CN215411122U - Rotatable solar monitoring device used at intersection - Google Patents

Abstract

The utility model discloses a rotatable solar monitoring device for intersection use, which comprises an installation rod, side frames symmetrically fixed above the installation rod, an installation plate fixed above the side frames and a solar panel fixed on the top of the installation plate, wherein the top of the installation rod is provided with an adjusting and rotating monitoring component, the adjusting and rotating monitoring component comprises a motor, the outer part of an output shaft of the motor is fixedly connected with a main shaft, and one end of the main shaft penetrating through the installation plate is fixedly provided with a rotating disc. The utility model provides a road junction, which uses a rotatable solar monitoring device, adjusts the arrangement of a rotary monitoring component and a linkage overturning adjusting component, realizes the single-motor drive control of the shooting direction of the monitoring device, reduces the cost of control design, is more convenient to control and adjust the shooting direction of the monitoring device, can clear water mist impurities on a lens during the work of the linkage overturning adjusting component, and is beneficial to better shooting work of a monitoring camera.

Description

Rotatable solar monitoring device used at intersection

Technical Field

The utility model relates to the technical field of solar monitoring, in particular to a rotatable solar monitoring device used at an intersection.

Background

Road monitoring is distributed at road intersections and key road sections with concentrated traffic flow and pedestrian flow, road traffic conditions are uploaded to a road monitoring command center in real time through an image transmission channel, and central operators on duty can know the road conditions of all areas in time so as to adjust the traffic flow of all intersections and ensure smooth traffic; the solar monitoring device has the advantages that the solar power generation is mostly configured for the existing monitoring devices, energy is reasonably utilized, and the solar monitoring device has the significance of energy conservation.

The solar monitoring device on the existing market is relatively perfect in structure technology, but the adjusting structure of the shooting direction of the camera on the monitoring device is relatively complex, the adjustment of each shooting direction of the camera needs to be controlled by different driving motors, single-motor driving control cannot be realized, the production cost is invisibly increased, the difficulty of adjusting the shooting direction of the monitoring device is also increased, and the monitoring device does not have the capability of blowing dust by a lens.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a rotatable solar monitoring device for an intersection, which can control transverse rotation and longitudinal turnover adjustment through a single motor by adjusting the arrangement of a rotary monitoring component and a linkage turnover adjusting component, and can realize dust blowing of a lens.

The utility model discloses a rotatable solar monitoring device used at an intersection, which adopts the technical scheme that: fix including installation pole, symmetry the side bearer of installation pole top, fix mounting panel in the side bearer top, fix the solar panel at the mounting panel top, the top of installation pole is provided with adjusts rotatory control assembly, it includes the motor to adjust rotatory control assembly, the outside fixed connection main shaft of output shaft of motor, the main shaft runs through in the fixed rolling disc that is provided with of one end of mounting panel, top one side of rolling disc is provided with the transmission post, mounting panel top one side is provided with the fixed axle, the top of fixed axle is rotated and is connected with the transmission strip, the one end of transmission strip link up and has seted up the guide slot, and the one end cartridge of transmission post in the inside of guide slot.

As the preferred scheme, the junction of main shaft and rolling disc is provided with first one-way bearing, be fixed with the mounting bracket on the outer wall of the transmission strip other end, install the surveillance camera head through the connecting axle rotation on the bottom inner wall of mounting bracket.

As preferred scheme, it is connected with linkage upset adjusting part to adjust rotatory control subassembly, linkage upset adjusting part includes first turbine, install first turbine on the bottom inner wall of side bearer, the middle-end of main shaft and the axis of rotation fixed connection of first turbine, the transmission junction of main shaft and first turbine is provided with the one-way bearing of second, through connection has the intake pipe on the outer wall of first turbine one side, through connection has the gas-supply pipe on the opposite side outer wall of first turbine, be fixed with the second turbine on the outer wall of mounting bracket one side, the one end of connecting axle and the axis of rotation fixed connection of second turbine, the one end of gas-supply pipe is connected with the inlet end of second turbine, the gas-supply end through connection of second turbine has the gas blow pipe.

As preferred scheme, install the battery on the bottom outer wall of mounting panel, and electric connection between battery and the solar panel, motor and surveillance camera head all with the battery between electric connection.

As the preferred scheme, all the cover is equipped with the gear on the outer wall of main shaft and connecting axle one end, be fixed with the block shell fragment on the outer wall of gear one side correspondingly.

As a preferred scheme, the gas transmission pipe is a hose, and one end of the gas blowing pipe is positioned on one side of the monitoring camera.

The utility model discloses a rotatable solar monitoring device used at an intersection, which has the beneficial effects that: the utility model discloses a, set up on traditional solar monitoring device's basis and adjust rotatory monitoring subassembly and linkage upset adjusting part, the linkage goes on between the subassembly, can control motor corotation, carry out the horizontal rotation regulation of surveillance camera head shooting direction, can carry out the vertical upset regulation of surveillance camera head shooting direction through the motor reversal, realize the single motor drive control of monitoring device shooting direction, the cost of control design has been reduced, monitoring device shoots direction control and adjusts more conveniently, and linkage upset adjusting part's work, can blow to the camera lens department of surveillance camera head through the gas blow pipe, can clear away the water smoke impurity on the lens, do benefit to the better shooting work of surveillance camera head.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged view of the structure of the area A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure of the area B in FIG. 1 according to the present invention;

FIG. 4 is an enlarged view of the structure of the area C in FIG. 1 according to the present invention;

fig. 5 is a partial front sectional structure diagram of the present invention.

In the figure: 1. mounting a rod; 2. a side frame; 3. mounting a plate; 4. a solar panel; 5. adjusting the rotation monitoring assembly; 6. a linkage overturning adjusting component; 7. a gear; 8. combining the elastic sheets; 51. a motor; 52. a main shaft; 53. rotating the disc; 54. a first one-way bearing; 55. a fixed shaft; 56. a drive bar; 57. a guide groove; 58. a drive post; 59. a mounting frame; 510. a connecting shaft; 511. a surveillance camera; 61. a first turbine; 62. a second one-way bearing; 63. an air inlet pipe; 64. a gas delivery pipe; 65. a second turbine; 66. and an air blowing pipe.

Detailed Description

The utility model will be further elucidated and described with reference to specific embodiments and drawings of the specification.

Referring to fig. 1-5, the present invention: a rotatable solar monitoring device used at an intersection comprises a mounting rod 1, side frames 2 symmetrically fixed above the mounting rod 1, a mounting plate 3 fixed above the side frames 2, a solar panel 4 fixed at the top of the mounting plate 3, a storage battery is mounted on the outer wall of the bottom of the mounting plate 3, the storage battery is electrically connected with the solar panel 4, a motor 51 and a monitoring camera 511 are both electrically connected with the storage battery, an adjusting rotary monitoring component 5 is arranged at the top of the mounting rod 1, the adjusting rotary monitoring component 5 is connected with a linkage overturning adjusting component 6, the adjusting rotary monitoring component 5 is connected with the linkage overturning adjusting component 6, erection and installation of the solar monitoring device are carried out through the mounting rod 1, solar power generation is carried out through the solar panel 4, the monitoring camera 511 is mounted at the top of the adjusting rotary monitoring component 5, and the linkage overturning adjusting component 6 are arranged through the adjusting rotary monitoring component 5, the monitoring camera 511 for monitoring is enabled to control the turning adjustment transversely to the rotation and longitudinally by a single motor 51.

As shown in fig. 1, 2, 3, 4 and 5:

the adjusting and rotating monitoring component 5 comprises a motor 51, a spindle 52 is fixedly connected to the outside of an output shaft of the motor 51, a rotating disc 53 is fixedly arranged at one end of the spindle 52 penetrating through the mounting plate 3, a transmission column 58 is arranged at one side of the top end of the rotating disc 53, a fixing shaft 55 is arranged at one side of the top end of the mounting plate 3, a transmission bar 56 is rotatably connected to the top end of the fixing shaft 55, a guide groove 57 is formed in one end of the transmission bar 56 in a penetrating manner, one end of the transmission column 58 is inserted into the guide groove 57, a first one-way bearing 54 is arranged at the joint of the spindle 52 and the rotating disc 53, a mounting frame 59 is fixed on the outer wall of the other end of the transmission bar 56, a monitoring camera 511 is rotatably mounted on the inner wall of the bottom of the mounting frame 59 through a connecting shaft 510, gears 7 are sleeved on the outer walls of one ends of the spindle 52, clamping elastic pieces 8 are correspondingly fixed on the outer walls of one sides of the gears 7, and monitoring and shooting is carried out through the work of the monitoring camera 511, in the process of needing to transversely adjust the shooting direction, the motor 51 is controlled to rotate clockwise, so as to drive the main shaft 52 to rotate, the rotating disc 53 is driven to rotate by the first one-way bearing 54, the transmission bar 56 is driven to rotate in a semicircle way around the fixed shaft 55 by the cooperation of the transmission column 58 on the rotating disc 53 and the guide groove 57, thereby driving the monitoring camera 511 at the end of the transmission strip 56 to perform horizontal rotation adjustment, thereby realizing the adjustment of horizontal shooting of the monitoring camera 511, realizing the reset of the shooting direction of the monitoring camera 511 when the rotating disc 53 rotates for a circle, driving the gear 7 to rotate in the rotation process of the main shaft 52, clamping the clamping spring 8 at one side into the tooth groove of the gear 7 step by step, realizing the fixation of the main shaft 52 and the rotating disc 53 after rotation, therefore, the shooting direction of the monitoring camera 511 is fixed after being adjusted, and the offset problem is avoided.

As shown in fig. 1, 2, 4 and 5:

the linkage overturning adjusting assembly 6 comprises a first turbine 61, a first turbine 61 is installed on the inner wall of the bottom of the side frame 2, the middle end of a main shaft 52 is fixedly connected with a rotating shaft of the first turbine 61, a second one-way bearing 62 is arranged at the transmission connection position of the main shaft 52 and the first turbine 61, an air inlet pipe 63 is connected to the outer wall of one side of the first turbine 61 in a penetrating manner, an air conveying pipe 64 is connected to the outer wall of the other side of the first turbine 61 in a penetrating manner, a second turbine 65 is fixed to the outer wall of one side of the mounting frame 59, one end of a connecting shaft 510 is fixedly connected with the rotating shaft of the second turbine 65, one end of the air conveying pipe 64 is connected with the air inlet end of the second turbine 65, an air blowing pipe 66 is connected to the air conveying end of the second turbine 65 in a penetrating manner, a gear 7 is sleeved on the outer wall of one end of the connecting shaft 510, a clamping elastic sheet 8 is correspondingly fixed to the outer wall of one side of the gear 7, the air conveying pipe 64 is a hose, and one end of the air blowing pipe 66 is located on one side of the monitoring camera 511; in the control process of controlling the monitoring camera 511 to perform longitudinal turning adjustment, the motor 51 is controlled to rotate anticlockwise, the first turbine 61 is driven to rotate through the second one-way bearing 62, the first turbine 61 sucks air through the air inlet pipe 63, air is input into the second turbine 65 through the air delivery pipe 64, the second turbine 65 rotates due to the flowing of the air, the connecting shaft 510 is driven to rotate, the monitoring camera 511 is longitudinally turned and adjusted, the gear 7 is driven to rotate by the rotation of the connecting shaft 510, the clamping elastic sheet 8 on one side is clamped into the tooth grooves of the gear 7 step by step, the fixing after the rotation of the connecting shaft 510 is realized, the fixing after the adjustment of the shooting direction of the monitoring camera 511 is realized, the occurrence of the offset problem is avoided, air in the second turbine 65 is blown out through the air blowing pipe 66, the air acts on the lens of the monitoring camera 511, can clear away the water smoke impurity on the lens, do benefit to the better shooting work of surveillance camera head 511.

The working principle is as follows: in the solar monitoring device, during the monitoring shooting process of the monitoring camera 511, the shooting direction needs to be transversely adjusted, the main shaft 52 is driven to rotate by clockwise rotating the control motor 51, the rotating disc 53 is driven to rotate under the transmission of the first one-way bearing 54, the transmission strip 56 is driven to semi-circularly rotate around the fixed shaft 55 under the matching of the transmission column 58 and the guide groove 57 on the rotating disc 53, so that the monitoring camera 511 at the end part of the transmission strip 56 is driven to transversely rotate and adjust, the transverse shooting adjustment of the monitoring camera 511 is realized, the gear 7 is driven to rotate during the rotating process of the main shaft 52, the clamping elastic sheet 8 at one side can be clamped into the tooth groove of the gear 7 step by step, the rotation of the rotating disc 53 is fixed, and the fixing of the monitoring camera 511 after the shooting direction is adjusted is realized; in the control process of controlling the monitoring camera 511 to perform the longitudinal turning adjustment, the motor 51 is controlled to rotate counterclockwise, the first turbine 61 is driven to rotate by the second one-way bearing 62, gas is input into the second turbine 65 through the gas pipe 64, the second turbine 65 is rotated by the flow of the gas, thereby driving the connecting shaft 510 to rotate, and longitudinally turning and adjusting the monitoring camera 511, the rotation of the connecting shaft 510 will drive the gear 7 to rotate, the clamping spring 8 at one side will be clamped into the tooth socket of the gear 7 step by step, so as to realize the fixation of the rotating connecting shaft 510, therefore, the shooting direction of the monitoring camera 511 is adjusted and then fixed, air in the second turbine 65 is blown out through the air blowing pipe 66, the air acts on the lens of the monitoring camera 511, water mist impurities on the lens can be removed, and better shooting work of the monitoring camera 511 is facilitated.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. The utility model provides a crossing uses rotatable solar monitoring device, includes the installation pole, the top symmetry of installation pole is provided with the side bearer, the top of side bearer is provided with the mounting panel, solar panel, its characterized in that are installed at the top of mounting panel: the top of installation pole is provided with adjusts rotatory control assembly, adjust rotatory control assembly and include the motor, the outside fixed connection main shaft of output shaft of motor, the main shaft runs through in the fixed rolling disc that is provided with of one end of mounting panel, top one side of rolling disc is provided with the transmission post, mounting panel top one side is provided with the fixed axle, the top of fixed axle is rotated and is connected with the transmission strip, the one end of transmission strip link up and has seted up the guide slot, and the one end cartridge of transmission post is in the inside of guide slot.

2. The crossing use rotatable solar monitoring device of claim 1, wherein: the joint of main shaft and rolling disc is provided with first one-way bearing, be fixed with the mounting bracket on the outer wall of the transmission strip other end, rotate through the connecting axle on the bottom inner wall of mounting bracket and install the surveillance camera head.

3. The crossing use rotatable solar monitoring device of claim 2, wherein: adjust rotatory monitoring subassembly and be connected with linkage upset adjusting part, linkage upset adjusting part includes first turbine, install first turbine on the bottom inner wall of side bearer, the middle-end of main shaft and the axis of rotation fixed connection of first turbine, the transmission junction of main shaft and first turbine is provided with the one-way bearing of second, through connection has the intake pipe on the outer wall of first turbine one side, through connection has the gas-supply pipe on the opposite side outer wall of first turbine, be fixed with the second turbine on the outer wall of mounting bracket one side, the one end of connecting axle and the axis of rotation fixed connection of second turbine, the one end of gas-supply pipe is connected with the inlet end of second turbine, the gas-supply end through connection of second turbine has the gas blow pipe.

4. The crossing use rotatable solar monitoring device of claim 2, wherein: install the battery on the bottom outer wall of mounting panel, and electric connection between battery and the solar panel, motor and surveillance camera head all with the battery between electric connection.

5. The crossing use rotatable solar monitoring device of claim 2, wherein: the outer walls of one ends of the main shaft and the connecting shaft are respectively sleeved with a gear, and the outer wall of one side of the gear is correspondingly fixed with a clamping elastic sheet.

6. The crossing use rotatable solar monitoring device of claim 3, wherein: the gas pipe is a hose, and one end of the gas blowing pipe is positioned on one side of the monitoring camera.

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