CN218877515U

CN218877515U - Water body monitoring device

Info

Publication number: CN218877515U
Application number: CN202320065949.4U
Authority: CN
Inventors: 程世友; 叶少军; 刘金山; 王颖昕; 吴云江; 潘佳欢
Original assignee: Zhejiang Jingri Science And Technology Co ltd
Current assignee: Zhejiang Jingri Science And Technology Co ltd
Priority date: 2023-01-10
Filing date: 2023-01-10
Publication date: 2023-04-18
Anticipated expiration: 2033-01-10

Abstract

The utility model discloses a water monitoring device, including floating frame (1), the middle part of floating frame (1) is equipped with water line (2), the floating frame (1) of water line (2) top forms region on water, be equipped with solar photovoltaic board group (3) and control assembly (4) on the region on water respectively, the inboard vacuole formation (5) of floating frame (1), be equipped with the control assembly who connects solar photovoltaic board group (3) and control assembly (4) in cavity (5), cavity (5) intussuseption in the control assembly outside is filled with foaming material layer (6). The utility model has the characteristics of interference immunity is strong, monitoring effect is good.

Description

Water body monitoring device

Technical Field

The utility model relates to a water supervisory equipment, especially a water monitoring device.

Background

In the external water area environment such as rivers, lakes, reservoirs, fish ponds and the like, in order to avoid fishing, swimming, dumping garbage, bank damage and other behaviors of external personnel, monitoring equipment needs to be installed around the water area by a responsible department, so that the real-time or timing monitoring on the water area state is realized. The current monitoring mode of the water area state is that a plurality of monitoring rods are equidistantly arranged on the land around the water area, each monitoring rod is provided with a plurality of cameras with different directions, and then the cameras and the monitoring rods are matched to completely cover part of the water area; and then the monitoring range is radiated to the whole water area environment by adjusting the spacing distance of the monitoring rods, so that the full water area monitoring effect is realized.

However, the monitoring mode has the defect that the camera is easily shielded by leaves when being placed due to a large amount of tree vegetation planted on the land around a part of water area, so that the positioning difficulty of the monitoring rod and the camera is increased. On the other hand, the current camera can be additionally provided with a solar photovoltaic panel to be matched for power supply when in use, and the tree vegetation can shade the solar photovoltaic panel, so that the power supply effect of the solar photovoltaic panel is reduced.

In addition, due to the limitation of the monitoring distance of the camera, the camera on each monitoring rod can only be responsible for monitoring the peripheral partial water area range of the monitoring rod, and the camera cannot monitor the distant water area by adjusting the angle of the camera. The monitoring mode can increase the distribution quantity and the density of the monitoring rods on one hand, and on the other hand, the monitoring distance of the camera is inevitably too long for the central area of the water area, so that the shooting definition and the monitoring effect of the camera on the area are influenced.

Therefore, the monitoring method of the existing monitoring equipment for the water area environment has the problems of being easily interfered by the surrounding environment and poor in monitoring effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a water monitoring device. The method has the characteristics of strong anti-interference performance and good monitoring effect.

The technical scheme of the utility model: the utility model provides a water monitoring device, includes and floats the frame, floats the middle part of frame and is equipped with the water line, and the showy frame of water line top forms the region on water, is equipped with solar photovoltaic board group and control subassembly on the region on water respectively, floats the inboard vacuole formation of frame, is equipped with the control assembly who connects solar photovoltaic board group and control subassembly in the cavity.

In the water monitoring device, the cavity outside the control assembly is filled with the foaming material layer.

In the above water body monitoring device, a weight block for adjusting the overall weight of the device is arranged in the cavity outside the control assembly, and the foaming material layer is filled in the cavity around the weight block.

In the foregoing water monitoring device, the floating frame is formed by detachably connecting an upper cover and a base, the upper cover and the base are both in a pyramid shape, and the upper cover and the base are opposite in cone direction.

In the water monitoring device, the solar photovoltaic panel groups are respectively arranged on each side surface of the upper cover, and the warning light bars are arranged between the adjacent solar photovoltaic panel groups.

In the foregoing water monitoring device, the monitoring assembly includes a plurality of cameras in different orientations, and the cameras and the solar photovoltaic panel assemblies are in up-down staggered distribution.

In the foregoing water monitoring device, the top of the floating frame is provided with an auxiliary function part, and the auxiliary function part is a warning lamp or an environment collector.

In the foregoing water monitoring device, the monitoring component is a panoramic camera or a pan-tilt camera located at the top of the upper cover.

In the water monitoring device, the control assembly comprises the main control board, the wireless communication module and the battery module which are connected with each other, and the outside of the control assembly is buckled in the cavity through the housing.

In the foregoing water body monitoring device, the outer end of the floating frame is connected with a hanging ring.

Compared with the prior art, the utility model has the characteristics of it is following:

(1) The utility model can monitor the monitoring component from the middle part to the periphery of the water area through the matching of the floating frame and the monitoring component, thereby effectively enlarging the monitoring angle of the water area and shortening the spacing distance of the monitoring component compared with the mode of shooting at the periphery of the water area, and improving the monitoring effect of the water area; through the arrangement of the solar photovoltaic panel group, power can be supplied to the monitoring assembly, so that the working stability of the monitoring assembly is ensured; on the other hand, the monitoring assembly is arranged in the middle of the water area, so that the shielding and interference of the surrounding environment of the water area such as trees, vegetations and the like on the monitoring assembly can be effectively eliminated, and the monitoring effect is further improved;

(2) On the basis, through the arrangement of the cavity and the foaming material layer in the floating frame, on one hand, buoyancy can be provided for the floating frame, and on the other hand, when the underwater area of the floating frame is damaged and has a leak, the foaming material layer can also prevent moisture from flowing into the cavity to cause the floating frame to sink, so that the position stability of the floating frame and the monitoring effect of the monitoring assembly are further improved; through the arrangement of the balancing weight, the control precision of the floating height of the floating frame can be improved, so that the water surface line can be flush with the water surface, the solar photovoltaic panel group is ensured to be positioned above the water surface, the possibility of damage caused by soaking of the solar photovoltaic panel group is reduced, and the power supply effect of the solar photovoltaic panel group is improved; by passing through

(3) The base of the floating frame is in a pyramid shape, so that the overall draft of the floating frame can be improved, the gravity center of the floating frame can be lowered to an underwater area, the floating stability of the floating frame is greatly improved, the force applied to the counterface by the floating frame can be offset with the side force around the counterface, and the swing range of the floating frame is reduced;

(4) The warning lamp strip and the auxiliary functional piece are arranged in the water area, so that warning can be performed when actions such as fishing, swimming, garbage dumping and the like exist around the warning lamp strip and the auxiliary functional piece are monitored, and the warning and stopping function of the actions is further realized;

therefore, the utility model has the characteristics of interference immunity is strong, monitoring effect is good.

Drawings

FIG. 1 is an external view of example 1;

FIG. 2 is an exploded view of example 1;

FIG. 3 is a schematic structural view in a floating state in example 1;

FIG. 4 is an external view of example 2.

The labels in the figures are: 1-floating frame, 2-waterline, 3-solar photovoltaic panel group, 4-monitoring component, 5-cavity, 6-foaming material layer, 7-upper cover, 8-base, 9-warning lamp strip, 10-auxiliary functional component, 11-main control board, 12-battery module, 13-housing and 14-hanging ring.

Detailed Description

The present invention will be further described with reference to the drawings and examples, which should not be construed as a limitation to the present invention.

Example 1. A water body monitoring device is shown in figures 1-3 and comprises a floating frame 1, wherein a water surface line 2 is arranged in the middle of the floating frame 1, a water region is formed on the floating frame 1 above the water surface line 2, a solar photovoltaic panel group 3 and a monitoring component 4 are respectively arranged on the water region, a cavity 5 is formed on the inner side of the floating frame 1, and a control component connected with the solar photovoltaic panel group 3 and the monitoring component 4 is arranged in the cavity 5.

And a foaming material layer 6 is filled in the cavity 5 outside the control component, and the control component is positioned in the cavity 5 above the foaming material layer 6.

The floating frame 1 is formed by detachably connecting an upper cover 7 and a base 8, the upper cover 7 and the base 8 are in pyramid shapes, the cones of the upper cover 7 and the base 8 are opposite and gradually reduced along the end direction, and the connection part of the upper cover 7 and the base 8 is sealed by a sealing ring; through pyramid's upper cover 7, then can reduce the fixed degree of difficulty to solar photovoltaic board group 3 for solar photovoltaic board group 3 of dull and stereotyped structure can be stably fixed in the side of upper cover 7 and do not form the arch, and utilize the side of slope to improve its illumination effect.

The solar photovoltaic panel groups 3 are respectively arranged on each side surface of the upper cover 7, and a warning light bar 9 positioned at the side edge of the upper cover 7 is arranged between the adjacent solar photovoltaic panel groups 3; the side of the upper cover 7 is arranged at an inclination angle of 30-60 degrees, so that accumulation of dust and impurities on the surface is avoided, and automatic cleaning can be realized through rainwater washing.

The monitoring assembly 4 comprises a plurality of cameras in different directions, each camera is arranged on one side surface of the upper cover 7, and the cameras and the solar photovoltaic panel groups 3 are distributed in a vertically staggered manner; the peripheral area of the floating frame 1 is completely covered by the visual field range of each camera, and the control assembly can splice acquired images, so that a 360-degree panoramic image is obtained.

The top of the floating frame 1 is provided with an auxiliary function part 10, and the auxiliary function part 10 is a warning lamp or an environment collector.

The control assembly consists of a main control board 11, a wireless communication module and a battery module 12 which are connected with each other, wherein the wireless communication module is integrated on the main control board 11, the outside of the main control board 11 is connected with the solar photovoltaic panel group 3 through a solar controller, and the outside of the solar controller is connected with the battery module 12; the outside of the control component is buckled in the cavity 5 through a cover shell 13; the housing 13 comprises an upper housing and a lower housing which are detachably connected, the upper housing and the lower housing are sealed at the joint through a sealing ring, a waterproof wiring terminal for threading is arranged on the housing 13, the periphery of the housing 13 extends outwards to form a buckling surface, and a buckling groove matched with the buckling surface is formed in the inner side of the floating frame 1.

The producer can adjust the height of the monitoring device by adjusting the weight of the control assembly, so that the position of the water surface line 2 is flush with the height of the water surface after the monitoring device enters the water.

The outer end of the floating frame 1 is connected with a hanging ring 14, and the hanging ring 14 can be used for connecting anchor ropes, so that the water quality monitoring device is prevented from being lost.

An algorithm module, a positioning module and a plurality of interfaces are further arranged in the main control board 11, and the warning light bar 9, the monitoring component 4 and the auxiliary functional part 10 are all connected with the main control board 11 through the interfaces; the outsides of the wireless communication module and the positioning module respectively carry out data remote transmission with the system platform through an antenna; the wireless communication module can adopt any wireless transmission mode such as 4G, 5G, wiIFi, zigBee, loRa, image transmission and the like to transmit the acquired data or image to the system platform and receive a control command issued by the system platform; the positioning module can be a GPS, beidou or Galileo satellite positioning module, is used for automatically calibrating the physical position of each water quality monitoring device and transmitting the physical position to a system platform, and is convenient for subsequent management and maintenance; the algorithm module is used for intelligently processing data acquired by the monitoring component 4, such as splicing of a plurality of camera images, abnormal alarm and the like.

The utility model discloses a theory of operation: the utility model discloses a to the appearance of floating frame 1 injectd and to floating frame 1 and control assembly's weight injectd for floating frame 1 its water surface line 2 positions can be level and neat with the water surface after getting into the water, and then guarantees that solar photovoltaic board group 3 and monitoring component 4 all are located the surface of water more than, guarantee both stability in use. Through the solar photovoltaic panel group 3 arranged in the water area, the monitoring component 4, the auxiliary functional component 10 and the control component can be powered, and real-time monitoring and data transmission of the monitoring component 4 to the surrounding water area are realized. When the conditions of fishing, swimming, garbage dumping and the like exist nearby a water area under the monitoring of manpower or a system, the auxiliary function piece 10 and/or the warning light bar 9 can be used for carrying out flashing warning, and the warning stopping effect is achieved.

Through filling the foaming material layer 6 in 5 bottoms of cavity, can also occupy the vacant space in the cavity 5, and then avoid when the sealing member between upper cover 7 and the base 8 became invalid, or when the lateral wall damage of base 8 leaked, made rivers get into and cause the sinking of floating frame 1 in the cavity 5, improve its floating stability.

Example 2. The utility model provides a water monitoring device, constitutes as shown in figure 4, including floating frame 1, the middle part of floating frame 1 is equipped with water line 2, and the floating frame 1 of water line 2 top forms region on water, is equipped with solar photovoltaic board group 3 and control assembly 4 on the region on water respectively, and the inboard vacuole formation 5 of floating frame 1 is equipped with the control assembly who connects solar photovoltaic board group 3 and control assembly 4 in the cavity 5.

The cavity 5 outside the control component is internally provided with a balancing weight for adjusting the whole weight of the device, and the foaming material layer 6 is filled in the cavity 5 around the balancing weight.

The floating frame 1 is formed by detachably connecting an upper cover 7 and a base 8, the upper cover 7 and the base 8 are in a pyramid shape, the cones of the upper cover 7 and the base 8 are opposite and gradually reduced along the end part direction, and the upper cover 7 and the base 8 are sealed by a sealing ring at the joint.

The monitoring component 4 is a panoramic camera or a pan-tilt camera positioned at the top of the upper cover 7.

An algorithm module, a positioning module and a plurality of interfaces are also arranged in the main control board 11, and the warning light bar 9 and the monitoring assembly 4 are both connected with the main control board 11 through the interfaces; the outsides of the wireless communication module and the positioning module respectively carry out data remote transmission with the system platform through an antenna; the wireless communication module can adopt any wireless transmission mode such as 4G, 5G, wiIFi, zigBee, loRa, image transmission and the like to transmit the acquired data or image to the system platform and receive a control command issued by the system platform; the positioning module can be a GPS, beidou or Galileo satellite positioning module, is used for automatically calibrating the physical position of each water quality monitoring device and transmitting the physical position to a system platform, and is convenient for subsequent management and maintenance; the algorithm module is used for intelligently processing data acquired by the monitoring component 4, such as splicing of a plurality of camera images, abnormal alarm and the like.

The present embodiment adopts the existing panoramic camera as the monitoring component 4 and is arranged on the top of the upper cover 7, so that the monitoring effect on the surrounding water area can be realized. Through add the balancing weight in cavity 5, then can further improve the control accuracy to water monitoring device floating height for water monitoring device is after the income water, and 2 positions of its water surface line can highly flush with the surface of water.

Claims

1. A water body monitoring device is characterized in that: including floating frame (1), the middle part of floating frame (1) is equipped with water line (2), and the floating frame (1) of water line (2) top forms region on water, is equipped with solar photovoltaic board group (3) and control assembly (4) respectively on the region on water, and the inboard of floating frame (1) forms cavity (5), is equipped with the control assembly who connects solar photovoltaic board group (3) and control assembly (4) in cavity (5).

2. A water body monitoring device as claimed in claim 1, wherein: and a foaming material layer (6) is filled in the cavity (5) at the outer side of the control component.

3. A water body monitoring device as claimed in claim 2, wherein: the cavity (5) outside the control component is internally provided with a balancing weight for adjusting the whole weight of the device, and the foaming material layer (6) is filled in the cavity (5) at the periphery of the balancing weight.

4. A water body monitoring device as claimed in claim 1, wherein: the floating frame (1) is formed by detachably connecting an upper cover (7) and a base (8), the upper cover (7) and the base (8) are in pyramid shapes, and the upper cover (7) and the base (8) are opposite in cone direction.

5. A water body monitoring device as claimed in claim 4, wherein: the solar photovoltaic panel groups (3) are respectively arranged on each side surface of the upper cover (7), and warning light bars (9) are arranged between adjacent solar photovoltaic panel groups (3).

6. A water body monitoring device as claimed in claim 1, wherein: the monitoring component (4) comprises a plurality of cameras in different directions, and the cameras and the solar photovoltaic panel group (3) are distributed in a vertically staggered manner.

7. A water body monitoring device as claimed in claim 6, wherein: the top of floating frame (1) is equipped with auxiliary function spare (10), auxiliary function spare (10) are warning light or environmental collection ware.

8. A water body monitoring device as claimed in claim 1, wherein: the monitoring component (4) is a panoramic camera or a pan-tilt camera positioned at the top of the upper cover (7).

9. A water body monitoring device as claimed in claim 1, wherein: the control assembly consists of a main control board (11), a wireless communication module and a battery module (12) which are connected with each other, and the outside of the control assembly is buckled in the cavity (5) through a housing (13).

10. A water body monitoring device as claimed in claim 1, wherein: the outer end of the floating frame (1) is connected with a hanging ring (14).