CN211580054U - Panoramic image acquisition equipment - Google Patents

Abstract

The utility model discloses a panoramic picture collection equipment belongs to the electronic equipment field, equipment includes spherical camera group, panoramic camera group, control box and master controller, the spherical camera is established below the control box, panoramic camera group establishes in the periphery of control box, the master controller is established inside the control box camera group can unify the wiring more and share a set of master controller, has not only saved installation space, and camera group unifies and establishes below the control box, and the maintenance is debugged conveniently, and every camera gathers the image in appointed region respectively, has avoidd that every camera needs to compromise the regional inaccurate collection image problem that leads to equipment response slow bringing all around in prior art; the downward-looking camera arranged below the equipment box can acquire images of an area right below the monitoring rod; this equipment can improve image acquisition's rate of accuracy, further assists the municipal administration to carry out the control of road violating regulations etc., is particularly useful for the image acquisition of railway station and shopping mall etc..

Description

Panoramic image acquisition equipment

Technical Field

The utility model belongs to the electronic equipment field, concretely relates to panoramic picture collection equipment.

Background

The automobile is a common transportation tool for people working, living and studying in cities. On one hand, the centralized cluster development of industrial and commercial properties and residential buildings creates the shortage of parking space resources, and the task that vehicle users need to deal with frequently is to find the parking space; on the other hand, the urban area and population leap-level expansion further aggravates the shortage of urban parking space resources. Especially, in geographic areas with large traffic flow, the conventional underground parking spaces and park parking spaces are difficult to meet the normal parking requirements of people. In order to relieve the shortage of parking space resources, people sequentially divide a plurality of parking spaces at the side of a road of a preset road section to form a roadside parking lot for parking vehicles.

The method comprises the following steps that (1) a plurality of parking space managers are assigned to manage a preset number of parking spaces according to sections, and the geomagnetic sensors buried below the parking spaces are matched to manually time and charge parking vehicles in the parking spaces, so that the technical problems of high human input cost, damage to a road surface and low parking space management efficiency exist, (2) video piles are arranged on the road side, the height of each video pile is about 1 meter generally, when the vehicles drive into the parking spaces, the vision of the video piles can be shielded by the vehicles, the video piles are difficult to acquire vehicle image information of adjacent lanes and peripheral areas, and the functions are limited; moreover, one video pile can only manage one parking space, when a plurality of parking spaces need to be managed, a plurality of video piles need to be installed, which causes great difficulty in power-on and network-connecting construction, thus increasing the cost of the whole parking management, when the railings are arranged on two sides of the road, the video piles are easy to be shielded, and the pedestrian traffic is also influenced by densely arranging the video piles, so that the parking management later generally acquires parking images through the monitoring camera, moreover, the existing monitoring cameras are widely applied, especially in public places with complex scenes, the cameras in different scenes have important significance on the order and safety of roadside parking, the existing spherical camera equipment has a single snapshot mode, when a larger area needs to be managed, the spherical camera has low response speed and cannot acquire images in a panoramic range, therefore the utility model provides a new technical scheme is in order to improve the problem that exists in the roadside parking.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple to operate, can concentrate the debugging and realize the panorama control, and can compromise the panoramic picture collection equipment of regional image acquisition under the control lever simultaneously.

In order to achieve the above object, the utility model provides a panoramic picture collection equipment, equipment includes ball-type camera group, panoramic camera group, control box and master controller, the ball-type camera is established in the control box below, the periphery at the control box is established to the panoramic camera group, the master controller is established inside the control box.

As an optimized scheme, the control box is in a chamfer triangle shape, the camera set comprises three billiard cameras, and the three spherical cameras are respectively arranged below the control box in a triangle shape.

As a preferred scheme, the control box comprises a box body and a bottom cover, the box body is buckled on the bottom cover, an installation support is arranged in the control box, and the main controller is arranged on the installation support.

As an optimized scheme, a plurality of circular openings are formed in the bottom cover, and the upper end support of the camera penetrates through the circular openings to be fixed with the mounting support.

As an optimized scheme, the equipment further comprises a top cover, and the top cover and the box body are arranged in a sealing mode.

As an optimized scheme, the box body comprises three splicing shells, and two ends of each splicing shell are spliced with each other to form a chamfered triangular shell.

According to the optimized scheme, the panoramic camera set comprises three panoramic cameras, a preset position is arranged in the middle of the splicing shell, and the three panoramic cameras are respectively embedded into the preset position.

According to the optimized scheme, light supplementing lamp belts are arranged on two sides of the panoramic camera and supplement light to the panoramic camera.

As an optimized scheme, position supplementing cameras are arranged at three corners of the control box respectively and embedded into the splicing shell.

As an optimized scheme, the equipment further comprises a downward-looking camera, and a base of the downward-looking camera penetrates through the circular opening and is fixed on the mounting support.

As an optimized scheme, an annular groove is formed in the periphery of the bottom cover, and an indicator lamp is arranged in the annular groove.

As an optimized scheme, a beam-converging support is arranged on the mounting support, and a beam-converging opening is formed above the top cover.

As an optimized scheme, a spherical camera control unit, a panoramic camera control unit and a downward-looking camera control unit are arranged on the main controller, the spherical camera control unit is in communication connection with the spherical camera, the panoramic camera control unit is in communication connection with the panoramic camera, and the downward-looking camera control unit is in communication connection with the downward-looking camera.

As an optimized scheme, the top end of the spherical camera is provided with a shading edge.

By adopting the panoramic image acquisition equipment provided by the utility model, three billiard-shaped cameras are simultaneously arranged below the control box, the three billiard-shaped cameras can be connected in three and share one master controller, not only the installation space is saved, but also the three billiard-shaped cameras are convenient to maintain and debug, each spherical camera respectively acquires images in a designated area, and the problems that the equipment response is slow and the acquired images are inaccurate due to the fact that the peripheral areas of the single billiard-shaped cameras need to be considered in the prior art are solved; the downward-looking camera arranged below the equipment box can acquire images of an area right below the monitoring rod; panoramic camera can compromise panoramic image collection, and this equipment can improve image acquisition's rate of accuracy, further assists the municipal administration to carry out the control of road violating regulations etc. is particularly useful for the image acquisition of railway station and shopping mall etc.. (supplement the function of three complementary cameras).

Drawings

Fig. 1 is a schematic diagram of the panoramic image capturing apparatus of the present invention;

fig. 2 is an explosion diagram of the panoramic image collecting apparatus of the present invention.

Detailed Description

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Fig. 1 is a schematic structural diagram of a panoramic image capturing device, which can be used for parking management of open and closed parking lots, and can assist in road traffic and security monitoring of shopping malls.

Specifically, equipment includes control box 1, spherical camera group 2, panoramic camera group 3 and master controller, spherical camera 2 establishes in control box 1 below, panoramic camera group 3 establishes in the periphery of control box, the master controller is established inside control box 1.

As shown in fig. 2, the panoramic image capturing apparatus is an exploded schematic view, in this embodiment, the control box is in a shape of a triangle with a chamfer, the camera set includes three billiard cameras 1011, the three spherical cameras 1011 are respectively arranged below the control box 1 in a triangular shape, the control box 1 includes a box body 1003 and a bottom cover 1009, the box body 1003 is fastened on the bottom cover 1009, a mounting bracket 1004 is arranged in the control box 1, and the master controller 1006 is arranged on the mounting bracket 1004.

The bottom cover 1009 is provided with three circular openings, and the upper end bracket of the spherical camera passes through the circular openings and is fixed on the mounting bracket 1004, so that the phenomenon that strong wind blows into the shell to form turbulent flow, which causes instability of equipment and influences survey is mainly prevented; in addition, dust or sundries are prevented from entering the interior of the spherical camera, and the spherical camera is protected.

The box 1003 includes three concatenation shells, every the both ends of concatenation shell splice each other, form the chamfer triangle-shaped casing, and in this embodiment, three concatenation shells are connected to the buckle, need maintain or when increasing the subassembly in the control box, can directly take the concatenation shell apart can, and the kneck of every concatenation shell can be connected through the spout.

The panoramic camera group includes three panoramic camera 1005, the middle part of concatenation shell is equipped with the preset position, in panoramic camera 1005 embedding preset position, it is concrete, be equipped with the recess in the inside of preset position, the shell of panoramic camera is equipped with the arch, the recess with protruding looks adaptation is as preferred embodiment, the both sides of panoramic camera are equipped with the light filling lamp area, the light filling lamp area is right the panoramic camera light filling.

The device further includes a downward-looking camera 1012, the base of which passes through the circular opening and is fixed on the mounting bracket, the downward-looking camera being used for acquiring images of the area right below the device.

In the specific implementation process, the main controller comprises a spherical camera control unit, three billiard-shaped cameras are respectively fixed on a spherical camera support, each spherical camera can turn along the XY axis of the spherical camera support, the spherical camera control unit is used for controlling the spherical camera to rotate in the X axis direction to complete the adjustment of the left side direction and the right side direction of the spherical camera, and is also used for controlling the spherical camera to rotate in the Y axis direction to complete the adjustment of the pitching direction of the spherical camera so as to realize the acquisition of images of a designated area by the spherical camera, in addition, the top of each spherical camera is attached to the bottom cover, and the phenomenon that strong wind blows into a box body to form turbulent flow to cause equipment instability and influence survey is mainly prevented; in addition, dust or sundries are prevented from entering the interior of the spherical camera, and the spherical camera is protected.

Still be equipped with panoramic camera control unit and look down camera control unit on the master controller, look down the camera with look down camera communication connection, panoramic camera with panoramic camera control unit looks adaptation, the utility model discloses in, every dome camera is responsible for gathering the image of certain region, and three video cameras are whole to be responsible for taking into account the collection of image all around, and only a video camera is used for gathering 360 degrees images among the prior art and compares, has reduced dome camera response time, can improve the precision of real-time acquisition image.

Three panoramic camera establish to long focus camera, mainly used carries out the replenishment of other burnt sections to the focus of three billiard ball type camera, ordinary spherical camera searchlighting scope is the best burnt section for 30-60 meters, can't carry out clear collection to the condition of distal end, when the spherical camera can't acquire target information, the controller can assign the instruction to the panoramic camera, the position of shooing the spherical camera is shot and is carried out the feature shooting, thereby clear acquisition target image, thereby reduce the loaded down with trivial details of each type outdoor camera in city construction and build, reduce equipment quantity, have each item function concurrently, reach no dead angle in the true sense, the utility of many meshes are listened.

The equipment further comprises a top cover 1001, the top cover 1001 and the box body 1008 are arranged in a sealing mode, and a waterproof adhesive tape can be arranged between the top cover 1001 and the box body 1008 to prevent rainwater, dust and the like from entering the equipment box body;

as an embodiment that can be optimized, a converging port for leading out the cables of the dome camera, the downward-looking camera, the main controller, and the like to the outside of the apparatus is provided on the top cover.

The bottom periphery is equipped with the annular groove, be equipped with the pilot lamp in the annular groove, it is corresponding, the master controller is still pilot lamp control unit, pilot lamp control unit with pilot lamp communication connection. Be equipped with strip lamp area or a plurality of parallel arrangement's lamp pearl in this pilot lamp for whether safe operation of display device, when all cameras all normally work, this pilot lamp area shows for green, when the dome camera trouble, this pilot lamp area shows for red, and this pilot lamp area shows for orange when the panoramic camera trouble, and specific signal display is through master controller output signal.

In an alternative embodiment, the top end of the dome camera is provided with a light shielding edge.

The utility model discloses a panoramic picture collection equipment's installation as follows: firstly, a spherical camera is installed on a spherical camera support, then the spherical camera support is placed on a round opening of a bottom cover, the spherical camera support is matched with a round hole of the bottom cover, the top end of the spherical camera support is fixed with an installation support, secondly, a main controller is installed on the installation support, a cable hole is formed in the middle of the installation support, cables of a downward-looking camera and the spherical camera penetrate out of the cable hole, thirdly, three panoramic cameras are installed on a splicing shell, then three splicing shells are installed on the bottom cover, a top cover covers the splicing shell, and the cables are led out to the outside of equipment from a bundling opening formed in the top cover.

As a preferred embodiment, position supplementing cameras are respectively arranged at three corners of the control box and embedded into the splicing shell.

As an optional mode, the network transmission device of the panoramic image capturing device may be mounted on the mounting bracket.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (12)

1. The utility model provides a panoramic picture collection equipment, equipment includes ball-type camera group, panoramic camera group, control box and master controller, its characterized in that, the control box is established to chamfer triangle-shaped form, ball-type camera group includes three billiard ball shape cameras, three the below at the control box is divided to the triangle-shaped form of ball-type camera, panoramic camera group establishes the periphery at the control box, the master controller is established inside the control box.

2. The panoramic image acquisition equipment according to claim 1, wherein the control box comprises a box body and a bottom cover, the box body is buckled on the bottom cover, a mounting bracket is arranged in the control box, and the main controller is arranged on the mounting bracket.

3. The panoramic image acquisition device of claim 2, wherein the bottom cover is provided with a plurality of circular openings, and the upper bracket of the camera passes through the circular openings to be fixed with the mounting bracket.

4. The panoramic image acquisition device of claim 3, wherein the box body comprises three splicing shells, and two ends of each splicing shell are spliced with each other to form a chamfered triangular shell.

5. The panoramic image acquisition equipment of claim 4, wherein the panoramic camera set comprises three panoramic cameras, a preset position is arranged in the middle of the splicing shell, and the three panoramic cameras are respectively embedded into the preset position.

6. The panoramic image acquisition device of claim 5, wherein light supplement strips are arranged on two sides of the panoramic camera, and supplement light is provided for the panoramic camera through the light supplement strips.

7. The panoramic image capture apparatus of claim 6, wherein the apparatus includes a top cover that is sealed to the housing.

8. The panoramic image acquisition equipment of claim 7, wherein position supplementing cameras are respectively arranged at three corners of the control box and embedded in the splicing shell.

9. The panoramic image acquisition apparatus of claim 8, wherein the bottom cover is provided with an annular groove at the periphery, and an indicator lamp is arranged in the annular groove.

10. The panoramic image capture apparatus of any one of claims 1 to 9, further comprising a downward looking camera, the base of which is secured to the mounting bracket through the circular opening.

11. The panoramic image acquisition equipment according to claim 10, wherein a dome camera control unit, a panoramic camera control unit and a downward-looking camera control unit are arranged on the master controller, the dome camera control unit is in communication connection with the dome camera, the panoramic camera control unit is in communication connection with the panoramic camera, and the downward-looking camera control unit is in communication connection with the downward-looking camera.

12. The panoramic image acquisition apparatus of claim 11, wherein the top end of the dome camera is provided with a light shielding edge.

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