CN210981353U - Automatic underground water monitoring station - Google Patents

Abstract

The utility model provides an underground water automatic monitoring station, include: the underground water monitoring instrument is characterized in that: the solar monitoring system further comprises a monitoring cabinet, a solar power generation device, a storage battery, a power supply adaptation module, a data acquisition and storage module and a communication module. Each test signal output end of the underground water monitoring instrument is respectively connected with the signal input end of the data acquisition and storage module and is used for acquiring and storing each monitoring parameter of underground water; the communication module carries out wireless transmission of data and remote control of the system. The storage battery, the power supply adaptation module, the data acquisition and storage module and the communication module are all arranged inside the cabinet body of the monitoring cabinet. The monitoring station has the advantages of light structure, convenience in arrangement, diversified power supply modes and low overall cost of ownership. The water level, water quantity, water quality, water temperature and other parameters of various types of underground water can be monitored, data can be stored automatically and transmitted to a user computer or a mobile phone in a wireless mode, and when the monitored parameters exceed a normal range, an alarm can be given to the user.

Description

Automatic underground water monitoring station

Technical Field

The utility model belongs to the technical field of the water monitoring, especially, relate to the improvement of the monitoring technology of the water level of groundwater, water yield, quality of water, temperature isoparametric, a groundwater automatic monitoring station specifically says so.

Background

The underground water has the characteristics of wide regional distribution, convenient exploitation, good water quality, slow runoff and the like, and can receive precipitation and surface water supply at any time. Therefore, the water supply device has important water supply value and is an essential resource for human survival. Many countries around the world use groundwater as a source of human domestic and drinking water. However, the groundwater is also a component of the ecosystem, and once the groundwater is polluted, even if the pollution source of the groundwater is completely eliminated, the water quality can be restored for more than ten years or even several decades, so that the well-protected groundwater is a source for protecting human life.

Because groundwater resources are more complicated than surface water resources, the change of the quality and quantity of groundwater itself, the environmental conditions causing groundwater change and the migration rule of groundwater cannot be directly observed, and meanwhile, the pollution of groundwater and the ground settlement caused by groundwater super mining are slow-varying types, and once the pollution is accumulated to a certain degree, the damage is irreversible. Therefore, the appropriate development and protection of the underground water must depend on long-term underground water monitoring and timely grasp of the dynamic change condition.

At present, various water body monitoring instruments with mature technologies can monitor parameters such as water level, water quantity, water quality and water temperature, but an effective means and a device are still lacked if the monitoring instruments are used in the special field of underground water monitoring.

Disclosure of Invention

The utility model provides an underground water automatic monitoring station for solving the above problems in the prior art, which can automatically monitor various types of underground water, monitor parameters such as water level, water quantity, water quality and water temperature, and has the functions of data acquisition, storage and alarm; the structure is light and handy, the maintenance amount is small, and the whole cost of ownership is low.

The utility model aims at realizing through the following technical scheme:

an automatic underground water monitoring station comprises an underground water monitoring instrument, and is characterized by further comprising a monitoring cabinet, a solar power generation device, a storage battery, a power supply adaptation module, a data acquisition and storage module and a communication module; the power output ends of the solar power generation device and the storage battery are connected to the input end of the power adaptation module, and the power output end of the power adaptation module is connected to the working power supply ports of the data acquisition and storage module and the communication module; each test signal output end of the underground water monitoring instrument is respectively connected with the signal input end of the data acquisition and storage module; the signal output end of the data acquisition and storage module is connected with the signal input end of the communication module; the storage battery, the power supply adaptation module, the data acquisition and storage module and the communication module are all arranged inside the cabinet body of the monitoring cabinet.

The improvement of the technical scheme is as follows: the solar power generation device comprises a solar cell panel, an installation base and a stand column, wherein the stand column is fixed on the installation base, and the solar cell panel is fixed at the top end of the stand column.

The technical scheme is further improved as follows: the monitoring cabinet be provided with the cabinet door of switch, be provided with a system integration case in the internal portion of cabinet of monitoring cabinet, power adaptation module, data acquisition and storage module and communication module all install inside the system integration incasement portion, the battery fix on the bottom plate of the internal portion of cabinet of monitoring cabinet.

The technical scheme is further improved as follows: the monitoring cabinet is characterized in that a rotatable cross rod is further arranged inside the cabinet body of the monitoring cabinet, a cable is tied on the cross rod, and the other end of the cable is connected with an underground water monitoring instrument.

The technical scheme is further improved as follows: a hoisting pull ring is respectively arranged on two outer sides of the cabinet body of the monitoring cabinet; the cabinet body of the monitoring cabinet is also provided with a cable port and a heat dissipation hole.

The technical scheme is further improved as follows: the communication module is provided with an antenna, and the antenna is fixed on the top of the monitoring cabinet.

The technical scheme is further improved as follows: the power supply adapting module is also provided with a mains supply access port.

The utility model has the advantages that:

1. the utility model has the advantages of light structure, convenient arrangement and low integral cost;

2. the utility model has diversified power supply modes, and can adopt a mains supply mode when monitoring the urban and peripheral underground water; the power can be supplied by a storage battery in remote areas, and periodic maintenance or solar power supply is carried out, so that the system can still operate reliably when no sunlight irradiates for 30 days;

3. the utility model can monitor the parameters of water level, water quantity, water quality, water temperature and the like of various types of groundwater such as diving, confined water, spring water and the like;

4. the data acquisition and storage module of the utility model ensures that the data can be stored by oneself under the condition of non-smooth network transmission, and the user can acquire the data again when the network is smooth, thereby preventing the data from being lost;

5. the utility model discloses a communication module can send monitoring data to user's computer or cell-phone with wireless mode, can report to the police to the user when monitoring parameter surpasss normal scope.

Drawings

FIG. 1 is a schematic view of the whole structure of the groundwater automatic monitoring station of the present invention;

FIG. 2 is a schematic structural view of a monitoring cabinet in the groundwater automatic monitoring station of the present invention;

FIG. 3 is a schematic structural view of a solar power generation device in the groundwater automatic monitoring station of the present invention;

fig. 4 is an electrical connection block diagram of the groundwater automatic monitoring station of the present invention.

The reference numbers in the figures are: 1-underground water monitoring equipment, 2-monitoring cabinet, 2.1-cabinet door, 2.2-hoisting pull ring, 2.3-cable port, 2.4-radiating hole, 2.5-fixed cross bar, 2.6-system integration box, 3-solar power generation device, 3.1-solar cell panel, 4-storage battery, 5-power adapter module, 5.1-commercial power connection end, 6-data acquisition and storage module, 7-communication module and 7.1-antenna.

Detailed Description

The invention is described in further detail below with reference to the following figures and examples:

referring to fig. 1 and 4, the utility model relates to an embodiment of groundwater automatic monitoring station, including groundwater monitoring instrument 1, still include monitoring cabinet 2, solar power system 3, battery 4, power adaptation module 5, data acquisition and storage module 6 and communication module 7. The power output ends of the solar power generation device 3 and the storage battery 4 are connected to the input end of the power adaptation module 5, and the power output end of the power adaptation module 5 is connected to the working power supply ports of the data acquisition and storage module 6 and the communication module 7, so that stable electric power is provided for the system. The underground water monitoring instrument 1 comprises a tester for parameters such as water level, water quantity, water quality and water temperature, and each test signal output end of the underground water monitoring instrument 1 is respectively connected with a signal input end of the data acquisition and storage module 6 and is used for acquiring and storing each monitoring parameter of underground water; and the signal output end of the data acquisition and storage module 6 is connected with the signal input end of the communication module 7, and is used for carrying out wireless data transmission and remote control on the system. The storage battery 4, the power supply adapting module 5, the data acquisition and storage module 6 and the communication module 7 are all arranged inside the cabinet body of the monitoring cabinet 2.

The power supply adapting module 5 is also provided with a commercial power access port 5.1, which can convert commercial power into low-voltage direct current which can be used by a system, and can convert solar energy into electric energy to be stored in the storage battery 4.

Referring to fig. 3, the solar power generation apparatus 3 includes: solar cell panel 3.1, installation base 3.2 and stand 3.3, stand 3.3 is fixed on installation base 3.2, and solar cell panel 3.1 is fixed on the top of stand 3.3.

Referring to fig. 2, the monitoring cabinet 2 is provided with a cabinet door 2.1 which can be opened and closed; a system integration box 2.6 is arranged in the cabinet body, the system integration box 2.6 can be made of PVC materials, and the power supply adaptation module 5, the data acquisition and storage module 6 and the communication module 7 are all arranged in the system integration box 2.6 to provide secondary protection for the modules; the storage battery 4 is fixed on the bottom plate in the cabinet body. Still be provided with a rotatable horizontal pole 2.5 in the internal portion of monitoring cabinet 2, tie on horizontal pole 2.5 and have the hawser, the other end and the groundwater monitoring instrument 1 of hawser are connected, and the accessible rotates horizontal pole 2.5, realizes that groundwater monitoring instrument 1 goes up and down. Two outer sides of the monitoring cabinet body 2 are respectively provided with a hoisting pull ring 2.2, so that the monitoring cabinet 2 is convenient to hoist. The cabinet body of the monitoring cabinet 2 is also provided with a cable port 2.3 and a heat dissipation hole 2.4. The output cable and the commercial power cable of the solar power generation device 3 can be connected into the cabinet body of the monitoring cabinet 2 through the cable port 2.3.

The communication module 7 is provided with an antenna 7.1, and the antenna 7.1 is fixed on the top of the monitoring cabinet 2.

During the use, all install inside system integration case 2.6 power adaptation module 5 earlier, data acquisition and storage module 6, communication module 7, battery 4 fixes on the bottom plate of the internal portion of cabinet of monitoring cabinet 2, it is fixed well to hoist monitoring cabinet 2 and solar power system 3 to the monitoring ground again, put into groundwater monitoring instrument 1 and monitored the groundwater body, as shown in figure 4, connect each connecting wire or cable, the system can monitor groundwater, and preserve monitoring data by oneself and send monitoring data to user's computer or cell-phone, carry out the warning when monitoring parameter exceedes normal scope.

The above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art should also belong to the protection scope of the present invention in the changes, modifications, additions or substitutions made within the spirit scope of the present invention.

Claims (10)

1. An automatic underground water monitoring station comprises an underground water monitoring instrument, and is characterized by further comprising a monitoring cabinet, a solar power generation device, a storage battery, a power supply adaptation module, a data acquisition and storage module and a communication module; the power output ends of the solar power generation device and the storage battery are connected to the input end of the power adaptation module, and the power output end of the power adaptation module is connected to the working power supply ports of the data acquisition and storage module and the communication module; each test signal output end of the underground water monitoring instrument is respectively connected with the signal input end of the data acquisition and storage module; the signal output end of the data acquisition and storage module is connected with the signal input end of the communication module; the storage battery, the power supply adaptation module, the data acquisition and storage module and the communication module are all arranged inside the cabinet body of the monitoring cabinet.

2. An automatic groundwater monitoring station as claimed in claim 1, wherein the solar power generation device comprises a solar panel, a mounting base and a column, the column is fixed on the mounting base, and the solar panel is fixed on the top end of the column.

3. An automatic underground water monitoring station according to claim 1 or 2, wherein the monitoring cabinet is provided with a door capable of being opened and closed, a system integration box is arranged inside the monitoring cabinet, the power supply adapting module, the data acquisition and storage module and the communication module are all arranged inside the system integration box, and the storage battery is fixed on a bottom plate inside the monitoring cabinet.

4. An automatic groundwater monitoring station according to claim 1 or claim 2, wherein a rotatable cross bar is further arranged inside the cabinet body of the monitoring cabinet, a cable is tied on the cross bar, and the other end of the cable is connected with a groundwater monitoring instrument.

5. An automatic groundwater monitoring station according to claim 3, wherein a rotatable cross bar is further arranged inside the cabinet body of the monitoring cabinet, a cable is tied on the cross bar, and the other end of the cable is connected with the groundwater monitoring instrument.

6. An automatic underground water monitoring station according to claim 1 or 2, wherein a lifting pull ring is arranged on each of two outer sides of the cabinet body of the monitoring cabinet; the cabinet body of the monitoring cabinet is also provided with a cable port and a heat dissipation hole.

7. An automatic underground water monitoring station according to claim 5, wherein a lifting pull ring is arranged on each of two outer sides of the cabinet body of the monitoring cabinet; the cabinet body of the monitoring cabinet is also provided with a cable port and a heat dissipation hole.

8. An automatic groundwater monitoring station as claimed in claim 1 or claim 2, wherein the communication module is provided with an antenna, the antenna being fixed to the top of the monitoring cabinet.

9. An automatic groundwater monitoring station as claimed in claim 7, wherein the communication module is provided with an antenna, the antenna being fixed to the top of the monitoring cabinet.

10. An automatic groundwater monitoring station as claimed in claim 1 or claim 2, wherein the power adapter module is further provided with a mains access port.

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