CN213186333U - Monitoring device powered by solar energy - Google Patents

Abstract

The utility model relates to a monitoring device powered by solar energy, which comprises a solar energy power supply device, an installation support fixedly connected with the solar energy power supply device, a rotating seat detachably connected with the installation support, a camera installation frame detachably connected with the rotating seat, and a monitoring camera arranged on the camera installation frame and electrically connected with the solar energy power supply device; the mounting bracket is provided with a plurality of same bracket bulges or bracket clamping grooves which are arranged into a circular ring structure in the vertical direction; a rotating seat clamping groove or a rotating seat bulge which is correspondingly matched with the bracket bulge or the bracket clamping groove is arranged on the rotating seat; the bottom surface of the rotating seat in the horizontal direction is provided with a plurality of same bottom surface bulges or bottom surface clamping grooves which are arranged in an annular structure; the camera mounting rack is provided with mounting rack clamping grooves or mounting rack bulges which are correspondingly matched and clamped with the bottom surface bulges or the bottom surface clamping grooves. The utility model discloses a simple structure, the demand that can satisfy different uses is adjusted conveniently in the installation.

Description

Monitoring device powered by solar energy

Technical Field

The utility model belongs to the technical field of security protection equipment and specifically relates to a monitoring device of solar energy power supply.

Background

With the development of society, monitoring devices are required in various industries, such as monitoring of road traffic conditions, monitoring of production workshops, monitoring of field scientific research sites, and the like. It is a problem to supply power to the monitoring device, and the indoor monitoring can be supplied by conventional power, while the power supply to the monitoring device is very important in outdoor, especially in some remote places where conventional power resources cannot be supplied. With the development of science and technology, the solar technology is more mature, the solar technology is also used on the monitoring device, the use of electric power is reduced, the pressure is reduced for the society, the resources are saved, and meanwhile, the problem of power supply of the monitoring device in remote areas is solved. Because the difference of sun irradiation angle just needs to be adapted to the solar energy installation angle in different places, however the monitoring device of current solar energy power supply, some fixed angles can not satisfy the demand of different local installations, some adjusts through electric control, causes the product structure complicacy, and the cost rises, and such device receives outdoor environment's influence easily moreover, can produce failure after long-term the use.

SUMMERY OF THE UTILITY MODEL

To current not enough, the utility model provides a simple structure can satisfy the monitoring device of the solar energy power supply that different areas used.

The utility model provides a technical scheme that its technical problem adopted is: a monitoring device powered by solar energy comprises a solar energy power supply device, an installation support fixedly connected with the solar energy power supply device, a rotating seat detachably connected with the installation support, a camera installation frame detachably connected with the rotating seat, and a monitoring camera which is arranged on the camera installation frame, is positioned below the rotating seat and is electrically connected with the solar energy power supply device; the solar power supply device is arranged at the top of the mounting bracket, and a plurality of same bracket bulges or bracket clamping grooves which are arranged into a circular structure are arranged on the surface of the mounting bracket in the vertical direction; the rotating seat is in matched clamping connection with the mounting bracket through rotating seat clamping grooves or rotating seat bulges which are arranged on the surface of the rotating seat in the vertical direction and correspond to the bracket bulges or the bracket clamping grooves; the bottom surface of the rotating seat in the horizontal direction is provided with a plurality of same bottom surface bulges or bottom surface clamping grooves which are arranged in an annular structure; the camera mounting rack is connected with the rotating seat in a matched clamping mode through mounting rack clamping grooves or mounting rack protrusions which are arranged on the upper surface of the camera mounting rack in the horizontal direction and correspond to the bottom surface protrusions or the bottom surface clamping grooves.

Preferably, the mounting bracket is of a T-shaped structure, and the rotating seat is of an L-shaped or inverted T-shaped structure.

Preferably, the support protrusion, the rotating seat protrusion, the bottom surface protrusion and the mounting bracket protrusion are protrusions forming a trapezoidal structure in the radial direction of the annular structure formed by the protrusions, and the support clamping groove, the rotating seat clamping groove, the bottom surface clamping groove and the mounting bracket clamping groove are clamping grooves forming a trapezoidal structure in the radial direction of the annular structure formed by the protrusions.

Preferably, the bottom surface of the rotating seat in the horizontal direction is provided with a bottom surface bulge, and the upper surface of the camera mounting rack in the horizontal direction is provided with a mounting rack clamping groove; the camera mounting frame is provided with a plurality of mounting bracket clamping grooves, and is characterized in that the rotating seat is further provided with an annular structure formed by the plurality of bottom surface bulges and an annular bulge concentric with the annular structure, the camera mounting frame is further provided with an annular clamping groove formed by the plurality of mounting bracket clamping grooves and an annular clamping groove concentric with the annular structure, and the annular bulge and the annular clamping groove are matched and clamped.

Preferably, a bottom surface clamping groove is formed in the bottom surface of the rotating seat in the horizontal direction, and a mounting frame protrusion is formed in the upper surface of the camera mounting frame in the horizontal direction; the camera mounting frame is provided with a plurality of mounting frames, and is characterized in that the rotating seat is further provided with annular clamping grooves which are located in an annular structure formed by the plurality of bottom clamping grooves and concentric with the annular structure, the camera mounting frame is further provided with annular protrusions which are located in the annular structure formed by the plurality of mounting frames and concentric with the annular structure, and the annular protrusions and the annular clamping grooves are matched and clamped.

Preferably, the solar power supply device comprises a solar panel, a rechargeable battery, a solar panel support and a circuit board, the solar panel is installed at the top of the solar panel support and electrically connected with the circuit board, the rechargeable battery and the circuit board are both installed inside the solar panel support and electrically connected with each other, the monitoring camera is electrically connected with the rechargeable battery, and the solar panel support is fixedly installed at the top of the installation support.

Preferably, the rechargeable battery is a lithium ion battery, and a switch penetrating out of the solar panel support is arranged on the circuit board.

Preferably, a wireless communication unit is arranged in the monitoring camera, and a transmission antenna electrically connected with the wireless communication unit is arranged on the camera mounting frame.

Preferably, a plurality of infrared cameras are arranged on the monitoring camera.

Preferably, the monitoring camera is a dome camera.

The beneficial effects of the utility model reside in that: the utility model has the advantages that the solar power supply device is fixedly arranged at the top of the mounting bracket, the relative position between the solar power supply device and the mounting bracket is fixed and unchangeable, the mounting bracket and the rotating seat are connected together through the matching block of the corresponding bulge and the corresponding clamping groove, the connection is also detachable, the pitch angle of the solar power supply device can be adjusted according to the sunshine condition of the place where the monitoring device is to be installed, the rotating seat and the camera mounting bracket are also connected together through the matching block of the bulge and the clamping groove, the connection is also detachable, the angle of the solar power supply device towards the horizontal direction of the sun can be adjusted according to the sunshine condition of the place where the monitoring device is to be installed, the whole structure is simple, the connection is convenient, the requirements for use in different places can be met, and the price is low, the use cost is saved, and the outdoor environment can be better and permanently used.

Drawings

Fig. 1 is a schematic structural view of the back side of the embodiment of the present invention;

fig. 2 is a schematic structural diagram of the front side of the embodiment of the present invention;

FIG. 3 is a schematic structural view of a mounting bracket according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a rotary seat according to an embodiment of the present invention;

FIG. 5 is a schematic view of the embodiment of the present invention after the mounting bracket and the rotating base are connected;

fig. 6 is a schematic structural diagram of a camera mounting bracket according to an embodiment of the present invention;

part names and serial numbers in the figure: 1-solar power supply device 10-switch 2-mounting support 20-support protrusion 3-rotary seat 30-rotary seat slot 31-bottom surface protrusion 32-circular protrusion 4-camera mounting rack 40-mounting rack slot 41-circular slot 42-transmission antenna 5-monitoring camera 50-infrared camera.

Detailed Description

To clearly illustrate the objects, technical solutions and advantages of the embodiments of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and embodiments, which are clearly and completely described below. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention. Furthermore, directional terms as referred to in the present disclosure, such as "upper", "lower", "front", "rear", "left", "right", "inner", "outer", etc., refer only to the direction of the attached drawings, and directional terms used are intended to better and more clearly illustrate and understand the present invention rather than to indicate or imply the orientation the present invention must have, and therefore should not be construed as limiting the present invention.

The embodiment of the utility model is shown in fig. 1 to fig. 6, a monitoring device powered by solar energy, which comprises a solar energy power supply device 1, a mounting bracket 2 fixedly connected with the solar energy power supply device 1, a rotating base 3 detachably connected with the mounting bracket 2, a camera mounting bracket 4 detachably connected with the rotating base 3, and a monitoring camera 5 arranged on the camera mounting bracket 4 and positioned below the rotating base 3 and electrically connected with the solar energy power supply device 1, thus forming the solar energy power supply device 1 to absorb solar energy and convert the solar energy into electric energy to be supplied to the monitoring camera 5 for utilization, energy saving and environmental protection, while the solar energy power supply device 1 can be any existing mode of utilizing solar energy and converting the solar energy into electric energy, the monitoring camera 5 can also be any existing camera, and in order to stably, accurately and rapidly react to a monitored area, the monitoring camera 5 is a spherical camera, and has the advantages of high running speed, optical zooming, accurate positioning and flexible control mode; the monitoring camera 5 is provided with a plurality of infrared cameras 50, and monitoring can be performed under the condition of poor light by utilizing infrared rays; the solar power supply device 1 is arranged at the top of the mounting bracket 2, so that the relative position between the solar power supply device 1 and the mounting bracket 2 is fixed and unchanged, and the installation of the mounting bracket 2 determines the pitching angle and the angle in the horizontal direction of the solar power supply device 1; solar power supply unit 1 is in the top among the whole structure that forms, is installing support 2, rotates seat 3, camera mounting bracket 4, surveillance camera head 5 in proper order after that, has so both can not influence solar power supply unit 1 to the utilization of solar energy, can not influence the control of surveillance camera head 5 again, and simple structure is succinct. A plurality of same bracket bulges 20 or bracket clamping grooves which are arranged into a circular ring structure are arranged on the surface of the mounting bracket 2 in the vertical direction; the rotating seat 3 is matched, clamped and connected with the mounting bracket 2 through rotating seat clamping grooves 30 or rotating seat clamping grooves which are arranged on the surface of the rotating seat in the vertical direction and correspond to the bracket bulges 20 or bracket clamping grooves, the plurality of bracket bulges 20 or bracket clamping grooves are the same, namely the bracket bulges 20 or bracket clamping grooves are the same in size and shape and are arranged in a circular ring shape, the installation can be facilitated without confirming the direction during the installation, meanwhile, the solar power supply device 1 is fixedly connected to the mounting bracket 2, the corresponding relative position between the solar power supply device and the bracket bulges 20 or bracket clamping grooves is fixed, at the moment, the bracket bulges 20 or bracket clamping grooves are arranged on the surface of the mounting bracket 2 in the vertical direction, and when the plurality of bracket bulges 20 or bracket clamping grooves are fixedly clamped at a certain point in sequence, the mounting bracket 2 can form different included angle states with the horizontal direction, and then just adjust solar power supply unit 1's every single move angle, block simple structure, it is convenient to connect, receives environmental impact little, more does benefit to outdoor long-time use. The rotating seat clamping grooves 30 or the rotating seat bulges are matched and clamped with the support bulges 20 or the support clamping grooves, namely when the support bulges 20 are arranged on the mounting support 2, the rotating seat clamping grooves 30 are arranged on the rotating seat, correspondingly when the support clamping grooves are arranged on the mounting support 2, the rotating seat bulges are arranged on the rotating seat, at the moment, the rotating seat clamping grooves 30 or the rotating seat bulges are correspondingly arranged into a circular structure, the sizes and the shapes of the rotating seat clamping grooves 30 or the rotating seat bulges are matched with the corresponding support bulges 20 or the corresponding support clamping grooves, and the clamping is firmer; in order to be firmer, a through hole can be arranged in the middle of the annular structure formed by the two, and then the connection between the mounting bracket 2 and the rotating seat 3 is further stabilized by the matching of a screw penetrating through the through hole and a nut; the bottom surface of the rotating seat 3 in the horizontal direction is provided with a plurality of same bottom surface bulges 31 or bottom surface clamping grooves which are arranged in an annular structure; camera mounting bracket 4 matches the block through the mounting bracket draw-in groove 40 or the mounting bracket that set up on its upper surface at the horizontal direction and the bottom surface is protruding 1 or the bottom surface draw-in groove is corresponding with rotating seat 3 and is connected, just also mean that rotate the protruding or rotating seat draw-in groove 30 of seat and bottom surface is protruding 31 or the bottom surface draw-in groove be in rotate seat 3 on two surfaces of vertically, same principle, the protruding 31 or bottom surface draw-in groove of bottom surface and mounting bracket draw-in groove 40 or the bellied loop configuration of mounting bracket and match the block and just made things convenient for the erection joint between rotation seat and the camera mounting bracket 4. The camera mounting bracket 4 is fixed after being mounted, and the mounting of the rotating base 3 can be adjusted, so that the angle of the solar power supply device 1 facing the sun in the horizontal direction can be adjusted in the horizontal direction. Installing support 2 and rotation between the seat 3, it is all dismantled and assembled to rotate the connection between seat 3 and the camera mounting bracket 4, just can adjust solar power supply unit 1's every single move angle through installing support 2 and the installation of the different blocks that rotate between the seat 3 according to the local sunshine condition that will install monitoring device, adjust solar power supply unit 1's the angle towards solar horizontal direction through the installation of the different blocks that rotate between seat 3 and the camera mounting bracket 4, whole simple structure, convenient connection, can satisfy the demand of using in different places, simultaneously its price is also cheaper, use cost is saved, can be better permanent use under outdoor environment.

In a further improvement, as shown in fig. 1 to 5, the mounting bracket 2 is of a T-shaped structure, the rotating base 3 is of an L-shaped or inverted T-shaped structure, and the T-shaped structure of the mounting bracket 2 can be arranged at the middle position of the bottom surface of the solar power supply device 1, so that the solar power supply device 1 is more firmly and stably mounted on the mounting bracket 2, the structure of the lower part of the mounting bracket 2 is simple, and the clamping connection between the mounting bracket 2 and the rotating base 3 and the angle adjustment of the solar power supply device 1 are facilitated; and the L-shaped or inverted T-shaped structure of the rotating seat 3 can better disperse the gravity of the solar power supply device 1, so that the stability and the firmness of structural connection are kept while the simple structure is kept. In order to make the matching block between each arch and the draw-in groove more firm equally, it is more convenient to operate and more do benefit to the setting of loop configuration, support arch 20, rotation seat arch, bottom surface arch 31, mounting bracket arch all become the arch of trapezium structure in its ring configuration's footpath that constitutes, support draw-in groove, rotation seat draw-in groove 30, bottom surface draw-in groove, mounting bracket draw-in groove 40 all become the draw-in groove of trapezium structure in its ring configuration's footpath that constitutes, just means that being close to the ring configuration center is trapezoidal upper surface, more do benefit to ring configuration's range.

In a further improvement, under different clamping modes of the rotating seat and the camera mounting bracket, in a first mode, as shown in fig. 1 and fig. 4 to fig. 6, a bottom surface protrusion 31 is arranged on the bottom surface of the rotating seat 3 in the horizontal direction, and a mounting bracket clamping groove 40 is arranged on the upper surface of the camera mounting bracket 4 in the horizontal direction; the rotating seat 3 is further provided with a circular protrusion 32 which is positioned in an annular structure formed by the bottom protrusions 31 and is concentric with the annular structure, the camera mounting frame 4 is further provided with a circular clamping groove 41 which is positioned in the annular structure formed by the mounting frame clamping grooves 40 and is concentric with the annular structure, and the circular protrusion 32 and the circular clamping groove 41 are matched and clamped; in the second type (not shown), a bottom surface clamping groove is formed in the bottom surface of the rotating seat 3 in the horizontal direction, and a mounting bracket protrusion is formed in the upper surface of the camera mounting bracket 4 in the horizontal direction; rotate and still be provided with on the seat 3 be located a plurality of bottom surfaces draw-in groove formed the loop configuration and with the concentric ring shape draw-in groove of loop configuration, still be provided with on the camera mounting bracket 4 be located a plurality of mounting bracket protruding formed the loop configuration and with the concentric ring shape arch of loop configuration, the protruding block of ring shape matches with ring shape draw-in groove. Therefore, the middle part between the rotating seat 3 and the camera mounting rack 4 is also provided with a connecting point which is clamped and connected, so that the connection between the rotating seat and the camera mounting rack can be kept stable and firm.

In a further improvement, as shown in fig. 1 and 2, for the solar power supply device, the solar power supply device 1 includes a solar panel, a rechargeable battery, a solar panel support and a circuit board, the solar panel is mounted on the top of the solar panel support and electrically connected to the circuit board, the rechargeable battery and the circuit board are mounted inside the solar panel support and electrically connected to each other, the monitoring camera 5 is electrically connected to the rechargeable battery, and the solar panel support is fixedly mounted on the top of the mounting support. In order to store the electric energy converted from the solar energy, the rechargeable battery is a lithium ion battery, has small volume and high energy storage capacity, can miniaturize and simplify the structure of the solar power supply device 1, is more beneficial to use, and is convenient to control the solar power supply device 1, the circuit board is provided with a switch 10 penetrating out of the solar panel support, and the solar power supply device 1 can be conveniently maintained and controlled through the switch 10.

Further improvement, as shown in fig. 1 and fig. 2, a wireless communication unit is arranged in the monitoring camera 5, and a transmission antenna 42 electrically connected with the wireless communication unit is arranged on the camera mounting rack 4, so that the device has a wireless communication function, monitored information can be transmitted to a remote terminal, and the device can be controlled by the remote terminal, and is more beneficial to outdoor use.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

Claims (10)

1. A solar powered monitoring device, characterized by: the solar energy monitoring system comprises a solar energy power supply device, an installation support fixedly connected with the solar energy power supply device, a rotating seat detachably connected with the installation support, a camera installation frame detachably connected with the rotating seat, and a monitoring camera which is arranged on the camera installation frame, is positioned below the rotating seat and is electrically connected with the solar energy power supply device; the solar power supply device is arranged at the top of the mounting bracket, and a plurality of same bracket bulges or bracket clamping grooves which are arranged into a circular structure are arranged on the surface of the mounting bracket in the vertical direction; the rotating seat is in matched clamping connection with the mounting bracket through rotating seat clamping grooves or rotating seat bulges which are arranged on the surface of the rotating seat in the vertical direction and correspond to the bracket bulges or the bracket clamping grooves; the bottom surface of the rotating seat in the horizontal direction is provided with a plurality of same bottom surface bulges or bottom surface clamping grooves which are arranged in an annular structure; the camera mounting rack is connected with the rotating seat in a matched clamping mode through mounting rack clamping grooves or mounting rack protrusions which are arranged on the upper surface of the camera mounting rack in the horizontal direction and correspond to the bottom surface protrusions or the bottom surface clamping grooves.

2. The solar powered monitoring device of claim 1, wherein: the mounting bracket is of a T-shaped structure, and the rotating seat is of an L-shaped or inverted T-shaped structure.

3. The solar powered monitoring device of claim 1, wherein: the support is protruding, the rotating seat is protruding, the bottom surface is protruding, the mounting bracket is protruding to form a trapezoid structure in the radial direction of the ring structure formed by the support, the support clamping groove, the rotating seat clamping groove, the bottom surface clamping groove and the mounting bracket clamping groove are clamping grooves forming a trapezoid structure in the radial direction of the ring structure formed by the support.

4. The solar power supply monitoring device according to claim 1, wherein the bottom surface of the rotating seat in the horizontal direction is provided with a bottom surface protrusion, and the upper surface of the camera mounting rack in the horizontal direction is provided with a mounting rack clamping groove; the camera mounting frame is provided with a plurality of mounting bracket clamping grooves, and is characterized in that the rotating seat is further provided with an annular structure formed by the plurality of bottom surface bulges and an annular bulge concentric with the annular structure, the camera mounting frame is further provided with an annular clamping groove formed by the plurality of mounting bracket clamping grooves and an annular clamping groove concentric with the annular structure, and the annular bulge and the annular clamping groove are matched and clamped.

5. The solar power supply monitoring device according to claim 1, wherein a bottom slot is arranged on the bottom surface of the rotating seat in the horizontal direction, and a mounting bracket protrusion is arranged on the upper surface of the camera mounting bracket in the horizontal direction; the camera mounting frame is provided with a plurality of mounting frames, and is characterized in that the rotating seat is further provided with annular clamping grooves which are located in an annular structure formed by the plurality of bottom clamping grooves and concentric with the annular structure, the camera mounting frame is further provided with annular protrusions which are located in the annular structure formed by the plurality of mounting frames and concentric with the annular structure, and the annular protrusions and the annular clamping grooves are matched and clamped.

6. The solar powered monitoring device of claim 1, wherein the solar powered device comprises a solar panel, a rechargeable battery, a solar panel bracket, and a circuit board, the solar panel is mounted on the top of the solar panel bracket and electrically connected to the circuit board, the rechargeable battery and the circuit board are both mounted inside the solar panel bracket and electrically connected to each other, the monitoring camera is electrically connected to the rechargeable battery, and the solar panel bracket is fixedly mounted on the top of the mounting bracket.

7. The solar powered monitoring device of claim 6, wherein the rechargeable battery is a lithium ion battery, and the circuit board is provided with a switch penetrating out of the solar panel support.

8. The solar powered monitoring device of claim 1, wherein: the monitoring camera is internally provided with a wireless communication unit, and the camera mounting frame is provided with a transmission antenna electrically connected with the wireless communication unit.

9. The solar powered monitoring device of claim 1, wherein the monitoring camera is provided with a plurality of infrared cameras.

10. The solar powered monitoring device of claim 1 wherein the monitoring camera is a dome camera.

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