CN213957363U - Online groundwater water quality monitoring integrated device - Google Patents

Abstract

The utility model discloses an online groundwater water quality monitoring integrated device, concretely relates to groundwater water quality monitoring technical field, survey the logging and be located the inside water quality survey device of water quality survey logging including excavating the water quality in the farm, the water quality survey device stretches into the groundwater water in the water quality survey well through the connecting rod, and the surface covering that surveys the logging at water quality has the bottom plate, the bottom plate bottom sets firmly the bottom and goes deep into the sealed tube to soil in, and the outside that the water quality was surveyed the logging is located to the sealed tube cover, bottom plate surface mounting has NB-iot transmission assembly, NB-iot transmission assembly's top is equipped with the solar energy power supply mechanism who installs on the bottom plate. The utility model discloses the deployment is with the running cost low, and power consumption is few, and data transmission between a plurality of quality of water exploration logging is delayed with the update low, and data update is timely, can acquire more accurate groundwater quality of water information, and the quality of water exploration logging can not receive the influence of sewage and earth the phenomenon that collapses and block up appears.

Description

Online groundwater water quality monitoring integrated device

Technical Field

The utility model relates to a groundwater water quality monitoring technical field, more specifically say, the utility model relates to an online groundwater water quality monitoring integrated device.

Background

Due to the rapid development of industry and agriculture, water pollution is more and more prominent; water pollution seriously affects the health and normal social operation of people; the sewage enters underground, pollutes low water sources, can cause death of animals, plants and microorganisms, endangers agricultural irrigation water in the area, and has a profound effect on human beings.

In some large-scale farms, people can select sites and excavate a plurality of water quality prospecting and logging in the farm, carry out groundwater monitoring through water quality monitoring equipment to collect groundwater quality of water information and gather and carry out the analysis, acquire groundwater quality of water information in real time. However, in the actual use process, there are some problems, such as that the water quality information obtained by a plurality of water quality survey wells is not updated timely, the information obtaining delay is high, the water quality survey equipment in the water quality survey wells needs to be powered in the use process, the installation and use costs of power supply lines are high, and in rainy days, external soil easily flows into the interior of the survey wells along with water flow, so that the survey wells are blocked, and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a following technical scheme: the utility model provides an online groundwater water quality monitoring integrated device, includes that the excavation surveys the logging and is located the inside water quality survey device of water quality survey logging in the farm, and the water quality survey device stretches into the groundwater water in the water quality survey well through the connecting rod, and the surface covering who surveys the logging at water quality has the bottom plate, the bottom plate bottom sets firmly the bottom and goes deep into the sealed tube to soil in, and the outside of water quality survey logging is located to the sealed tube cover, bottom plate surface mounting has NB-iot transmission assembly, NB-iot transmission assembly's top is equipped with the solar energy power supply mechanism who installs on the bottom plate, the outside cover of solar energy power supply mechanism is equipped with glass cover.

In a preferred embodiment, the NB-iot transmission assembly comprises an NB-iot terminal, a microprocessor and an NB-iot miniature base station fixedly arranged on the top of a glass cover, and the NB-iot miniature base station is connected with an on-farm background data center.

In a preferred embodiment, the microprocessor is connected with the water quality surveying device and used for receiving water quality data information monitored by the water quality surveying device and transmitting the water quality data information to the interior of the NB-iot terminal, and the NB-iot terminal packs the data information and transmits the data information to a background data center in a farm through the NB-iot miniature base station.

In a preferred embodiment, the solar power supply mechanism comprises a solar panel positioned between the glass cover and the microprocessor, a support rod is connected between the solar panel and the bottom plate, and a storage battery connected with the solar panel is further installed on the bottom plate and used for receiving electric energy generated by the solar panel and supplying power to the NB-iot transmission assembly.

In a preferred embodiment, the glass cover is fixed on the surface of the bottom plate, an infrared sensor and an alarm are further installed on the outer wall of the glass cover, and both the infrared sensor and the alarm are electrically connected with the microprocessor.

In a preferred embodiment, the inner wall of the sealing pipe is provided with a threaded pipe fixed on the bottom wall of the bottom plate, the top end of the connecting rod is inserted into the threaded pipe, a liftable sleeve is sleeved outside the connecting rod, and the water quality surveying device is installed on the outer wall of the sleeve.

In a preferred embodiment, the outer wall of the sleeve is further connected with a pull rope, the pull rope extends upwards and penetrates through the middle bottom plate of the bottom plate, an electric wire collecting roller for collecting and releasing the pull rope is installed on the bottom plate, and the top end of the pull rope is wound outside the electric wire collecting roller.

The utility model discloses a technological effect and advantage:

1. in the using process of the utility model, the transmission technology of NB-iot is adopted, the deployment and operation cost is low, the power consumption is low, the data transmission and updating delay among a plurality of water quality exploration and logging wells is low, the data updating is timely, and more accurate groundwater water quality information can be obtained;

2. the sealing pipe can provide a shielding effect on the top of the water quality exploration well, so that external soil, sewage and the like cannot enter the water quality exploration well in rainy days, and the water quality exploration well cannot be collapsed and blocked under the influence of the sewage and the soil;

3. the whole water quality surveying device does not need an external power supply line, so that the mounting cost and the use cost are reduced, and the mounting steps are simplified.

Drawings

Fig. 1 is a schematic view of the present invention.

Fig. 2 is a schematic diagram of a detailed structure of the position a in fig. 1 according to the present invention.

The reference signs are: the system comprises a connecting rod 1, a bottom plate 2, a sealing tube 3, a 4NB-iot transmission assembly, a solar power supply mechanism 5, a glass cover 6, a 7NB-iot terminal, a microprocessor 8, a 9NB-iot miniature base station, a solar cell panel 10, a support rod 11, a storage battery 12, an infrared sensor 13, an alarm 14, a threaded pipe 15, a sleeve pipe 16, a pull rope 17, an electric wire take-up roller 18, a water quality exploration well logging device 19 and a water quality exploration device 20.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

An online groundwater water quality monitoring integrated device as shown in fig. 1-2 comprises a water quality exploration and measurement well 19 excavated in a farm and a water quality exploration device 20 positioned inside the water quality exploration and measurement well 19, wherein the water quality exploration device 20 extends into a groundwater body in the water quality exploration and measurement well 19 through a connecting rod 1, and the water quality exploration device 20 detects water quality information of the groundwater body in the water quality exploration and measurement well 19;

the surface of the water quality exploration well 19 is covered with a bottom plate 2, the bottom of the bottom plate 2 is fixedly provided with a sealing pipe 3 with the bottom end extending into soil, the sealing pipe 3 is sleeved outside the water quality exploration well 19, namely, the sealing pipe 3 can provide a shielding effect for the top of the water quality exploration well 19, external soil, sewage and the like cannot enter the water quality exploration well 19 in rainy days, and the water quality exploration well 19 cannot be influenced by the sewage and the soil to collapse and be blocked;

the surface of the bottom plate 2 is provided with an NB-iot transmission assembly 4, a solar power supply mechanism 5 arranged on the bottom plate 2 is arranged above the NB-iot transmission assembly 4, a glass cover 6 is sleeved outside the solar power supply mechanism 5, and the glass cover 6 can provide a protection effect for the NB-iot transmission assembly 4 and the solar power supply mechanism 5 inside the glass cover, so that the influence of external objects on the glass cover is reduced, and the normal receiving of solar energy cannot be influenced;

the NB-iot transmission component 4 comprises an NB-iot terminal 7, a microprocessor 8 and an NB-iot miniature base station 9 fixedly arranged at the top of the glass cover 6, the NB-iot miniature base station 9 is connected with a background data center in a farm, the microprocessor 8 is connected with the water quality surveying device 20 and is used for receiving water quality data information monitored by the water quality surveying device 20 and transmitting the water quality data information to the NB-iot terminal 7, the NB-iot terminal 7 packs the data information and transmits the data information to the background data center in the farm through the NB-iot miniature base station 9, and by adopting the NB-iot transmission technology, the deployment and operation cost is low, the power consumption is low, the data transmission and updating delay among a plurality of water quality surveying wells 19 is low, the data updating is timely, and more accurate underground water quality information can be obtained;

the solar power supply mechanism 5 comprises a solar panel 10 positioned between a glass cover 6 and a microprocessor 8, a support rod 11 is connected between the solar panel 10 and the bottom plate 2, the support rod 11 is used for supporting the solar panel 10, a storage battery 12 connected with the solar panel 10 is further installed on the bottom plate 2, the storage battery 12 is used for receiving electric energy generated by the solar panel 10 and supplying power to the NB-iot transmission assembly 4, and the whole water quality surveying device 20 does not need an external power supply line by adopting a solar power supply mode, so that the mounting cost and the use cost are reduced, and the mounting steps are simplified;

the glass cover 6 is fixed on the surface of the bottom plate 2, the outer wall of the glass cover 6 is also provided with an infrared sensor 13 and an alarm 14, the infrared sensor 13 and the alarm 14 are both electrically connected with the microprocessor 8, the infrared sensor 13 can sense the periphery of the whole device, when an organism approaches, a signal can be detected, the microprocessor 8 controls the alarm 14 to send out the alarm 14 to drive the organism, and the damage to the device is prevented;

the inner wall of the sealing tube 3 is provided with a threaded tube 15 fixed on the bottom wall of the bottom plate 2, the top end of the connecting rod 1 is inserted into the threaded tube 15, and the connecting rod 1 is installed in a manner of installing the threaded tube 15, so that the installation and the disassembly are convenient;

the outside cover of connecting rod 1 has the sleeve pipe 16 of liftable, water quality survey device 20 is installed on sleeve pipe 16's outer wall, still be connected with stay cord 17 on the sleeve pipe 16 outer wall, stay cord 17 upwards extends and runs through the top that bottom plate 2 extends well bottom plate 2, install on the bottom plate 2 and carry out the electronic receipts line roller 18 that receive and releases stay cord 17, thereby stay cord 17 top twines in the outside of electronic receipts line roller 18, and the electronic receipts line roller 18 work of accessible control drives the height that the quality of water survey device 20 was adjusted in 17 lifts of stay cord to be applicable to the water quality testing of different water levels.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present disclosure, all other embodiments obtained by a person of ordinary skill in the art and related fields without creative efforts shall fall within the protection scope of the present disclosure. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (7)

1. The utility model provides an online groundwater water quality monitoring integrated device, surveys the logging and is located the inside water quality survey device of water quality survey logging including excavating the water quality survey on farm, and the water quality survey device stretches into the groundwater water in the well to water quality survey through the connecting rod, and the surface covering who surveys the logging at water quality has bottom plate, its characterized in that: the bottom of the bottom plate is fixedly provided with a sealing pipe with the bottom end penetrating into the soil, the sealing pipe is sleeved outside the water quality exploration logging well, the surface of the bottom plate is provided with an NB-iot transmission assembly, a solar power supply mechanism installed on the bottom plate is arranged above the NB-iot transmission assembly, and a glass cover is sleeved outside the solar power supply mechanism.

2. An online groundwater water quality monitoring integrated device according to claim 1, characterized in that: the NB-iot transmission assembly comprises an NB-iot terminal, a microprocessor and an NB-iot miniature base station fixedly arranged on the top of the glass cover, and the NB-iot miniature base station is connected with a background data center in the farm.

3. An online groundwater water quality monitoring integrated device according to claim 2, characterized in that: the microprocessor is connected with the water quality surveying device and used for receiving water quality data information monitored by the water quality surveying device and transmitting the water quality data information to the interior of the NB-iot terminal, and the NB-iot terminal packs the data information and transmits the data information to a background data center in a farm through the NB-iot miniature base station.

4. An online groundwater water quality monitoring integrated device according to claim 2, characterized in that: the solar power supply mechanism comprises a solar panel positioned between the glass cover and the microprocessor, a supporting rod is connected between the solar panel and the bottom plate, a storage battery connected with the solar panel is further installed on the bottom plate, and the storage battery is used for receiving electric energy generated by the solar panel and supplying power for the NB-iot transmission assembly.

5. An online groundwater water quality monitoring integrated device according to claim 2, characterized in that: the glass cover is fixed on the surface of the bottom plate, the outer wall of the glass cover is further provided with an infrared sensor and an alarm, and the infrared sensor and the alarm are both electrically connected with the microprocessor.

6. An online groundwater water quality monitoring integrated device according to claim 1, characterized in that: the inner wall of the sealing pipe is provided with a threaded pipe fixed on the bottom wall of the bottom plate, the top end of the connecting rod is inserted into the threaded pipe, the outside of the connecting rod is sleeved with a liftable sleeve pipe, and the water quality surveying device is installed on the outer wall of the sleeve pipe.

7. An online groundwater water quality monitoring integrated device according to claim 6, characterized in that: the pull rope is further connected to the outer wall of the sleeve, the pull rope extends upwards and penetrates through the upper portion of the middle base plate extending from the base plate, an electric wire take-up roller for taking up and paying off the pull rope is installed on the base plate, and the top end of the pull rope is wound outside the electric wire take-up roller.

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