CN212305488U - Complementary video monitoring equipment of scene - Google Patents

Abstract

The utility model discloses a wind-solar complementary video monitoring device, which comprises a supporting component for supporting, a camera module arranged on the supporting component for video monitoring, a solar power generation module arranged on the supporting component for utilizing solar power generation, and a wind power generation module arranged on the supporting component for utilizing wind power generation; the support assembly is provided with a storage battery assembly; the camera module comprises a camera arranged on the supporting component and a processing module connected with the camera; the utility model adopts a wind-electricity complementary mode to realize the supply of electric energy to the video module, and effectively solves the problem that the power supply can not be carried out in remote areas; the utility model discloses simple structure, the cost of manufacture is lower, is fit for a large amount of promotions.

Description

Complementary video monitoring equipment of scene

Technical Field

The utility model relates to a video monitoring technical field, concretely relates to complementary formula video monitoring equipment of wind-light.

Background

Video surveillance is an important component of security systems.

The video monitoring system can realize the integration and linkage of video monitoring and a conference, and can flexibly and effectively manage the remote equipment. Through the applications such as video recording, playback, linkage alarm, monitoring strategy formulation, emergency command to the remote monitoring object, reach the dual function of control and communication, satisfy the remote monitoring and the emergency command demand in each field such as traffic, water conservancy, oil field comprehensively.

However, in some remote areas, video surveillance is difficult to achieve due to the difficulty of not being able to power on. Accordingly, there is a need for an apparatus that can complement this.

SUMMERY OF THE UTILITY MODEL

To the problem that exists, the utility model provides a complementary video monitoring equipment of wind-solar energy, this equipment can turn into solar energy, wind energy into the electric energy, has realized providing the demand of electric energy for video monitoring's camera module, can solve the problem that can not realize video monitoring that the unable circular telegram of remote area leads to effectively.

The technical scheme of the utility model is that: a wind-solar complementary video monitoring device comprises a supporting component, a camera module, a solar power generation module and a wind power generation module, wherein the supporting component is used for supporting, the camera module is arranged on the supporting component and used for video monitoring, the solar power generation module is arranged on the supporting component and used for generating power by utilizing solar energy, and the wind power generation module is arranged on the supporting component and used for generating power by utilizing wind energy; the support assembly is provided with a storage battery assembly; the camera module comprises a camera arranged on the supporting component and a processing module connected with the camera;

the solar power generation module comprises a first mounting bracket arranged on a support assembly, a telescopic mechanism arranged on the first mounting bracket, and a solar panel arranged on the telescopic mechanism; the solar cell panel is connected with the storage battery assembly; the solar cell panel comprises two groups of solar cell panels, wherein four corners of each group of solar cell panels are installed on the first installation support through telescopic mechanisms, and four corners of each group of solar cell panels are provided with photosensitive assemblies;

the telescopic mechanism and the photosensitive assembly are connected with the processing module;

the wind power generation module comprises a second mounting frame, wind power blades arranged on the second mounting frame, and a wind power generator connected with the wind power blades; the wind driven generator is connected with the storage battery assembly.

Furthermore, the supporting component comprises a pre-buried base and a supporting rod arranged on the pre-buried base; the supporting rod is provided with a device protection box; in actual use, the embedded base is buried under the ground, so that the stability of the equipment can be better ensured; moreover, the device protection box can provide a protection place for the battery pack and the processing module.

Further, the first mounting bracket comprises an X-shaped support frame and a mounting rod arranged on the X-shaped support frame; utilize X type support frame can guarantee stability effectively, recycle the installation pole and provide the installation support, can provide mounting platform.

Furthermore, the telescopic mechanism adopts hydraulic telescopic equipment, and specifically comprises a hydraulic motor and a hydraulic telescopic rod connected with the hydraulic motor; the hydraulic motor is arranged on the mounting rod; utilize hydraulic stretching equipment, can realize the angle modulation to solar cell panel, can realize that solar cell panel rotates along with the track of sunrise to sunset of sun in actual use for furthest's absorption sunlight.

Furthermore, a steering shaft assembly is arranged at the joint of the hydraulic telescopic rod and the solar panel; the steering shaft assembly comprises an upper mounting block, a connecting block and a lower mounting block; the upper mounting block is connected with the upper end of the connecting block through a pin shaft, and the lower mounting block is connected with the lower end of the connecting block; the upper mounting blocks are mounted at four corners of the bottom end face of the solar cell panel, and the lower mounting blocks are mounted on the hydraulic telescopic rod; the solar cell panel can rotate at a larger angle by utilizing the steering shaft assembly, and is more flexible in actual use.

Furthermore, an anti-abrasion gasket is arranged at the joint of the upper mounting block and the solar panel; the anti-abrasion gasket can effectively ensure that the upper mounting block does not cause abrasion to the solar cell panel.

Furthermore, the photosensitive assembly comprises an installation cylinder and a light sensor arranged in the installation cylinder, and a light hole is formed in the installation cylinder; the upper end surface of the mounting cylinder is horizontal or parallel to the surface of the solar panel; the sensing function of the sunlight intensity can be realized by utilizing the photosensitive assembly with simpler structure and lower manufacturing cost.

Furthermore, the second mounting frame is of a cross structure, and the center of the second mounting frame is arranged at the top end of the support assembly; the four groups of wind blades are respectively arranged at the four ends of the second mounting frame; the wind power can be converted from multiple angles by utilizing the four groups of wind power blades, and the practicability is high.

Compared with the prior art, the utility model discloses beneficial effect:

1. the utility model adopts a wind-electricity complementary mode to realize the supply of electric energy to the video module, and effectively solves the problem that the power supply can not be carried out in remote areas;

2. the solar power generation module adopts the telescopic mechanism matched with the photosensitive assembly to realize the maximum solar energy absorption of the solar cell panel, and can indirectly improve the efficiency of converting solar energy into electric energy;

3. the utility model discloses simple structure, the cost of manufacture is lower, is fit for a large amount of promotions.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a front view of the present invention;

fig. 3 is a schematic view of a partial structure of the solar power generation module of the present invention;

FIG. 4 is a cross-sectional view of the photosensitive assembly of the present invention;

wherein, 1-a supporting component, 10-a storage battery component, 11-a pre-buried base, 12-a supporting rod, 120-a device protecting box, 2-a camera module, 21-a camera, 3-a solar power generation module, 31-a first mounting bracket, 311-an X-shaped supporting frame, 312-a mounting rod, 32-a telescopic mechanism, 321-a hydraulic motor and 322-a hydraulic telescopic rod, 33-a solar panel, 330-a steering shaft assembly, 3300-an anti-abrasion gasket, 3301-an upper mounting block, 3302-a connecting block, 3303-a lower mounting block, 34-a photosensitive assembly, 341-a mounting barrel, 3410-a light hole, 342-a light sensor, 4-a wind power generation module, 41-a second mounting frame and 42-a wind power blade.

Detailed Description

Example (b): a complementary video monitoring apparatus of wind and light type as shown in fig. 1 and 2, comprising a supporting member 1 for supporting, a camera module 2 for video monitoring provided on the supporting member 1, a solar power generation module 3 for generating power by using solar energy provided on the supporting member 1, and a wind power generation module 4 for generating power by using wind energy provided on the supporting member 1;

the support component 1 is provided with a storage battery component 10; the supporting component 1 comprises a pre-buried base 11 and a supporting rod 12 arranged on the pre-buried base; the support rod 12 is provided with a device protection box 120;

the camera module 2 comprises a camera 21 arranged on the support component 1 and a processing module connected with the camera 21;

as shown in fig. 1 and 3, the solar power generation module 3 includes a first mounting bracket 31 disposed on the support assembly 1, a telescoping mechanism 32 disposed on the first mounting bracket 31, and a solar cell panel 33 disposed on the telescoping mechanism 32; the solar cell panel 33 is connected with the storage battery assembly 10; two groups of solar panels 33 are provided, four corners of each group of solar panels 33 are mounted on the first mounting bracket 31 through the telescopic mechanisms 32, and four corners of each group of solar panels 33 are provided with the photosensitive assemblies 34;

the first mounting bracket 31 comprises an X-shaped support bracket 311, and a mounting rod 312 arranged on the X-shaped support bracket 311;

as shown in fig. 1 and 3, the telescopic mechanism 32 is a hydraulic telescopic device, and specifically includes a hydraulic motor 321, and a hydraulic telescopic rod 322 connected to the hydraulic motor 321; the hydraulic motor 321 is arranged on the mounting rod 312; a steering shaft assembly 330 is arranged at the joint of the hydraulic telescopic rod 322 and the solar cell panel 33; the steering shaft assembly 330 comprises an upper mounting block 3301, a connecting block 3302, and a lower mounting block 3303; the upper mounting block 3301 is connected with the upper end of the connecting block 3302 through a pin shaft, and the lower mounting block 3303 is connected with the lower end of the connecting block 3302; the upper mounting blocks 3301 are mounted at four corners of the bottom end face of the solar cell panel 33, and the lower mounting blocks 3303 are mounted on the hydraulic telescopic rod 322; an anti-abrasion gasket 3300 is arranged at the joint of the upper mounting block 3301 and the solar cell panel 33;

as shown in fig. 4, the photosensitive assembly 34 includes a mounting cylinder 341, and a light sensor 342 disposed inside the mounting cylinder 341, the mounting cylinder 341 being provided with a light-transmitting hole 3410; the upper end surface of the mounting cylinder 341 is horizontal or parallel to the surface of the solar panel 33;

the telescopic mechanism 32 and the photosensitive assembly 34 are both connected with the processing module;

as shown in fig. 1 and 2, the wind power generation module 4 includes a second mounting bracket 41, a wind blade 42 disposed on the second mounting bracket 41, and a wind power generator connected to the wind blade 42; the wind driven generator is connected with the storage battery assembly 10;

the second mounting frame 41 adopts a cross structure, and the center of the second mounting frame 41 is arranged at the top end of the support assembly 1; there are four groups of wind blades 42, and four groups of wind blades 42 are respectively disposed at the four ends of the second mounting frame 41.

The storage battery assembly 10 and the processing module are both arranged in the device protection box 120, the processing module comprises a central microprocessor, a GPRS module, an A/D sampling module, a memory module and a switching value output module, the central microprocessor can be wirelessly connected with external server equipment through the GPRS module, and the central microprocessor is connected with the camera module 2 and the light sensor 342 through the A/D sampling module; the memory module is used for storing the video data collected by the camera module 2, and the central microprocessor is connected with the camera module 2 and the storage battery assembly 10 through the switching value output module.

During the use, can realize "pursuit" to the sun through the angle that adjusts solar cell panel 33 through telescopic machanism 32, reach solar cell panel 33 just to the sunlight, specifically do: the angle of the solar cell panel 33 is adjusted through the telescopic mechanism 32, the angle of the photosensitive assembly 34 can be driven, and when the illumination intensity signals recognized by the light sensors 342 in the photosensitive assemblies 34 at four corners of the same solar cell panel 33 are consistent, the adjustment of the telescopic mechanism 32 is stopped.

It should be noted that: the processing module, the hydraulic motor 321, the light sensor 342 and the camera module 2 are all commercially available products; the central microprocessor is specifically an S3C2440 microprocessor of ARM9, and the light sensor 342 is specifically a DFN-6 light sensor.

Claims (8)

1. A complementary video monitoring equipment of wind-solar energy, including the supporting component (1) used for supporting, set up the camera module (2) used for video monitoring on the supporting component (1), set up the solar energy power module (3) used for utilizing the solar energy to generate electricity on the supporting component (1), and set up the wind power module (4) used for utilizing the wind energy to generate electricity on the supporting component (1); the device is characterized in that a storage battery assembly (10) is mounted on the support assembly (1); the camera module (2) comprises a camera (21) arranged on the support component (1) and a processing module connected with the camera (21);

the solar power generation module (3) comprises a first mounting bracket (31) arranged on the support assembly (1), a telescopic mechanism (32) arranged on the first mounting bracket (31), and a solar panel (33) arranged on the telescopic mechanism (32); the solar panel (33) is connected with the storage battery assembly (10); two groups of solar panels (33) are arranged, four corners of each group of solar panels (33) are all installed on the first installation support (31) through telescopic mechanisms (32), and four corners of each group of solar panels (33) are all provided with photosensitive assemblies (34);

the telescopic mechanism (32) and the photosensitive assembly (34) are connected with the processing module;

the wind power generation module (4) comprises a second mounting frame (41), a wind blade (42) arranged on the second mounting frame (41), and a wind power generator connected with the wind blade (42); the wind power generator is connected with the storage battery assembly (10).

2. A complementary video surveillance equipment of wind-solar according to claim 1, characterized in that the supporting component (1) comprises a pre-buried base (11), a supporting rod (12) arranged on the pre-buried base; the support rod (12) is provided with a device protection box (120).

3. A wind-solar complementary video monitoring apparatus according to claim 1, wherein the first mounting bracket (31) comprises an X-shaped support frame (311), and a mounting rod (312) arranged on the X-shaped support frame (311).

4. A wind-solar complementary video monitoring device according to claim 3, wherein the telescopic mechanism (32) is a hydraulic telescopic device, and specifically comprises a hydraulic motor (321) and a hydraulic telescopic rod (322) connected with the hydraulic motor (321); the hydraulic motor (321) is arranged on the mounting rod (312).

5. A complementary video monitoring equipment of scene according to claim 4, characterized in that, the hydraulic telescoping rod (322) is provided with a steering shaft assembly (330) with the solar panel (33) junction; the steering shaft assembly (330) comprises an upper mounting block (3301), a connecting block (3302) and a lower mounting block (3303); the upper mounting block (3301) is connected with the upper end of the connecting block (3302) through a pin shaft, and the lower mounting block (3303) is connected with the lower end of the connecting block (3302); the upper mounting block (3301) is mounted at the four corners of the bottom end face of the solar cell panel (33), and the lower mounting block (3303) is mounted on the hydraulic telescopic rod (322).

6. A complementary video surveillance equipment according to claim 5, characterized in that the junction of the upper mounting block (3301) and the solar panel (33) is provided with an anti-wear gasket (3300).

7. A complementary video surveillance apparatus according to claim 1, wherein said photosensitive assembly (34) comprises a mounting cylinder (341), and a light sensor (342) disposed inside the mounting cylinder (341), said mounting cylinder (341) being provided with a light-transmitting hole (3410); and the upper end surface of the mounting cylinder (341) is horizontal or parallel to the surface of the solar cell panel (33).

8. A wind-solar complementary video monitoring device according to claim 1, wherein the second mounting frame (41) is of a cross structure, and the second mounting frame (41) is arranged at the top end of the support assembly (1) at the center; the wind blades (42) are provided with four groups, and the four groups of wind blades (42) are respectively arranged at the four ends of the second mounting frame (41).

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