CN208846045U - A kind of lake grid-based management system - Google Patents

Abstract

The lake grid-based management system of the utility model, including data acquisition device and server；Data acquisition device includes mainframe, and ARM controller is connected in mainframe, and one end sliding of mainframe is equipped with display screen；It is fixed with first motor at the top of mainframe, adjusting cover is covered on the upside of first motor, adjusts the upside that cover is rotatably connected in mainframe；The top for adjusting cover is equipped with the first rotary steering hole, is equipped with rotary shaft in the first rotary steering hole；Rotary shaft lower end is rotatably connected in first motor；The upper end of rotary shaft is connected with outer cover；GIS data collector is equipped in outer cover；Bottom plate is screwed in rotary shaft, one end of bottom plate is connected with leading truck, is equipped with the second sliding block in leading truck；Sliding is equipped with the first sliding block in outer cover, and the first sliding block is connected on the outer wall of GIS data collector；Support rod is equipped between first sliding block and the second sliding block；The end face of GIS data collector is equipped with angular transducer；GIS data collector is to lake conduct monitoring at all levels.

Description

A kind of lake grid-based management system

Technical field

The utility model relates to information system management technical fields, and in particular to a kind of lake grid-based management system.

Background technique

Promoting Enhancing water resources management level using technological means is also the needs for realizing scientific development.As country is increasingly heavier Depending on the reasonable utilization and protection to water resource, reinforce water resources management, preferably participation national economy macro adjustments and controls are increasingly wanted Seek the spatial data information for real-time and accurately grasping water resource.

It is traditional to the management of water resources in lake be by manually carrying out, due to manually cannot 24 hours to being managed area Domain is monitored, and causes management effect poor, it is not possible to detect and record in real time the water resource pollution event of appearance；To one When the water resources management in area, has multiple departments and administrative organization participates, when polluting, due to initially supervising letter The missing of breath is difficult to distinguish one from the other responsibility, causes responsibility unknown.

Accordingly, it is desirable to provide a kind of lake grid-based management system, the system can monitor lake in real time, record in real time The water resource pollution situation of appearance provides foundation for the accountability in later period.

Utility model content

The purpose of this utility model is to provide a kind of lake grid-based management systems, to solve existing water resources management Control real-time is poor, the poor problem of monitoring effect.

To achieve the above object, the technical solution of the utility model is

A kind of lake grid-based management system, including data acquisition device and the server being connected electrically；

The data acquisition device includes mainframe, and ARM controller, Yu Suoshu mainframe are connected in Yu Suoshu mainframe One end sliding be equipped with display screen；It is fixed with first motor with bolt in the top of the mainframe, Yu Suoshu first motor Upside is covered with hemispherical adjusting cover, and the lower thread for adjusting cover is rotatably connected in the upside of the mainframe；In the tune The top of section cover is equipped with the first rotary steering hole, the rotation for being equipped with round bar shape rotated in the first rotary steering hole of Yu Suoshu Axis；The lower thread of the rotary shaft is rotatably connected in the first motor；

Outer cover is connected in the upper end of the rotary shaft；GIS data collector is equipped in sliding in the outer cover；In described Screw thread is screwed with bottom plate in rotary shaft, and one end far from the rotary shaft of Yu Suoshu bottom plate is connected with leading truck, and Yu Suoshu is led Into frame, sliding is equipped with the second sliding block；

It is equipped with the first sliding block in sliding in the outer cover, first sliding block is connected in the outer of the GIS data collector On wall；Support rod is hinged between first sliding block and second sliding block；In the end face card of the GIS data collector It is connected to angular transducer.

Wherein, the outer cover includes the shell that side wall is spherical surface, is equipped with guide groove, the guide groove in Yu Suoshu shell The circular arc direction of side wall extends along the outer shell；

The shell includes the inner wall being in contact with the GIS data collector and the separate GIS data collector Outer wall；It is concavely provided with auxiliary positioning slot in the inner wall of the shell, two auxiliary positioning slots are respectively at the guide groove Two sides and consistent with the guide groove extending direction.

Wherein, first sliding block includes columned integrated base, and the lower end of Yu Suoshu integrated base is recessed with hemispherical Hinged groove；It is connected with sliding support block in the top of the integrated base, the sliding support block is pressed in the auxiliary positioning slot It is interior；The integrated base sliding is set in the guide groove；

It is connected in the upper end of the integrated base or screw thread is screwed with round table-like interior attachment base, in the interior attachment base Upper end be connected with card adapter plate；The card adapter plate is connected on the outer wall of the GIS data collector.

Wherein, the leading truck includes lower guide plate, is connected in parallel and leads on the upside of Yu Suoshu lower guide plate To plate；

Sliding eye is surrounded between the upper guide plate and the lower guide plate；It is equipped in the upper guide plate along it The first guide groove that length direction extends；The second guiding extended along its length is recessed in the top of the lower guide plate Slot；Second guide groove is connected to the sliding eye.

Wherein, the display screen includes side plate, and the lower end of Yu Suoshu side plate is connected with perpendicular lower supporting plate, in institute The upper end for stating side plate is connected with perpendicular upper backup pad；The upper backup pad and the lower supporting plate are in the side plate The same side；

The first sliding groove extended along its length is recessed in the top of the lower supporting plate；In in the first sliding groove Sliding is equipped with the first block and the second block；

Cylindric adjustment barrel is connected in the lower part of the upper backup pad, the adjustment barrel is along the upper backup pad Length direction extends；

Along the interior guide rod for being screwed with round bar shape axially to its internal screw thread of the adjustment barrel, on the interior guide rod Sliding is arranged with sliding cylinder；It is equipped with the first sliding cavity, first sliding cavity in the inner along the axial direction of the sliding cylinder It is adapted with the interior guide rod；

It is recessed with the first hinged groove in the lower part of the sliding cylinder, is hinged with main screen in the first hinged groove of Yu Suoshu；Institute The lower end for stating main screen is clamped between first block and second block；Is offered in the lower part of the adjustment barrel One sliding groove, the main screen sliding are set in first sliding groove.

It wherein, further include the second motor for being bolted to the other end of the mainframe；In on second motor Screw thread is screwed with camera assembly；

The camera assembly includes the output shaft of round bar shape, one end spiral shell far from second motor of Yu Suoshu output shaft Line is screwed with discoid main mounting disc, in being connected with camera in the main mounting disc, is covered in the main mounting disc Hemispherical cloche；The camera and second motor are electrically connected with the ARM controller.

The utility model has the advantages that

The lake grid-based management system of the utility model, including data acquisition device and the server being connected electrically； The data acquisition device includes mainframe, and ARM controller, one end of Yu Suoshu mainframe are connected in Yu Suoshu mainframe Sliding is equipped with display screen；First motor, the upper side cover of Yu Suoshu first motor are fixed with bolt in the top of the mainframe Equipped with hemispherical adjusting cover, the lower thread for adjusting cover is rotatably connected in the upside of the mainframe；In the adjusting cover Top is equipped with the first rotary steering hole, the rotary shaft for being equipped with round bar shape rotated in the first rotary steering hole of Yu Suoshu；Institute The lower thread for stating rotary shaft is rotatably connected in the first motor；

Outer cover is connected in the upper end of the rotary shaft；GIS data collector is equipped in sliding in the outer cover；In described Screw thread is screwed with bottom plate in rotary shaft, and one end far from the rotary shaft of Yu Suoshu bottom plate is connected with leading truck, and Yu Suoshu is led Into frame, sliding is equipped with the second sliding block；

It is equipped with the first sliding block in sliding in the outer cover, first sliding block is connected in the outer of the GIS data collector On wall；Support rod is hinged between first sliding block and second sliding block；In the end face card of the GIS data collector It is connected to angular transducer；

The ARM controller controls the first motor rotation, the first motor rotate and then drive the bottom plate and The GIS data collector rotation, to adjust the angle of the GIS data collector rotation in the horizontal direction；Sliding institute The second sliding block, support rod described in second slipper push are stated, the support rod pulls first sliding block, first sliding block It pulls the GIS data collector to slide in the outer cover, adjusts GIS data collector angle in the vertical direction, from And realize that the GIS data collector acquires the geography information and video information in lake in maximum magnitude, it realizes to lake Comprehensive real-time management.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the data acquisition device of the utility model.

Fig. 2 is the top view of the outer cover of the utility model.

Fig. 3 is the bottom view of the outer cover of the utility model.

Fig. 4 is the structural schematic diagram of first sliding block of the utility model.

Fig. 5 is the structural schematic diagram of the leading truck of the utility model.

Fig. 6 is the structural schematic diagram of the display screen of the utility model.

Fig. 7 is the structural schematic diagram of the camera assembly of the utility model.

1- mainframe；2- first motor；3- adjusts cover；4- rotary shaft；5- bottom plate；6-GIS data collector；7- outer cover； 71- guide groove；72- shell；73- auxiliary positioning slot；The first sliding block of 8-；Attachment base in 81-；82- card adapter plate；83- sliding support Block；84- integrated base；85- hinged groove；9- support rod；The second sliding block of 10-；11- leading truck；The first guide groove of 1101-；On 1102- Guide plate；1103- sliding eye；The second guide groove of 1104-；1105- lower guide plate；12- display screen；121- lower supporting plate； The first block of 122-；123- first sliding groove；124- side plate；125- upper backup pad；126- sliding cylinder；Guide rod in 127-；128- Adjustment barrel；129- main screen；The second block of 1210-；13-ARM controller；The second motor of 14-；15- camera assembly；1501- takes the photograph As head；1502- cloche；The main mounting disc of 1503-；1504- output shaft.

Specific embodiment

The following examples illustrate the utility model, but is not intended to limit the scope of the present invention.

Embodiment 1

The lake grid-based management system of the present embodiment 1, including data acquisition device and the server being connected electrically；Institute Stating data acquisition device includes mainframe 1, is connected with ARM controller 13 in Yu Suoshu mainframe 1, and the one of Yu Suoshu mainframe 1 End sliding is equipped with display screen 12；It is fixed with first motor 2 with bolt in the top of the mainframe 1, Yu Suoshu first motor 2 Upside is covered with hemispherical adjusting cover 3, and the lower thread for adjusting cover 3 is rotatably connected in the upside of the mainframe 1；In described The top for adjusting cover 3 is equipped with the first rotary steering hole, and what is rotated in the first rotary steering hole of Yu Suoshu is equipped with round bar shape Rotary shaft 4；The lower thread of the rotary shaft 4 is rotatably connected in the first motor 2；

Outer cover 7 is connected in the upper end of the rotary shaft 4；GIS data collector 6 is equipped in sliding in the outer cover 7； It is screwed with bottom plate 5 in screw thread in the rotary shaft 4, one end far from the rotary shaft 4 of Yu Suoshu bottom plate 5 is connected with leading truck Sliding is equipped with the second sliding block 10 in 11, Yu Suoshu leading trucks 11；

It is equipped with the first sliding block 8 in sliding in the outer cover 7, first sliding block 8 is connected in the GIS data collector 6 Outer wall on；Support rod 9 is hinged between first sliding block 8 and second sliding block 10；In the GIS data collector 6 end face is connected with angular transducer, and the angular transducer is electrically connected with the ARM controller 13.

The ARM controller controls the first motor rotation, the first motor rotate and then drive the bottom plate and The GIS data collector rotation, to adjust the angle of the GIS data collector rotation in the horizontal direction；Sliding institute The second sliding block, support rod described in second slipper push are stated, the support rod pulls first sliding block, first sliding block It pulls the GIS data collector to slide in the outer cover, adjusts GIS data collector angle in the vertical direction, from And realize that the GIS data collector acquires the geography information and video information in lake in maximum magnitude, it realizes to lake Comprehensive real-time management.

To solve the problems, such as lake " harnessing the river Kowloon ", promotes the long-acting management in lake, carry out the management of lake gridding information Technique study formulates following technical scheme.

The present embodiment 1 carries out data collection and processing by the data acquisition device, specifically includes: with the GIS number Geographic information data is acquired according to collector 6, the geographic information data collected is handled by image cutting, splicing, even color etc., Obtain lake remote sensing base map.

According to administrative division sub-unit lattice on lake remote sensing base map, administrative area data include administrative division data, specifically Including county, small towns, village, lake management range line specifically includes water storage range, protection scope, specifically includes hydraulic engineering data With water system data.Above data is converted by coordinate, is unified for CGCS2000 national coordinate system, facilitates data investigation analysis and place Reason.

Gridding extract principle, in conjunction with lake current situation and existing problems, it is contemplated that province, county, township's three-level hydraulic department pipe Reason demand divides each grid according to district, small towns, circle, village according to lake region actual conditions.

Wherein, first order grid is divided according to each district, and second level grid is that neighbouring amalgamation of villages and towns is section, third level table Lattice are mainly divided according to administrative village；Spacious pool grid is less than the square of 4km2 according to area to divide.

Field investigation, project team carry out field investigation for the circle country fair of full lake, purse seine and waters status, and main investigation circle country fair is enclosed Net distribution, circle country fair country fair dike elevation, cultivation situation, affiliated administrative area etc., water bodies management status, and floor photo, are grid It divides and first-hand in-situ data is provided.

Grid-search method and drawing are carried out lake three-level grid-search method and are encoded in conjunction with lake administrative division and lake status is related to, Cryptoprinciple are as follows: for circle country fair and land-based area :+coding (01-99) is drawn by administrative areas at the county level, such as " Sihong 09 "；For spacious pool: county Grade administrative division+" spacious "+coding (01-99), such as " Hongze spacious 36 "；Production lake gridding informationization manages atlas later.

Embodiment 2

Further, on the basis of embodiment 1:

The outer cover 7 includes the shell 72 that side wall is spherical surface, is equipped with guide groove 71, the guiding in Yu Suoshu shell 72 Slot 71 extends along the circular arc direction of the side wall of the shell 72；

The shell 72 includes the inner wall being in contact with the GIS data collector 6 and the separate GIS data collector 6 outer wall；It is concavely provided with auxiliary positioning slot 73 in the inner wall of the shell 72, two auxiliary positioning slots 73 are respectively at Two sides of the guide groove 71 and consistent with 71 extending direction of guide groove.

First sliding block 8 includes columned integrated base 84, and the lower end of Yu Suoshu integrated base 84 is recessed with hemispherical Hinged groove 85；It is connected with sliding support block 83 in the top of the integrated base 84, the sliding support block 83 is pressed in described auxiliary It helps in locating slot 73；The sliding of integrated base 84 is set in the guide groove 71；

It is connected in the upper end of the integrated base 84 or screw thread is screwed with round table-like interior attachment base 81, in described interior The upper end of attachment base 81 is connected with card adapter plate 82；The card adapter plate 82 is connected on the outer wall of the GIS data collector 6.

The leading truck 11 includes lower guide plate 1105, and the upside of Yu Suoshu lower guide plate 1105 is connected in parallel Upper guide plate 1102；

Sliding eye 1103 is surrounded between the upper guide plate 1102 and the lower guide plate 1105；In the upper guide plate The first guide groove 1101 extended along its length is equipped in 1102；Edge is recessed in the top of the lower guide plate 1105 The second guide groove 1104 that its length direction extends；Second guide groove 1104 is connected to the sliding eye 1103.

The display screen 12 includes side plate 124, and the lower end of the side Yu Suoshu 124 is connected with perpendicular lower supporting plate 121, Perpendicular upper backup pad 125 is connected in the upper end of the side plate 124；The upper backup pad 125 and the lower supporting plate 121 are in the same side of the side plate 124；

The first sliding groove 123 extended along its length is recessed in the top of the lower supporting plate 121；In described Sliding is equipped with the first block 122 and the second block 1210 on one sliding slot 123；

It is connected with cylindric adjustment barrel 128 in the lower part of the upper backup pad 125, the adjustment barrel 128 is along described The length direction of upper backup pad 125 extends；

Along the interior guide rod 127 for being screwed with round bar shape axially to its internal screw thread of the adjustment barrel 128, in described interior That slides on guide rod 127 is arranged with sliding cylinder 126；It is equipped with the first sliding in the inner along the axial direction of the sliding cylinder 126 Chamber, first sliding cavity and the interior guide rod 127 are adapted；

It is recessed with the first hinged groove in the lower part of the sliding cylinder 126, is hinged with main screen in the first hinged groove of Yu Suoshu 129；The lower end of the main screen 129 is clamped between first block 122 and second block 1210；In the adjusting The lower part of cylinder 128 offers the first sliding groove, and the sliding of main screen 129 is set in first sliding groove.

Embodiment 3

Further, on the basis of embodiment 2:

It further include the second motor 14 for being bolted to the other end of the mainframe 1；In on second motor 14 Screw thread is screwed with camera assembly 15；

The camera assembly 15 includes the output shaft 1504 of round bar shape, separate second electricity of Yu Suoshu output shaft 1504 The threaded one end of machine 14 is screwed with discoid main mounting disc 1503, in being connected with camera in the main mounting disc 1503 1501, in being covered with hemispherical cloche 1502 in the main mounting disc 1503；The camera 1501 and second electricity Machine 14 is electrically connected with the ARM controller 13.

Although above having made detailed description to the utility model with generality explanation and specific embodiment, On the basis of the utility model, it can be made some modifications or improvements, this is apparent to those skilled in the art 's.Therefore, these modifications or improvements on the basis of without departing from the spirit of the present invention, belong to the utility model and want Seek the range of protection.

Claims (6)

1. a kind of lake grid-based management system, which is characterized in that including data acquisition device and the server being connected electrically；

The data acquisition device includes mainframe (1), is connected with ARM controller (13), Yu Suoshu in Yu Suoshu mainframe (1) One end sliding of mainframe (1) is equipped with display screen (12)；First motor is fixed with bolt in the top of the mainframe (1) (2), hemispherical adjusting cover (3), the lower thread rotation for adjusting cover (3) are covered on the upside of Yu Suoshu first motor (2) It is connected to the upside of the mainframe (1)；The first rotary steering hole, Yu Suoshu first are equipped at the top of adjusting cover (3) The rotary shaft (4) for being equipped with round bar shape rotated in rotary steering hole；The lower thread of the rotary shaft (4) is rotatably connected in described On one motor (2)；

Outer cover (7) are connected in the upper end of the rotary shaft (4)；GIS data collector is equipped in sliding in the outer cover (7) (6)；It is screwed with bottom plate (5) in screw thread on the rotary shaft (4), one end far from the rotary shaft (4) of Yu Suoshu bottom plate (5) It is connected with leading truck (11), sliding is equipped with the second sliding block (10) in Yu Suoshu leading truck (11)；

The first sliding block (8) are equipped in sliding in the outer cover (7), first sliding block (8) is connected in the GIS data collector (6) on outer wall；Support rod (9) are hinged between first sliding block (8) and second sliding block (10)；In the GIS The end face of data collector (6) is connected with angular transducer, and the angular transducer is electrically connected with the ARM controller (13).

2. lake grid-based management system according to claim 1, which is characterized in that the outer cover (7) includes that side wall is ball The shell (72) in face, Yu Suoshu shell (72) is interior to be equipped with guide groove (71), and the guide groove (71) is along the shell (72) Side wall circular arc direction extend；

The shell (72) includes the inner wall being in contact with the GIS data collector (6) and the separate GIS data collector (6) outer wall；It is concavely provided with auxiliary positioning slot (73) in the inner wall of the shell (72), two auxiliary positioning slots (73) point Other places are in the two sides of the guide groove (71) and consistent with the guide groove (71) extending direction.

3. lake grid-based management system according to claim 2, which is characterized in that first sliding block (8) includes cylinder The integrated base (84) of shape, the lower end of Yu Suoshu integrated base (84) are recessed with hemispherical hinged groove (85)；In the integrated base (84) top is connected with sliding support block (83), and the sliding support block (83) is pressed in the auxiliary positioning slot (73)； Integrated base (84) sliding is set in the guide groove (71)；

It is connected in the upper end of the integrated base (84) or screw thread is screwed with round table-like interior attachment base (81), in the interior company The upper end of joint chair (81) is connected with card adapter plate (82)；The card adapter plate (82) is connected in the outer wall of the GIS data collector (6) On.

4. lake grid-based management system according to claim 3, which is characterized in that the leading truck (11) includes lower guiding Plate (1105) is connected with upper guide plate (1102) in parallel on the upside of Yu Suoshu lower guide plate (1105)；

Sliding eye (1103) are surrounded between the upper guide plate (1102) and the lower guide plate (1105)；In the upper guiding The first guide groove (1101) extended along its length is equipped in plate (1102)；In the top of the lower guide plate (1105) It is recessed with the second guide groove (1104) extended along its length；Second guide groove (1104) and the sliding eye (1103) it is connected to.

5. lake grid-based management system according to claim 4, which is characterized in that the display screen (12) includes side plate (124), the lower end of Yu Suoshu side plate (124) is connected with perpendicular lower supporting plate (121), Yu Suoshu side plate (124) it is upper End is connected with perpendicular upper backup pad (125)；The upper backup pad (125) and the lower supporting plate (121) are in described The same side of side plate (124)；

The first sliding groove (123) extended along its length is recessed in the top of the lower supporting plate (121)；In described first Sliding is equipped with the first block (122) and the second block (1210) on sliding slot (123)；

Cylindric adjustment barrel (128) is connected in the lower part of the upper backup pad (125), the adjustment barrel (128) is along institute The length direction for stating upper backup pad (125) extends；

Along the interior guide rod (127) for being screwed with round bar shape axially to its internal screw thread of the adjustment barrel (128), interior led in described That slides on bar (127) is arranged with sliding cylinder (126)；It is equipped with first in the inner along the axial direction of the sliding cylinder (126) Sliding cavity, first sliding cavity and the interior guide rod (127) are adapted；

It is recessed with the first hinged groove in the lower part of the sliding cylinder (126), is hinged with main screen in the first hinged groove of Yu Suoshu (129)；The lower end of the main screen (129) is clamped between first block (122) and second block (1210)；In The lower part of the adjustment barrel (128) offers the first sliding groove, and main screen (129) sliding is set to first sliding groove It is interior.

6. lake grid-based management system according to claim 5, which is characterized in that further include being bolted to the master The second motor (14) of the other end of rack (1)；Camera assembly (15) are screwed in screw thread on second motor (14)；

The camera assembly (15) includes the output shaft (1504) of round bar shape, Yu Suoshu output shaft (1504) far from described second The threaded one end of motor (14) is screwed with discoid main mounting disc (1503), takes the photograph in being connected on the main mounting disc (1503) As head (1501), in being covered with hemispherical cloche (1502) on the main mounting disc (1503)；The camera (1501) It is electrically connected with the ARM controller (13) with second motor (14).