CN114087483A - Monitoring equipment with automatic swinging and cruising functions - Google Patents

Abstract

The invention discloses a monitoring device with an automatic swinging cruise function, and relates to the technical field of monitoring devices. The invention comprises a monitor body and further comprises a mounting plate, wherein a connecting rod is fixedly arranged at the bottom of the mounting plate, a ball at one end, far away from the mounting plate, of the connecting rod is connected with a mounting block, a single chip microcomputer and an inclination detector are mounted on the mounting block, and an adjusting mechanism acting on the connecting rod is mounted on the mounting block. The invention replaces the existing monitoring equipment with a simple structure and a cruising function, and when a car accident hits the frame body to cause the frame body to incline, the mounting block is adjusted to be parallel to the ground, thereby effectively avoiding the change of the direction of the camera of the monitoring equipment caused by the inclination of the monitoring equipment along with the inclination of the frame body, and further leading the monitoring equipment to continuously and effectively monitor and memorize the road section, greatly improving the practicability of the device and being beneficial to the popularization and the use of the equipment.

Description

Monitoring equipment with automatic swinging and cruising functions

Technical Field

The invention relates to the technical field of monitoring equipment, in particular to monitoring equipment with an automatic swinging cruise function.

Background

The monitoring is the physical basis for real-time monitoring of key departments or important places in various industries, and management departments can obtain effective data, image or sound information through the monitoring and memorizing system, and timely monitor and memorize the process of sudden abnormal events so as to provide high-efficiency and timely command and height, police arrangement, case handling and the like, along with the rapid development and popularization of the current computer application, a strong digital wave is raised all over the world, the digitalization of various devices becomes the primary target of safety protection, and the performance characteristics of digital monitoring and alarming are as follows: the monitoring picture displays in real time, the video image quality one-way adjusting function, each video speed can be set respectively, the fast retrieval, the setting function of multiple video modes, the automatic backup, the pan/lens control function, the network transmission and the like, at present, a frame body is arranged at each road junction and monitoring equipment is arranged on the frame body to realize the timely monitoring and memory of the road section, most of the monitoring equipment with the cruising function has simpler structure and does not have the automatic swinging function, when the frame body is inclined due to the collision of a car accident to the frame body, the monitoring equipment is inclined along with the inclination of the frame body, the direction of a camera of the monitoring equipment is possibly changed, the road section can not be continuously and effectively monitored and memorized, and the practicability of the monitoring equipment with the cruising function is greatly reduced, therefore, we propose a monitoring device with an automatic swing cruise function.

Disclosure of Invention

The invention aims to: the invention provides a monitoring device with an automatic swinging cruising function, aiming at solving the problem that the direction of a camera of the monitoring device is changed when a frame body is inclined due to the fact that a car accident happens because the existing monitoring device with the cruising function does not have the automatic swinging function, so that the road section cannot be continuously and effectively monitored and memorized.

The invention specifically adopts the following technical scheme for realizing the purpose:

the utility model provides a supervisory equipment with automatic swing function of cruising, includes the control appearance body, still includes the mounting panel, the bottom of mounting panel has set firmly the connecting rod, the connecting rod is kept away from the one end ball of mounting panel is connected with the installation piece, install singlechip and inclination detector on the installation piece, just install on the installation piece and act on the adjustment mechanism of connecting rod, it is used for the installation piece around it with the connecting rod junction rotates or stall, so that the installation piece parallels with ground, the installation piece is kept away from the one end of connecting rod has set firmly the link, just the link pass through the mounting with control appearance body fixed connection.

Further, the fixing piece is a bolt, a through hole is formed in the connecting frame, and one end, penetrating through the through hole, of the bolt is in threaded connection with the monitor body.

Further, adjustment mechanism installs including rotating annular rack on the installation piece, install on the installation piece and act on annular rack's driving piece, it is used for so that annular rack is in rotate or stall on the installation piece, still include with connecting rod sliding connection just rotates the connecting block of connecting, install on the annular rack and act on the adjusting part of connecting block, through adjusting part so that the connecting block is in slide or stop sliding on the connecting rod.

Furthermore, the driving part comprises a first motor fixedly arranged on the mounting block, and a first gear meshed with the annular rack is mounted on an output shaft of the first motor.

Furthermore, the adjusting component comprises a shell hinged to the annular rack, an adjusting rod hinged to the connecting block movably penetrates through the shell, and an actuating piece acting on the adjusting rod is mounted on the shell and used for enabling the adjusting rod to slide or stop sliding along the shell.

Furthermore, the driving piece comprises a second motor installed on the shell, and the second motor is connected with the adjusting rod through a linkage piece.

Furthermore, the linkage piece comprises a second gear installed on the second motor, and a spur rack meshed with the second gear is fixedly arranged on the adjusting rod.

Furthermore, a rain cover acting on the mounting block is fixedly mounted on the mounting plate through a fixing mechanism.

Further, the fixing mechanism comprises a fixing clamping rod tightly hinged with the mounting plate.

Further, the mounting plate is configured with mounting holes in a rectangular array.

The invention has the following beneficial effects: the invention replaces the existing monitoring equipment with a simple structure and a cruising function by arranging the monitoring instrument body, the mounting plate, the connecting rod, the mounting block, the singlechip, the inclination detector, the fixing frame, the adjusting mechanism, the connecting frame and the fixing piece, and when the frame body is inclined due to the collision of a traffic accident to the frame body, the mounting block is adjusted to be parallel to the ground, so that the change of the direction of a camera of the monitoring equipment due to the inclination of the monitoring equipment along with the inclination of the frame body is effectively avoided, the monitoring equipment can continuously and effectively monitor and memorize the road section, the practicability of the device is greatly improved, and the popularization and the use of the equipment are facilitated.

Drawings

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

FIG. 2 is a schematic view of a half-section of the structure of the present invention;

FIG. 3 is a schematic view of a half-section of yet another embodiment of the present invention;

FIG. 4 is a schematic view of a portion of the structure of the present invention;

FIG. 5 is a schematic view of another embodiment of the present invention;

FIG. 6 is a schematic view of a further embodiment of the invention;

FIG. 7 is another schematic view of a portion of the present invention;

FIG. 8 is an exploded view of the structure of the present invention;

reference numerals: 1. a monitor body; 2. mounting a plate; 3. a connecting rod; 4. mounting blocks; 5. a single chip microcomputer; 6. a slope detector; 7. mounting holes; 8. an adjustment mechanism; 801. an annular rack; 802. a drive member; 8021. a first motor; 8022. a first gear; 803. connecting blocks; 804. an adjustment assembly; 8041. a housing; 8042. adjusting a rod; 8043. an actuating member; 80431. a second motor; 9. a connecting frame; 10. a fixing member; 1001. a bolt; 11. a linkage member; 1101. a second gear; 1102. straight rack; 12. a fixing mechanism; 1201. fixing the clamping rod; 13. rain-proof cover.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1-8, a monitoring device with an automatic swing cruise function according to an embodiment of the present invention includes a monitoring device body 1, and further includes a mounting plate 2, a connecting rod 3 is fixedly disposed at the bottom of the mounting plate 2, a ball at one end of the connecting rod 3 away from the mounting plate 2 is connected to a mounting block 4, a single chip 5 and an inclination detector 6 are mounted on the mounting block 4, wherein, in this embodiment, the monitoring device further includes a circuit board, the single chip 5 is welded on the circuit board, two grooves are formed on the mounting block 4, the circuit board and the inclination detector 6 are respectively and fixedly mounted in the two grooves on the mounting block 4 by screws, an adjusting mechanism 8 acting on the connecting rod 3 is mounted on the mounting block 4, and is configured to rotate or stop rotating the mounting block 4 around the connection with the connecting rod 3, so that the mounting block 4 is parallel to the ground, and a connecting frame 9 is fixedly disposed at one end of the mounting block 4 away from the connecting rod 3, and the link 9 is fixedly connected with the monitor body 1 through the fixing piece 10, and it needs to be explained that: the controller is fixedly arranged on the mounting block 4, the single chip microcomputer 5 is electrically connected with the adjusting mechanism 8 through the controller, the inclination detector 6 monitors the inclination angle of the mounting block 4 in due time and outputs signals to the single chip microcomputer 5, when the inclination detector is used, the mounting plate 2 is fixedly arranged on a frame body preset at an intersection, when a traffic accident collides with the frame body to incline the mounting block 4, the mounting block 4 is inclined, because the mounting block 4 is connected with the connecting rod 3 in a ball way, one end of the connecting rod 3 far away from the mounting block 4 is fixedly connected with the mounting plate 2, the inclination detector 6 detects that the mounting block 4 inclines and outputs the model to the single chip microcomputer 5, at the moment, the single chip microcomputer 5 receives the signals output by the inclination detector 6, the mounting block 4 rotates around the connecting part of the mounting block 4 and the connecting rod 3 through the controller controlling the adjusting mechanism 8, and the inclination angle of the mounting block 4 is adjusted, when the mounting block 4 is parallel to the ground, the inclination detector 6 transmits a signal for timely monitoring the mounting block 4 to the single chip microcomputer 5, and at the same time, the single chip microcomputer 5 receives the signal transmitted by the inclination detector 6, and the single chip microcomputer 5 controls the adjusting mechanism 8 to stop rotating the mounting block 4 around the joint with the connecting rod 3 through the controller, so that the mounting block 4 and the connecting rod 3 are effectively kept fixed, because the connecting frame 9 is fixedly arranged at one end of the mounting block 4 away from the connecting rod 3, and the connecting frame 9 is fixedly connected with the monitor body 1 through the fixing piece 10, the situation that the direction of a camera of the monitor changes due to the fact that the monitor tilts along with the inclination of a frame body preset at an intersection is effectively avoided, to sum up, the invention replaces the existing monitor with a simple structure and a cruising function, and when a car accident hits the frame body to cause the frame body to tilt, make installation piece 4 adjust to parallel with ground to the effectual supervisory equipment of having avoided taking place the slope along with the slope of support body and leading to supervisory equipment's camera direction to change, thereby make supervisory equipment can continue to carry out effectual supervision and memory to this highway section, thereby improved the practicality of this device greatly, be favorable to the popularization and the use of equipment.

As shown in fig. 3 and 8, in some embodiments, the fixing member 10 is a bolt 1001, a through hole is configured on the connecting frame 9, and the bolt 1001 penetrates through one end of the through hole and is screwed with the monitor body 1, and it should be noted that: monitor body 1 includes the shell, and bolt 1001 runs through fenestrate one end and monitor body 1's shell threaded connection on link 9, fix between monitor body 1 and link 9, make bolt 1001 pass the perforation on link 9, and make its shell with monitor body 1 carry out threaded connection, thereby can realize fixing between monitor body 1 and link 9, when needs maintain change monitor body 1, it does not carry out threaded connection with monitor body 1's shell to rotate bolt 1001, thereby can cancel and fix between monitor body 1 and link 9, thereby can maintain change monitor body 1, and is easy to operate, and the practicality is high.

As shown in fig. 3, 4, 7 and 8, in some embodiments, the adjusting mechanism 8 includes a circular rack 801 rotatably mounted on the mounting block 4, wherein the circular rack 801 is connected with the mounting block 4 through a bearing in this embodiment, and specifically, as shown in fig. 2, the mounting block 4 is mounted with a driving member 802 acting on the circular rack 801, which is used for rotating or stopping the circular rack 801 on the mounting block 4, and a connecting block 803 slidably and rotatably connected with the connecting rod 3, where it should be noted that: set firmly a cylinder on connecting rod 3, connecting block 803 cover is established in the cylinder outside on connecting rod 3, and connecting block 803 can with the connecting rod 3 on the cylinder between slide and rotate, install the adjusting part 804 that acts on connecting block 803 on the annular rack 801, through adjusting part 804 so that connecting block 803 slides or stops sliding on connecting rod 3, what need explain is: the single chip microcomputer 5 is electrically connected with the driving part 802 and the adjusting component 804 through the controller, when a car accident impacts the frame body to incline the frame body so as to incline the installation block 4, the inclination detector 6 detects that the installation block 4 inclines and outputs the type to the single chip microcomputer 5, at the moment, the single chip microcomputer 5 receives a signal output by the inclination detector 6 so as to control the driving part 802 to drive the annular rack 801 to rotate on the installation block 4, because the adjusting component 804 for enabling the connecting block 803 to slide or stop sliding on the connecting rod 3 is installed on the annular rack 801, at the moment, the single chip microcomputer 5 controls the driving part 802 to drive the annular rack 801 to rotate on the installation block 4 and simultaneously controls the adjusting component 804 to enable the connecting block 803 to slide on the connecting rod 3, and because the installation block 4 is connected with the connecting rod 3 in a spherical mode, the installation block 4 can rotate around the connecting part of the connecting rod 3, when installation piece 4 parallels with ground, inclination detector 6 will be to singlechip 5 for the signal transmission of installing 4 in good time monitoring this moment, singlechip 5 receives the signal of inclination detector 6 transmission, singlechip 5 stops driving annular rack 801 through controller control driving piece 802 and carries out pivoted simultaneous control adjusting part 804 and makes connecting block 803 stop sliding on connecting rod 3 on installation piece 4, thereby stop making installation piece 4 rotate around its and connecting rod 3 junction, thereby realize making the fixed between installation piece 4 and the connecting rod 3, thereby effectual assurance installation piece 4 parallels with ground, the practicality is high.

As shown in fig. 2, fig. 7 and fig. 8, in some embodiments, the driving member 802 includes a first motor 8021 fixed on the mounting block 4, and a first gear 8022 engaged with the annular rack 801 is mounted on an output shaft of the first motor 8021, where: the single chip microcomputer 5 is electrically connected with the first motor 8021 through the controller, when the mounting block 4 inclines, the inclination detector 6 detects that the mounting block 4 inclines and outputs the type to the single chip microcomputer 5, at the moment, the single chip microcomputer 5 receives a signal output by the inclination detector 6, so that the first motor 8021 is controlled to be started through the controller, an output shaft of the first motor 8021 rotates to drive the first gear 8022 to rotate, so that the annular rack 801 can be driven to rotate on the mounting block 4, on the contrary, when the mounting block 4 is parallel to the ground, the inclination detector 6 transmits a signal for timely monitoring the mounting block 4 to the single chip microcomputer 5, at the moment, the single chip microcomputer 5 receives the signal transmitted by the inclination detector 6, the single chip microcomputer 5 controls the first motor 8021 to be closed through the controller, the output shaft of the first motor 8021 stops rotating, so that the annular rack 801 can stop rotating on the mounting block 4, the practicability is high.

As shown in fig. 2, 4 and 8, in some embodiments, the adjustment assembly 804 includes a housing 8041 hinged to the annular rack 801, and it should be noted that: a hinge block is fixedly arranged on the outer wall of one side of the annular rack 801, the housing 8041 is hinged to the hinge block on the annular rack 801, an adjusting rod 8042 hinged to the connecting block 803 movably penetrates through the housing 8041, and a driving member 8043 acting on the adjusting rod 8042 is mounted on the housing 8041, and is used for enabling the adjusting rod 8042 to slide or stop sliding along the housing 8041, and it is required to explain that: the single chip microcomputer 5 is electrically connected with the actuating piece 8043 through the controller, when the mounting block 4 inclines, the single chip microcomputer 5 controls the motor 8021 to be opened through the controller, and at the same time, controls the actuating piece 8043 to enable the adjusting rod 8042 to slide along the shell 8041, so that the distance between the adjusting rod 8042 and the shell 8041 is adjusted, because the shell 8041 is hinged to the annular rack 801, the adjusting rod 8042 is hinged to the connecting block 803, and the connecting block 803 is in sliding connection with the connecting rod 3, so that the mounting block 4 can rotate around the connecting part of the mounting block 4 and the connecting rod 3, on the contrary, when the mounting block 4 is parallel to the ground, the single chip microcomputer 5 controls the motor 8021 to be closed through the controller, and controls the actuating piece 8043 to enable the adjusting rod 8042 to stop sliding along the shell 8041, so that the mounting block 4 and the connecting rod 3 are fixed, and therefore the mounting block 4 is effectively guaranteed to be parallel to the ground.

As shown in fig. 3, 4 and 8, in some embodiments, the actuating member 8043 includes a second motor 80431 mounted on the housing 8041, and the second motor 80431 is connected to the adjusting lever 8042 by the linking member 11, where: in this embodiment, the second motor 80431 is fixedly installed on the housing 8041 by a screw, an output shaft of the second motor 80431 is connected with the adjusting lever 8042 by the linking member 11, and the single chip microcomputer 5 is electrically connected with the second motor 80431 by the controller, and in this embodiment, the output shaft of the second motor 80431 continuously rotates forward and backward, the adjusting lever 8042 does not slip from the housing 8041, when the installation block 4 is tilted, the single chip microcomputer 5 controls the first motor 8021 to be opened by the controller, and controls the second motor 80431 to be opened at the same time, the output shaft of the second motor 80431 rotates, so that the adjusting lever 8042 can slide along the housing 8041 by the linking member 11, whereas when the installation block 4 is parallel to the ground, the single chip microcomputer 5 controls the first motor 8021 to be closed by the controller, and controls the second motor 80431 to be closed, so that the output shaft of the second motor 80431 can stop rotating, and the adjusting lever 8042 stops sliding along the housing 8041, the practicability is high.

As shown in fig. 3 and fig. 5, in some embodiments, the linking member 11 includes a second gear 1101 mounted on the second motor 80431, and the adjusting lever 8042 is fixedly provided with a spur rack 1102 engaged with the second gear 1101, it should be noted that: in this embodiment, the second gear 1101 is mounted on the housing 8041 in a bearing manner, the second gear 1101 is coaxially connected to the output shaft of the second motor 80431, the adjusting rod 8042 is configured with a mounting groove, the spur rack 1102 is fixedly disposed in the mounting groove of the adjusting rod 8042, the housing 8041 is configured with a through hole, the second gear 1101 penetrates through the through hole of the housing 8041 and is engaged with the spur rack 1102, when the second motor 80431 is turned on, the output shaft of the second motor 80431 rotates to drive the second gear 1101 to rotate, so that the adjusting rod 8042 can slide along the housing 8041, otherwise, when the second motor 80431 is turned off, the adjusting rod 8042 can stop sliding along the housing 8041, and the practicability is high.

As shown in fig. 8, in some embodiments, a rain cover 13 acting on the mounting block 4 is fixedly mounted on the mounting plate 2 through a fixing mechanism 12, and it should be noted that: rain-proof cover 13 comprises two arc covers, one of them arc covers and has set firmly the card strip, another arc covers and constructs the draw-in groove, when two arc covers laminated mutually, the card strip that one of them arc covered is located the draw-in groove that another arc covered, and two arc covers all through fixed establishment 12 fixed mounting on installation piece 4, made things convenient for the installation to rain-proof cover 13, in this embodiment, through the design of rain-proof cover 13, realized keeping off the rain for being located each part on installation piece 4, thereby effectually avoided the rainwater to drench on each part on installation piece 4, thereby it is long when effectual having increased the use of each part on installation piece 4, thereby the practicality of this device has been improved.

As shown in fig. 8, in some embodiments, the fixing mechanism 12 includes a fixing clip 1201 tightly hinged to the mounting plate 2, and it should be noted that: the arc covers and is constructed the through-hole that can supply fixing clip pole 1201 to run through, and can fix the arc cover when fixing clip pole 1201 runs through the through-hole that the arc covered, when installing the arc cover, makes the arc cover run through fixing clip pole 1201 through the through-hole, thereby when the arc cover was laminated with mounting panel 2, rotates fixing clip pole 1201 and realizes fixing the arc cover.

As shown in fig. 1, in some embodiments, the mounting plate 2 is configured with mounting holes 7 in a rectangular array, and in this embodiment, through the design of the mounting holes 7, when the device is mounted, screws can pass through the mounting holes 7 and be in threaded connection with a frame body preset at an intersection, so that the device can be fixedly mounted on the frame body preset at the intersection, and the use is convenient.

The working principle is as follows:

when the device is used, the mounting plate 2 is fixedly mounted on a frame body preset at an intersection through screws, so that the device is fixedly mounted on the frame body preset at the intersection, the rain-proof cover 13 is fixedly mounted on the mounting plate 2 to shield rain for each part on the mounting block 4, when a car accident collides with the frame body to incline the frame body so as to incline the mounting block 4, the inclination detector 6 detects that the mounting block 4 inclines and outputs the type of the mounting block to the single chip microcomputer 5, at the moment, the single chip microcomputer 5 receives a signal output by the inclination detector 6 so as to control the first motor 8021 and the second motor 80431 to be simultaneously opened through the controller, the first gear 8022 is driven to rotate by the rotation of the output shaft of the first motor 8021 so as to drive the annular rack 801 to rotate on the mounting block 4, meanwhile, the second gear 1101 is driven to rotate by the rotation of the output shaft of the second motor 80431 so as to drive the adjusting rod 8042 to slide towards the outside or towards the inside of the housing 8041, thereby can make installation piece 4 rotate around its and connecting rod 3 junction, when installation piece 4 parallels with ground, inclination detector 6 will be to installation piece 4 signal transmission of monitoring in good time for singlechip 5, this moment, singlechip 5 receives the signal of inclination detector 6 transmission, singlechip 5 closes simultaneously through controller control motor 8021 and two 80431 of motor, the output shaft of a 8021 of motor and the output shaft of two 80431 of motor all stall, thereby realize making the fixed between installation piece 4 and the connecting rod 3, thereby effectual assurance installation piece 4 parallels with ground, thereby make supervisory equipment can continue to carry out effectual supervision and memory to this highway section.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A monitoring device with an automatic swinging cruising function comprises a monitoring instrument body (1), it is characterized by also comprising an installation plate (2), the bottom of the installation plate (2) is fixedly provided with a connecting rod (3), one end of the connecting rod (3) far away from the mounting plate (2) is connected with a mounting block (4) through a ball, the mounting block (4) is provided with a singlechip (5) and an inclination detector (6), and the mounting block (4) is provided with an adjusting mechanism (8) acting on the connecting rod (3), used for rotating or stopping the rotation of the mounting block (4) around the connection part of the mounting block and the connecting rod (3), so that the mounting block (4) is parallel to the ground, a connecting frame (9) is fixedly arranged at one end of the mounting block (4) far away from the connecting rod (3), and the connecting frame (9) is fixedly connected with the monitoring instrument body (1) through a fixing piece (10).

2. The monitoring device with the automatic swinging cruise function according to claim 1, characterized in that the fixing piece (10) is a bolt (1001), a through hole is formed on the connecting frame (9), and the bolt (1001) penetrates through one end of the through hole to be in threaded connection with the monitoring instrument body (1).

3. A monitoring device with automatic swinging cruise function according to claim 1, characterized in that said adjusting mechanism (8) comprises an annular rack (801) rotatably mounted on said mounting block (4), said mounting block (4) being mounted with a driving member (802) acting on said annular rack (801) for rotating or stopping rotation of said annular rack (801) on said mounting block (4), and a connecting block (803) slidably and rotatably connected with said connecting rod (3), said annular rack (801) being mounted with an adjusting assembly (804) acting on said connecting block (803), said adjusting assembly (804) being used to slide or stop sliding of said connecting block (803) on said connecting rod (3).

4. A monitoring device with automatic swinging cruise function according to claim 3, characterized in that said driving member (802) comprises a first motor (8021) fixed on said mounting block (4), and the output shaft of said first motor (8021) is mounted with a first gear (8022) engaged with said annular rack (801).

5. A monitoring device with automatic swinging cruise function according to claim 3, characterized in that said adjusting assembly (804) comprises a housing (8041) hinged on said annular rack (801), an adjusting rod (8042) hinged with said connecting block (803) is movably penetrated in said housing (8041), an actuating member (8043) acting on said adjusting rod (8042) is mounted on said housing (8041), and is used for making said adjusting rod (8042) slide or stop sliding along said housing (8041).

6. The monitoring device with the automatic swinging cruise function according to claim 5, wherein the actuating member (8043) comprises a second motor (80431) mounted on the housing (8041), and the second motor (80431) is connected with the adjusting lever (8042) through a linkage member (11).

7. The monitoring device with the automatic swinging cruise function according to claim 6, wherein the linkage (11) comprises a second gear (1101) installed on the second motor (80431), and a spur rack (1102) meshed with the second gear (1101) is fixedly arranged on the adjusting rod (8042).

8. A monitoring device with an automatic swinging cruise function according to claim 1, characterized in that a rain cover (13) acting on the mounting block (4) is fixedly mounted on the mounting plate (2) through a fixing mechanism (12).

9. A monitoring device with automatic cruise oscillation function according to claim 8, characterized in that said fixing means (12) comprise a fixing catch bar (1201) tightly hinged to said mounting plate (2).

10. A monitoring device with automatic pendulum cruise function according to claim 1, characterized in that the mounting plate (2) is configured with mounting holes (7) in a rectangular array.

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