CN217655104U - Integral type groundwater monitoring facilities - Google Patents

Abstract

The utility model discloses an integral type groundwater monitoring facilities, including solar panel, install on power supply unit through the support frame solar panel below, power supply unit includes the shell body, the shell body internal fixation is equipped with the baffle, install the battery on the baffle, the battery pass through cable one with solar panel connects, be located in the shell body the inner wall both sides of the below of baffle are equipped with the bearing, install the dwang between the inner circle of bearing, be equipped with the cable coil on the dwang, the one end of cable coil pass through connecting wire with the battery bottom is connected, the other end of cable coil is connected with underwater detection device, beneficial effect through cable two: the device is simple in structure and convenient to use, can be charged and powered by solar energy, does not need an external power supply, can adjust the position of the underwater detection device according to the water depth, has the waterproof protection function on the circuit board, and prolongs the service life of the circuit board.

Description

Integral type groundwater monitoring facilities

Technical Field

The utility model relates to a groundwater monitoring technology field particularly, relates to an integral type groundwater monitoring facilities.

Background

The underground water resource is an important water source in the fields of industry, agriculture, life and the like, the underground water is monitored, various related information such as underground water level, water quality, water quantity and the like can be guaranteed to be mastered by related departments in time, and meanwhile, related geological structure information can be mastered, so that the underground water resource is conveniently arranged and utilized.

Traditional groundwater water quality monitoring adopts the mode of artifical collection, and this kind of mode is because need manual follow underground water collection, and not only the mode is loaded down with trivial details, moreover because time interval, leads to measured temperature error big, unscientific. With the development of scientific technology, particularly the development of computer, communication technology and sensor technology, it is possible for people to automatically monitor underground water resources.

For monitoring the underground water level, the traditional monitoring method is mainly adopted at present, the monitoring precision is low, a large amount of manpower and material resources are needed, continuous and uninterrupted monitoring cannot be carried out, the intelligence degree is low, and time and labor are wasted.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

To the problem in the correlation technique, the utility model provides an integral type groundwater monitoring facilities to overcome the above-mentioned technical problem that current correlation technique exists.

The technical scheme of the utility model is realized like this:

the utility model provides an integral type groundwater monitoring facilities, includes solar panel, install on power supply unit through the support frame solar panel below, power supply unit includes the shell body, the shell body internal fixation is equipped with the baffle, install the battery on the baffle, the battery pass through cable one with solar panel connects, be located in the shell body the inner wall both sides of the below of baffle are equipped with the bearing, install the dwang between the inner circle of bearing, be equipped with cable coil on the dwang, cable coil's one end pass through connecting wire with the battery bottom is connected, cable coil's the other end is connected with underwater detection device through cable two, underwater detection device includes outer protective barrel, the front end intercommunication of outer protective barrel has the water inlet end, the water inlet end with be equipped with sealed waterproof board between the outer protective barrel, the water inlet end internal bit install probe unit on the sealed waterproof board, be equipped with into the net gape on the water inlet end, install in the outer protective barrel with the circuit board that probe unit connects.

Furthermore, the bottom symmetry of power supply unit is equipped with the supporting leg, unable adjustment base is installed to the bottom of supporting leg.

Furthermore, the inner ring of the bearing is connected with a rotating handle, a limiting rod is movably arranged on the rotating handle through a rotating shaft, and a limiting block is arranged on the outer shell.

Furthermore, the outer protective barrel is connected with a sealing cover in a threaded manner, and a sealing ring is arranged in the sealing cover.

Furthermore, elastic protection blocks are symmetrically arranged in the outer protection cylinder and connected with the circuit board.

Furthermore, pressure sensors are symmetrically arranged in the water inlet end head.

The utility model provides an integral type groundwater monitoring facilities, beneficial effect as follows:

(1) The solar water heater comprises a solar panel, a power supply device and a water tank, wherein the solar panel is arranged below the solar panel through a support frame, the power supply device comprises an outer shell, a partition plate is fixedly arranged in the outer shell, a storage battery is arranged on the partition plate, the storage battery is connected with the solar panel through a first cable, bearings are arranged on two sides of the inner wall below the partition plate in the outer shell, a rotating rod is arranged between inner rings of the bearings, a cable coil is arranged on the rotating rod, one end of the cable coil is connected with the bottom of the storage battery through a connecting wire, the other end of the cable coil is connected with an underwater detection device through a second cable, the water tank is simple in structure and convenient to use, solar charging and power supply can be carried out, an external power supply is not needed, the water tank can be used according to the depth of water, the position of the underwater detection device is adjusted, the water tank has a waterproof protection function for the circuit board, and the service life of the water tank is prolonged.

(2) And the bottom of the power supply device is symmetrically provided with supporting legs, and the bottom ends of the supporting legs are provided with fixed bases.

(3) The inner circle of bearing is connected with the rotation handle, it is equipped with the gag lever post through the pivot activity to rotate on the handle, be equipped with the stopper on the shell body, utilize to rotate the handle and can drive the cable coil and rotate, through gag lever post cooperation stopper, conveniently carry on spacingly to rotating the handle.

(4) The outer protective barrel is connected with a sealing cover in a threaded mode, a sealing ring is arranged in the sealing cover, and the sealing cover is matched with the sealing ring to increase the sealing and waterproof effects of the outer protective barrel.

(5) Elastic protection blocks are symmetrically arranged in the outer protection cylinder and connected with the circuit board, and the protection effect on the circuit board is increased by using the effect of the elastic protection blocks.

(6) And pressure sensors are symmetrically arranged in the water inlet end, and the water pressure is conveniently detected by utilizing the functions of the pressure sensors.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an integrated groundwater monitoring device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a power supply device in an integrated groundwater monitoring device according to an embodiment of the invention;

fig. 3 is a schematic structural diagram of an underwater detection device in an integrated groundwater monitoring device according to an embodiment of the present invention.

In the figure:

1. a solar panel; 2. a support frame; 3. a power supply device; 4. an outer housing; 5. a partition plate; 6. a battery; 7. a first cable; 8. a bearing; 9. rotating the rod; 10. a cable coil; 11. connecting a lead; 12. a second cable; 13. an underwater detection device; 14. an outer protective sleeve; 15. a water inlet end; 16. sealing the waterproof plate; 17. a probe unit; 18. a water inlet net port; 19. a circuit board; 20. supporting legs; 21. a fixed base; 22. rotating the handle; 23. a limiting rod; 24. a limiting block; 25. a sealing cover; 26. a seal ring; 27. an elastic protection block; 28. a pressure sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 all belong to the protection scope of the present invention.

The invention is further described with reference to the following drawings and detailed description:

the first embodiment is as follows:

please refer to fig. 1-3, according to the utility model discloses an integral type groundwater monitoring equipment, including solar panel 1, install on power supply unit 3 through support frame 2 below solar panel 1, power supply unit 3 includes shell body 4, shell body 4 internal fixation is equipped with baffle 5, install battery 6 on the baffle 5, battery 6 through cable one 7 with solar panel 1 connects, lie in the shell body 4 the inner wall both sides of the below of baffle 5 are equipped with bearing 8, install dwang 9 between the inner circle of bearing 8, be equipped with cable coil 10 on the dwang 9, the one end of cable coil 10 through connecting wire 11 with battery 6 bottom is connected, the other end of cable coil 10 is connected with underwater detection device 13 through two 12 cables, underwater detection device 13 includes outer protective barrel 14, the front end intercommunication of outer protective barrel 14 has water inlet end 15, water inlet 15 with be equipped with sealed waterproof board 16 between the outer protective barrel 14, lie in water inlet end 15 install on sealed waterproof board 16 and install unit 17, be equipped with water inlet end 15 on the probe, water inlet end 18 is equipped with outer protective barrel 18, outer probe is connected with probe unit 17 in the protective barrel 19.

Through the above scheme of the present invention, the power supply device 3 is installed on the power supply device 3 through the support frame 2 below the solar panel 1, the power supply device 3 comprises an outer shell 4, a partition plate 5 is fixedly arranged in the outer shell 4, the storage battery 6 is installed on the partition plate 5, the storage battery 6 is connected with the solar panel 1 through a cable I7, bearings 8 are arranged on two sides of the inner wall of the outer shell 4 below the partition plate 5, a rotating rod 9 is installed between the inner rings of the bearings 8, a cable coil 10 is arranged on the rotating rod 9, one end of the cable coil 10 is connected with the bottom of the storage battery 6 through a connecting wire 11, the other end of the cable coil 10 is connected with an underwater detection device 13 through a cable II 12, the underwater detection device 13 comprises an outer protection cylinder 14, and the front end of the outer protection cylinder 14 is communicated with a water inlet end 15, the utility model discloses a water inlet end 15, including water inlet end 15, outer protective barrel 14, be equipped with sealed waterproof board 16 between water inlet end 15 and the outer protective barrel 14, be located in water inlet end 15 install probe unit 17 on the sealed waterproof board 16, be equipped with into water net gape 18 on the water inlet end 15, install in the outer protective barrel 14 with circuit board 19 that probe unit 17 is connected, the device of this application is when using, at first install power supply unit 3 subaerial, charge through solar panel 1 battery 6 in the power supply unit 3, when surveying, at first put into underwater detection device 13 under water, the one end of cable coil 10 is connected with battery 6 through connecting wire 11 respectively, the other end of cable coil 10 is connected with having underwater detection device 13 through cable two 12, supply power to underwater detection device 13 through battery 6 and cable two 12, and through the effect of cable coil 10, can be according to the degree of depth under water, release cable two 12 that corresponds length, survey time measuring, the net gape 18 that intakes on the end of intaking 15 gets into, utilize probe unit 17 to detect can, such device simple structure, convenient to use can carry out solar charging power supply, need not external power supply, and can be according to the depth of water, adjust the position of detecting device 13 under water, and have the water proof function to circuit board 19, increase its life.

Example two:

as shown in fig. 2, the lower part of the solar panel 1 is mounted on a power supply device 3 through a support frame 2, the power supply device 3 comprises an outer shell 4, a partition plate 5 is fixedly arranged in the outer shell 4, a storage battery 6 is mounted on the partition plate 5, the storage battery 6 is connected with the solar panel 1 through a first cable 7, bearings 8 are arranged on two sides of the inner wall of the outer shell 4 below the partition plate 5, a rotating rod 9 is mounted between inner rings of the bearings 8, a cable coil 10 is arranged on the rotating rod 9, one end of the cable coil 10 is connected with the bottom of the storage battery 6 through a connecting lead 11, the other end of the cable coil 10 is connected with an underwater detection device 13 through a second cable 12, the underwater detection device 13 comprises an outer protection cylinder 14, the front end of the outer protection barrel 14 is communicated with a water inlet end head 15, a sealing waterproof plate 16 is arranged between the water inlet end head 15 and the outer protection barrel 14, a probe unit 17 is arranged on the sealing waterproof plate 16 in the water inlet end head 15, a water inlet net opening 18 is arranged on the water inlet end head 15, a circuit board 19 connected with the probe unit 17 is arranged in the outer protection barrel 14, the inner ring of the bearing 8 is connected with a rotating handle 22, a limiting rod 23 is movably arranged on the rotating handle 22 through a rotating shaft, a limiting block 24 is arranged on the outer shell 4, the rotating handle 22 can be used for driving the cable coil 10 to rotate, and the limiting rod 23 is matched with the limiting block 24 to conveniently limit the rotating handle 22;

example three:

as shown in fig. 3, the lower part of the solar panel 1 is mounted on a power supply device 3 through a support frame 2, the power supply device 3 includes an outer shell 4, a partition plate 5 is fixedly disposed in the outer shell 4, a storage battery 6 is mounted on the partition plate 5, the storage battery 6 is connected with the solar panel 1 through a first cable 7, bearings 8 are disposed on two sides of an inner wall of the outer shell 4 below the partition plate 5, a rotating rod 9 is mounted between inner rings of the bearings 8, a cable coil 10 is disposed on the rotating rod 9, one end of the cable coil 10 is connected with the bottom of the storage battery 6 through a connecting wire 11, the other end of the cable coil 10 is connected with an underwater detection device 13 through a second cable 12, the underwater detection device 13 includes an outer protection cylinder 14, a water inlet end head 15 is communicated with the front end of the outer protection cylinder 14, a sealing waterproof plate 16 is disposed between the water inlet end head 15 and the outer protection cylinder 14, a probe unit 17 is mounted on the sealing waterproof plate 16 in the water inlet end head 15, a water inlet end head 18 is provided with a water inlet port 18, a sealing ring is disposed in the outer protection cylinder 14, a sealing ring 25 is disposed on the sealing plate 14, and a sealing ring 26 is disposed in the sealing cover 14, and a sealing ring is disposed on the sealing ring 26 for increasing the sealing ring for sealing effect;

example four:

as shown in fig. 3, solar panel 1 below is installed on power supply unit 3 through support frame 2, power supply unit 3 includes shell body 4, shell body 4 internal fixation is equipped with baffle 5, install battery 6 on the baffle 5, battery 6 pass through cable one 7 with solar panel 1 is connected, be located in the shell body 4 the inner wall both sides of the below of baffle 5 are equipped with bearing 8, install dwang 9 between the inner circle of bearing 8, be equipped with cable coil 10 on the dwang 9, the one end of cable coil 10 pass through connecting wire 11 with battery 6 bottom is connected, the other end of cable coil 10 is connected with underwater detection device 13 through two 12 cables, underwater detection device 13 is including outer protection section of thick bamboo 14, the front end intercommunication of outer protection section of thick bamboo 14 has into water end head 15, it 15 with be equipped with sealed waterproof board 16 between the outer protection section of thick bamboo 14 to intake end head, be located in the end head 15 of intaking installs probe unit 17 on the sealed waterproof board 16, be equipped with into water net mouth 18 on the end head 15 of intaking, install in the protection section of thick bamboo 14 with the outer protection section of thick bamboo 19, be equipped with the circuit board 19 that protects the circuit board that the outer protection piece is connected, the protection block is equipped with the effect of elasticity protection block 27, the protection block that the symmetry increases the protection block that utilizes.

In practical application, firstly, the power supply device 3 is installed on the ground, the storage battery 6 in the power supply device 3 is charged through the solar panel 1, when detection is carried out, firstly, the underwater detection device 13 is placed underwater, one end of the cable coil 10 is respectively connected with the storage battery 6 through the connecting lead 11, the other end of the cable coil 10 is connected with the underwater detection device 13 through the cable II 12, the underwater detection device 13 is powered through the storage battery 6 and the cable II 12, the cable II 12 with the corresponding length can be released according to the underwater depth under the action of the cable coil 10, and when detection is carried out, the water inlet net port 18 in the water inlet end head 15 enters and is detected through the probe unit 17.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an integral type groundwater monitoring equipment, includes solar panel (1), its characterized in that, install on power supply unit (3) through support frame (2) solar panel (1) below, power supply unit (3) include shell body (4), shell body (4) internal fixation is equipped with baffle (5), install battery (6) on baffle (5), battery (6) through cable one (7) with solar panel (1) are connected, be located in shell body (4) the inner wall both sides of the below of baffle (5) are equipped with bearing (8), install dwang (9) between the inner circle of bearing (8), be equipped with cable coil (10) on dwang (9), the one end of cable coil (10) through connecting wire (11) with battery (6) bottom is connected, the other end of cable coil (10) is connected with underwater detection device (13) through cable two (12), underwater detection device (13) is including outer protection tube (14), the front end of outer waterproof protection tube (14) has into water end (15), be equipped with between the outer waterproof end (15) and the sealed end (16) of intaking is equipped with the sealing unit (16), the sealed probe (16) is located on the interior probe (17), be equipped with into water net gape (18) on end (15) of intaking, install in outer protective barrel (14) with circuit board (19) that probe unit (17) are connected.

2. An integrated underground water monitoring device according to claim 1, characterized in that the power supply unit (3) is provided with support legs (20) at the bottom symmetrically, and the bottom ends of the support legs (20) are provided with fixing bases (21).

3. An integrated groundwater monitoring device according to claim 2, wherein a rotating handle (22) is connected to an inner ring of the bearing (8), a limiting rod (23) is movably arranged on the rotating handle (22) through a rotating shaft, and a limiting block (24) is arranged on the outer shell (4).

4. An integrated groundwater monitoring device according to claim 3, wherein a sealing cover (25) is screwed on the outer protective barrel (14), and a sealing ring (26) is arranged in the sealing cover (25).

5. An integrated underground water monitoring device according to claim 4, characterized in that elastic protecting blocks (27) are symmetrically arranged in the outer protecting cylinder (14), and the elastic protecting blocks (27) are connected with the circuit board (19).

6. An integrated groundwater monitoring device according to claim 5, wherein pressure sensors (28) are symmetrically arranged in the water inlet end (15).

Images