CN219536200U - Camera with multi-view function - Google Patents

Abstract

The utility model belongs to the field of cameras, and particularly relates to a camera with a multi-view function, which comprises a bracket, a middle shell, a first rotary shell and a second rotary shell, wherein the middle shell is arranged on the bracket; the middle shell is internally and fixedly provided with a first rotary driving assembly, and the first rotary driving assembly is connected with the first rotary shell so as to drive the first rotary shell to rotate at the lower side of the middle shell; the second rotary driving assembly is fixedly arranged in the second rotary shell and connected with the first rotary shell so as to drive the second rotary shell to rotate at the lower side of the first rotary shell; the lens is characterized in that a first lens component is arranged on the middle shell, and a second lens component is arranged on the second rotary shell. In the utility model, the flexibility of the monitoring of the camera is higher, and the area with wider monitoring range can be monitored at the same time.

Description

Camera with multi-view function

Technical Field

The utility model belongs to the field of cameras, and particularly relates to a monitoring camera structure.

Background

In the existing monitoring camera, monitoring shooting is performed by one lens, however, due to the structure, the monitoring shooting range is smaller, and the monitoring effect is relatively poor.

In order to solve the above problems, the prior patent provides a zoom camera (application number is CN 201710098272.3) with expanded optical power of double lenses, which comprises a fast-assembling base, an annular connecting part and a universal spherical shell component; the universal spherical shell assembly comprises: the device comprises a first electric zoom lens, a second electric zoom lens, a first image sensor board, a second image sensor board, a network coding processing main board, an infrared lamp circuit board and a universal spherical shell kit; the first electric zoom lens is arranged on the first image sensor board through the lens seat, the second electric zoom lens is arranged on the second image sensor board through the lens seat, the first electric zoom lens is arranged right above the second electric zoom lens and is axially symmetrical, the first image sensor board and the second image sensor board are connected to the network coding processing main board through cables, and the infrared lamp circuit board is also connected to the network coding main board through cables; the quick mount is secured to a ceiling or wall and the universal spherical shell assembly is placed into an annular connecting member that is secured to the quick mount. Although the two lenses exist in the video camera, the monitoring imaging range is wider than that of a video camera with one lens, the two lenses of the video camera cannot move relatively, and the flexibility of adjusting the monitoring range is relatively insufficient.

Disclosure of Invention

In order to solve the above problems, an object of the present utility model is to provide a camera with multiple functions, which has two lenses, and the two lenses can also adjust the monitoring azimuth covered by the camera as required, so that the monitoring flexibility is higher.

In order to achieve the above object, the present utility model has the following technical scheme.

The camera with the multi-view function comprises a bracket, a middle shell, a first rotary shell and a second rotary shell, wherein the middle shell is arranged on the bracket, the first rotary shell is rotatably and movably arranged on the lower side of the middle shell, and the second rotary shell is rotatably and movably arranged on the lower side of the first rotary shell; the middle shell is internally and fixedly provided with a first rotary driving assembly, and the first rotary driving assembly is connected with the first rotary shell so as to drive the first rotary shell to rotate at the lower side of the middle shell; the second rotary driving assembly is fixedly arranged in the second rotary shell and connected with the first rotary shell so as to drive the second rotary shell to rotate at the lower side of the first rotary shell; the lens is characterized in that a first lens component is arranged on the middle shell, and a second lens component is arranged on the second rotary shell.

In the camera, the first lens component can conduct monitoring shooting on the middle shell, meanwhile, the second lens component can conduct synchronous monitoring shooting on the second rotary shell, and based on the arrangement of the first rotary driving component and the second rotary driving component, the second lens component can greatly adjust the view angle direction of the monitoring shooting according to the requirement, so that the monitoring flexibility of the camera is higher, and the area with a wider monitoring range can be monitored simultaneously.

Further, the middle shell is rotatably and movably connected with the bracket. Based on the setting of mesochite and support for can adjust the angle of the surveillance camera of first lens subassembly as required, make the control scope of this camera can adjust more nimble.

Further, a first limiting part for limiting the relative rotation angle of the middle shell and the support is arranged on the support, a second limiting part is arranged on the middle shell, and the first limiting part corresponds to the second limiting part.

Further, a middle shell cavity is formed in the middle shell, and the first rotary driving assembly is fixedly arranged in the middle shell cavity; the side of the middle shell extends downwards obliquely to form a first lens protection part, a mounting cavity penetrating into the cavity of the middle shell is formed in the first lens protection part, the first lens component is arranged in the mounting cavity, and the first lens component and the middle shell are obliquely downwards obliquely arranged relatively. The first lens protection part is arranged to guide the first lens assembly, so that the first lens assembly can be better observed in the inclined lower area and is also protected.

Further, the rear end of the bracket is provided with a mounting part for being mounted on a wall surface, and the middle shell is arranged at the lower side of the front end of the bracket; the rear end of the bracket is provided with a wiring channel which penetrates through to the lower side of the front end of the bracket, and the wiring channel is communicated with the middle shell cavity. The wiring channel is arranged, so that wires of the camera connected with the first lens assembly and the first rotary driving assembly can be conveniently hidden.

Further, the first lens assembly comprises a first lens main board, a first lens and two first light-emitting parts, wherein the first lens main board is arranged in the middle shell cavity, the first lens and the two first light-emitting parts are arranged on the first lens main board, the two first light-emitting parts are respectively positioned at the left side and the right side of the first lens, and the first lens and the two first light-emitting parts extend into the installation cavity and are exposed outside through the installation cavity. The illuminant can be an LED lamp panel.

Further, the second lens assembly comprises a second lens main board, a second luminous piece and two second lenses; the second lens main board is fixedly arranged in the second rotary shell, the second light-emitting piece and the two second lenses are arranged on the second lens main board, and the second light-emitting piece and the two second lenses are exposed outside through the second rotary shell. The second lens assembly comprises two second lenses, so that the monitoring range of the second lens assembly is wider, and the monitoring range of the camera is further improved.

Compared with the prior art, the camera has the advantages that the first lens assembly can conduct monitoring and shooting on the middle shell, meanwhile, the second lens assembly can conduct synchronous monitoring and shooting on the second rotary shell, and based on the arrangement of the first rotary driving assembly and the second rotary driving assembly, the second lens assembly can greatly adjust the view angle direction of the monitoring and shooting according to requirements, so that the camera is higher in monitoring flexibility and capable of monitoring a wider area.

Drawings

Fig. 1 is a schematic view of the structure of the first view angle of the present utility model.

Fig. 2 is a schematic structural view of the second view of the present utility model.

Fig. 3 is a cross-sectional view of the present utility model.

Fig. 4 is a schematic view of the structure of the present utility model with the middle case and the second rotary case hidden.

Fig. 5 is a schematic view of the structure with the bracket hidden.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 5, a camera with a multi-view function includes a bracket 1, a middle housing 2, a first rotary housing 3, and a second rotary housing 4, wherein the middle housing 2 is disposed on the bracket 1, the first rotary housing 3 is rotatably movably disposed at the lower side of the middle housing 2, and the second rotary housing 4 is rotatably movably disposed at the lower side of the first rotary housing 3; the middle shell 2 is internally fixedly provided with a first rotary driving assembly 5, and the first rotary driving assembly 5 is connected with the first rotary shell 3 so as to drive the first rotary shell 3 to rotate at the lower side of the middle shell 2; the second rotary shell 4 is internally and fixedly provided with a second rotary driving assembly 6, and the second rotary driving assembly 6 is connected with the first rotary shell 3 so as to drive the second rotary shell 4 to rotate at the lower side of the first rotary shell 3; the lens is characterized in that a first lens component 7 is arranged on the middle shell 2, and a second lens component 8 is arranged on the second rotary shell 4.

Specifically, the first rotary driving assembly 5 and the second rotary driving assembly 6 are of existing motor structures, and the first rotary housing 3 and the second rotary housing 4 are controlled to rotate through motors, wherein the first rotary driving assembly 5 can be vertically placed with an output shaft facing downwards, so that the first rotary housing 3 rotates around the vertically placed output shaft; the second rotary driving assembly 6 can be transversely arranged on the left or right side of the output shaft, so that the second rotary shell 4 rotates around the transversely arranged output shaft; so that the range of the rotation angle of the second rotary housing 4 with respect to the middle housing 2 is larger.

In this embodiment, the middle shell 2 and the bracket 1 are rotatably and movably connected. Specifically, the bracket 1 is rotatably sleeved on the upper side of the middle shell 2.

In this embodiment, the bracket 1 is provided with a first limiting portion 11 for limiting the relative rotation angle of the middle case 2 and the bracket 1, the middle case 2 is provided with a second limiting portion 21, and the first limiting portion 11 corresponds to the second limiting portion 21.

In the embodiment, a middle shell cavity 22 is arranged in the middle shell 2, and the first rotary driving assembly 5 is fixedly arranged in the middle shell cavity 22; the side of the middle shell 2 extends obliquely downwards to form a first lens protection part 23, a mounting cavity 24 penetrating into the middle shell cavity 22 is formed in the first lens protection part 23, the first lens assembly 7 is fixedly arranged in the mounting cavity 24, and the first lens assembly 7 and the middle shell 2 are obliquely downwards arranged relatively.

In the present embodiment, the rear end of the bracket 1 is provided with a mounting portion 13 for mounting on a wall surface, and the center housing 2 is provided at the lower side of the front end of the bracket 1; the rear end of the bracket 1 is provided with a wiring channel 12 which penetrates to the lower side of the front end of the bracket 1, and the wiring channel 12 is communicated with the middle shell cavity 22.

In this embodiment, the first lens assembly 7 includes a first lens main board 71, a first lens 72 and two first light emitting members 73, the first lens main board 71 is disposed in the middle housing 22, the first lens 72 and the two first light emitting members 73 are disposed on the first lens main board 71, the two first light emitting members 73 are disposed at left and right sides of the first lens 72, and the first lens 72 and the two first light emitting members 73 extend into the mounting cavity and are exposed outside through the mounting cavity 24.

In the present embodiment, the second lens assembly 8 includes a second lens main board 81, a second light emitting member 82, and two second lenses 83; the second lens main board 81 is fixedly arranged in the second rotary housing 4, the second light emitting element 82 and the two second lenses 83 are arranged on the second lens main board 81, and the second light emitting element 82 and the two second lenses 83 are exposed outside through the second rotary housing 4. Specifically, the first lens motherboard 71 and the second lens motherboard 81 are existing circuit boards, and the circuit structure is not an improvement point of the present design. The first light emitting member 73 and the second light emitting member 83 may preferably be LED lamp panels. The second rotary housing 4 may be provided therein with a battery to supply power to the second lens assembly 81 and the second rotary driving assembly 6, or may pass through the middle housing 2 from the junction channel 12 and then enter the second rotary housing 4 through the first rotary housing 3 to be connected with the second lens assembly 8 and the second rotary driving assembly 6.

Specifically, the second rotary housing 4 may be spherical as a whole, and the first rotary housing 3 may be of an ear-protecting structure as a whole.

The foregoing description of the preferred embodiment of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. The camera with the multi-view function comprises a bracket, a middle shell, a first rotary shell and a second rotary shell, wherein the middle shell is arranged on the bracket, the first rotary shell is rotatably and movably arranged on the lower side of the middle shell, and the second rotary shell is rotatably and movably arranged on the lower side of the first rotary shell; the middle shell is internally and fixedly provided with a first rotary driving assembly, and the first rotary driving assembly is connected with the first rotary shell so as to drive the first rotary shell to rotate at the lower side of the middle shell; the second rotary driving assembly is fixedly arranged in the second rotary shell and connected with the first rotary shell so as to drive the second rotary shell to rotate at the lower side of the first rotary shell; the lens is characterized in that a first lens component is arranged on the middle shell, and a second lens component is arranged on the second rotary shell.

2. The camera with multiple functions according to claim 1, wherein the middle shell and the bracket are rotatably movably connected.

3. The camera with multiple functions according to claim 2, wherein the bracket is provided with a first limiting portion for limiting the relative rotation angle of the middle shell and the bracket, the middle shell is provided with a second limiting portion, and the first limiting portion corresponds to the second limiting portion.

4. The camera with multiple functions according to claim 1, wherein a middle housing cavity is provided in the middle housing, and the first rotary driving assembly is fixedly provided in the middle housing cavity; the side of the middle shell extends downwards obliquely to form a first lens protection part, a mounting cavity penetrating into the cavity of the middle shell is formed in the first lens protection part, the first lens component is arranged in the mounting cavity, and the first lens component and the middle shell are obliquely downwards obliquely arranged relatively.

5. The camera with a multi-view function according to claim 4, wherein the rear end of the bracket is provided with a mounting portion for mounting on a wall surface, and the middle case is provided at the lower side of the front end of the bracket; the rear end of the bracket is provided with a wiring channel which penetrates through to the lower side of the front end of the bracket, and the wiring channel is communicated with the middle shell cavity.

6. The camera with multiple functions according to claim 4, wherein the first lens assembly comprises a first lens main board, a first lens and two first light emitting elements, the first lens main board is arranged in the middle shell cavity, the first lens and the two first light emitting elements are arranged on the first lens main board, the two first light emitting elements are respectively arranged on the left side and the right side of the first lens, and the first lens and the two first light emitting elements extend into the mounting cavity and are exposed outside through the mounting cavity.

7. The camera with multiple functions according to claim 1, wherein the second lens assembly comprises a second lens main board, a second light emitting element and two second lenses; the second lens main board is fixedly arranged in the second rotary shell, the second light-emitting piece and the two second lenses are arranged on the second lens main board, and the second light-emitting piece and the two second lenses are exposed outside through the second rotary shell.