CN210128872U - Be used for environmental protection water quality testing sampler - Google Patents

Abstract

The utility model discloses a be used for environmental protection water quality testing sampler, including mainboard, elongated slot B, minute board and rectangular block B, mainboard front surface central point puts and has seted up elongated slot A, elongated slot B sets up on the mainboard, the lower extreme setting of minute board is inside the top of mainboard, the upper end of rectangular block B and the lower extreme interconnect of dead lever, connecting rod A's lower extreme is installed inside the top of connecting rod B, rectangular block A passes through the locating lever and installs on minute board, stock A's one end welding has the clamp splice, the inside recess and the collection frame interconnect of seting up of a section of thick bamboo of fetching water. This be used for environmental protection water quality testing sampler can once acquire the sewage of different water layers through setting up the multiunit section of thick bamboo that fetches water to improve detection efficiency, the more audio-visual sewage condition of observing in different water layers, through multiunit slip extending structure, thereby the device can be adjusted along with the difference of measuring the depth of water, and application scope is extensive.

Description

Be used for environmental protection water quality testing sampler

Technical Field

The utility model relates to an environmental protection water quality testing sample technical field specifically is a be used for environmental protection water quality testing sampler.

Background

At present, with the call for environmental protection at the national level, the protection of water resources is more and more emphasized by people, at the end of the last century, the rapid development of industrial enterprises in China brings with the destruction of land and water resources, industrial sewage is randomly discharged to rivers or underground, drinking water resources in China are polluted in a large area, in order to solve the current situation that the water resources are polluted, relevant departments established by China detect the peripheral water resources of the industrial enterprises and supervise the clean discharge condition of the sewage, the quality detection of the water resources needs to use a sewage sampling tool, because the water quality detection of the sewage needs to sample sewage at different levels, the sampling water source depth is different, the sampling equipment in the prior art is inconvenient for the formulation of the sampling depth or complicated operation, and because the sampling equipment needs to frequently wade water for a long time, the electronic depth detection can cause water inflow of electronic equipment, therefore, damage of the equipment affects the detection sampling process, secondly, the sewage sampling process needs to obtain steady-state sewage of a specified level, the sampling equipment in the prior art can cause stirring of a water source in the water source sampling process, and other substances in the sampling process are mixed, so that final detection data are affected. Aiming at the problems, the novel design is carried out on the basis of the original environment-friendly water quality detection sampler.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model is not enough to prior art, the utility model provides a be used for environmental protection water quality testing sampler, the sampling device who has solved among the prior art is not convenient for the sample depth and formulates or complex operation, again because sampling device need frequently wade water for a long time, consequently adopt the electron depth to survey and probably cause electronic equipment to intake, thereby cause the damage of equipment to influence and detect the sample process, secondly, sewage sample process need gain the steady-state sewage of appointed level, sampling device among the prior art can cause the stirring at water source sample in-process, thereby miscellaneous other materials are participated in making the sample, thereby the final problem that detects data is influenced.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: a sampler for environment-friendly water quality detection comprises a main board, a long groove B, a dividing board and a long block B, wherein the long groove A is formed in the center of the front surface of the main board, a long rod A is installed inside the long groove A and installed on the main board in a penetrating manner through the long groove B, the long groove B is formed in the main board and located on the left side of the long groove A, the long rod B is installed inside the long groove B, the long rod B is installed on the main board in a penetrating manner through the long groove B, the lower end of the dividing board is arranged inside the upper portion of the main board, the upper end of the dividing board is connected with the upper end of the long block A, the lower end of the left side of the long block A is installed inside a fixed rod, the upper end of the long block B is connected with the lower end of the fixed rod, the right end of the long block B is welded with the long rod B, the lower end of the long block B is, and the right side of connecting rod B is provided with a water intaking section of thick bamboo to the water intaking section of thick bamboo is located stock A's left side, installs the nut on stock A simultaneously, long piece A passes through the locating lever and installs on the minute board, stock A's one end welding has the clamp splice, and the inside of clamp splice has placed a water intaking section of thick bamboo, the inside recess of seting up of a water intaking section of thick bamboo and collection frame interconnect, and the bottom of collecting the frame is inlayed and is installed the filter screen.

Preferably, the long rod A and the main board form a sliding structure through the long groove A, the cross section of the main board is U-shaped, and two long rods A are symmetrically arranged relative to the center of the water taking cylinder.

Preferably, the long rod B and the main board form a sliding structure through the long groove B, the longitudinal section of the long rod B is I-shaped, and the length of the long groove B is the same as that of the long groove A.

Preferably, divide the board and constitute the slip extending structure with the mainboard, and divide long block A on the board and constitute the slip extending structure with the dead lever to long block A longitudinal section is "7" word shape.

Preferably, the longitudinal section area of the long block B is larger than that of the water taking cylinder, the long block B and the connecting rod B form a sliding telescopic structure through the connecting rod A, and the longitudinal section of the long block B is in a7 shape.

Preferably, the clamping blocks form a sliding structure with the main board through the long rod A, two groups of the sliding structure are symmetrically arranged on the center of the water taking cylinder, the clamping blocks are in a semicircular ring shape, and the inner diameter of each clamping block is equal to the outer diameter of the water taking cylinder.

Preferably, the collecting frame is connected with the water taking cylinder clamping groove through the groove, the depth of the groove is the same as the height of the collecting frame, and the collecting frame is communicated with the water taking cylinder through the filter screen and the groove.

(III) advantageous effects

The utility model provides a be used for environmental protection water quality testing sampler. The method has the following beneficial effects:

(1) this be used for environmental protection water quality testing sampler fixes a section of thick bamboo of fetching water through the clamp splice, and the clamp splice passes through the sliding structure of stock A and mainboard, adjusts a section of thick bamboo's position of fetching water, reaches the purpose of the quality of water of the extraction different degree of depth, and the sliding structure that long block B and mainboard are constituteed can be closed or open a section of thick bamboo of fetching water, acquires the sewage under the stable state from a section of thick bamboo of fetching water, and the device need not to use electronic instrument equipment water intaking to electronic equipment has been avoided intaking.

(2) This be used for environmental protection water quality testing sampler can once acquire the sewage of different water layers through setting up the multiunit section of thick bamboo that fetches water to improve detection efficiency, the more audio-visual sewage condition of observing in different water layers through multiunit slip extending structure, thereby the device can be along with the different regulation of detection depth of water, and application scope is extensive.

(3) This a be used for environmental protection water quality testing sampler is connected through the draw-in groove of a section of thick bamboo of fetching water with the filter screen, and the filter screen of installation can filter the great impurity that the stirring at sample in-process water source caused on the collection frame, and rectangular block B and the sliding construction who constitutes through stock B and a section of thick bamboo of fetching water can wait to sample in-process water source stirring and stop the back, slides rectangular block A again so that open a section of thick bamboo of fetching water to make detected data more accurate, and easy operation, low in cost.

Drawings

Fig. 1 is a schematic view of the front closed structure of the present invention;

FIG. 2 is a front view of the present invention;

fig. 3 is a schematic view of the left side of the present invention;

FIG. 4 is a schematic view of the right side of the present invention;

fig. 5 is a schematic view of the overlooking structure of the connection relationship between the collecting frame and the water intake tube of the present invention.

In the figure: 1. a main board; 2. a long groove A; 3. a long rod A; 4. a long groove B; 5. a long rod B; 6. dividing the plates; 7. a long block A; 8. fixing the rod; 9. a long block B; 10. a connecting rod A; 11. a connecting rod B; 12. a water taking cylinder; 13. a nut; 14. positioning a rod; 15. a clamping block; 16. a filter screen; 17. a collection frame; 18. and (4) a groove.

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.

As shown in fig. 1-5, the utility model provides a technical solution: a sampler for environment-friendly water quality detection comprises a main board 1, a long groove A2, a long rod A3, a long groove B4, a long rod B5, a dividing board 6, a long block A7, a fixing rod 8, a long block B9, a connecting rod A10, a connecting rod B11, a water taking cylinder 12, a nut 13, a positioning rod 14, a clamping block 15, a filter screen 16, a collecting frame 17 and a groove 18, wherein the center of the front surface of the main board 1 is provided with the long groove A2, the long rod A3 is installed inside the long groove A2, the long rod A3 is installed on the main board 1 in a penetrating mode through the long groove B4, the long groove B4 is opened on the main board 1, the long groove B4 is located on the left side of the long groove A2, the long rod B5 is installed inside the long groove B4, the long rod B5 is installed on the main board 1 in a penetrating mode through the long groove B4, the lower end of the dividing board 6 is arranged inside the main board 1, the upper end, the upper end of a long block B9 is connected with the lower end of a fixed rod 8, the right end of a long block B9 is welded with a long rod B5, the lower end of the long block B9 is connected with the upper end of a connecting rod A10, the lower end of the connecting rod A10 is installed inside the upper portion of a connecting rod B11, a water taking barrel 12 is arranged on the right side of the connecting rod B11, the water taking barrel 12 is located on the left side of the long rod A3, a nut 13 is installed on a long rod A3, the long block A7 is installed on a split plate 6 through a positioning rod 14, a clamping block 15 is welded at one end of a long rod A3, the water taking barrel 12 is placed inside the clamping block 15, a groove 18 formed inside the water taking barrel 12 is connected with a collecting frame 17, and a filter screen 16 is;

the long rod A3 and the main board 1 form a sliding structure through the long groove A2, the cross section of the main board 1 is in a U shape, two long rods A3 are symmetrically arranged relative to the center of the water taking cylinder 12, and the position of the clamping block 15 on the long rod A3 can be moved, so that the position of the water taking cylinder 12 is adjusted;

the long rod B5 and the main board 1 form a sliding structure through the long groove B4, the longitudinal section of the long rod B5 is I-shaped, the length of the long groove B4 is the same as that of the long groove A2, and the position of the long rod B5 is moved up and down to prevent the long block B9 from moving left and right;

the sub-board 6 and the main board 1 form a sliding telescopic structure, the long block A7 on the sub-board 6 and the fixed rod 8 form a sliding telescopic structure, the water taking depth of the device is adjusted, and the longitudinal section of the long block A7 is in a7 shape;

the longitudinal section area of the long block B9 is larger than that of the water taking tube 12, the long block B9 can completely close the water taking tube 12, the long block B9 forms a sliding telescopic structure with a connecting rod B11 through a connecting rod A10, the position of the long block B9 can be adjusted, and the longitudinal section of the long block B9 is in a7 shape;

the clamping blocks 15 and the main board 1 form a sliding structure through a long rod A3, the sliding structure is symmetrically provided with two groups about the center of the water taking cylinder 12, the clamping blocks 15 are in a semi-circle shape, the inner diameter of the clamping blocks 15 is equal to the outer diameter of the water taking cylinder 12, the clamping blocks 15 can fix the water taking cylinder 12, and the water taking cylinder 12 is prevented from falling off from the device;

collect frame 17 and be connected through recess 18 and a section of thick bamboo 12 draw-in groove of fetching water, and the degree of depth of recess 18 is the same with the height of collecting frame 17 to collect frame 17 and communicate with each other with a section of thick bamboo 12 of fetching water through filter screen 16 and recess 18, filter screen 16 can filter the large granule impurity that the interference detected, improves detection efficiency.

When the device is used, according to the requirements of a water quality detection site, when water quality needs to be sampled, the threaded rod on the main board 1 is unscrewed, the lower end of the sub-board 6 is pulled to slide with the inside of the main board 1, the sub-board 6 drives the long block A7, the fixed rod 8 and the long block B9 to move upwards together, after the sub-board 6 reaches a proper position, the threaded rod on the main board 1 is screwed to fix the sub-board 6, the nut 13 on the long rod A3 is unscrewed, the long rod A3 is pulled to slide on the main board 1 through the long groove A2, the water taking cylinder 12 and the clamping block 15 on the long rod A3 move together, when the sub-board moves to a proper position, the nut 13 on the long rod A3 is screwed to fix the water taking cylinder 12, the threaded rod on the fixed rod 8 is unscrewed to move the fixed rod 8 downwards, at the moment, the fixed rod 8 and the long block B9 fixed below the fixed rod move together, the long block B9 slides on the long, when the long block B9 just seals the first water taking barrel 12 above the main board 1, the threaded rod on the fixed rod 8 is screwed down, the fixed rod 8 is fixed, the threaded rod on the connecting rod A10 is unscrewed, the connecting rod B11 moves downwards to enable the lower end of the connecting rod A10 to slide with the inside of the connecting rod B11, when the other long block B9 just seals the other water taking barrel 12, the threaded rod on the connecting rod A10 is screwed down to fix the connecting rod A10, when all the water taking barrels 12 are sealed by the long block B9 at the corresponding position, the device is vertically inserted into water, the positioning rod 14 on the long block A7 is taken out after the stirred water quality is stable, the water taking long block A7 is pulled to move upwards, at the moment, the long block A7 together with the fixed rod 8, the long block B9, the connecting rod A10 and the connecting rod B11 move upwards, the sealed water taking barrel 12 is opened, sewage flows into the inside of the water taking barrel 12 from the collecting frame 17, and when the water taking barrel 12, the long block A7 is pushed downwards to return to the initial position, the positioning rod 14 is rotated and screwed into the upper inner part of the long block A7 to fix the long block A7, the device is taken out from the water, the opening of the water taking barrel 12 is placed upwards, the positioning rod 14 on the long block A7 is unscrewed, the long block A7 is pulled to a proper position, the screw cap 13 on the long rod A3 is unscrewed, the long rod A3 is moved to separate the clamping block 15 on the long rod A3 from the outer wall of the water taking barrel 12, the water taking barrel 12 is taken out, the filter screen 16 in the water taking barrel 12 is taken out, the filter screen 16 and the collecting frame 17 are taken out together, at the moment, the sewage in the water taking barrel 12 at different positions is detected, and the content which is not described in detail in the specification belongs to the prior art which is well known by a person.

To sum up, the sampler for environment-friendly water quality detection is characterized in that a water taking cylinder 12 is fixed through a clamping block 15, the clamping block 15 adjusts the position of the water taking cylinder 12 through a sliding structure of a long rod A3 and a main board 1 to achieve the purpose of extracting water quality at different depths, the sliding structure formed by a long block B9 and the main board 1 can close or open the water taking cylinder 12 to obtain sewage in a stable state from the water taking cylinder 12, electronic equipment does not need to be used for taking water, so that the water intake of the electronic equipment is avoided, the sewage in different water layers can be obtained at one time through arranging a plurality of groups of water taking cylinders 12, the detection efficiency is improved, the sewage conditions in different water layers can be observed more visually, the device can be adjusted along with different detected water depths through a plurality of groups of sliding telescopic structures, the application range is wide, the filter screen 16 installed on a collecting frame 17 can filter out larger impurities caused by stirring of a water source in the sampling process through the connection of the water taking cylinder 12 and the clamping grooves, long block B9 and the sliding structure who constitutes through stock B5 and a section of thick bamboo 12 of fetching water can wait until the sample in-process water source stirs the back that stops, slides long block A7 again so that open a section of thick bamboo 12 of fetching water to make detected data more accurate, easy operation, low in cost.

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. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

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 (7)

1. The utility model provides a be used for environmental protection water quality testing sampler, includes mainboard (1), elongated slot B (4), divides board (6) and long piece B (9), its characterized in that: the central position of the front surface of the main board (1) is provided with a long groove A (2), a long rod A (3) is arranged in the long groove A (2), the long rod A (3) is installed on the main board (1) in a penetrating way through a long groove B (4), the long groove B (4) is arranged on the main board (1), the long groove B (4) is positioned on the left side of the long groove A (2), a long rod B (5) is installed in the long groove B (4), the long rod B (5) is installed on the main board (1) in a penetrating way through the long groove B (4), the lower end of the branch board (6) is arranged in the upper part of the main board (1), the upper end of the branch board (6) is connected with the upper end of the long block A (7), the lower end of the left side of the long block A (7) is installed in the fixed rod (8), the upper end of the long block B (9) is connected with the lower end of the fixed rod (8), and the right end of the long block B, and the lower extreme of rectangular block B (9) and the upper end interconnect of connecting rod A (10), the lower extreme of connecting rod A (10) is installed inside the top of connecting rod B (11), and the right side of connecting rod B (11) is provided with a section of thick bamboo of fetching water (12), and a section of thick bamboo of fetching water (12) is located the left side of stock A (3), installs nut (13) on stock A (3) simultaneously, rectangular block A (7) are installed on minute board (6) through locating lever (14), the one end welding of stock A (3) has clamp splice (15), and the inside of clamp splice (15) has placed a section of thick bamboo of fetching water (12), recess (18) and collection frame (17) interconnect of fetching water section of thick bamboo (12) inside seting up, and the filter screen (16) are installed to the bottom of collecting frame (17).

2. The sampler for environment-friendly water quality detection according to claim 1, characterized in that: the long rod A (3) and the main board (1) form a sliding structure through the long groove A (2), the cross section of the main board (1) is U-shaped, and two long rods A (3) are symmetrically arranged relative to the center of the water taking cylinder (12).

3. The sampler for environment-friendly water quality detection according to claim 1, characterized in that: the long rod B (5) and the main board (1) form a sliding structure through the long groove B (4), the longitudinal section of the long rod B (5) is in an I shape, and the length of the long groove B (4) is the same as that of the long groove A (2).

4. The sampler for environment-friendly water quality detection according to claim 1, characterized in that: divide board (6) and mainboard (1) to constitute the flexible structure that slides, and divide long block A (7) on board (6) and dead lever (8) to constitute the flexible structure that slides to long block A (7) longitudinal section is "7" word shape.

5. The sampler for environment-friendly water quality detection according to claim 1, characterized in that: the longitudinal section area of the long block B (9) is larger than that of the water taking barrel (12), the long block B (9) and the connecting rod B (11) form a sliding telescopic structure through the connecting rod A (10), and the longitudinal section of the long block B (9) is in a7 shape.

6. The sampler for environment-friendly water quality detection according to claim 1, characterized in that: the clamping blocks (15) form a sliding structure with the main board (1) through the long rod A (3), two groups of sliding structures are symmetrically arranged on the center of the water taking cylinder (12), the clamping blocks (15) are in a semicircular ring shape, and the inner diameter of each clamping block (15) is equal to the outer diameter of the water taking cylinder (12).

7. The sampler for environment-friendly water quality detection according to claim 1, characterized in that: the collecting frame (17) is connected with a clamping groove of the water taking cylinder (12) through a groove (18), the depth of the groove (18) is the same as the height of the collecting frame (17), and the collecting frame (17) is communicated with the water taking cylinder (12) through a filter screen (16) and the groove (18).

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