CN214198000U - Environmental monitoring device for environmental protection engineering based on machine learning - Google Patents

Abstract

The utility model is suitable for an environmental monitoring technical field provides an environmental monitoring device for environmental protection engineering based on machine learning, including adjusting part, adjusting part includes the base, installs the sleeve on the roof of base, and the inside slip of sleeve is provided with the slide bar, and the front surface of sleeve is provided with the locking bolt, and the locking bolt runs through the lateral wall of sleeve to with the slide bar spiro union, the top of slide bar is installed the monitoring box; when a user needs to adjust the height of the camera, the locking bolt is loosened, then the length of the sliding rod is adjusted, the height of the camera is further adjusted, and then the locking bolt is screwed down to enter the corresponding threaded hole, so that the height adjustment of the camera can be completed; if the user opens the motor, the output shaft of motor drives the camera and rotates to adjust the turned angle of camera, thereby can adjust the height of camera through this device, can adjust the angle of camera again.

Description

Environmental monitoring device for environmental protection engineering based on machine learning

Technical Field

The utility model belongs to the technical field of environmental monitoring, especially, relate to an environmental monitoring device for environmental protection engineering based on machine learning.

Background

Environmental monitoring (environmental monitoring) is the basis of scientific management environment and environmental law enforcement supervision, and is essential basic work for environmental protection. People can effectively prevent foreign people from cutting trees through environmental monitoring.

The camera on the present monitoring device can not adjust the height and the rotation angle, so that the acquired information is narrow, and the actual requirement can not be met.

SUMMERY OF THE UTILITY MODEL

The utility model provides an environmental monitoring device for environmental protection engineering based on machine learning aims at solving the camera on the present monitoring device both can't height-adjusting, can't adjust turned angle again, and the information that leads to gathering is comparatively narrow, can't satisfy the problem of actual demand.

The utility model is realized in such a way, the environment monitoring device for the environmental protection engineering based on the machine learning comprises an adjusting component, wherein the adjusting component comprises a base; the top wall of the base is provided with a sleeve, a sliding rod is arranged in the sleeve in a sliding manner, the top end of the sliding rod penetrates through the top wall of the sleeve and extends upwards, and the sleeve is detachably connected with the sliding rod; the front surface of the sleeve is provided with a locking bolt, the locking bolt penetrates through the side wall of the sleeve and is in threaded connection with the sliding rod, and the front surface of the sliding rod is provided with a plurality of threaded holes; the top end of the sliding rod is provided with a monitoring box, a camera is arranged on the top wall of the monitoring box, the camera is rotatably connected with the monitoring box, a motor is arranged on the bottom wall inside the monitoring box, and an output shaft of the motor is fixedly connected with the camera.

Preferably, the device also comprises an energy-saving component; the energy-saving assembly comprises two solar cell panels, and the two solar cell panels are symmetrically distributed along the camera and are fixedly connected with the monitoring box; and a storage battery is arranged on one side of the motor and electrically connected with the solar cell panel.

Preferably, the lower surface of the storage battery is provided with a heat conducting fin, and the heat conducting fin penetrates through the bottom wall of the monitoring box and is fixedly connected with the monitoring box.

Preferably, a first rotating shaft is mounted on an output shaft of the motor, a second rotating shaft is arranged on one side of the first rotating shaft, and the second rotating shaft is fixedly connected with the camera; the cover is established on the lateral wall of pivot one and is installed the action wheel, the cover is established on the lateral wall of pivot two and is installed from the driving wheel, the action wheel with connect through belt transmission from the driving wheel.

Preferably, a micro control unit is arranged above the storage battery, a wireless transmission module is arranged on one side of the micro control unit, and the camera, the micro control unit and the wireless transmission module are sequentially in signal connection; the camera, the micro control unit, the wireless transmission module and the motor are all electrically connected with the storage battery.

Preferably, at least two universal wheels are arranged on the bottom wall of the base.

Compared with the prior art, the beneficial effects of the utility model are that: by arranging the adjusting assembly, when a user needs to adjust the height of the camera, the locking bolt is loosened, then the length of the sliding rod is adjusted, the height of the camera is further adjusted, and then the locking bolt is screwed down to enter the corresponding threaded hole, so that the height adjustment of the camera can be completed; if a user starts the motor, the output shaft of the motor drives the camera to rotate so as to adjust the rotation angle of the camera, so that the height of the camera can be adjusted, the angle of the camera can be adjusted, and the actual requirements are met;

by combining the solar cell panel and the storage battery, the solar cell panel can convert light energy into electric energy to be stored in the storage battery, and the storage battery is also electrically connected with other components, so that the storage battery can provide electric energy for the components, and the solar cell panel is environment-friendly and saves energy; and through the conducting strip, can make the heat conduction that the battery work produced to the conducting strip, outside air passes through the conducting strip surface this moment to dispel the heat to the conducting strip, so that the temperature of battery drops fast.

Drawings

Fig. 1 is an overall front view of the present invention;

fig. 2 is a cross-sectional view of the monitoring box of the present invention;

FIG. 3 is a schematic diagram of the system frame structure of the present invention;

in the figure: 1-adjusting component, 11-base, 111-universal wheel, 12-sleeve, 13-sliding rod, 14-locking bolt, 15-threaded hole, 16-monitoring box, 17-camera, 18-motor, 181-rotating shaft I, 182-rotating shaft II, 183-driving wheel, 184-driven wheel, 185-belt, 19-micro control unit, 191-wireless transmission module, 2-energy-saving component, 21-solar panel, 22-storage battery and 23-heat conducting sheet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "sleeved/connected", "connected", and the like are to be understood in a broad sense, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-3, an environmental monitoring device for environmental engineering based on machine learning includes an adjusting assembly 1, the adjusting assembly 1 includes a base 11; a sleeve 12 is mounted on the top wall of the base 11, a sliding rod 13 is slidably arranged inside the sleeve 12, the top end of the sliding rod 13 penetrates through the top wall of the sleeve 12 and extends upwards, and the sleeve 12 and the sliding rod 13 are detachably connected; the front surface of the sleeve 12 is provided with a locking bolt 14, the locking bolt 14 penetrates through the side wall of the sleeve 12 and is in threaded connection with the sliding rod 13, and the front surface of the sliding rod 13 is provided with a plurality of threaded holes 15; the top end of the sliding rod 13 is provided with a monitoring box 16, the top wall of the monitoring box 16 is provided with a camera 17, the camera 17 is rotatably connected with the monitoring box 16, the bottom wall inside the monitoring box 16 is provided with a motor 18, and the output shaft of the motor 18 is fixedly connected with the camera 17.

In this embodiment, the base 11 is provided to support the sleeve 12. By arranging the sleeve 12, the sliding rod 13 and the locking bolt 14, when a user needs to adjust the height of the camera 17, the locking bolt 14 is loosened, then the length of the sliding rod 12 is adjusted, the height of the camera 17 is further adjusted, then the locking bolt 14 is tightened, the locking bolt 14 enters the corresponding threaded hole 15, and the height adjustment of the camera 17 can be completed; through setting up a plurality of screw holes 15, when the user screwed in the screw hole 15 of different positions with locking bolt 14, can accomplish the height control of slide bar 13, wherein a plurality of screw holes 15 all with locking bolt 14 looks adaptation.

By providing the monitoring box 16, wherein the rear surface of the monitoring box 16 is rotatably connected with a box door through a hinge, a user can maintain the components of the monitoring box 16 by rotating the box door. By arranging the camera 17 and the motor 18, when the output shaft of the motor 18 works, the output shaft of the motor 18 drives the driving wheel 183 to rotate through the first rotating shaft 181, at this time, the driven wheel 184 rotates along with the rotation of the driving wheel 183 through the action of the belt 185, and the camera 17 is further rotated, so as to adjust the rotation angle of the camera 17.

Further, the energy-saving device also comprises an energy-saving component 2; the energy-saving assembly 2 comprises two solar cell panels 21, the two solar cell panels 21 are symmetrically distributed along the camera 17 and are fixedly connected with the monitoring box 16; a storage battery 22 is arranged on one side of the motor 18, and the storage battery 22 is electrically connected with the solar cell panel 21.

In this embodiment, through the combination of solar cell panel 21 and battery 22, can be with light energy conversion electric energy storage in battery 22, battery 22 still with other components and parts electric connection to be convenient for battery 22 provides the electric energy to components and parts, comparatively environmental protection, the energy saving uses.

Further, the lower surface of the battery 22 is provided with a heat conducting sheet 23, and the heat conducting sheet 23 penetrates through the bottom wall of the monitoring box 16 and is fixedly connected with the monitoring box 16.

In the present embodiment, the heat generated by the operation of the battery 22 is conducted to the heat conductive sheet 23 by providing the heat conductive sheet 23, and at this time, the external air passes through the surface of the heat conductive sheet 23 to radiate the heat conductive sheet 23, so that the temperature of the battery 22 is rapidly lowered.

Further, a first rotating shaft 181 is mounted on an output shaft of the motor 18, a second rotating shaft 182 is arranged on one side of the first rotating shaft 181, and the second rotating shaft 182 is fixedly connected with the camera 17; the side wall of the first rotating shaft 181 is sleeved with a driving wheel 183, the side wall of the second rotating shaft 182 is sleeved with a driven wheel 184, and the driving wheel 183 and the driven wheel 184 are in transmission connection through a belt 185.

In the present embodiment, by providing the driving wheel 183 and the driven wheel 184, the diameter of the driven wheel 184 is larger than the diameter of the driving wheel 183; when the first rotating shaft 181 drives the driving wheel 183 to rotate, the driven wheel 184 rotates along with the rotation of the driving wheel 183 under the action of the belt 185, and at this time, the rotating speed of the second rotating shaft 182 relative to the first rotating shaft 181 is reduced, so that the camera 17 is driven to rotate slowly, the rotational inertia of the device can be effectively reduced, and the worker can conveniently control the rotating angle of the camera 17.

Further, a micro control unit 19 is arranged above the storage battery 22, a wireless transmission module 191 is arranged on one side of the micro control unit 19, and the camera 17, the micro control unit 19 and the wireless transmission module 191 are sequentially in signal connection; the camera 17, the micro control unit 19, the wireless transmission module 191 and the motor 18 are electrically connected with the storage battery 22.

In this embodiment, by providing the micro control unit 19 and the wireless transmission module 191, the camera 17 collects the surrounding image information, converts the collected information into a signal, and transmits the signal to the micro control unit 19, and then the micro control unit 19 transmits the collected information to the monitoring host through the wireless transmission module 191 in real time, so that the staff can watch the collected information through the monitoring host.

Wherein the model of the camera 17 can be DS-2CC11A 2P; the micro control unit 19 can be a single chip microcomputer of AT89C51 type, and the wireless transmission module 191 can be a WM2601wifi module.

Further, at least two universal wheels 111 are mounted on the bottom wall of the base 11.

In the embodiment, the two universal wheels 111 are arranged, so that the base 11 can move on the ground through the universal wheels 111, the horizontal position of the base 11 can be adjusted, and transportation is facilitated; the universal wheels 111 have a locking function, and the number of the universal wheels 111 is not limited to two, and may be three or more.

To sum up, when the utility model is used, firstly the locking bolt 14 is unscrewed, then the length of the sliding rod 13 is adjusted, the height of the camera 17 is further adjusted, then the locking bolt 14 is screwed down, so that the locking bolt 14 enters the corresponding threaded hole 15, and the height adjustment of the camera 17 can be completed; if the user turns on the motor 18, the output shaft of the motor 18 drives the driving wheel 183 to rotate through the first rotating shaft 181, and at this time, the driven wheel 184 rotates along with the rotation of the driving wheel 183 through the belt 185, so that the camera 17 further rotates slowly, and the rotation angle of the camera 17 is adjusted.

After the height and angle of the camera 17 are adjusted, the camera 17 collects surrounding image information, converts the collected information into signals, transmits the signals to the micro control unit 19, and then the micro control unit 19 sends the collected information to the monitoring host through the wireless transmission module 191 in real time through a wireless network, so that the staff can watch the collected information through the monitoring host.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides an environmental monitoring device for environmental protection engineering based on machine learning, includes adjusting part (1), its characterized in that: the adjustment assembly (1) comprises a base (11);

a sleeve (12) is mounted on the top wall of the base (11), a sliding rod (13) is arranged inside the sleeve (12) in a sliding mode, the top end of the sliding rod (13) penetrates through the top wall of the sleeve (12) and extends upwards, and the sleeve (12) is detachably connected with the sliding rod (13);

a locking bolt (14) is arranged on the front surface of the sleeve (12), the locking bolt (14) penetrates through the side wall of the sleeve (12) and is in threaded connection with the sliding rod (13), and a plurality of threaded holes (15) are formed in the front surface of the sliding rod (13);

the top end of the sliding rod (13) is provided with a monitoring box (16), the top wall of the monitoring box (16) is provided with a camera (17), the camera (17) is rotatably connected with the monitoring box (16), the bottom wall inside the monitoring box (16) is provided with a motor (18), and the output shaft of the motor (18) is fixedly connected with the camera (17).

2. The environment monitoring device for environmental engineering based on machine learning of claim 1, wherein: also comprises an energy-saving component (2);

the energy-saving assembly (2) comprises two solar panels (21), the two solar panels (21) are symmetrically distributed along the camera (17) and are fixedly connected with the monitoring box (16);

a storage battery (22) is arranged on one side of the motor (18), and the storage battery (22) is electrically connected with the solar cell panel (21).

3. The environment monitoring device for environmental engineering based on machine learning according to claim 2, characterized in that: the lower surface of the storage battery (22) is provided with a heat conducting sheet (23), and the heat conducting sheet (23) penetrates through the bottom wall of the monitoring box (16) and is fixedly connected with the monitoring box (16).

4. The environment monitoring device for environmental engineering based on machine learning of claim 1, wherein: a first rotating shaft (181) is mounted on an output shaft of the motor (18), a second rotating shaft (182) is arranged on one side of the first rotating shaft (181), and the second rotating shaft (182) is fixedly connected with the camera (17);

the cover is established on the lateral wall of pivot one (181) and is installed action wheel (183), the cover is established on the lateral wall of pivot two (182) and is installed from driving wheel (184), action wheel (183) with from driving wheel (184) pass through belt (185) transmission and connect.

5. The environment monitoring device for environmental engineering based on machine learning according to claim 2, characterized in that: a micro control unit (19) is arranged above the storage battery (22), a wireless transmission module (191) is arranged on one side of the micro control unit (19), and the camera (17), the micro control unit (19) and the wireless transmission module (191) are sequentially in signal connection;

the camera (17), the micro control unit (19), the wireless transmission module (191) and the motor (18) are electrically connected with the storage battery (22).

6. The environment monitoring device for environmental engineering based on machine learning of claim 1, wherein: at least two universal wheels (111) are arranged on the bottom wall of the base (11).

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