CN215072580U - Safety bayonet video monitoring system - Google Patents

Abstract

A safety bayonet video monitoring system relates to the technical field of traffic bayonets, solves the problems of poor damping effect and influence of rainwater on shooting, and comprises a terminal server, a central platform, a controller, a stand column, a cross rod, a first supporting plate, a rain shield, a cleaning brush, a flash lamp, a monitoring head shell, a camera and a damping device; the controller is connected clean brush, the flash light, camera and terminal server, the camera passes through damping device and connects the first casing of monitoring, damping device includes the box body, the pillar one of setting on the box body bottom plate, the cover is the shock absorber one on pillar one, the connecting plate of connecting box body lateral wall, the cover is the shock absorber two on pillar one, set up pillar two and the cover shock absorber three on pillar two on the connecting plate, be equipped with the through-hole on the connecting plate, pillar one is located the through-hole, the connecting plate sets up on shock absorber one, shock absorber two and shock absorber three all set up on the connecting plate, box body roof is connected on two tops of pillar. The utility model discloses the shock attenuation is effectual, and the rainy day can guarantee to shoot clearly.

Description

Safety bayonet video monitoring system

Technical Field

The utility model relates to a traffic bayonet socket technical field, concretely relates to safe bayonet socket video monitor system.

Background

In the prior art, bayonets are generally arranged at entrances and exits of some districts, crossroads, major traffic lanes, highway sections and the like, the bayonets are control points or places where equipment for collecting and identifying images and information of vehicles passing through roads is installed, and the bayonets are arranged to shoot, record and process vehicles coming and going.

Current safe bayonet socket video monitoring system includes bayonet socket shooting unit, terminal server and central platform, the traffic bayonet socket adopts the spring to carry out the shock attenuation to the camera more, spring shock attenuation effect is not good, when influence such as strong wind weather, shooting device still has certain shake, the influence is shot the quality, influence real-time observation and follow-up use, current shooting device is in the multiple area of typhoon rainwater and festival simultaneously, the application effect is poor, because the long-time washing away of shooting device mirror surface by the rainwater, lead to shooting on the picture all be the drop of water and adhere to, cause the transmission picture fuzzy, thereby influence real-time observation and follow-up use.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that current shock attenuation effect is not good and rainwater influences the shooting, the utility model provides a safe bayonet socket video monitor system.

The utility model discloses a solve the technical scheme that technical problem adopted as follows:

the safety checkpoint video monitoring system comprises a checkpoint shooting unit, a terminal server connected with the checkpoint shooting unit and a central platform connected with the terminal server; the bayonet shooting unit comprises a controller, a stand column, a cross rod connected with the stand column, a first supporting plate arranged on the cross rod, a rain shield arranged on the first supporting plate, a cleaning brush arranged on the rain shield, a flash lamp arranged on the first supporting plate, a monitoring head shell arranged on the first supporting plate, a camera arranged in the monitoring head shell and a damping device arranged in the monitoring head shell, wherein the controller is connected with the cleaning brush, the flash lamp, the camera and a terminal server, the flash lamp and the monitoring head shell are both arranged between the rain shield and the first supporting plate, one side of the monitoring head shell is provided with a glass plate, the cleaning brush is used as a windshield wiper of the glass plate, the camera is arranged corresponding to the glass plate and connected with the terminal server, the camera is connected with the bottom surface of the monitoring head shell and the top surface of the monitoring head shell through the damping device, and the damping device comprises a box body and a strut arranged on the bottom plate of the box body, The shock absorber I sleeved on the strut I, the connecting plate connected with the side wall of the box body, the shock absorber II sleeved on the strut I, the strut II arranged on the connecting plate and the shock absorber III sleeved on the strut II are arranged on the connecting plate, the strut I is located in the through hole, the connecting plate is arranged on the shock absorber I, the shock absorber II and the shock absorber III are both arranged on the connecting plate, and the top end of the strut II is connected with the top plate of the box body.

Furthermore, an infrared inductor is installed on the monitoring head shell and connected with the controller.

Furthermore, a damping device is arranged between the camera and the bottom surface of the monitoring head shell and between the camera and the top surface of the monitoring head shell.

Furthermore, the length of the strut between the connecting plate and the box body top plate is smaller than the distance between the box body top plate and the connecting plate.

Furthermore, the glass plate is made of wear-resistant glass fiber reinforced plastic materials.

Further, clean brush includes driving gear, cutting ferrule, support bar and scrapes the strip, the driving gear is connected with the meshing of support bar top, the cutting ferrule with scrape the inside bolted connection of strip, the cutting ferrule is connected with two wall block fits of support bar.

The utility model has the advantages that:

the utility model discloses a safe bayonet socket video monitoring system passes through the shock absorber one in the damping device box body, shock absorber two and shock absorber three carry out the shock attenuation, realize the ascending shock attenuation buffering of three side, the shock attenuation buffering makes the amplitude reduce by a wide margin, the shock attenuation is effectual, can effectively reduce the external vibrations to the camera device of strong wind weather, reduce the vibrations of heavy duty car to the camera device on the road, be convenient for increase the shock attenuation effect of bayonet socket shooting unit, vibrations when reducing the camera and shoot, the definition of image when being convenient for guarantee to shoot, the communication base station of being convenient for is to the observation and the grasp of road surface vehicle condition. The utility model discloses a clean brush can strike off the rainwater on glass plate surface, and effectual assurance glass plate is not adhered to by the rainwater, guarantees that the camera shoots clearly, ensures that the rainwater can not disturb the real-time observation and the follow-up viewing to the road vehicle under the bad weather.

Drawings

Fig. 1 the utility model discloses a safe bayonet socket video monitoring system's in service state diagram.

Fig. 2 the utility model discloses a safe bayonet video monitor system's electrical property signal connection relation picture.

Fig. 3 is the structure diagram of the bayonet shooting unit of the safety bayonet video monitoring system of the present invention.

Fig. 4 is a cross-sectional view of the damping device of the safety bayonet video monitoring system of the present invention.

In the figure: 1. the intelligent monitoring system comprises a central platform, 2, a terminal server, 3, a first supporting plate, 4, a monitoring head shell, 5, a rain shield, 6, a box body, 6-1, a bottom plate, 6-2, a side wall, 6-3, a top plate, 7, a first support column, 8, a first vibration absorber, 9, a connecting plate, 10, a second vibration absorber, 11, a third vibration absorber, 12, a second support column, 13, a cleaning brush, 14, a flash lamp, 15, a camera, 16, a controller, 17, an infrared sensor, 18, a glass plate, 19, an upright column, 20, a cross rod, 21 and a distribution box.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A safety bayonet video monitoring system comprises a bayonet shooting unit, a terminal server 2 and a central platform 1 in the prior art. The bayonet shooting unit is connected with the terminal server 2, and the central platform 1 is connected with the terminal server 2. The bayonet shooting unit signal connection terminal server 2, accessible net twine also can pass through wireless transceiver and connect terminal server 2, and terminal server 2 is used for receiving the data that the bayonet shooting unit sent, and to data temporary storage etc. terminal server 2 can control the bayonet shooting unit that corresponds. The terminal server 2 is connected through optical fibers, the central platform 1 is used for receiving data uploaded by the terminal server 2, and all the bayonet shooting units can be controlled through the terminal server 2 to control the on-off of the bayonet shooting units.

The utility model discloses a unit is shot to bayonet socket includes stand 19, horizontal pole 20, first backup pad 3, weather shield 5, clean brush 13, flash light 14, monitor head casing 4, camera 15, controller 16, damping device. As shown in fig. 1, the column 19 is installed on the ground. The bayonet shooting unit is powered by an external power supply. The upright column 19 can be provided with a distribution box 21, and the distribution box 21 is arranged on the upright column 19 through a fixing frame. A storage battery is arranged in the distribution box 21, and the storage battery is used as a standby power supply to supply power to the bayonet shooting unit when the road is in power failure. The controller 16 may be mounted inside the electric box 21. In the present embodiment, the card port shooting unit is connected to the terminal server 2 through a wireless transceiver module, the controller 16 is electrically connected to the battery, and the wireless transceiver module is electrically connected to the controller 16. As shown in fig. 2, the controller 16 is connected to the cleaning brush 13, the flash 14, the camera 15, and the terminal server 2, the controller 16 can control the flash 14 to flash, the camera 15 to photograph, and the cleaning brush 13 to work (i.e., swing), and the terminal server 2 controls the cleaning brush 13 through the controller 16. The upper end of stand 19 is connected to horizontal pole 20, installs first backup pad 3 through the stationary dog on the horizontal pole 20, as figure 3, rain shade 5 is installed at the top of board, installs flash light 14 and control first casing 4 on the first backup pad 3, installs the second backup pad on the first backup pad 3, control first casing 4 is installed in the second backup pad, flash light 14 and control first casing 4 all are located between rain shade 5 and first backup pad 3, rain shade 5 is flash light 14 and control first casing 4 keep off the rain. Install camera 15 and damping device in the monitoring head casing 4, camera 15 connects terminal server 2, and the image transmission that camera 15 was shot is to terminal server 2, and camera 15 accessible net twine connection terminal server 2, and camera 15 connection control ware 16 in this embodiment sends the picture of shooing to terminal server 2 through controller 16 and wireless transceiver module. One side of monitoring head casing 4 is equipped with glass plate 18, and camera 15 corresponds glass plate 18 and sets up. The cleaning brush 13 is installed on the rain shield 5, specifically on the top of the rain shield 5, the cleaning brush 13 is used as a windshield wiper of the glass plate 18, and the cleaning brush 13 cleans the glass plate 18 of raindrops falling on the glass plate 18 by swinging in rainy days. The camera 15 is connected with the monitoring head shell 4 through a damping device, the damping device is two, the upper side of the camera 15 is connected with the top surface of the monitoring head shell 4 through one damping device, and the lower side of the camera 15 is connected with the bottom surface of the monitoring head shell 4 through another damping device. Referring to fig. 4, the device comprises a box body 6, a first support post 7, a first vibration absorber 8, a connecting plate 9, a second vibration absorber 10, a second support post 12 and a third vibration absorber 11, wherein a bottom plate 6-1 of the box body 6 or a top plate 6-3 of the box body 6 is connected with a camera 15, a bottom plate 6-1 of the box body 6 or a top plate 6-3 of the box body 6 is connected with a monitoring head shell 4, the bottom plate 6-1 of the box body 6 of the lower side vibration absorbing device is connected with the monitoring head shell 4 in the embodiment, and the top plate 6-3 of the box body 6 of the upper side vibration absorbing device is connected with the monitoring head shell 4. The first support column 7, the first shock absorber 8, the connecting plate 9, the second shock absorber 10, the second support column 12 and the third shock absorber 11 are all located in the box body 6, the first support column 7 is arranged on the upper surface of the bottom plate 6-1 of the box body 6, the first support column and the bottom plate 6-1 of the box body 6 are of an integrally formed structure, and the number of the first support columns 7 is multiple. The first shock absorber 8 is sleeved on the first support post 7, the connecting plate 9 is arranged on the first shock absorber 8, the connecting plate 9 is connected with the side wall 6-2 of the box body 6, a plurality of through holes are formed in the connecting plate 9 and used for penetrating through the first support post 7, the through holes and the first support post 7 are arranged in a one-to-one correspondence mode, and the first support post 7 is located in the through holes. The second damper 10 is mounted on the connecting plate 9, and the second damper 10 is sleeved on the first strut 7, namely the connecting plate 9 is positioned between the first damper 8 and the second damper 10. The second support column 12 is arranged on the connecting plate 9, the second support column and the connecting plate are of an integrally formed structure, the top end of the second support column 12 is connected with the top plate 6-3 of the box body 6, the bottom end of the second support column 12 is connected with the connecting plate 9, the third shock absorber 11 is sleeved on the second support column 12, and the third shock absorber 11 is arranged on the connecting plate 9. The first shock absorber 8, the second shock absorber 10 and the third shock absorber 11 are all connected with the connecting plate 9. The top plate 6-3 of the box body 6 is not connected with the first support post 7, namely, the distance value between the top plate 6-3 of the box body 6 and the connecting plate 9 is larger than the length value of the first support post 7 between the connecting plate 9 and the top plate 6-3 of the box body 6. The box body 6, the strut I7, the damper I8, the connecting plate 9, the damper II 10, the strut II 12 and the damper III 11 jointly form a damping mechanism. The box body 6 is cuboid. The materials of the first damper 8, the second damper 10 and the third damper 11 are rubber.

Above-mentioned clean brush 13 includes driving gear, cutting ferrule, support bar and scrapes the strip, and the driving gear is connected with the meshing of support bar top, cutting ferrule and the inside bolted connection of scraping the strip, and the cutting ferrule is connected with two wall block of support bar, and the cutting ferrule is interior concavity, and two holes have been seted up on the surface, distributes and is connected at the support bar surface rather than the block, and wherein the cutting ferrule is favorable to scraping the strip and inlays admittedly at the support bar lower extreme, conveniently scrapes the change of strip. The motor is connected with the transmission gear and arranged on the rain shield 5, and the motor can drive the cleaning brush 13 to rotate. The monitoring head housing 4 is provided with a heat dissipation device for dissipating heat of the camera 15. The glass plate 18 is a wear-resistant glass plate 18 made of a wear-resistant glass fiber reinforced plastic material. An infrared sensor 17 is mounted on the monitor head housing 4 above the glass plate 18, and an output end of the infrared sensor 17 is electrically connected with an input end of the controller 16.

The specific working principle is as follows: when a vehicle passes through, the infrared sensor 17 senses a signal and transmits the signal to the controller 16, so that the controller 16 controls the flash lamp 14 to flash, meanwhile, the vehicle information is shot down by controlling the camera 15, the shot image information is transmitted to the terminal server 2, and the terminal server 2 directly transmits the processed or unprocessed information to the central platform 1. During rainy day, terminal server 2 or central platform 1 send the instruction of starting clean brush 13, controller 16 receives and controls clean brush 13 and starts, the motor drives the driving tooth and carries out the horizontal hunting, and then drive the support bar removal rather than the block and do the horizontal hunting, so that drive that the solid scraping strip that inlays makes a round trip to scrape away the rainwater on glass board 18, clean brush 13 carries out the horizontal hunting and strikes off the rainwater on glass board 18, ensure that the rainwater can not disturb the observation to the road vehicle under the bad weather, avoid glass board 18 to be attached to by the rainwater and cause the condition that the transmission picture is fuzzy. The function of starting the cleaning brush 13 by the terminal server 2 or the central platform 1 described herein can be realized by the prior art, and the on-off control of the cleaning brush 13 is known under the condition of the known action requirement, and does not need to be created, and the function can be directly realized by the technical personnel in the field, which is not the invention point of the present invention, nor the protection scope of the present invention.

The utility model discloses a safe bayonet socket video monitoring system passes through shock absorber 8 in the damping device box body 6, shock absorber two 10 and shock absorber three 11 carry out the shock attenuation, realize the shock attenuation buffering in the three side, the shock attenuation buffering makes the amplitude reduce by a wide margin, it is effectual to shock attenuation, can effectively reduce the external vibrations to camera 15 device of strong wind weather, reduce the vibrations of heavy duty car to camera 15 device on the road, be convenient for increase the damping effect of bayonet socket shooting unit, the vibrations when reducing camera 15 and shoot, the definition of image when being convenient for guarantee to shoot, be convenient for to the observation and the grasp of road vehicle condition information. The utility model discloses a clean brush 13 can strike off the rainwater on 18 surfaces of glass board, and effectual assurance glass board 18 is not adhered to by the rainwater, guarantees that camera 15 shoots clearly, ensures that the rainwater can not disturb the real-time observation and the follow-up viewing of shooting the picture under the bad weather.

Claims (6)

1. The safety checkpoint video monitoring system comprises a checkpoint shooting unit, a terminal server (2) connected with the checkpoint shooting unit and a central platform (1) connected with the terminal server (2); the bayonet shooting unit is characterized by comprising a controller (16), a stand column (19), a cross rod (20) connected with the stand column (19), a first supporting plate (3) arranged on the cross rod (20), a rain shield (5) arranged on the first supporting plate (3), a cleaning brush (13) arranged on the rain shield (5), a flash lamp (14) arranged on the first supporting plate (3), a monitoring head shell (4) arranged on the first supporting plate (3), a camera (15) arranged in the monitoring head shell (4) and a damping device arranged in the monitoring head shell (4), wherein the controller (16) is connected with the cleaning brush (13), the flash lamp (14), the camera (15) and a terminal server (2), the flash lamp (14) and the monitoring head shell (4) are both positioned between the rain shield (5) and the first supporting plate (3), one side of the monitoring head shell (4) is provided with a glass plate (18), the cleaning brush (13) is used as a windshield wiper of a glass plate (18), the camera (15) is arranged corresponding to the glass plate (18), the camera (15) is connected with the terminal server (2), the camera (15) is connected with the bottom surface of the monitoring head shell (4) and the top surface of the monitoring head shell (4) through a damping device, the damping device comprises a box body (6), a first support pillar (7) arranged on a bottom plate (6-1) of the box body (6), a first shock absorber (8) sleeved on the first support pillar (7), a connecting plate (9) connected with the side wall (6-2) of the box body (6), a second shock absorber (10) sleeved on the first support pillar (7), a second support pillar (12) arranged on the connecting plate (9) and a third shock absorber (11) sleeved on the second support pillar (12), a through hole is formed in the connecting plate (9), the first support pillar (7) is positioned in the through hole, the connecting plate (9) is arranged on the first shock absorber (8), the second shock absorber (10) and the third shock absorber (11) are both arranged on the connecting plate (9), and the top end of the second strut (12) is connected with the top plate (6-3) of the box body (6).

2. A safety bayonet video surveillance system according to claim 1, characterized in that an infrared sensor (17) is mounted on the surveillance head housing (4), said infrared sensor (17) being connected to the controller (16).

3. A safety bayonet video surveillance system according to claim 1, characterized in that a damping device is provided between the camera (15) and the bottom surface of the surveillance head housing (4) and between the camera (15) and the top surface of the surveillance head housing (4).

4. A security bayonet video surveillance system according to claim 1, characterized in that the length of the first post (7) between the connection plate (9) and the top plate (6-3) of the box (6) is less than the distance between the top plate (6-3) of the box (6) and the connection plate (9).

5. A security bayonet video surveillance system according to claim 1, characterized in that the glass plate (18) is made of a wear-resistant glass fibre reinforced plastic material.

6. The safety bayonet video monitoring system according to claim 1, wherein the cleaning brush (13) comprises a driving tooth, a cutting sleeve, a supporting bar and a scraping bar, the driving tooth is meshed with the top end of the supporting bar, the cutting sleeve is connected with the inner part of the scraping bar through a bolt, and the cutting sleeve is connected with the two walls of the supporting bar in a clamping manner.

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