CN214337973U - High-definition explosion-proof hemispherical network camera - Google Patents

Abstract

The utility model relates to the field of camera equipment, in particular to a high-definition explosion-proof hemispherical network camera, which comprises a protective cover head, a shell, a high-definition camera component, a connecting plate, a mounting seat, an infrared bracket, an infrared camera component, a signal interface and a control mainboard; the control main board is fixedly arranged inside the mounting seat, the signal interface is arranged at the bottom end of the shell and is connected with the control main board; the high-definition camera shooting assembly and the infrared camera shooting assembly are in signal connection with the control main board; the explosion-proof function of the hemispherical camera is realized by adopting triple guarantees of physical protection, waterproof buffering and inert gas protection; the split arrangement is convenient for maintenance and repair, and the mutual interference of optical fibers is avoided; the service life of the whole body is prolonged, and the imaging quality is improved.

Description

High-definition explosion-proof hemispherical network camera

Technical Field

The utility model relates to a camera equipment field especially relates to an explosion-proof hemisphere web camera of high definition.

Background

In places such as dangerous goods transport vehicles, dangerous goods transport ships, warehouses for storing inflammable and explosive articles and the like, cameras need to be installed for monitoring, and the safety requirement of the ten occasions is high, so that the used cameras need to meet the conditions of small size, light weight, safety and reliability. Most of the protective covers of the existing cameras are of one-layer structures, have no explosion-proof function and are not fireproof;

in the explosion-proof camera, the infrared lamp assembly and the camera assembly are positioned in the same cavity, so that light emitted by the infrared lamp is easy to continuously reflect through glass and enter the inside of a lens of the camera, and stray light is formed to influence the image quality.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure, components of a whole that can function independently setting, fire prevention gas is filled, explosion-proof jar-proof camera.

A high-definition explosion-proof hemispherical network camera comprises a protective cover head, a shell, a high-definition camera shooting assembly, a connecting plate, a mounting seat, an infrared bracket, an infrared camera shooting assembly, a signal interface and a control mainboard;

the mounting seat is arranged inside the shell, and the connecting plate is rotatably arranged on the mounting seat; the high-definition camera shooting assembly is arranged on the connecting plate, and the protective cover is covered and arranged on the shell; the infrared support is arranged at the bottom of the shell, and the infrared camera shooting assembly is fixedly arranged on the infrared support;

the control main board is fixedly arranged inside the mounting seat, the signal interface is arranged at the bottom end of the shell and is connected with the control main board; the high-definition camera shooting assembly and the infrared camera shooting assembly are in signal connection with the control main board;

furthermore, the protective cover head is a hemispherical transparent cover body and is made of high-strength acrylic materials;

furthermore, a waterproof rubber ring is arranged at the joint of the protective cover head and the shell, the protective cover head extends into the joint inside the shell, and a buffer gasket is fixed at the joint;

further, the high-definition camera component comprises a high-definition spherical lens, a lens protection frame and a lens connecting plate; the high-definition spherical lens is arranged in the lens protection frame, and the lens connecting plate is fixed on two sides of the lens protection frame; the lens connecting plate is rotationally connected with the connecting plate;

further, the connecting plate comprises a bottom plate, an adjusting groove and a mounting frame; the assembly frames are vertically fixed on two sides of the bottom plate, and the adjusting grooves are formed in the bottom plate; the bottom plate is fixed with the mounting seat through bolts, and the bolts penetrate through the adjusting grooves to be fastened and fixed.

Furthermore, only a built-in power supply is arranged on the control mainboard; the built-in power supply is electrically connected with the high-definition camera shooting assembly and the infrared camera shooting assembly and is in control connection with the control mainboard.

Furthermore, inert gas is filled in the inner cavity of the device enclosed by the protective cover head and the shell.

The utility model has the advantages that:

in the specific implementation process of the utility model, the shell plays the roles of fixed installation and first layer protection, and the infrared bracket is adopted to separate the high-definition spherical lens from the infrared camera component, so as to avoid the influence of infrared stray light on the imaging effect; the built-in mounting seat protects and isolates the control mainboard and the built-in power supply; the connecting plate is arranged on the mounting seat, and the mounting angle of the connecting plate can be freely changed to adapt to various scenes through the adjusting groove; lens connecting plates on two sides of the high-definition camera component are rotatably connected with the assembling frame, so that the flexible change of a visual angle is realized; the assembly between the protective cover head and the shell realizes water prevention and buffering through the waterproof rubber ring and the buffering gasket, so that the stability of the whole structure is further protected; the built-in power supply can also ensure that certain electric quantity is used for emergency treatment when power is cut off accidentally; the inert gas is filled in the interior, so that faults such as internal fire and the like caused by sparks and other factors can be avoided under an unexpected condition;

by adopting the utility model, the whole structure is simple, and the installation is convenient; the explosion-proof function of the hemispherical camera is realized by adopting triple guarantees of physical protection, waterproof buffering and inert gas protection; the split arrangement is convenient for maintenance and repair, and the mutual interference of optical fibers is avoided; the service life of the whole body is prolonged, and the imaging quality is improved.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a cross-sectional view of the present invention taken along line a-a of fig. 1;

fig. 3 is a schematic top view of the present invention partially hidden from view;

fig. 4 is a partially hidden schematic rear oblique view of the present invention;

reference numerals: the camera comprises a protective cover head 1, a shell 2, a high-definition camera component 3, a high-definition spherical lens 31, a lens protection frame 32, a lens connecting plate 33, a connecting plate 4, a bottom plate 41, an adjusting groove 42, an assembling frame 43, a mounting seat 5, a built-in power supply 6, an infrared support 7, an infrared camera assembly 8, a control mainboard 9, a buffer gasket 10, a waterproof rubber ring 11 and a signal interface 12.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, a high-definition explosion-proof hemispherical network camera comprises a protective cover head 1, a shell 2, a high-definition camera shooting assembly 3, a connecting plate 4, a mounting seat 5, an infrared bracket 7, an infrared camera shooting assembly 8, a signal interface 12 and a control main board 9;

the mounting seat 5 is arranged inside the shell 2, and the connecting plate 4 is rotatably arranged on the mounting seat 5; the high-definition camera component 3 is arranged on the connecting plate 4, and the protective cover head 1 is covered and arranged on the shell 2; the infrared bracket 7 is arranged at the bottom of the shell 2, and the infrared camera shooting assembly 8 is fixedly arranged on the infrared bracket 7;

the control main board 9 is fixedly arranged inside the mounting seat 5, the signal interface 12 is arranged at the bottom end of the shell 2 and is connected to the control main board 9; the high-definition camera component 3 and the infrared camera component 8 are in signal connection with the control mainboard 9;

in this embodiment, high definition camera module 3 and infrared camera module 8 are used, and infrared view finding and normal view finding are combined, and the device is suitable for night or dark light environment.

Further, the protective cover head 1 is a hemispherical transparent cover body and is made of a high-strength acrylic material;

in the embodiment, the internal lens is protected by the skill, and the imaging quality is not influenced.

Further, a waterproof rubber ring 11 is arranged at the joint of the protective cover head 1 and the shell 2, and a buffer gasket 10 is fixed at the joint of the protective cover head 1 extending into the shell 2;

further, the high-definition camera module 3 includes a high-definition spherical lens 31, a lens protection frame 32, and a lens connection plate 33; the high-definition spherical lens 31 is arranged in a lens protection frame 32, and the lens connecting plate 33 is fixed on two sides of the lens protection frame 32; the lens connecting plate 33 is rotatably connected with the connecting plate 4;

further, the connecting plate 4 comprises a bottom plate 41, an adjusting groove 42 and a mounting bracket 43; the assembling frames 43 are vertically fixed on two sides of the bottom plate 41, and the adjusting grooves 42 are formed in the bottom plate 41; the bottom plate 41 and the mounting base 5 are fixed through bolts which penetrate through the adjusting grooves 42 to be fastened and fixed.

Furthermore, only a built-in power supply 6 is arranged on the control mainboard 9; the built-in power supply 6 is electrically connected with the high-definition camera component 3 and the infrared camera component 8 and is in control connection with the control mainboard 9.

Further, an inner cavity of the device enclosed by the protective cover head 1 and the shell 2 is filled with inert gas.

In the specific implementation process of the utility model, the shell 2 plays the role of fixed installation and first layer protection, and the infrared bracket 7 is adopted to separate the high-definition spherical lens 31 from the infrared camera component 8, so as to avoid the influence of infrared stray light on the imaging effect; the built-in mounting seat 5 protects and isolates the control mainboard 9 and the built-in power supply 6; the connecting plate 4 is arranged on the mounting seat 5, and the mounting angle of the connecting plate 4 can be freely changed to adapt to various scenes through the adjusting groove 42; the lens connecting plates 33 at two sides of the high-definition camera component 3 are rotatably connected with the assembling frame 43, so that the flexible change of the visual angle is realized; the assembly between the protective cover head 1 and the shell realizes the waterproof and buffering through the waterproof rubber ring 11 and the buffer gasket 10, so that the stability of the whole structure is further protected; the built-in power supply 6 can also ensure that certain electric quantity is used for emergency treatment when power is cut off accidentally; the inert gas is filled in the interior, so that faults such as internal fire and the like caused by sparks and other factors can be avoided under an unexpected condition;

by adopting the utility model, the whole structure is simple, and the installation is convenient; the explosion-proof function of the hemispherical camera is realized by adopting triple guarantees of physical protection, waterproof buffering and inert gas protection; the split arrangement is convenient for maintenance and repair, and the mutual interference of optical fibers is avoided; the service life of the whole body is prolonged, and the imaging quality is improved.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the scope and spirit of the invention as defined in the accompanying claims.

Claims (7)

1. A high-definition explosion-proof hemispherical network camera is characterized by comprising a protective cover head (1), a shell (2), a high-definition camera shooting assembly (3), a connecting plate (4), a mounting seat (5), an infrared bracket (7), an infrared camera shooting assembly (8), a signal interface (12) and a control main board (9);

the mounting seat (5) is arranged inside the shell (2), and the connecting plate (4) is rotatably arranged on the mounting seat (5); the high-definition camera shooting assembly (3) is arranged on the connecting plate (4), and the protective cover head (1) is covered and arranged on the shell (2); the infrared support (7) is arranged at the bottom of the shell (2), and the infrared camera shooting assembly (8) is fixedly arranged on the infrared support (7);

the control main board (9) is fixedly arranged inside the mounting seat (5), and the signal interface (12) is arranged at the bottom end of the shell (2) and is connected into the control main board (9); the high-definition camera shooting assembly (3) and the infrared camera shooting assembly (8) are in signal connection with the control main board (9).

2. A high definition anti-explosion hemispherical webcam according to claim 1, wherein the shield head (1) is a hemispherical transparent cover body made of high strength acrylic material.

3. A high-definition explosion-proof hemispherical webcam according to claim 1, wherein a waterproof rubber ring (11) is arranged at the joint of the shield head (1) and the housing (2), and a buffer gasket (10) is fixed at the joint of the shield head (1) extending into the housing (2).

4. A high-definition explosion-proof hemispherical network camera as claimed in claim 1, wherein the high-definition camera assembly (3) comprises a high-definition spherical lens (31), a lens protection frame (32) and a lens connecting plate (33); the high-definition spherical lens (31) is arranged in a lens protection frame (32), and the lens connecting plate (33) is fixed on two sides of the lens protection frame (32); the lens connecting plate (33) is rotatably connected with the connecting plate (4).

5. A high definition explosion-proof hemispherical webcam according to claim 1, wherein the connecting plate (4) comprises a bottom plate (41), an adjusting slot (42) and a mounting bracket (43); the assembling frames (43) are vertically fixed on two sides of the bottom plate (41), and the adjusting grooves (42) are formed in the bottom plate (41); the bottom plate (41) and the mounting seat (5) are fixed through bolts, and the bolts penetrate through the adjusting grooves (42) to be fastened and fixed.

6. A high-definition explosion-proof hemispherical network camera as claimed in claim 1, characterized in that only a built-in power supply (6) is arranged on the control mainboard (9); the built-in power supply (6) is electrically connected with the high-definition camera shooting assembly (3) and the infrared camera shooting assembly (8) and is in control connection with the control main board (9).

7. A high definition explosion-proof hemisphere network camera as claimed in claim 1, characterized in that the device cavity enclosed by the shield head (1) and the shell (2) is filled with inert gas.

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