CN217211675U - River water quality sampling and automatic monitoring device capable of being automatically adjusted - Google Patents

Abstract

The utility model discloses a but automatically regulated's river water sampling and automatic monitoring device, including submergence in the aquatic sampling device, set up in the body on sampling device's top, set up in the water intaking subassembly of sampling device's bottom and with the anchor subassembly that sampling device connects, the water intaking subassembly passes through water intaking pipe connection with the self priming pump. In this way, the utility model discloses simple structure is through submerging sampling device in aqueous to set up the body on sampling device's top, set up the anchor subassembly in its bottom, thereby when the water level changes, sampling device can keep submergence in the river middle part under the effect of body buoyancy and anchor weight, ensures that the water sample collection is representative.

Description

River water quality sampling and automatic monitoring device capable of being automatically adjusted

Technical Field

The utility model relates to a water sampling technical field especially relates to a but river water sampling and automatic monitoring device of automatically regulated.

Background

With the rapid development of modern industry, a lot of natural water resources are polluted to a certain degree, and the life of residents and the development of national green environment are influenced to a certain degree. In this regard, monitoring and protection of natural water resources has become a place where current development must be focused. At present, the automatic water quality monitoring systems at home and abroad can only realize automatic monitoring and data transmission of different water quality parameters of a certain fixed water depth. And the mobile movable measuring vehicle or ship or buoy type automatic monitoring system can only realize the automatic monitoring of the water quality of the surface layers in different spaces. When the water level is floated greatly, the traditional fixed sampling method has limited data acquisition, and the sampling is limited by the change of the water level. When the sampling point is high, when the water level is lowered, the sampling point may be higher than the water surface and cannot be sampled, or the sampling is the upper surface of the water body and is not representative; when the sampling point is low, when the water level rises, the low point sampling data has poor representativeness. Therefore, there are many technical difficulties to realize the automatic monitoring of water quality of the vertical section of the water body.

The utility model discloses an utilize buoy type quality of water on-line monitoring device of complementary new forms of energy power supply of scene among the prior art, including steel structure support, set up in the three spherical body in the steel structure support outside, the instrument storehouse has all been seted up to the inside of three spherical body to supply water quality monitoring appearance and data acquisition controller installation, anchoring system connects the bottom at steel structure support. Although the technology adopts the suspension device consisting of the floating body and the anchor, the monitoring device in the floating body can be ensured to be positioned at a fixed position in water. However, the water quality monitoring device of the technology can only be close to the surface of the water body, the sampling point is not representative, and the sampled water body is not filtered.

Therefore, it is necessary to design an automatic adjustable river water quality sampling and automatic monitoring device which has a simple structure, can sample water bodies representatively, keeps the position of an underwater sampling point unchanged, and can filter the sampled water bodies.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems, the utility model provides a but river water sampling and automatic monitoring device of automatically regulated through with sampling device submergence in aqueous to set up the body on sampling device's top, set up the anchor subassembly in its bottom, thereby when the water level changes, sampling device can keep submergence in the middle part of the river under the heavy effect of body buoyancy and anchor, ensures that water sampling is representative.

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

the utility model provides a but river water sampling and automatic monitoring device of automatically regulated, including submergence in the underwater sampling device, set up in the body on sampling device's top, set up in the water intaking subassembly of sampling device's bottom and with the anchor subassembly that sampling device connects, the water intaking subassembly passes through the intake pipe with the self priming pump and is connected.

Furthermore, a water taking channel is arranged at the bottom end of the sampling device, and the water taking assembly comprises a water inlet valve and a filter screen which are sequentially arranged in the water taking channel from bottom to top.

Furthermore, the top of sampling device is provided with the through-hole, the one end of intake pipe pass behind the through-hole with the water intaking passageway is connected, its other end with the self priming pump is connected.

Further, the anchor assembly includes a cable having one end connected to the sampling device and a stationary anchor connected to the other end of the cable.

Furthermore, the peripheral wall of the sampling device is connected with one end of a steel wire rope, and the other end of the steel wire rope is fixed with a river bank.

Furthermore, a monitoring station is arranged on the river bank, and the self-priming pump is arranged in the monitoring station.

Further, the intake pipe include one end with the hose that the water intaking passageway is connected and with the PE hard pipe that the other end of hose is connected, the other end of PE hard pipe with the self priming pump is connected, the hose submergence is in the aquatic, PE hard pipe is located the surface of water.

Furthermore, the floating bodies are arranged in a spherical structure and are arranged into two groups.

Further, the sampling device is arranged in a cylindrical structure and is made of waterproof and rustproof materials.

Furthermore, a monitoring camera is arranged on the outer side of the monitoring station.

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

1. the utility model discloses a but automatically regulated's river water sampling and automatic monitoring device through with sampling device submergence in aqueous to set up the body on sampling device's top, set up the anchor subassembly in its bottom, thereby when the water level changes, sampling device can keep submergence in the middle part of the river under the effect of body buoyancy and anchor weight, make sampling device no longer receive the influence that the water level change brought, ensure that water sampling utensil is representative.

2. The utility model discloses a but river water sampling and automatic monitoring device of automatically regulated through set up water intaking valve and filter screen in the inhalant canal of sampling device bottom, and the water intaking valve can guarantee that the sampling water can not flow backwards, makes the pump normally work. When the pump stops working for a short time, the water in the water inlet channel can not flow back to the river, and the water inlet channel is ensured to be filled with liquid, so that the starting of the pump is facilitated. In addition, the filter screen can filter the great debris of volume in the sampling water body, prevents that the intake pipe from blockking up.

3. The utility model discloses a but automatically regulated's river water sampling and automatic monitoring device is through setting up the monitoring station on the river levee to carry the water after will sampling to the monitoring station detects, compare in the floater of setting up the check out test set on the surface of water, can prevent to be used for carrying out the equipment in use that detects to the sampling water and damage.

Drawings

FIG. 1 is a schematic structural view of the automatic adjustable river water quality sampling and monitoring device of the present invention;

the parts in the drawings are numbered as follows: 10. a monitoring station; 11. a self-priming pump; 12. a surveillance camera; 20. a water intake pipe; 21. a hose; 22. PE hard pipe; 30. a wire rope; 40. a sampling device; 41. a float; 42. an anchor assembly; 43. a water inlet valve; 44. and (4) a filter screen.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

It should be noted that, in order to avoid obscuring the present invention with unnecessary details, only the structures or processing steps closely related to the aspects of the present invention are shown in the drawings, and other details not relevant to the present invention are omitted.

In addition, it is also to be noted that 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.

Examples

As shown in fig. 1, an automatic adjustable river water quality sampling and monitoring device 100 includes a sampling device 40 submerged in water, a floating body 41 disposed at a top end of the sampling device 40, a water intake assembly disposed at a bottom end of the sampling device 40, and an anchoring assembly 42 connected to the sampling device 40. The floats 41 are arranged in a ball-type configuration and are arranged in two sets to provide sufficient buoyancy for the sampling device 40. The buoyancy of the float 41 and the weight of the anchoring assembly 42 are determined based on where the sampling device 40 should be placed in the river to ensure that the sampling device 40 is at the desired height in the body of water. The water intaking subassembly passes through intake pipe 20 with self priming pump 11 and is connected to in the water sample with the water intaking subassembly collection passes through intake pipe 20 and carries to self priming pump 11 under the pumping action, detect through water quality testing equipment after exporting again. The anchor assembly 42 includes a cable connected at one end to the sampling device 40 and a stationary anchor connected to the other end of the cable.

So set up, through submerging sampling device 40 in aqueous to set up body 41 on sampling device 40's top, set up anchor assembly 42 in its bottom, thereby when the water level changed, sampling device 40 can keep submerging in the river middle part under 41 buoyancy of body and the effect of anchor weight, make sampling device 40 no longer receive the influence that the water level change brought, ensure that water sampling is representative.

As shown in fig. 1, in some embodiments, the sampling device 40 is a cylindrical structure and made of waterproof and rustproof material, so that the sampling device 40 can be placed under water for a long time and rusted. In particular, the height of the sampling device 40 can be determined according to the position where the sampling device 40 should be placed in the river to ensure that the water intake assembly at the bottom end of the sampling device 40 is at the desired height in the body of water.

Specifically, the bottom end of the sampling device 40 is provided with a water intake channel, and the water intake assembly includes a water intake valve 43 and a filter screen 44 which are arranged in the water intake channel from bottom to top. The water inlet valve 43 is preferably a bottom valve which has one-way conductivity and can ensure that the sampling water body cannot flow backwards, so that the pump works normally. When the pump stops working for a short time, the water in the water inlet channel cannot flow back to the river, so that the water inlet channel is ensured to be filled with liquid, and the starting of the pump is facilitated. The filter screen 44 can filter out the large-volume impurities in the sampling water body, and the water intake pipe 20 is prevented from being blocked.

In some embodiments, as shown in fig. 1, the sampling device 40 has a through hole at the top end, and the water intake tube 20 has one end connected to the water intake channel after passing through the through hole, and the other end connected to the self-priming pump 11. The junction of the water intake tube 20 and the through-hole is provided with a sealing structure to prevent water from leaking into the sampling device 40.

Specifically, the water intake pipe 20 includes a hose 21 having one end connected to the water intake passage, and a PE hard pipe 22 connected to the other end of the hose 21, and the other end of the PE hard pipe 22 is connected to the self-priming pump 11. The hose 21 is bendable to facilitate bending it from the through hole into the sampling device 40. The hose 21 is immersed in water, and the hose 21 in the water can be bent along with the flow of the water flow, so that the hose 21 is prevented from being damaged by long-term water flow scouring. The PE hard pipe 22 is located on the water surface and laid on the river bank, the PE hard pipe 22 is good in wear resistance, and the PE hard pipe 22 can be prevented from being worn and damaged on the river bank.

In addition, the outer peripheral wall of the sampling device 40 is connected to one end of the wire rope 30, and the other end of the wire rope 30 is fixed to the river levee so that the sampling device 40 and the river levee are fixed by the wire rope 30 and the movement of the sampling device 40 is prevented. The two groups of wire ropes 30 are arranged to prevent the sampling device 40 from greatly deviating.

As shown in fig. 1, in some embodiments, a monitoring station 10 is located on the river levee, and a self-priming pump 11 is located within the monitoring station 10. The monitoring station 10 has a volume of 8 cubic meters and is provided with water sample detection equipment therein to transport the water sample to the detection equipment in the monitoring station for detection. Monitoring cameras 12 are arranged on the outer side of the monitoring station 10, and the monitoring cameras 12 are arranged in two groups. One set of surveillance cameras 12 faces the river and the other set of surveillance cameras 12 faces the monitoring station 10 gate.

So set up, through set up monitoring station 10 on the river levee to carry the water after the sampling to monitoring station 10 and detect, compare in with on the floater of check out test set setting on the surface of water, can prevent to be used for carrying out the equipment in use that detects to the sampling water and damage.

The above description is only intended to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings of the utility model, or the direct or indirect application in other related technical fields, are included in the patent protection scope of the utility model.

Claims (10)

1. The utility model provides a but river water sampling and automatic monitoring device of automatically regulated, its characterized in that, including submergence in underwater sampling device (40), set up in floating body (41) on the top of sampling device (40), set up in the water intaking subassembly of the bottom of sampling device (40) and with anchor subassembly (42) that sampling device (40) are connected, the water intaking subassembly passes through intake pipe (20) with self priming pump (11) and is connected.

2. The device for sampling and automatically monitoring the water quality of a river automatically regulated according to claim 1, wherein a water intake channel is arranged at the bottom end of the sampling device (40), and the water intake assembly comprises a water inlet valve (43) and a filter screen (44) which are arranged in the water intake channel from bottom to top in sequence.

3. The river water quality sampling and automatic monitoring device capable of automatically adjusting according to claim 2, characterized in that a through hole is arranged at the top end of the sampling device (40), one end of the water intake pipe (20) is connected with the water intake channel after passing through the through hole, and the other end is connected with the self-priming pump (11).

4. The automatically adjustable river water sampling and automatic monitoring device according to claim 3, wherein the anchoring assembly (42) comprises a cable connected to the sampling device (40) at one end and a fixed anchor connected to the other end of the cable.

5. The automatic adjustable river water sampling and automatic monitoring device according to claim 4, wherein the outer peripheral wall of the sampling device (40) is connected with one end of a steel wire rope (30), and the other end of the steel wire rope (30) is fixed with a river bank.

6. The river water quality sampling and automatic monitoring device capable of automatically adjusting according to claim 5, characterized in that a monitoring station (10) is arranged on the river bank, and the self-priming pump (11) is arranged in the monitoring station (10).

7. The river water quality sampling and automatic monitoring device capable of automatically adjusting according to claim 6, wherein the water intake pipe (20) comprises a hose (21) having one end connected to the water intake channel, and a PE hard pipe (22) connected to the other end of the hose (21), the other end of the PE hard pipe (22) is connected to the self-priming pump (11), the hose (21) is submerged in water, and the PE hard pipe (22) is located on the water surface.

8. The device for sampling and automatically monitoring the water quality of a river capable of being automatically adjusted according to claim 1, wherein the floating bodies (41) are arranged in a ball-shaped structure and are arranged in two groups.

9. The device for sampling and automatically monitoring the water quality of a river automatically adjusted according to claim 1, wherein the sampling device (40) is arranged in a cylindrical structure and is made of waterproof and rustproof materials.

10. The river water quality sampling and automatic monitoring device capable of automatically adjusting according to claim 6, characterized in that a monitoring camera (12) is arranged outside the monitoring station (10).

Images