection liquid stirring and mixing structure 2 from the mud inlet structure 221; the distilled water inlet structure 222 is communicated with the outside, and a certain proportion of distilled water can be added from the outside.

The detection liquid stirring and mixing structure 2 further comprises a test tube bottle structure 21 and a rotary stirring shaft structure 23; the center of the embedded structure block 22 extends downwards to form the rotary stirring shaft structure 23; the rotary stirring shaft structure 23 extends downwards to the interior of the test tube bottle structure 21; the power structure is in driving connection with the rotary stirring shaft structure; the wall surface of the rotary stirring shaft structure 23 is uniformly and symmetrically provided with a plurality of stirring rod structures 231; the power structure drives the rotating stirring shaft structure 23 to rotate, and the rotating stirring shaft structure 23 drives the stirring rod structure 231 to rotate in the circumferential direction in the test tube bottle structure 21; nutrients in the soil can be fully mixed with distilled water, so that the detection accuracy is improved; the bottom of the test tube bottle structure 21 is communicated with the mud inlet pipe orifice structure of the mixed liquid pipeline structure 31, and the fully mixed mud water flows to the filter paper filtering and sprinkling structure 32 from the mixed liquid pipeline structure 31 to be filtered.

The outer wall surface of the test tube bottle structure 21 is provided with capacity scales 24 from bottom to top, and the test tube bottle structure 21 is of a plastic transparent glass structure. The muddy water can be mixed according to the volume scale 24 according to the proportion, and the required amount of mixed liquid can be prepared, so that more or less preparation is avoided, and the resource waste is avoided.

The filter paper dialysis structure 3 comprises a filter paper filter-showering structure 32; the filter paper filtering and sprinkling structure 32 is of a box structure; the upper end surface and the lower end surface of the filter paper filtering and leaching structure 32 are of open structures; the mixed mud-water detection liquid flows in from the upper end surface open structure of the filter paper filter structure 32 and flows out from the lower end surface open structure of the filter paper filter structure 32; the filter paper filtering and leaching structure 32 is positioned right below the mud outlet end structure of the mixed liquid pipeline structure 31 and can just flow into the filter paper filtering and leaching structure 32; the filter paper filter-leaching structure 32 comprises a filter-leaching shell 321, a filter paper support beam 322 and a filter paper layer structure 323; the filter paper support beam 322 is transversely arranged inside the bottom end of the filter shower shell 321; a plurality of the filter paper supporting beams 322 are distributed in parallel at intervals; the filter paper layer structure 323 is laid on the filter paper support beam 322; the efficiency of filtration can be improved, the time of shortening the waiting is convenient simultaneously to clear up and change filter paper.

The filter paper dialysis structure 3 further comprises a detection liquid accommodating vessel 33; the top of the detection liquid accommodating vessel 33 is of an open structure; the opposite sides of the two ends of the filter paper filtering and leaching structure 32 are provided with a protruding block structure 324; the filter paper filtering and leaching structure 32 is cross-arm mounted in the detection liquid containing vessel 33 through the protruding block structure 324. The detection liquid can be conveniently stored, and the detection liquid is convenient to store.

The above description is only a preferred embodiment of the present invention, and it should be noted that: for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (7)

1. The utility model provides a soil detection liquid preparation facilities which characterized in that: comprises a slag particle filtering structure (1), a detection liquid stirring and mixing structure (2) and a filter paper dialysis structure (3); the slag particle filtering structure (1) comprises a filtering vessel (11), a circular groove diversion seat structure (12) and a supporting structure column (13); the circular groove flow guide seat structure (12) comprises a rotary support structure shaft block (121) and an annular groove (122); the center of the circular groove diversion seat structure (12) is upwards provided with the rotary supporting structure shaft block (121); the driving device is in driving connection with the rotating support structure shaft block (121); the rotary supporting structure shaft block (121) supports the filtering vessel (11); the rotating support structure shaft block (121) drives the filtering vessel (11) to rotate circumferentially; the detection liquid stirring and mixing structure (2) comprises an embedded structure block (22); the supporting structure columns (13) are circumferentially and symmetrically distributed; the embedded structure block (22) is connected with the circular groove diversion seat structure (12) through the supporting structure column (13); the annular groove (122) is arranged around the rotary support structure shaft block (121); the mud inlet end of the annular groove (122) is arranged corresponding to the mud outlet end of the filter vessel (11); a mud discharging pipeline structure (123) is connected with the mud discharging end of the annular groove (122); the sludge discharge pipeline structure (123) corresponds to a sludge inlet of the detection liquid stirring and mixing structure (2); the detection liquid stirring and mixing structure (2) is communicated with the filter paper dialysis structure (3) through a mixed liquid pipeline structure (31).

2. The soil detection liquid preparation device according to claim 1, wherein: the bottom of the filtering vessel (11) is upward in a solid arc structure; the filtering vessel (11) comprises a distilled water and soil inlet structure (113), a filter screen structure (111) and a mud outlet pipeline opening structure (112); the central top of the filtering vessel (11) is provided with the distilled water and soil inlet structure (113); the filter screen structure (111) is arranged in the filter vessel (11), and the filter screen structure (111) is positioned at the bottom of the filter vessel (11); the filter screen structures (111) are arranged above the arc-shaped structure at the bottom of the filter vessel (11) at intervals; the lower part of the bottom of the filtering vessel (11) is communicated with the mud outlet pipeline port structure (112); the mud outlet end of the mud outlet pipeline opening structure (112) extends out of the filtering vessel (11); the mud outlet end of the mud outlet pipeline opening structure (112) is positioned right above the annular groove (122); and a control valve is arranged on the mud outlet pipeline opening structure (112).

3. The soil detection liquid preparation device according to claim 1, wherein: the embedded structure block (22) comprises a mud inlet structure (221) and a distilled water inlet structure (222); the sludge inlet structure (221) and the distilled water inlet structure (222) are symmetrically arranged; the sludge inlet structure (221) is communicated with a sludge discharge end of the sludge discharge pipeline structure (123); the distilled water inlet structure (222) is communicated with the outside.

4. The soil detection liquid preparation device according to claim 1, wherein: the detection liquid stirring and mixing structure (2) further comprises a test tube bottle structure (21) and a rotary stirring shaft structure (23); the center of the embedded structure block (22) extends downwards to form the rotary stirring shaft structure (23); the rotary stirring shaft structure (23) extends downwards to the interior of the test tube bottle structure (21); the power structure is in driving connection with the rotary stirring shaft structure (23); a plurality of stirring rod structures (231) are uniformly and symmetrically distributed on the wall surface of the rotary stirring shaft structure (23); the rotary stirring shaft structure (23) drives the stirring rod structure (231) to rotate in the circumferential direction in the test tube bottle structure (21); the bottom of the test tube bottle structure (21) is communicated with the mud inlet pipe orifice structure of the mixed liquid pipeline structure (31).

5. The soil detection liquid preparation device according to claim 4, wherein: the outer wall surface of the test tube bottle structure (21) is provided with capacity scales (24) from bottom to top, and the test tube bottle structure (21) is of a plastic transparent glass structure.

6. The soil detection liquid preparation device according to claim 1, wherein: the filter paper dialysis structure (3) comprises a filter paper leaching structure (32); the filter paper filtering and sprinkling structure (32) is of a box structure; the upper end surface and the lower end surface of the filter paper filtering and sprinkling structure (32) are of open structures; the filter paper filtering and leaching structure (32) is positioned right below the mud outlet end structure of the mixed liquid pipeline structure (31); the filter paper filter-leaching structure (32) comprises a filter-leaching shell (321), a filter paper support beam (322) and a filter paper layer structure (323); the filter paper supporting beam (322) is transversely arranged inside the bottom end of the filter screen shell (321); a plurality of the filter paper supporting beams (322) are distributed in parallel at intervals; the filter paper layer structure (323) is laid on the filter paper support beam (322).

7. The soil detection liquid preparation apparatus according to claim 1 or 6, wherein: the filter paper dialysis structure (3) further comprises a detection liquid accommodating dish (33); the top of the detection liquid accommodating vessel (33) is of an open structure; a protruding block structure (324) is arranged on the opposite side of the two ends of the filter paper filtering and sprinkling structure (32); the filter paper filtering and sprinkling structure (32) is cross-arm-mounted in the detection liquid containing dish (33) through the protruding block structure (324).

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