LU505960B1 - Traffic intelligent electronic monitoring device - Google Patents

Abstract

The present invention relates to the technical field of monitoring device, in particular to a traffic intelligent electronic monitoring device, comprising µ a mounting seat, the surface of the mounting seat is fixedly connected to a first fixing column, the top end of the first fixing column is fixedly connected to a first sleeve shell, the top of first sleeve shell is provided with a second sleeve shell, and the first sleeve shell is symmetrically arranged with the second sleeve shell. The invention provides a transverse rotation defogging mechanism, which enables the device to conveniently scan the circumferential environment after arrangement, and can also conveniently perform defogging operations on the electronic monitoring screen; by setting vertical angle adjustment measures, it is convenient to adjust the vertical angle during device arrangement; by setting cleaning assembles, it is convenient to clean the glass of electronic monitoring device cameras, reducing manual operation.

Description

DESCRIPTION

TRAFFIC INTELLIGENT ELECTRONIC MONITORING DEVICE

TECHNICAL FIELD

The present invention relates to the technical field of monitoring device, in particular to a traffic intelligent electronic monitoring device.

BACKGROUND

Traffic intelligent electronic monitoring device is a use of electronic technology, sensor technology, computer technology and other means of road traffic monitoring, recording and management device. The application scope of transportation intelligent electronic monitoring device 1s very wide, including various fields such as urban roads, highways, bridges, tunnels, etc.

At the same time, traffic intelligent electronic monitoring devices can detect information such as traffic flow and speed, providing data support for traffic management. In short, traffic intelligent electronic monitoring devices are a very useful tool for traffic safety and management, which can bring more convenience and protection to road traffic safety and management.

Under retrieval, the patent document with publication number CN108833826A discloses an electronic monitoring device for intelligent traffic management, comprising a mounting seat, and a monitoring body arranged inside the mounting seat; the left end face of the mounting seat is provided with a locking mechanism, and the left side face of the top end face of the mounting seat is fixedly provided with a top seat; the left end face of the top seat is provided with a first sliding groove, the first sliding groove is slidingly provided with a first sliding block, and a second sliding groove is provided in the top wall of the first sliding groove.

The prior art mentioned above often have the following issues when used:

The existing electronic monitoring devices for traffic intelligence are used with a suitable shooting angle due to the different arrangement locations of the electronic monitoring devices in order to better capture road conditions. Therefore, there should be comprehensive angle adjustment measures, including horizontal and vertical angle adjustment, and some electronic monitoring devices need to use a panoramic view of the environment when in use. At the same time, due to the fact that electronic monitoring devices for traffic are often used outdoors, monitoring devices often accumulate some dust on the glass, which adheres to the glass under the wetting of rain and dew, requiring manual cleaning and maintenance. However, the work requires high intensity and low efficiency.

SUMMARY

The purpose of the invention is to provide a traffic intelligent electronic monitoring device that can conveniently and comprehensively adjust the vertical and horizontal angles of electronic monitoring devices and clean the probe glass of electronic monitoring devices, in response to the lack of convenient measures for vertical and horizontal angle adjustment of electronic monitoring devices and the lack of cleaning measures for probe glass of electronic monitoring devices, as proposed in the above mentioned background technology.

Technical solutions of the disclosure are described as follows:

À traffic intelligent electronic monitoring device, comprising a mounting seat, the surface of the mounting seat is fixedly connected to a first fixing column, the top end of the first fixing column is fixedly connected to a first sleeve shell, the top of first sleeve shell is provided with a second sleeve shell, and the first sleeve shell is symmetrically arranged with the second sleeve shell; a support column rotating between the first sleeve shell and the second sleeve shell, a transverse rotation defogging mechanism is provided between the first sleeve shell and the second sleeve shell; the surface of the second sleeve shell is fixedly connected to a second fixing column, the top end of the second fixing column is fixedly connected to a third sleeve shell, the side of the third sleeve shell is provided with a fourth sleeve shell, and the third sleeve shell is symmetrically arranged with the fourth sleeve shell; a vertical angle adjustment assembly is provided between the third sleeve shell and the fourth sleeve shell, the fourth sleeve shell is fixedly connected to the circumferential side wall by a third fixing column, the top of the third fixing column is provided with an electronic monitoring body, the surface of the electronic monitoring body is fixedly connected to a casing, and a cleaning assembly is provided inside the casing.

Further, the transverse rotation defogging mechanism comprises a first annular plate fixedly connected to the bottom surface of the first sleeve shell, the surface of the first annular plate is fixedly connected to a plurality of first triangular prism buckles at equal intervals, second triangular prism buckles are arranged between the plurality of first triangular prism buckles, the surface of plurality of second triangular prism buckles are fixedly connected to first guide rods, the side walls of plurality of first guide rods are symmetrically fixed and connected with two limit plates, the plurality of first guide rods and limit plates are slidingly connected to the surface of the second sleeve shell, the plurality of first guide rods are sleeved with a first spring outside, the top of plurality of first guide rods is fixedly connected to a second annular plate, the circumferential side walls of the second fixing column are fixedly connected to a third annular plate, the bottom surface of the third annular plate is fixedly connected to four first sleeves at equal intervals, the four first sleeves are all slidingly connected with sliding rods, the bottom surface of the four sliding rods is fixedly connected to the surface of the second annular plate, the top end of four sliding rods are fixedly provided with pistons, the circumferential side walls of multiple pistons are tightly adhered to the inner walls of the four first sleeves, the surface of the four first sleeves is connected to a first pipeline, and four first pipelines are all connected to a second pipeline, the initial output end of the second pipeline is located at the output end of the electronic monitoring device, and the surface of the mounting seat is fixedly connected to a motor, the output end of the motor is fixedly connected to a first gear, the second fixing column is circumferential fixedly connected to a second gear, and the first gear meshes with the second gear.

Further, the vertical angle adjustment assembly comprises a second sleeve fixed to the side wall of the third sleeve shell, the inner wall of the second sleeve is slidably connected to a sliding plate, a third spring is fixedly connected between the side wall of the sliding plate and the second sleeve, the other side wall of the sliding plate is rotationally connected to a rotating rod through a bearing, the rotating rod rotationally sliding connected to the side wall of the third sleeve shell, the side end of the rotating rod is fixedly connected to the inner wall of the fourth sleeve shell, the third sleeve shell and the inner wall of the fourth sleeve shell are fixedly connected with a fourth annular plate, the two fourth annular plates are fixedly connected with multiple third triangular prism buckles at equal intervals on the opposite side walls, the inner wall of the third sleeve shell is fixedly connected with an annular support column, the outer part of the annular support column is provided with a torsion spring, the two ends of the torsion spring are fixedly connected to the inner wall of the third sleeve shell and the inner wall of the fourth sleeve shell.

Further, the cleaning assembly comprises a through groove provided on the bottom surface of the casing and the surface of the electronic monitoring body, a second guide rod is fixedly connected between the side walls of the casing, a sliding block is slidably sleeved on the second guide rod, the bottom surface of the sliding block is fixedly connected to a scraping rod, the bottom surface of the casing is rotatably connected to a swinging rod through a pin shaft, the two ends of the swinging rod are respectively provided with a first groove and a second groove, the first groove is slidably connected to a first moving rod, the second groove is slidably connected to a second moving rod, the first moving rod is fixedly connected to the first groove with a fourth spring, the second groove is fixedly connected to the second moving rod with a fifth spring, the side end of the first moving rod is hinged to the side wall of the sliding block, the casing is provided with a rotary shaft, the rotary shaft is rotatably connected to the surface of the casing through the bearing, the bottom end of the rotary shaft is fixedly connected to a turntable, the bottom surface of the turntable is fixedly connected to a third guide rod, the third guide rod is provided with a guide groove body outside, the side end of the second moving rod is hinged with the side end of the guide groove body, the side walls of the guide groove body are fixedly connected to a fourth guide rod, the bottom surface of the casing is fixedly connected to two guide plates, the two fourth guide rods are respectively sliding connected to the side walls of the guide plate, the top of the rotary shaft is fixedly connected to a spiral fan blade, and the side wall of the sliding block is fixedly connected to the inner wall of the casing with a sixth spring.

Further, a plurality of first triangular prism buckles are engaged with a plurality of second triangular prism buckles, and a plurality of third triangular prism buckles are engaged pairwise.

Further, the surface of the casing is fixedly connected to a deflector through a bracket.

Further, the side wall of the fourth sleeve shell is fixedly connected with a pull handle.

Further, the scraping rod is located in the through groove and adheres to the glass surface of the electronic monitoring body.

The technical solution provided by the invention has the following beneficial effects: 1. The invention enables the device to conveniently scan the circumferential environment after arrangement by setting the transverse rotation defogging mechanism, thereby enabling the electronic monitoring device to capture various perspectives during use. Through the mutual cooperation between two circles of interlocking triangular prism buckles, one circle of triangular prism buckles can achieve a telescopic effect.

When rotating, the triangular prism buckle on one side loses its limit position and can be directly rotated to change the overall position of the triangular prism buckle on that side.

At the same time, under the action of the spring, there is a clamping effect between the triangular prism buckles that complete the transformation, enhancing the stability of rotation.

When the electronic monitoring device rotates, it drives the first guide rod to move up and down, driving multiple pistons to move, thereby enabling the gas inside the first sleeve to flow to the surface of the camera screen through the cleaning tube, which can perform defogging operations on the surface of the camera to avoid water vapor and mist affecting the normal operation of the monitoring device.

2. The invention enables for convenient vertical angle adjustment during device arrangement by setting vertical angle adjustment measures.

Due to the different arrangement heights of electronic monitoring device, it is necessary to adjust the vertical angle to achieve better shooting results.

Two circles of interlocking triangular prism buckles are used, and one side of the triangular prism buckle is tightly clamped with the other side under the action of the spring.

Therefore, pulling the triangular prism buckle on one side changes its overall angle, and with the cooperation of the torsion spring and spring, the state of the electronic monitoring device that completes angle adjustment is fixed, thereby achieving convenient vertical angle adjustment of the electronic monitoring device.

Compared to traditional adjustment methods, there will be no rusting or slipping caused by traditional angle adjustment measures, which has strong stability, longer service life, and is not easily affected by outdoor environments.

3. The invention can conveniently clean the glass of electronic monitoring device cameras by setting cleaning assembles, reducing manual operation, making it more efficient and safer.

By utilizing the outdoor wind direction and using deflector to change the direction of passing wind, the spiral fan blades are blown to rotate, converting the rotation of the spiral fan blades into the reciprocating movement of the scraper, thereby achieving the cleaning of the glass of electronic monitoring device cameras.

By the action of springs, the scraper is located at the farthest side when not in operation, avoiding the position where the scraper stops blocking the captured image, thus achieving efficient cleaning of the glass of electronic monitoring device cameras.

DESCRIPTION OF THE DRAWINGS

Fig. 1 is a three-dimensional schematic diagram of a traffic intelligent electronic monitoring device provided by the present invention;

Fig. 2 is a three-dimensional schematic diagram of another perspective of a traffic intelligent electronic monitoring device provided by the present invention;

Fig. 3 is a schematic diagram of the three-dimensional structure analysis of a traffic intelligent electronic monitoring device provided by the present invention;

Fig. 4 is a schematic diagram of a three-dimensional structure analysis from another perspective of a traffic intelligent electronic monitoring device provided by the present invention;

Fig. 5 is an enlarged view of Part A of Fig. 3;

Fig. 6 is an enlarged view of Part B of Fig. 3;

Fig. 7 is an enlarged view of Part C of Fig. 4.

In the drawings: 1. mounting seat, 2. first fixing column, 3. first sleeve shell, 4. second sleeve shell, 5. second fixing column, 6. third sleeve shell, 7. fourth sleeve shell, 8. third fixing column, 9. electronic monitoring body, 10. casing, 11. first annular plate, 12. first triangular prism buckle, 13. second triangular prism buckle, 14. first guide rod, 15. limit plate, 16. second annular plate, 17. third annular plate, 18. first sleeve, 19. sliding rod, 20. motor, 21. second sleeve, 22. sliding plate, 23. rotating rod, 24. fourth annular plate, 25. third triangular prism buckle, 26. annular support column, 27. torsion spring, 28. through groove, 29. second guide rod, 30. sliding block, 31. scraping rod, 32. swinging rod, 33. first groove, 34. second groove, 35. first moving rod, 36, second moving rod, 37. rotary shaft, 38. turntable, 39. third guide rod, 40. guide groove, 41. fourth guide rod, 42. guide plate, 43. spiral fan blade, 44. deflector.

DETAILED DESCRIPTION OF EMBODIMENTS

The following embodiments are for illustrative purposes only and are not intended to limit the scope of the invention.

As shown in Figs. 1-7, a traffic intelligent electronic monitoring device, comprising a mounting seat 1, the surface of the mounting seat 1 is fixedly connected to a first fixing column 2,

the top end of the first fixing column 2 is fixedly connected to a first sleeve shell 3, the top of first sleeve shell 3 is provided with a second sleeve shell 4, and the first sleeve shell 3 is symmetrically arranged with the second sleeve shell 4; a support column rotating between the first sleeve shell 3 and the second sleeve shell 4, which is used to connect the first shell shell 3 and the second sleeve shell 4, and also provides support for their relative positions; a transverse rotation defogging mechanism is provided between the first sleeve shell 3 and the second sleeve shell 4; the surface of the second sleeve shell 4 is fixedly connected to a second fixing column 5, the top end of the second fixing column 5 is fixedly connected to a third sleeve shell 6, the side of the third sleeve shell 6 is provided with a fourth sleeve shell 7, and the third sleeve shell 6 is symmetrically arranged with the fourth sleeve shell 7; a vertical angle adjustment assembly is provided between the third sleeve shell 6 and the fourth sleeve shell 7, the fourth sleeve shell 7 is fixedly connected to the circumferential side wall by a third fixing column 8, the top of the third fixing column 8 is provided with an electronic monitoring body 9, the transverse rotation defogging mechanism comprises a first annular plate 11 fixedly connected to the bottom surface of the first sleeve shell 3, the surface of the first annular plate 11 is fixedly connected to a plurality of first triangular prism buckles 12 at equal intervals, second triangular prism buckles 13 are arranged between the plurality of first triangular prism buckles 12, the surface of plurality of second triangular prism buckles 13 are fixedly connected to first guide rods 14, the side walls of plurality of first guide rods 14 are symmetrically fixed and connected with two limit plates 15, the plurality of first guide rods 14 and limit plates 15 are slidingly connected to the surface of the second sleeve shell 4, the plurality of first guide rods 14 are sleeved with a first spring outside, the top of plurality of first guide rods 14 is fixedly connected to a second annular plate 16, the circumferential side walls of the second fixing column 5 are fixedly connected to a third annular plate 17, the bottom surface of the third annular plate 17 is fixedly connected to four first sleeves 18 at equal intervals, the four first sleeves 18 are all slidingly connected with sliding rods 19, the bottom surface of the four sliding rods 19 is fixedly connected to the surface of the second annular plate 16, the top end of four sliding rods 19 are fixedly provided with pistons, the circumferential side walls of multiple pistons are tightly adhered to the inner walls of the four first sleeves 18, the surface of the four first sleeves 18 is connected to a first pipeline, and four first pipelines are all connected to a second pipeline, the initial output end of the second pipeline is located at the output end of the electronic monitoring device, and the surface of the mounting seat 1 is fixedly connected to a motor 20, the output end of the motor 20 is fixedly connected to a first gear, the second fixing column 5 is circumferential fixedly connected to a second gear, and the first gear meshes with the second gear, the vertical angle adjustment assembly comprises a second sleeve 21 fixed to the side wall of the third sleeve shell 6, the inner wall of the second sleeve 21 is slidably connected to a sliding plate 22, a third spring is fixedly connected between the side wall of the sliding plate 22 and the second sleeve 21, the other side wall of the sliding plate 22 is rotationally connected to a rotating rod 23 through a bearing, the rotating rod 23 rotationally sliding connected to the side wall of the third sleeve shell 6, the side end of the rotating rod 23 is fixedly connected to the inner wall of the fourth sleeve shell 7, the third sleeve shell 6 and the inner wall of the fourth sleeve shell 7 are fixedly connected with a fourth annular plate 24, the two fourth annular plates 24 are fixedly connected with multiple third triangular prism buckles 25 at equal intervals on the opposite side walls, the inner wall of the third sleeve shell 6 is fixedly connected with an annular support column 26, the outer part of the annular support column 26 is provided with a torsion spring 27, the two ends of the torsion spring 27 are fixedly connected to the inner wall of the third sleeve shell 6 and the inner wall of the fourth sleeve shell 7, a plurality of first triangular prism buckles 12 are engaged with a plurality of second triangular prism buckles 13, and a plurality of third triangular prism buckles 25 are engaged pairwise, the side wall of the fourth sleeve shell 7 is fixedly connected with a pull handle, making it convenient for workers to use;

When in use, after the arrangement of the device is completed, due to the small number of electronic monitoring devices on some road sections, electronic monitoring devices are needed to take a panoramic view, enabling the device to capture various angles. When in work, start the motor 20, which drives the first gear to rotate, and then through meshing transmission, drive the second gear to rotate. The second gear rotates, driving the second fixing column 5 and the second sleeve shell 4 to rotate, causing the shooting angle of the device to rotate. And when rotation occurs, the rotation of the second sleeve shell 4 will drive multiple second triangular prism buckles 13 to rotate, and inclined plane of second triangular prism buckles 13 is against the inclined plane of the first triangular prism buckle 12. Under pressure, multiple second triangular prism buckles 13 drive the first guide rod 14 and two limit plates 15 to move upwards. After a certain angle of rotation, multiple second triangular prism buckles 13 and multiple first triangular prism buckles 12 will be replaced with inclined surfaces adjacent to the direction of rotation.

When rotating, multiple first guide rods 14 and multiple limit plates 15 move upwards, driving the second annular plate 16 to move upwards, which will drive multiple sliding rods 19 and pistons to slide inside the first sleeve 18, causing the gas inside the first sleeve 18 to blow through the first and second pipes to the glass screen of the device, and then remove the water vapor and mist on the surface of the device glass through the flowing gas, ensuring the shooting proceeds smoothly. Under the action of the first spring, the second triangular prism buckle 13 bounces back, achieving engagement again. When the motor rotates, the above process is repeated to achieve defogging work during device panoramic photography. Due to different arrangement heights, when it is necessary to adjust the vertical angle, pull the handle to pull the third sleeve shell 6, so that the third triangular prism buckle 25 is detached from the buckle inside the third sleeve shell 6, and then rotate to the appropriate angle and release the pull handle.

Under the action of the third spring, the third triangular prism buckle 25 of the fourth sleeve shell 7 will reengage with the third triangular prism buckle 25 inside the third sleeve shell 6. At the same time, under the action of the third spring and the torsion spring 27, the two buckles maintain the clamping effect, thereby completing the fixation of the adjusted angle of the device.

By horizontally rotating the defogging mechanism and vertically adjusting the angle adjustment assembly, the shooting angle can be comprehensively adjusted, which is more convenient and practical. Compared to traditional adjustment methods, there will be no rusting or slipping caused by traditional angle adjustment measures, which has strong stability, longer service life, and is not easily affected by outdoor environments.

The surface of the electronic monitoring body 9 is fixedly connected to a casing 10, and a cleaning assembly is provided inside the casing 10, the cleaning assembly comprises a through groove 28 provided on the bottom surface of the casing 10 and the surface of the electronic monitoring body 9, a second guide rod 29 is fixedly connected between the side walls of the casing 10, a sliding block 30 is slidably sleeved on the second guide rod 29, the bottom surface of the sliding block 30 is fixedly connected to a scraping rod 31, the bottom surface of the casing is rotatably connected to a swinging rod 32 through a pin shaft, the two ends of the swinging rod 32 are respectively provided with a first groove 33 and a second groove 34, the first groove

33 is slidably connected to a first moving rod 35, the second groove 34 is slidably connected to a second moving rod 36, the first moving rod 35 is fixedly connected to the first groove 34 with a fourth spring, the second groove 34 is fixedly connected to the second moving rod 36 with a fifth spring, the side end of the first moving rod 35 1s hinged to the side wall of the sliding block 30, the casing is provided with a rotary shaft, the rotary shaft 37 1s rotatably connected to the surface of the casing 10 through the bearing, the bottom end of the rotary shaft 37 is fixedly connected to a turntable 38, the bottom surface of the turntable 38 is fixedly connected to a third guide rod 39, the third guide rod 39 is provided with a guide groove body 40 outside, the side end of the second moving rod 36 is hinged with the side end of the guide groove body 40, the side walls of the guide groove body 40 are fixedly connected to a fourth guide rod 41, the bottom surface of the casing 10 is fixedly connected to two guide plates 42, the two fourth guide rods 41 are respectively sliding connected to the side walls of the guide plate 42, the top of the rotary shaft 37 is fixedly connected to a spiral fan blade 43, and the side wall of the sliding block 30 is fixedly connected to the inner wall of the casing 10 with a sixth spring, the surface of the casing 10 is fixedly connected to a deflector 44 through a bracket, the scraping rod 31 is located in the through groove 28 and adheres to the glass surface of the electronic monitoring body 9;

After arrangement is completed and the device is put into use, due to its outdoor location, it is necessary to regularly clean the glass of the camera to ensure the clarity of the captured images.

By using the deflector 44 to change the direction of passing wind, the spiral fan blade 43 is blown to rotate, driving the turntable 38 to rotate, the turntable 38 rotates, driving the third guide rod 39 to rotate; under the limit of the guide plate 42 and the fourth guide rod 41, the guide groove 40 undergoes left and right reciprocating movement, which in turn causes the swinging rod 32 to undergo reciprocating movement, causing the sliding block 30 to move left and right along the second guide rod 29, thereby achieving cleaning of the glass surface of the camera and scraping off stains, dust, etc. By the action of springs, the scraper is located at the farthest side when not in operation, avoiding the position where the scraper stops blocking the captured image, thus achieving efficient cleaning of the glass of electronic monitoring device cameras.

The working principle of the invention is as follows:

When in use, after the arrangement of the device is completed, due to the small number of electronic monitoring devices on some road sections, electronic monitoring devices are needed to take a panoramic view, enabling the device to capture various angles. When in work, start the motor 20, which drives the first gear to rotate, and then through meshing transmission, drive the second gear to rotate. The second gear rotates, driving the second fixing column 5 and the second sleeve shell 4 to rotate, causing the shooting angle of the device to rotate. And when rotation occurs, the rotation of the second sleeve shell 4 will drive multiple second triangular prism buckles 13 to rotate, and inclined plane of second triangular prism buckles 13 is against the inclined plane of the first triangular prism buckle 12. Under pressure, multiple second triangular prism buckles 13 drive the first guide rod 14 and two limit plates 15 to move upwards. After a certain angle of rotation, multiple second triangular prism buckles 13 and multiple first triangular prism buckles 12 will be replaced with inclined surfaces adjacent to the direction of rotation.

When rotating, multiple first guide rods 14 and multiple limit plates 15 move upwards, driving the second annular plate 16 to move upwards, which will drive multiple sliding rods 19 and pistons to slide inside the first sleeve 18, causing the gas inside the first sleeve 18 to blow through the first and second pipes to the glass screen of the device, and then remove the water vapor and mist on the surface of the device glass through the flowing gas, ensuring the shooting proceeds smoothly. Under the action of the first spring, the second triangular prism buckle 13 bounces back, achieving engagement again. When the motor rotates, the above process is repeated to achieve defogging work during device panoramic photography. Due to different arrangement heights, when it is necessary to adjust the vertical angle, pull the handle to pull the third sleeve shell 6, so that the third triangular prism buckle 25 is detached from the buckle inside the third sleeve shell 6, and then rotate to the appropriate angle and release the pull handle.

Under the action of the third spring, the third triangular prism buckle 25 of the fourth sleeve shell 7 will reengage with the third triangular prism buckle 25 inside the third sleeve shell 6. At the same time, under the action of the third spring and the torsion spring 27, the two buckles maintain the clamping effect, thereby completing the fixation of the adjusted angle of the device.

By horizontally rotating the defogging mechanism and vertically adjusting the angle adjustment assembly, the shooting angle can be comprehensively adjusted, which is more convenient and practical. Compared to traditional adjustment methods, there will be no rusting or slipping caused by traditional angle adjustment measures, which has strong stability, longer service life, and is not easily affected by outdoor environments;

After arrangement 1s completed and the device 1s put into use, due to its outdoor location, it is necessary to regularly clean the glass of the camera to ensure the clarity of the captured images.

By using the deflector 44 to change the direction of passing wind, the spiral fan blade 43 is blown to rotate, driving the turntable 38 to rotate, the turntable 38 rotates, driving the third guide rod 39 to rotate; under the limit of the guide plate 42 and the fourth guide rod 41, the guide groove 40 undergoes left and right reciprocating movement, which in turn causes the swinging rod 32 to undergo reciprocating movement, causing the sliding block 30 to move left and right along the second guide rod 29, thereby achieving cleaning of the glass surface of the camera and scraping off stains, dust, etc. By the action of springs, the scraper is located at the farthest side when not in operation, avoiding the position where the scraper stops blocking the captured image, thus achieving efficient cleaning of the glass of electronic monitoring device cameras.

The above is only a preferred embodiment of the invention and is not intended to limit the invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the invention shall be included within the scope of protection of the present invention.

Claims (8)

1. À traffic intelligent electronic monitoring device, comprising a mounting seat (1), wherein the surface of the mounting seat (1) 1s fixedly connected to a first fixing column (2), the top end of the first fixing column (2) is fixedly connected to a first sleeve shell (3), the top of first sleeve shell (3) is provided with a second sleeve shell (4), and the first sleeve shell (3) is symmetrically arranged with the second sleeve shell (4); a support column rotating between the first sleeve shell (3) and the second sleeve shell (4), a transverse rotation defogging mechanism is provided between the first sleeve shell (3) and the second sleeve shell (4); the surface of the second sleeve shell (4) is fixedly connected to a second fixing column (5), the top end of the second fixing column (5) is fixedly connected to a third sleeve shell (6), the side of the third sleeve shell (6) is provided with a fourth sleeve shell (7), and the third sleeve shell (6) is symmetrically arranged with the fourth sleeve shell (7); a vertical angle adjustment assembly is provided between the third sleeve shell (6) and the fourth sleeve shell (7), the fourth sleeve shell (7) 1s fixedly connected to the circumferential side wall by a third fixing column (8), the top of the third fixing column (8) is provided with an electronic monitoring body (9), the surface of the electronic monitoring body (9) is fixedly connected to a casing (10), and a cleaning assembly is provided inside the casing (10).

2. The traffic intelligent electronic monitoring device according to claim 1, wherein the transverse rotation defogging mechanism comprises a first annular plate (11) fixedly connected to the bottom surface of the first sleeve shell (3), the surface of the first annular plate (11) is fixedly connected to a plurality of first triangular prism buckles (12) at equal intervals, second triangular prism buckles (13) are arranged between the plurality of first triangular prism buckles (12), the surface of plurality of second triangular prism buckles (13) are fixedly connected to first guide rods (14), the side walls of plurality of first guide rods (14) are symmetrically fixed and connected with two limit plates (15), the plurality of first guide rods (14) and limit plates (15) are slidingly connected to the surface of the second sleeve shell (4), the plurality of first guide rods (14) are sleeved with a first spring outside, the top of plurality of first guide rods (14) is fixedly connected to a second annular plate (16), the circumferential side walls of the second fixing column (5) are fixedly connected to a third annular plate (17), the bottom surface of the third annular plate (17) is fixedly connected to four first sleeves (18) at equal intervals, the four first sleeves (18) are all slidingly connected with sliding rods (19), the bottom surface of the four sliding rods (19) is fixedly connected to the surface of the second annular plate (16), the top end of four sliding rods (19) are fixedly provided with pistons, the circumferential side walls of multiple pistons are tightly adhered to the inner walls of the four first sleeves (18), the surface of the four first sleeves (18) is connected to a first pipeline, and four first pipelines are all connected to a second pipeline, the initial output end of the second pipeline is located at the output end of the electronic monitoring device, and the surface of the mounting seat (1) is fixedly connected to a motor (20), the output end of the motor (20) is fixedly connected to a first gear, the second fixing column (5) is circumferential fixedly connected to a second gear, and the first gear meshes with the second gear.

3. The traffic intelligent electronic monitoring device according to claim 2, wherein the vertical angle adjustment assembly comprises a second sleeve (21) fixed to the side wall of the third sleeve shell (6), the inner wall of the second sleeve (21) is slidably connected to a sliding plate (22), a third spring is fixedly connected between the side wall of the sliding plate (22) and the second sleeve (21), the other side wall of the sliding plate (22) is rotationally connected to a rotating rod (23) through a bearing, the rotating rod (23) rotationally sliding connected to the side wall of the third sleeve shell (6), the side end of the rotating rod (23) is fixedly connected to the inner wall of the fourth sleeve shell (7), the third sleeve shell (6) and the inner wall of the fourth sleeve shell (7) are fixedly connected with a fourth annular plate (24), the two fourth annular plates (24) are fixedly connected with multiple third triangular prism buckles (25) at equal intervals on the opposite side walls, the inner wall of the third sleeve shell (6) is fixedly connected with an annular support column (26), the outer part of the annular support column (26) is provided with a torsion spring (27), the two ends of the torsion spring (27) are fixedly connected to the inner wall of the third sleeve shell (6) and the inner wall of the fourth sleeve shell (7).

4. The traffic intelligent electronic monitoring device according to claim 1, wherein the cleaning assembly comprises a through groove (28) provided on the bottom surface of the casing (10) and the surface of the electronic monitoring body (9), a second guide rod (29) is fixedly connected between the side walls of the casing (10), a sliding block (30) is slidably sleeved on the second guide rod (29), the bottom surface of the sliding block (30) is fixedly connected to a scraping rod (31), the bottom surface of the casing (10) is rotatably connected to a swinging rod (32) through a pin shaft, the two ends of the swinging rod (32) are respectively provided with a first groove (33) and a second groove (34), the first groove (33) is slidably connected to a first moving rod (35), the second groove (34) is slidably connected to a second moving rod (36), the first moving rod (35) is fixedly connected to the first groove (33) with a fourth spring, the second groove (34) is fixedly connected to the second moving rod (36) with a fifth spring, the side end of the first moving rod (35) is hinged to the side wall of the sliding block (30), the casing (10) is provided with a rotary shaft (37), the rotary shaft (37) is rotatably connected to the surface of the casing (10) through the bearing, the bottom end of the rotary shaft (37) is fixedly connected to a turntable (38), the bottom surface of the turntable (38) is fixedly connected to a third guide rod (39), the third guide rod (39) is provided with a guide groove body (40) outside, the side end of the second moving rod (36) is hinged with the side end of the guide groove body (40), the side walls of the guide groove body (40) are fixedly connected to a fourth guide rod (41), the bottom surface of the casing (10) is fixedly connected to two guide plates (42), the two fourth guide rods (41) are respectively sliding connected to the side walls of the guide plate (42), the top of the rotary shaft (37) is fixedly connected to a spiral fan blade (43), and the side wall of the sliding block (30) is fixedly connected to the inner wall of the casing (10) with a sixth spring.

5. The traffic intelligent electronic monitoring device according to claim 3, wherein a plurality of first triangular prism buckles (12) are engaged with a plurality of second triangular prism buckles (13), and a plurality of third triangular prism buckles (25) are engaged pairwise.

6. The traffic intelligent electronic monitoring device according to claim 1, wherein the surface of the casing (10) is fixedly connected to a deflector (44) through a bracket.

7. The traffic intelligent electronic monitoring device according to claim 1, wherein the side wall of the fourth sleeve shell (7) is fixedly connected with a pull handle.

8. The traffic intelligent electronic monitoring device according to claim 4, wherein the scraping rod (31) is located in the through groove (28) and adheres to the glass surface of the electronic monitoring body (9).