CN212785567U - Panoramic shooting device - Google Patents

Abstract

The utility model discloses a panoramic shooting device, which comprises a power supply bottom plate, the integrated circuit board and the four shooting modules are arranged, the shooting modules face four directions respectively, each shooting module comprises an image sensor, a power supply bottom plate is provided with four first interfaces used for being connected with the shooting modules respectively and two second interfaces used for connecting the first interfaces with the integrated circuit board, each second interface is correspondingly connected with the two first interfaces through a line on the power supply bottom plate, the integrated circuit board is provided with connectors corresponding to the second interfaces respectively, the shooting modules are connected with the first interfaces of the power supply bottom plate through 20-pin flexible flat cables respectively, the second interfaces of the power supply bottom plate are connected with the connectors of the integrated circuit board in an inserting mode, the shooting modules collect image data in corresponding direction ranges respectively and send the image data to the integrated circuit board, and the integrated circuit board splices the image data of the shooting modules to form panoramic images and sends the panoramic images to corresponding terminals.

Description

Panoramic shooting device

Technical Field

The utility model relates to a video shooting field especially relates to a panorama shooting device.

Background

Under many environments or scenes, video shooting or monitoring is needed, and especially for some public places such as parks, roads, markets and other scenes, image data is generally needed to be collected for real-time monitoring.

However, the known shooting device often sets some local positions as monitoring areas, and sets cameras to collect images at the positions, so that not only the monitoring range cannot cover the panorama, but also the position of the camera is complex to select, and the difficulty in processing and integrating the image data at the later stage is large, which results in that the requirements of scene monitoring cannot be met.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem that exists now, the utility model provides a can realize panorama shooting and can simplify the panorama shooting device of image data integration.

In order to achieve the above object, the embodiment of the present invention provides a technical solution that:

a panoramic shooting device comprises a power supply bottom plate, an integrated circuit board and four shooting modules, wherein the shooting modules face four directions respectively, each shooting module comprises an image sensor, the power supply bottom plate is provided with four first interfaces used for being connected with the shooting modules respectively and two second interfaces used for connecting the first interfaces with the integrated circuit board, each second interface is correspondingly connected with the two first interfaces through a line on the power supply bottom plate, the integrated circuit board is provided with connectors corresponding to the second interfaces respectively, the shooting modules are connected with the first interfaces of the power supply bottom plate through 20-pin flexible flat cables respectively, the second interfaces of the power supply bottom plate are connected with the connectors of the integrated circuit board in an inserting mode, and the shooting modules collect image data in corresponding direction ranges respectively and send the image data to the integrated circuit board, and the integrated circuit board splices the image data of the shooting module to form a panoramic image and sends the panoramic image to a corresponding terminal.

The power supply bottom plate is also provided with a clock circuit which is correspondingly connected with the first interface respectively, and the clock circuit is used for carrying out clock synchronization on the image data acquired by the shooting module.

The clock circuit comprises a clock buffer chip with the model number of 5PB1102CMGI 8.

The power supply bottom plate further comprises a power supply circuit and a voltage reduction circuit connected with the power supply circuit, and the voltage reduction circuit is used for forming output voltage of the power supply circuit into working voltage for providing the shooting module and the integrated circuit board to work.

The power supply circuit comprises a power supply chip with the model of CL9904A12L5M, and the voltage reduction circuit comprises a low-voltage-difference voltage reduction chip with the model of SY8303 AIC.

The power supply bottom plate further comprises a voltage stabilizing circuit connected with the voltage reducing circuit, and the voltage stabilizing circuit is used for keeping the working voltage output by the voltage reducing circuit to the shooting module and the integrated circuit board stable.

And the power supply bottom plate is also provided with indicator lamps for respectively indicating the connection state of the first interface and the shooting module.

Wherein the second interface and the connector are respectively 42-pin connector sockets.

And when the reset key is pressed for a period exceeding the preset time, each path of output voltage of the power supply bottom plate is recovered to the initial value.

The power supply bottom plate is also provided with a network interface and a wireless module, and the network interface and the wireless module are electrically connected with the integrated circuit board.

The panoramic shooting device provided by the embodiment comprises a power supply base plate, an integrated circuit board and four shooting modules, wherein the shooting modules are respectively connected with a first interface of the power supply base plate through 20-pin flexible flat cables, a second interface of the power supply base plate is connected with a connector of the integrated circuit board in an inserting way, the shooting modules respectively collect image data in corresponding direction ranges and send the image data to the integrated circuit board, the integrated circuit board splices the image data of the shooting modules to form a panoramic image and sends the panoramic image to a corresponding terminal, thus, the panoramic shooting device is respectively connected with the four shooting modules through the first interfaces of the power supply base plate and spliced with the integrated circuit board through the second interfaces, the integrated circuit board splices the image data in the corresponding ranges in the four directions respectively shot by the four shooting modules to form the panoramic image, and the purpose of panoramic shooting at the position of the panoramic shooting device can be realized, the convenience of analyzing and utilizing the image data in the later stage is improved.

Drawings

Fig. 1 is a schematic structural diagram of a panoramic shooting apparatus in an embodiment of the present application;

fig. 2 is a schematic diagram of the panoramic shooting apparatus according to the embodiment of the present application;

FIG. 3 is a schematic diagram of a clock circuit according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a power circuit according to an embodiment of the present application;

fig. 5 is a schematic diagram of a voltage step-down circuit in an embodiment of the present application.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the drawings and specific embodiments. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the following description, reference is made to the expression "some embodiments" which describe a subset of all possible embodiments, but it should be understood that "some embodiments" may be the same subset or different subsets of all possible embodiments, and may be combined with each other without conflict.

It will also be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "inner," "outer," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1 and 2, a panoramic shooting apparatus provided in an embodiment of the present application includes a power supply board 10, an integrated circuit board 20, and four shooting modules 30, where the shooting modules 30 face four directions, each shooting module 30 includes an image sensor 32, four first interfaces 11 for connecting with the shooting module 30, respectively, and two second interfaces 12 for connecting the first interfaces 11 with the integrated circuit board 20 are disposed on the power supply board 10, each second interface 12 is correspondingly connected with two first interfaces 11 through a line on the power supply board 10, connectors 22 corresponding to the second interfaces 12 are disposed on the integrated circuit board 20, the shooting module 30 is flexibly connected with the first interfaces 11 of the power supply board 10 through 20 pins, and the second interfaces 12 of the power supply board 10 are connected with the connectors 22 of the integrated circuit board 20 in an inserting manner, the shooting modules 30 respectively collect image data in corresponding direction ranges and send the image data to the integrated circuit board 20, and the integrated circuit board 20 splices the image data of the shooting modules 30 to form a panoramic image and sends the panoramic image to corresponding terminals.

The shooting modules 30 face four directions of south, east, west and north respectively, each shooting module 30 comprises a lens corresponding to the image sensor 32, and each shooting module 30 is used for collecting image data in a corresponding direction within a range of 90 degrees. The terminal is computer equipment such as a smart phone, a monitor, a personal computer and a server which are in communication connection with the panoramic shooting device, the terminal is used for receiving panoramic image data output by the panoramic shooting device after being spliced, and optionally, the terminal can also be computer equipment which is connected with the panoramic shooting device under the same ZigBee network and is provided with an application program for remotely operating the panoramic shooting device.

In the above embodiment, the panoramic shooting device is respectively connected with the four shooting modules 30 through the first interfaces 11 of the power supply base plate 10, and is connected with the integrated circuit board 20 through the second interfaces 12 in an inserting manner, so that the functions of the integrated circuit board 20 and the power supply base plate 10 are respectively modularized, and the power supply base plate 10 is connected with the integrated circuit board 20 through the connector 22 in an inserting manner, thereby being beneficial to reducing the sizes of the integrated circuit board 20 and the power supply base plate 10 and being convenient for assembly; the panoramic shooting device respectively shoots image data in corresponding ranges of four directions through the four shooting modules 30 to form panoramic images, and the panoramic images are sent to corresponding terminals, so that the panoramic shooting device can be used for carrying out panoramic shooting by taking the position of the panoramic shooting device as the center, a user can directly screen and identify the panoramic images to acquire concerned events or people-related image data, and the convenience of analyzing and utilizing the image data in the later period can be improved.

And the integrated circuit board is provided with a main controller. The power supply base plate 10 is respectively connected with the four shooting modules 30 and the integrated circuit board 20, the four shooting modules 30 respectively shoot image data in corresponding ranges in four directions and then send the image data to the main controller on the integrated circuit board 20, and the image data are spliced by the main controller to form a panoramic image.

In some embodiments, the power backplane 10 is further provided with a clock circuit correspondingly connected to the first interface 11, and the clock circuit is configured to perform clock synchronization on the image data acquired by the shooting module 30. Optionally, referring to fig. 3, the clock circuit includes a clock buffer chip with a model number of 5PB1102CMGI8, and the clock chip and the first interface 11 are in one-to-one correspondence. Through the setting of the clock circuit and the time synchronization of the clock circuit on the power supply bottom plate 10, the four shooting modules 30 can be ensured to synchronously acquire image data in the corresponding direction range, and the shooting modules 30 can synchronously transmit the acquired image data to the integrated circuit board 20, so that the real-time performance and the accuracy of panoramic image splicing are ensured.

In some embodiments, the power backplane 10 further includes a power circuit and a voltage reduction circuit connected to the power circuit, wherein the voltage reduction circuit is configured to form an output voltage of the power circuit into an operating voltage for providing an operation of the camera module 30 and the integrated circuit board 20. Optionally, referring to fig. 4 and 5 in combination, the power circuit includes a power chip with model number CL9904a12L5M, and the voltage-reducing circuit includes a low-dropout voltage-reducing chip with model number SY8303 AIC. The power supply board 10 can output a plurality of output voltage values between 7V and 27V through the design of the power supply circuit and the voltage reduction circuit, so as to respectively adapt to the required working voltages of the shooting module 30 and a plurality of chips on the integrated circuit board 20.

The power supply base plate 10 further includes a voltage stabilizing circuit connected to the voltage reducing circuit, and the voltage stabilizing circuit is configured to keep a working voltage output by the voltage reducing circuit to the shooting module 30 and the integrated circuit board 20 stable. Optionally, the voltage stabilizing circuit may include a voltage stabilizing chip with a model of SY8089AAAC, and the voltage value output by the power supply backplane 10 may be prevented from fluctuating by the voltage stabilizing circuit, so as to ensure the working stability of the shooting module 30 and the integrated circuit board 20.

In some embodiments, the power supply base plate 10 is further provided with indicator lamps 15 for respectively indicating the connection status of the first interface 11 and the corresponding shooting module 30. The indication lamp 15 respectively indicates the connection state of the first interface 11 and the corresponding shooting module 30, the connection state between the first interface 11 and the corresponding shooting module 30 represents the transmission state of the shooting module 30 for transmitting the image data to the integrated circuit board 20 through the first interface 11 and the second interface 12 on the power supply base plate 10, for example, when the image data is transmitted abnormally, the indication lamp 15 can display red or flash according to a preset frequency to remind a user of debugging again.

Wherein the second interface 12 and the connector 22 are respectively 42-pin connector 22 sockets. Adopt the soft arranging wire to connect between power bottom plate 10's first interface 11 and the shooting module 30, the position of conveniently shooting module 30 is adjusted, connect through the built-in circuit on power bottom plate 10 between first interface 11 and the second interface 12, direct plug connection between power bottom plate 10's second interface 12 and integrated circuit board 20's connector 22, make things convenient for the assembly between power bottom plate 10 and the integrated circuit board 20, and can promote data transmission efficiency and transmission quality between power bottom plate 10 and the integrated circuit board 20, and panorama shooting device's overall structure is compacter.

Optionally, a reset key 13 is further disposed on the power supply base plate 10, and when the reset key 13 is pressed for a time exceeding a preset time, each output voltage of the power supply base plate 10 is restored to an initial value. The reset key 13 can restore the setting of the power supply base plate 10 to a factory setting state, when the panoramic shooting device has poor image transmission quality or other failures which cannot be checked in use, the power supply base plate 10 can be restarted through the reset key 13, which is also equivalent to restarting the panoramic shooting device, and the failure repair can be realized.

In some embodiments, a network interface 141 and a wireless module 142 are further disposed on the power backplane 10, and both the network interface 141 and the wireless module 142 are electrically connected to the integrated circuit board 20. The network interface 141 may be a wired network interface 141, the wireless module 142 may be a WiFi module, a bluetooth module, etc., the size of the power backplane 10 may be designed to be larger than that of the integrated circuit board 20, the integrated circuit board 20 is mainly used for decoding and splicing image data to obtain a panoramic image, the receiving and sending of external data are completed through the power backplane 10, and the integrated circuit board 20 may send the panoramic image to a corresponding terminal through the network interface 141 or the wireless module 142 on the power backplane 10.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. The protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A panoramic shooting device is characterized by comprising a power supply bottom plate, an integrated circuit board and four shooting modules, wherein the shooting modules face four directions respectively, each shooting module comprises an image sensor, the power supply bottom plate is provided with four first interfaces used for being connected with the shooting modules respectively and two second interfaces used for connecting the first interfaces with the integrated circuit board, each second interface is correspondingly connected with the two first interfaces through a line on the power supply bottom plate, the integrated circuit board is provided with connectors corresponding to the second interfaces respectively, the shooting modules are connected with the first interfaces of the power supply bottom plate through 20-pin flexible flat cables respectively, the second interfaces of the power supply bottom plate are connected with the connectors of the integrated circuit board in an inserting mode, and the shooting modules collect image data in corresponding direction ranges respectively and send the image data to the integrated circuit board, and the integrated circuit board splices the image data of the shooting module to form a panoramic image and sends the panoramic image to a corresponding terminal.

2. The panoramic shooting device of claim 1, wherein the power supply bottom board is further provided with a clock circuit correspondingly connected with the first interface respectively, and the clock circuit is used for carrying out clock synchronization on the image data collected by the shooting module.

3. The panorama photographing apparatus of claim 2, wherein the clock circuit includes a clock buffer chip of a model 5PB1102CMGI 8.

4. The panorama photographing apparatus of claim 1, wherein the power chassis further comprises a power circuit and a voltage dropping circuit connected to the power circuit, the voltage dropping circuit being configured to form an output voltage of the power circuit into an operating voltage for providing an operation of the photographing module and the integrated circuit board.

5. The panorama photographing apparatus of claim 4, wherein the power circuit includes a power chip of model CL9904a12L5M, and the voltage drop circuit includes a low-dropout voltage drop chip of model SY8303 AIC.

6. The device of claim 4, wherein the power board further comprises a voltage regulator circuit connected to the voltage-reducing circuit, the voltage regulator circuit being configured to keep a working voltage output by the voltage-reducing circuit to the camera module and the ic board stable.

7. The panoramic shooting device of claim 1, wherein the power supply bottom board is further provided with indicator lights for respectively indicating the connection status of the first interface and the corresponding shooting module.

8. The panorama photographing apparatus of claim 1, wherein the second interface and the connector are 42-pin connector sockets, respectively.

9. The panorama photographing apparatus of claim 1, wherein a reset button is further provided on the power chassis, and when the reset button is pressed for more than a preset time, the output voltages of the power chassis are restored to initial values.

10. The panorama shooting apparatus of claim 1, wherein a network interface and a wireless module are further provided on the power backplane, and both the network interface and the wireless module are electrically connected to the integrated circuit board.

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