CN209605769U - River dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser - Google Patents
River dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser Download PDFInfo
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- CN209605769U CN209605769U CN201920225144.5U CN201920225144U CN209605769U CN 209605769 U CN209605769 U CN 209605769U CN 201920225144 U CN201920225144 U CN 201920225144U CN 209605769 U CN209605769 U CN 209605769U
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Abstract
The utility model discloses the river dike DEFORMATION MONITORING SYSTEMs based on three-dimensional laser, including monitoring case, laser monitoring device ontology, driving box, driving shaft, driving motor, first angular wheel, second angular wheel, battery, battery bracket, buffer interlayer, dampening assembly, dust excluding plate, protection glass, connecting box, first bearing, steering shaft, connecting rod, display screen, driven shaft, rotating seat, second bearing, loop bar, sliding groove, pin hole, positioning pin, piston, telescopic rod, reinforcing rib and pedestal, the inside top of the monitoring case is equipped with laser monitoring device ontology by bolt, the inside of the monitoring case is equipped with battery bracket by bolt, the center of top of the battery bracket is equipped with driving box by bolt, the top two sides of the battery bracket are provided with battery, the river dike DEFORMATION MONITORING SYSTEM, when in use, energy The monitoring effect of different angle is enough provided, meanwhile, there is good structural stability, it is applied widely.
Description
Technical field
The utility model relates to laser monitoring apparatus fields, specially the river dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser.
Background technique
Jiang Di is for protecting the ecological environment of riverine two sides to have more important meaning;But Jiang Di is when in use, if
It is river dike unstable quality, and by moisture etch and water impact, is easy so that the case where deforming, if supervised not in time
It surveys, there are biggish security risks;Monitoring method in the prior art is usually to use personal monitoring and equipment monitoring;Artificial prison
It surveys and needs a large amount of manpower and material resources, monitoring efficiency is low, and monitoring system in the prior art, and structure is complicated, and it is inconvenient to use,
When in use, it is easy to be shaken impact, leading to monitoring effect, there are errors, meanwhile, monitoring effect is single, is unable to satisfy multidimensional
The effect of monitoring is spent, therefore, river dike DEFORMATION MONITORING SYSTEM of the design based on three-dimensional laser is necessary.
Utility model content
The purpose of this utility model is to provide the river dike DEFORMATION MONITORING SYSTEMs based on three-dimensional laser.
The purpose of this utility model can be achieved through the following technical solutions:
River dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser, including monitoring case, laser monitoring device ontology, driving box, active
It is axis, driving motor, the first angular wheel, the second angular wheel, battery, battery bracket, buffering interlayer, dampening assembly, dust-proof
Plate, protection glass, connecting box, first bearing, steering shaft, connecting rod, display screen, driven shaft, rotating seat, second bearing, loop bar, cunning
Dynamic slot, pin hole, positioning pin, piston, telescopic rod, reinforcing rib and pedestal, the inside top of the monitoring case are equipped with by bolt
The inside of laser monitoring device ontology, the monitoring case is equipped with battery bracket, the center of top of the battery bracket by bolt
Driving box is installed by bolt, the top two sides of the battery bracket are provided with battery, the bottom of the battery bracket
Buffering interlayer is provided between the inner wall of monitoring case, the inside two sides of the buffering interlayer are provided with dampening assembly, described
The side of monitoring case is provided with protection glass, and dust excluding plate is fixedly installed at the top of protection glass, the outside of the monitoring case
Connecting box being installed by bolt, and the side of connecting box is provided with display screen, the bottom of the monitoring case is provided with rotating seat,
By bolt installation, there are three loop bars for the bottom of the rotating seat, and the bottom of the loop bar is provided with telescopic rod, the telescopic rod
Center of inside be filled with reinforcing rib, offer pin hole on the outside of the loop bar, and positioning pin is fitted in pin hole, it is described
Positioning pin passes through pin hole and connect with telescopic rod, and the bottom of the telescopic rod is by being installed by welding with pedestal.
As a further solution of the present invention: the interior side of the driving box is equipped with driving electricity by bolt
Machine, the side of the driving motor are provided with driving shaft, and one end of the driving shaft is equipped with the first conical tooth by connecting key
Wheel, and the outside of the first angular wheel is equipped with the second angular wheel, the bottom of second angular wheel by rack gear engagement
Driven shaft is installed by connecting key.
As a further solution of the present invention: the dampening assembly includes spring base, buffer bar, spring groove and buffering
Spring, the spring base are connected by bolt and the inner wall of monitoring case, and the inside of the spring base offers spring groove, and spring
The inside of slot is fixedly installed with buffer spring, buffer bar is provided at the top of the buffer spring, and buffer bar passes through spring base
It is connect by bolt with battery bracket.
As a further solution of the present invention: the outside of the dampening assembly is filled with yielding rubber.
As a further solution of the present invention: the inside both ends of the connecting box, which pass through bolt, is equipped with first axle
It holds, and is fitted with steering shaft between first bearing, the side of the steering shaft is by being installed by welding with connecting rod, and connecting rod is worn
Connecting box is crossed to connect by screw with display screen.
As a further solution of the present invention: the inside of the rotating seat offers mounting groove, and mounting groove is interior
Portion is filled with second bearing, and the driven shaft passes through monitoring case and is fixedly connected with second bearing.
As a further solution of the present invention: the inside of the loop bar offers sliding groove, the sliding groove it is interior
Portion is provided with piston, and telescopic rod is fixedly connected with the piston across sliding groove.
The utility model has the beneficial effects that
1. the river dike DEFORMATION MONITORING SYSTEM, structure is simple, when in use, telescopic rod is pulled to make piston in sliding groove
Sliding, so that telescopic rod is adjusted to suitable length, screws positioning pin, so that positioning pin passes through pin hole and is fixed on telescopic rod
In loop bar, pedestal is inserted into ground;Driving motor work inside driving box, is able to drive the first angular wheel by driving shaft
Rotation drives driven shaft rotation, due to driven to drive the second angular wheel rotation for engaging connection with the first angular wheel
Axis bottom is connect with the second bearing inside rotating seat, so that driven shaft is rotated in second bearing, so that prison
Measuring tank is rotated, by adjusting the height and rotation monitoring case of telescopic rod;It is monitored by equipment, avoids tradition side
Personal monitoring in method improves monitoring efficiency, applied widely, so as to complete the monitoring effect of various dimensions;
2. when by wind-force and earth shock, buffering the dampening assembly work inside interlayer, shake during monitoring
It is dynamic when being transmitted to spring base, so that buffer bar squeezes the buffer spring inside spring groove, so as to shake alleviation, with good
Good structural stability avoids vibration from impacting laser monitoring device ontology.
Detailed description of the invention
In order to facilitate the understanding of those skilled in the art, the utility model will be further described below with reference to the accompanying drawings.
Fig. 1 is the utility model overall structure diagram;
Fig. 2 is the schematic diagram of internal structure of the utility model monitoring case;
Fig. 3 is the schematic diagram of internal structure of the utility model driving box;
Fig. 4 is the structural schematic diagram of the utility model dampening assembly;
Fig. 5 is the schematic diagram of internal structure of the utility model connecting box;
Fig. 6 is the structural schematic diagram of the utility model loop bar;
In figure: 1, monitoring case;2, laser monitoring device ontology;3, driving box;4, driving shaft;5, driving motor;6, the first cone
Shape gear;7, the second angular wheel;8, battery;9, battery bracket;10, interlayer is buffered;11, dampening assembly;12, dust excluding plate;
13, protection glass;14, connecting box;15, first bearing;16, steering shaft;17, connecting rod;18, display screen;19, driven shaft;20, it revolves
Swivel base;21, second bearing;22, loop bar;23, sliding groove;24, pin hole;25, positioning pin;26, piston;27, telescopic rod;28, add
Strengthening tendons;29, pedestal;111, spring base;112, buffer bar;113, spring groove;114, buffer spring.
Specific embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with embodiment, it is clear that described
Embodiment be only the utility model a part of the embodiment, instead of all the embodiments.Based on the reality in the utility model
Example is applied, all other embodiment obtained by those of ordinary skill in the art without making creative efforts all belongs to
In the range of the utility model protection.
As shown in figures 1 to 6, the river dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser, including monitoring case 1, laser monitoring device ontology
2, driving box 3, driving shaft 4, driving motor 5, the first angular wheel 6, the second angular wheel 7, battery 8, battery bracket 9, slow
Rush interlayer 10, dampening assembly 11, dust excluding plate 12, protection glass 13, connecting box 14, first bearing 15, steering shaft 16, connecting rod 17,
Display screen 18, driven shaft 19, rotating seat 20, second bearing 21, loop bar 22, sliding groove 23, pin hole 24, positioning pin 25, piston 26,
The inside top of telescopic rod 27, reinforcing rib 28 and pedestal 29, monitoring case 1 is equipped with laser monitoring device ontology 2 by bolt, monitoring
The inside of case 1 is equipped with battery bracket 9 by bolt, and the center of top of battery bracket 9 is equipped with driving box 3 by bolt, drives
The interior side of dynamic case 3 is equipped with driving motor 5 by bolt, and the side of driving motor 5 is provided with driving shaft 4, driving shaft 4
One end is equipped with the first angular wheel 6 by connecting key, and the outside of the first angular wheel 6 is equipped with second by rack gear engagement
The bottom of angular wheel 7, the second angular wheel 7 is equipped with driven shaft 19 by connecting key, is convenient for power transmitting;Battery branch
The top two sides of frame 9 are provided with battery 8, convenient for providing power for the system;The bottom of battery bracket 9 and monitoring case 1
Buffering interlayer 10 is provided between inner wall, the inside two sides of buffering interlayer 10 are provided with dampening assembly 11, dampening assembly 11
Outside is filled with yielding rubber, is conducive to improve shock resistance effect, dampening assembly 11 includes spring base 111, buffer bar 112, bullet
Spring slot 113 and buffer spring 114, spring base 111 are connect by bolt with the inner wall of monitoring case 1, and the inside of spring base 111 opens up
There is spring groove 113, and the inside of spring groove 113 is fixedly installed with buffer spring 114, the top of buffer spring 114 is provided with slow
Jumper bar 112, and buffer bar 112 passes through spring base 111 and is connect by bolt with battery bracket 9;Be conducive to improve stablizing effect, keep away
Exempt from jerk to impact monitoring accuracy, the side of monitoring case 1 is provided with protection glass 13, and the top of protection glass 13
It is fixedly installed with dust excluding plate 12, can prevent dust from descending slowly and lightly onto protection glass 13, avoids dust to influence monitoring accuracy;Monitoring
The outside of case 1 is equipped with connecting box 14 by bolt, and the side of connecting box 14 is provided with display screen 18, the inside of connecting box 14
Both ends pass through bolt and are equipped with first bearing 15, and steering shaft 16 is fitted between first bearing 15, steering shaft 16
Side is by being installed by welding with connecting rod 17, and connecting rod 17 passes through connecting box 14 and connect by screw with display screen 18, can will show
Display screen 18 is rotated, convenient for providing the display effect of multi-angle;The bottom of monitoring case 1 is provided with rotating seat 20, rotating seat 20
Inside offer mounting groove, and the inside of mounting groove is filled with second bearing 21, and driven shaft 19 passes through monitoring case 1 and the second axis
It holds 21 to be fixedly connected, is conveniently adjusted the angle of monitoring case 1, there are three loop bar 22, sets by bolt installation for the bottom of rotating seat 20
The bottom of bar 22 is provided with telescopic rod 27, and the inside of loop bar 22 offers sliding groove 23, and sliding groove 23 is internally provided with piston
26, and telescopic rod 27 passes through sliding groove 23 and is fixedly connected with piston 26, is conveniently adjusted the length of telescopic rod 27, is applicable in different make
It is filled with reinforcing rib 28 with the center of inside of demand, telescopic rod 27, can be improved the structural stability of telescopic rod 27;Loop bar 22
Outside offers pin hole 24, and positioning pin 25 is fitted in pin hole 24, and positioning pin 25 passes through pin hole 24 and telescopic rod 27 connects
It connects, the bottom of telescopic rod 27 is by being installed by welding with pedestal 29.
Working principle of the utility model is: in use, pulling telescopic rod 27 to make piston 26 in cunning according to the demand used
Sliding in dynamic slot 23, so that telescopic rod 27 is adjusted to suitable length, screws positioning pin 25, so that positioning pin 25 passes through pin hole
24 are fixed on telescopic rod 27 in loop bar 22, pedestal 29 are inserted into ground, the battery 8 at 9 top of battery bracket is system confession
Electricity, turning display screen 18, so that connecting rod 17 and steering shaft 16 rotate in the first bearing 15 inside connecting box 14, to will show
Display screen 18 turns to suitable angle, and laser monitoring device ontology 2 works, and exploring laser light is emitted to river by protection glass 13
Dike, when needing to monitor the different locations Jiang Di, driving motor 5 inside driving box 3 works, and is able to drive the by driving shaft 4
The rotation of one angular wheel 6 drives driven shaft to drive the second angular wheel 7 rotation for engaging connection with the first angular wheel 6
19 rotations, since 19 bottom of driven shaft is connect with the second bearing 21 inside rotating seat 20, so that driven shaft 19 exists
Second bearing 21 rotates, so that monitoring case 1 is rotated, by adjusting the height and rotation monitoring case 1 of telescopic rod 27,
So as to complete the monitoring effect of various dimensions;During monitoring, when by wind-force and earth shock, interlayer 10 is buffered
Internal dampening assembly 11 works, when vibration is transmitted to spring base 111, so that buffer bar 112 squeezes delaying inside spring groove 113
Spring 114 is rushed, so as to which alleviation will be shaken, vibration is avoided to impact laser monitoring device ontology 2.
The preferred embodiment in the utility model disclosed above is only intended to help to illustrate the utility model.Preferred embodiment is simultaneously
There is no the details that detailed descriptionthe is all, also not limiting the utility model is only the specific embodiment.Obviously, according to this theory
The content of bright book can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to preferably
The principles of the present invention and practical application are explained, so that skilled artisan be enable to better understand and utilize this
Utility model.The utility model is limited only by the claims and their full scope and equivalents.
Claims (7)
1. the river dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser, which is characterized in that including monitoring case (1), laser monitoring device ontology
(2), driving box (3), driving shaft (4), driving motor (5), the first angular wheel (6), the second angular wheel (7), battery
(8), battery bracket (9), buffering interlayer (10), dampening assembly (11), dust excluding plate (12), protection glass (13), connecting box (14),
First bearing (15), steering shaft (16), connecting rod (17), display screen (18), driven shaft (19), rotating seat (20), second bearing
(21), loop bar (22), sliding groove (23), pin hole (24), positioning pin (25), piston (26), telescopic rod (27), reinforcing rib (28) and
The inside top of pedestal (29), the monitoring case (1) is equipped with laser monitoring device ontology (2), the monitoring case (1) by bolt
Inside be equipped with battery bracket (9) by bolt, the center of top of the battery bracket (9) is equipped with driving box by bolt
(3), the top two sides of the battery bracket (9) are provided with battery (8), the bottom of the battery bracket (9) and monitoring case
(1) buffering interlayer (10) is provided between inner wall, the inside two sides of buffering interlayer (10) are provided with dampening assembly
(11), the side of the monitoring case (1) is provided with protection glass (13), and is fixedly installed at the top of protection glass (13) dust-proof
The outside of plate (12), the monitoring case (1) is equipped with connecting box (14) by bolt, and the side of connecting box (14) be provided with it is aobvious
The bottom of display screen (18), the monitoring case (1) is provided with rotating seat (20), and the bottom of the rotating seat (20) is installed by bolt
There are three loop bar (22), the bottom of the loop bar (22) is provided with telescopic rod (27), and the center of inside of the telescopic rod (27) is filled out
It filled with reinforcing rib (28), is offered pin hole (24) on the outside of the loop bar (22), and is fitted with positioning pin in pin hole (24)
(25), the positioning pin (25) passes through pin hole (24) and connect with telescopic rod (27), and the bottom of the telescopic rod (27) passes through welding
Pedestal (29) are installed.
2. the river dike DEFORMATION MONITORING SYSTEM according to claim 1 based on three-dimensional laser, which is characterized in that the driving box
(3) interior side is equipped with driving motor (5) by bolt, and the side of the driving motor (5) is provided with driving shaft (4),
One end of the driving shaft (4) is equipped with the first angular wheel (6) by connecting key, and the outside of the first angular wheel (6) is logical
It crosses rack gear engagement to be equipped with the second angular wheel (7), the bottom of second angular wheel (7) is equipped with driven by connecting key
Axis (19).
3. the river dike DEFORMATION MONITORING SYSTEM according to claim 1 based on three-dimensional laser, which is characterized in that the damping group
Part (11) includes spring base (111), buffer bar (112), spring groove (113) and buffer spring (114), the spring base (111)
It is connect by bolt with the inner wall of monitoring case (1), the inside of the spring base (111) offers spring groove (113), and spring groove
(113) inside is fixedly installed with buffer spring (114), is provided with buffer bar (112) at the top of the buffer spring (114),
And buffer bar (112) passes through spring base (111) and is connect by bolt with battery bracket (9).
4. the river dike DEFORMATION MONITORING SYSTEM according to claim 1 based on three-dimensional laser, which is characterized in that the damping group
The outside of part (11) is filled with yielding rubber.
5. the river dike DEFORMATION MONITORING SYSTEM according to claim 1 based on three-dimensional laser, which is characterized in that the connecting box
(14) inside both ends pass through bolt and are equipped with first bearing (15), and are fitted with steering shaft between first bearing (15)
(16), the side of the steering shaft (16) is by being installed by welding with connecting rod (17), and connecting rod (17) passes through connecting box (14) and passes through
Screw is connect with display screen (18).
6. the river dike DEFORMATION MONITORING SYSTEM according to claim 1 based on three-dimensional laser, which is characterized in that the rotating seat
(20) inside offers mounting groove, and the inside of mounting groove is filled with second bearing (21), and the driven shaft (19) passes through prison
Measuring tank (1) is fixedly connected with second bearing (21).
7. the river dike DEFORMATION MONITORING SYSTEM according to claim 1 based on three-dimensional laser, which is characterized in that the loop bar
(22) inside offers sliding groove (23), and the sliding groove (23) is internally provided with piston (26), and telescopic rod (27) is worn
Sliding groove (23) is crossed to be fixedly connected with piston (26).
Priority Applications (1)
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CN201920225144.5U CN209605769U (en) | 2019-02-22 | 2019-02-22 | River dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser |
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CN201920225144.5U CN209605769U (en) | 2019-02-22 | 2019-02-22 | River dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109596061A (en) * | 2019-02-22 | 2019-04-09 | 苏州晓齐信息科技有限公司 | River dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser |
CN113177375A (en) * | 2021-05-06 | 2021-07-27 | 浙江上风高科专风实业股份有限公司 | Method for calculating flow-induced noise of sweeper fan |
CN114484201A (en) * | 2021-12-26 | 2022-05-13 | 中建新疆建工土木工程有限公司 | A device that is used for support system non-contact high accuracy deformation monitoring |
-
2019
- 2019-02-22 CN CN201920225144.5U patent/CN209605769U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109596061A (en) * | 2019-02-22 | 2019-04-09 | 苏州晓齐信息科技有限公司 | River dike DEFORMATION MONITORING SYSTEM based on three-dimensional laser |
CN113177375A (en) * | 2021-05-06 | 2021-07-27 | 浙江上风高科专风实业股份有限公司 | Method for calculating flow-induced noise of sweeper fan |
CN114484201A (en) * | 2021-12-26 | 2022-05-13 | 中建新疆建工土木工程有限公司 | A device that is used for support system non-contact high accuracy deformation monitoring |
CN114484201B (en) * | 2021-12-26 | 2024-01-26 | 中建新疆建工土木工程有限公司 | Device for non-contact high-precision deformation monitoring of bracket system |
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