CN217059528U

CN217059528U - Water sample collector for environmental water quality detection

Info

Publication number: CN217059528U
Application number: CN202123298014.0U
Authority: CN
Inventors: 崔新荣; 焦勇; 陆海烽
Original assignee: Jiaxing Green Shield Certified Safety Engineer Office Co ltd
Current assignee: Jiaxing Green Shield Certified Safety Engineer Office Co ltd
Priority date: 2021-12-23
Filing date: 2021-12-23
Publication date: 2022-07-26
Anticipated expiration: 2031-12-23

Abstract

The utility model discloses an environmental water quality testing water sample collector, including the probe rod, the probe rod surface is equipped with water sample collection device, water sample collection device is equipped with synchronous sealing device on the surface, the probe rod surface is equipped with the water depth scale, water sample collection device has solved the problem of the different degree of depth quality of water of multi-gate synchronous acquisition according to water depth scale evenly distributed.

Description

Water sample collector for environmental water quality detection

Technical Field

The invention relates to the technical field of water sample collection, in particular to a water sample collector for environmental water quality detection.

Background

A water quality sampler is a device for collecting water quality samples.

There are two kinds of water quality manual sampler and water quality automatic sampler. The material of the water quality manual sampler must not affect the composition of the water sample, be easy to wash and have no residue on the previous sample.

The automatic water quality sampler is a bucket type sampler suitable for sampling water in proportion to flow rate and is one intelligent multifunctional sucking water sample bottle-separating sampling device. The sampling device can realize various sampling modes (quantitative sampling, timing flow proportion sampling, constant flow quantitative sampling and remote control sampling) and various bottling modes (single sampling per bottle, single sampling and multiple sampling per bottle, mixed sampling) according to the sampling requirement of a water sample. The device is an ideal sampling tool for realizing scientific monitoring on river, lake and enterprise discharged water and the like. The sampling method (flow proportion and constant flow ration) related to the sewage discharge amount in the sampling can be configured with various flowmeters.

Current water quality collector ubiquitous can't gather the quality of water of the different degree of depth simultaneously, leads to quality of water to have the error in the collection process to influence water quality testing.

Disclosure of Invention

The invention aims to provide a water sample collector for environmental water quality detection, which can collect water quality at different depths by multiple doors at the same time.

The technical purpose of the invention is realized by the following technical scheme:

the utility model provides an environmental water quality testing water sample collector, includes the probe rod, the probe rod surface is equipped with water sample collection device, water sample collection device is equipped with synchronous sealing device on the surface, the probe rod surface is equipped with the water depth scale, water sample collection device is according to water depth scale evenly distributed.

Adopt above-mentioned technical scheme, the gauge stick stretches into the aquatic, and water sample collection device collects the water sample, and synchronous sealing device seals water sample collection device simultaneously, and the water depth scale is used for confirming the distribution of water sample collection device.

Preferably, the water depth scales include 0.2m scale, 0.4m scale, 0.6m scale, 0.8m scale, 1.0m scale and 1.2m scale, the 0.2m scale is located at 0.2m of the surface of the detecting rod, the 0.4m scale is located at 0.4m of the detecting rod, the 0.6m scale is located at 0.6m of the detecting rod, the 0.8m scale is located at 0.8m of the detecting rod, the 1.0m scale is located at 1.0m of the detecting rod, and the 1.2m scale is located at 1.2m of the detecting rod.

By adopting the technical scheme, the detection rods are layered according to the height of 0.2m by the water depth scales, so that the water sample collection devices are distributed according to the height of 0.2 m.

Preferably, the water sample collecting device comprises a collecting device A, a collecting device B, a collecting device C, a collecting device D, a collecting device E and a collecting device F, the collecting device A is located in front of 0.2m scales, the collecting device B is located in front of 0.4m scales, the collecting device C is located in front of 0.6m scales, the collecting device D is located in front of 0.8m scales, the collecting device E is located in front of 1.0m scales, and the collecting device F is located in front of 1.2m scales.

Preferably, the collecting device A comprises a water charging bin A and a sealing groove A, the water charging bin A is positioned in the detecting rod, a water intake A is arranged on the surface part of the detecting rod of the water charging bin A, the sealing groove A is positioned in the water charging bin A, the collecting device B comprises a water charging bin B and a sealing groove B, the water charging bin B is positioned in the detecting rod, a water intake B is arranged on the surface part of the detecting rod of the water charging bin B, the sealing groove B is positioned in the water charging bin B, the collecting device C comprises a water charging bin C and a sealing groove C, the water charging bin C is positioned in the detecting rod, a water intake C is arranged on the surface part of the detecting rod of the water charging bin C, the sealing groove C is positioned in the water charging bin C, the collecting device D comprises a water charging bin D and a sealing groove D, the water charging bin D is positioned in the detecting rod, a water intake D is arranged on the surface part of the detecting rod of the water charging bin D, the utility model discloses a water supply device, including packing bin F, seal groove F, packing bin E, detecting rod, collecting device E, packing bin F and seal groove F, seal groove D is located packing bin D, collecting device E is including packing bin E and seal groove E, packing bin E is located detecting rod surface portion and is equipped with water intaking mouth E, seal groove E is located packing bin E, collecting device F is including packing bin F and seal groove F, packing bin F is located detecting rod surface portion and is equipped with water intaking mouth F, seal groove F is located packing bin F.

By adopting the technical scheme, the water storage bin is used for storing sample water, a water sample enters the water storage bin from the water intake, and the sealing groove is used for sealing the water storage bin.

Preferably, synchronous sealing device includes that synchronous rotation hand wheel, synchronous commentaries on classics insert door and synchronizing lever, synchronizing lever and gauge stick swivelling joint, synchronous rotation hand wheel and synchronizing lever fixed connection, synchronous commentaries on classics insert door and synchronizing lever fixed connection.

By adopting the technical scheme, the hand wheel is synchronously rotated by rotating, the hand wheel is synchronously driven to drive the synchronizing rod to rotate, and the synchronous rotary inserting door is inserted into the sealing groove through the synchronizing rod.

Preferably, the synchronous rotary inserting door is matched with the sealing groove A, the sealing groove B, the sealing groove C, the sealing groove D, the sealing groove E and the sealing groove F.

Drawings

FIG. 1 is a perspective view of one embodiment of the invention;

fig. 2 is a side sectional view of the invention.

Reference numerals are as follows: 1. a probe rod; 2. a water sample collecting device; 3. a synchronous sealing device; 4. water depth graduations; 5. 0.2m scale; 6. 0.4m scale; 7. 0.6m scale; 8. 0.8m scale; 9. 1.0m scale; 10. 1.2m scale; 11. a collecting device A; 12. a collecting device B; 13. a collecting device C; 14. a collecting device D; 15. a collecting device E; 16. a collecting device F; 17. a water filling bin A; 18. a sealing groove A; 19. a water intake A; 20. a water filling bin B; 21. a seal groove B; 22. a water intake B; 23. a water filling bin C; 24. a sealing groove C; 25. a water intake C; 26. a water filling bin D; 27. a sealing groove D; 28. a water intake D; 29. a water filling bin E; 30. a sealing groove E; 31. a water intake E; 32. a water filling bin F; 33. a sealing groove F; 34. a water intake F; 35. synchronously rotating a hand wheel; 36. synchronously switching the inserting door; 37. a synchronization rod.

Detailed Description

The following description is only a preferred embodiment of the present invention, and the protection scope is not limited to the embodiment, and any technical solution that falls under the idea of the present invention should fall within the protection scope of the present invention. It should also be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention.

Like the figure, a water sample collector for environmental water quality testing, including gauge rod 1, 1 surfaces of gauge rod are equipped with water depth scale 4, and water sample collection device 2 is according to 4 evenly distributed of water depth scale. The water depth scales 4 comprise 0.2m scales 5, 0.4m scales 6, 0.6m scales 7, 0.8m scales 8, 1.0m scales 9 and 1.2m scales 10, wherein the 0.2m scales 5 are located at 0.2m of the surface of the detection rod 1, the 0.4m scales 6 are located at 10.4m of the detection rod, the 0.6m scales 7 are located at 10.6m of the detection rod, the 0.8m scales 8 are located at 10.8m of the detection rod, the 1.0m scales 9 are located at 11.0m of the detection rod, and the 1.2m scales 10 are located at 11.2m of the detection rod. The water depth scale 4 stratifies the detecting rod 1 according to the height of 0.2m, thereby distributing the water sample collecting device 2 according to the height of 0.2 m.

The surface of probe rod 1 is equipped with water sample collection device 2, water sample collection device 2 includes collection device A11, collection device B12, collection device C13, collection device D14, collection device E15 and collection device F16, collection device A11 is located 0.2m scale 5 the place ahead, collection device B12 is located 0.4m scale 6 the place ahead, collection device C13 is located 0.6m scale 7 the place ahead, collection device D14 is located 0.8m scale 8 the place ahead, collection device E15 is located 1.0m scale 9 the place ahead, collection device F16 is located 1.2m scale 10 the place ahead. The collecting device A comprises a water containing bin A and a sealing groove A, the water containing bin A is positioned in the detecting rod 1, a water intake A is arranged on the surface part of the water containing bin A positioned on the detecting rod 1, the sealing groove A is positioned in the water containing bin A, the collecting device B comprises a water containing bin B and a sealing groove B, the water containing bin B is positioned in the detecting rod 1, a water intake B is arranged on the surface part of the water containing bin B positioned on the detecting rod 1, the sealing groove B is positioned in the water containing bin B, the collecting device C comprises a water containing bin C and a sealing groove C, the water containing bin C is positioned in the detecting rod 1, a water intake C is arranged on the surface part of the water containing bin C positioned on the detecting rod 1, the sealing groove C is positioned in the water containing bin C, the collecting device D comprises a water containing bin D and a sealing groove D, the water containing bin D is positioned in the detecting rod 1, a water intake D is arranged on the surface part of the detecting rod 1, the sealing groove D is positioned in the water containing bin D, the collecting device E comprises a water containing bin E and a sealing groove E, the water containing bin E29 is located in the detection rod 1, the water containing bin E29 is located on the surface of the detection rod 1 and provided with a water intake E31, the seal groove E30 is located in the water containing bin E29, the collecting device F16 comprises a water containing bin F32 and a seal groove F33, the water containing bin F32 is located in the detection rod 1, the water containing bin F32 is located on the surface of the detection rod 1 and provided with a water intake F34, and the seal groove F33 is located in the water containing bin F32. The water storage bin is used for storing sample water, the water sample enters the water storage bin from the water intake, and the sealing groove is used for sealing the water storage bin.

The surface of the water sample collecting device 2 is provided with a synchronous sealing device 3, the synchronous sealing device 3 comprises a synchronous rotating hand wheel 35, a synchronous rotating and inserting door 36 and a synchronous rod 37, the synchronous rod 37 is rotatably connected with the detecting rod 1, the synchronous rotating hand wheel 35 is fixedly connected with the synchronous rod 37, the synchronous rotating and inserting door 36 is fixedly connected with the synchronous rod 37, the synchronous rotating hand wheel 35 is rotated, the hand wheel is synchronously driven to drive the synchronous rod 37 to rotate, and the synchronous rotating and inserting door 36 is inserted into the sealing groove through the synchronous rod 37. The synchronized swing plug door 36 mates with seal groove a18, seal groove B21, seal groove C24, seal groove D27, seal groove E30, and seal groove F33.

The working principle of the invention is as follows: when the quality of water of the different degree of depth is detected to needs, stretch into the aquatic with feeler lever 1, water sample collection device 2 collects the water sample, stores the water sample respectively in adorning the sump, and synchronous sealing device 3 seals after the completion is collected, rotates synchronous rotation hand wheel 35, and synchronous rotation hand wheel 35 drives the synchronizing bar 37 rotation, and synchronizing bar 37 drives synchronous commentaries on classics and inserts 36 rotations, realizes the sealed sump of packing.

Claims

1. The utility model provides an environmental water quality testing water sample collector, includes gauge stick (1), its characterized in that, gauge stick (1) surface is equipped with water sample collection device (2), water sample collection device (2) are equipped with synchronous sealing device (3) on the surface, gauge stick (1) surface is equipped with water depth scale (4), water sample collection device (2) are according to water depth scale (4) average distribution, water depth scale (4) include 0.2m scale (5), 0.4m scale (6), 0.6m scale (7), 0.8m scale (8), 1.0m scale (9) and 1.2m scale (10), 0.2m scale (5) are located gauge stick (1) surface 0.2m department, 0.4m scale (6) are located gauge stick (1)0.4m department, 0.6m scale (7) are located gauge stick (1)0.6m department, 0.8m scale (8) are located gauge stick (1)0.8m department, the 1.0m scale (9) is located at 1.0m of the detection rod (1), and the 1.2m scale (10) is located at 1.2m of the detection rod (1).

2. The water sample collector for environmental water quality detection according to claim 1, wherein the water sample collecting device (2) comprises a collecting device A (11), a collecting device B (12), a collecting device C (13), a collecting device D (14), a collecting device E (15) and a collecting device F (16), the collecting device A (11) is located in front of a 0.2m scale (5), the collecting device B (12) is located in front of a 0.4m scale (6), the collecting device C (13) is located in front of a 0.6m scale (7), the collecting device D (14) is located in front of a 0.8m scale (8), the collecting device E (15) is located in front of a 1.0m scale (9), and the collecting device F (16) is located in front of a 1.2m scale (10).

3. The water sample collector for environmental water quality detection according to claim 2, wherein the collecting device A (11) comprises a water containing bin A (17) and a sealing groove A (18), the water containing bin A (17) is located in the detecting rod (1), a water intake A (19) is arranged on the surface of the water containing bin A (17) located in the detecting rod (1), the sealing groove A (18) is located in the water containing bin A (17), the collecting device B (12) comprises a water containing bin B (20) and a sealing groove B (21), the water containing bin B (20) is located in the detecting rod (1), a water intake B (22) is arranged on the surface of the water containing bin B (20), the sealing groove B (21) is located in the water containing bin B (20), the collecting device C (13) comprises a water containing bin C (23) and a sealing groove C (24), the water containing bin C (23) is located in the detection rod (1), the water containing bin C (23) is located on the surface of the detection rod (1) and is provided with a water intake C (25), the sealing groove C (24) is located in the water containing bin C (23), the collecting device D (14) comprises a water containing bin D (26) and a sealing groove D (27), the water containing bin D (26) is located in the detection rod (1), the water containing bin D (26) is located on the surface of the detection rod (1) and is provided with a water intake D (28), the sealing groove D (27) is located in the water containing bin D (26), the collecting device E (15) comprises a water containing bin E (29) and a sealing groove E (30), the water containing bin E (29) is located in the detection rod (1), the water containing bin E (29) is located on the surface of the detection rod (1) and is provided with a water intake E (31), and the sealing groove E (30) is located in the water containing bin E (29), collection device F (16) is including dress sump F (32) and seal groove F (33), dress sump F (32) are located detecting rod (1) surface portion and are equipped with water intaking mouth F (34), seal groove F (33) are located dress sump F (32).

4. The environmental water quality detection water sample collector according to claim 3, wherein the synchronous sealing device (3) comprises a synchronous rotating hand wheel (35), a synchronous rotating and inserting door (36) and a synchronous rod (37), the synchronous rod (37) is rotatably connected with the detection rod (1), the synchronous rotating hand wheel (35) is fixedly connected with the synchronous rod (37), and the synchronous rotating and inserting door (36) is fixedly connected with the synchronous rod (37).

5. The environmental water quality detection water sample collector as claimed in claim 4, wherein the synchronous rotary inserting door (36) is matched with the sealing groove A (18), the sealing groove B (21), the sealing groove C (24), the sealing groove D (27), the sealing groove E (30) and the sealing groove F (33).