CN218734545U - Power supply module and modularized multi-camera shooting device - Google Patents

Abstract

The utility model relates to a field is shot in the parking, concretely relates to power module and many cameras of modularization shoot device. The utility model provides a modular multi-camera shooting device, which comprises a power supply module and at least two host computer modules provided with cameras, wherein the power supply module is provided with side edges corresponding to the host computer modules in quantity, the side edges are adjacent sides which can lead the host computer modules to be adjacently installed, and each host computer module is respectively installed on each adjacent side; the power supply module is provided with power supply interfaces of which the number corresponds to that of the adjacent sides, and each power supply interface is respectively connected to each adjacent side to supply power to the host module which is installed on the corresponding adjacent side in an adjacent mode. The utility model discloses a device is shot to many cameras of power module and modularization can be according to the nimble quantity of configuration camera of actual demand.

Description

Power supply module and modularized multi-camera shooting device

Technical Field

The utility model relates to a parking shooting field, concretely relates to power module and many cameras of modularization shoot device.

Background

In daily life, a roadside parking space bypass is often provided with a roadside parking shooting device, and a host module and a power supply module for supplying power to the host module are installed in the roadside parking space bypass. The host computer module is equipped with camera and the inductive head that aims at the parking stall respectively, if the inductive head senses that there is the vehicle to park into roadside parking stall, thereby the camera is awaken up the activation and carries out the license plate to the vehicle of parking into and shoot. The existing parking shooting device usually adopts single shooting or double shooting, the single shooting device only has a single camera, is arranged at the front side or the rear side of a parking space, can only shoot a single-side license plate of a parked vehicle, and has low shooting accuracy. The double-shooting device is provided with a front camera and a rear camera, the double-shooting device is installed between two adjacent roadside parking spaces, and the front camera and the rear camera are respectively aligned to the front parking space and the rear parking space and can respectively shoot license plates on the opposite sides of the parked vehicles on the two parking spaces. Because in every two adjacent two shooting devices of taking a photograph, the back camera of two shooting devices of taking a photograph before and the preceding camera of two shooting devices of taking a photograph after the preceding aim at same parking stall jointly, so two adjacent two shooting devices of taking a photograph can be respectively to the preceding, the back license plate of same vehicle and take a photograph, improve the success rate of taking a candid photograph the license plate. However, if one double-shot imaging device is installed on each of the front and rear sides of the parking space at the forefront and the last parking space, both the forefront double-shot imaging device and the last double-shot imaging device use only one camera, and the other camera is wasted. If the single-shot shooting device is installed in the front parking space and the last parking space, an installer needs to prepare two shooting devices in advance, and needs to pay attention to the fact that the single-shot shooting device cannot be mistakenly installed in other parking spaces during installation. In addition, if the same road needs planning, the roadside parking spaces arranged on the same side of the road are divided into multiple groups, each group is arranged at intervals, and each group has the foremost and last parking spaces, so that the problems are aggravated, and more wasted cameras are caused.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a power module and many cameras of modularization shoot device, can dispose the quantity of camera according to actual demand is nimble.

In order to solve the problem, the utility model provides a power supply module has two at least sides to be the adjacency side, and each adjacency side can both let the host computer module adjacency installation that is equipped with the camera, and power supply module is equipped with the power supply interface that quantity and adjacency side correspond, and each power supply interface connects respectively toward each adjacency side with the power supply connection the host computer module of adjacent installation corresponding adjacency side.

Furthermore, a power supply is arranged in the middle of the power supply module and is connected with the power supply interfaces in a power supply mode.

Further, the power supply of the power supply module is a solar power supply.

Furthermore, the power supply module is strip-shaped, and the two end sides of the strip-shaped module are the adjacent sides.

Furthermore, the edge of the power supply module corresponding to the adjacent side is in the shape of an inwards concave arc.

The utility model also provides a modular multi-camera shooting device, which comprises a power supply module and at least two host computer modules provided with cameras, wherein the power supply module is provided with side edges corresponding to the host computer modules in quantity, the side edges are adjacent side edges which can lead the host computer modules to be adjacently installed, and each host computer module is respectively installed on each adjacent side; the power supply module is provided with power supply interfaces of which the number corresponds to that of the adjacent sides, and each power supply interface is respectively connected to each adjacent side to supply power to the host module which is installed on the corresponding adjacent side in an adjacent mode.

Further, both the host module and the power supply module are provided with mounting structures, and both can be mounted on a fixed surface by the respective mounting structures.

Furthermore, the host module is provided with an adjacent part, the shape of which is attached to the adjacent side of the power supply module, and when the host module is installed on any adjacent side of the power supply module, the shape of the adjacent part is attached to the adjacent side to realize adjacent installation.

Furthermore, the host module is provided with a plurality of adjacent parts, and the host module is arranged on any adjacent side of the power supply module through any adjacent part of the host module, so that the appearance of the adjacent part is fitted with the adjacent side to realize adjacent installation.

Further, the profile of the horizontal cross section of the host module is circular, and the power supply module is correspondingly the power supply module described above.

Further, the power supply module is the power supply module.

Has the advantages that: the power supply module of the modularized multi-camera shooting device is provided with a plurality of adjacent sides corresponding to the host module for adjacent installation of the host module, and the host module is provided with a camera. Installation personnel can be according to roadside parking stall actual conditions for the most preceding and last parking stall installation when shooting the device, can be according to actual demand decision need use the host computer module quantity, as required to host computer module adjacent close install power module adjacent close on the side can, do not have the camera to be more than actual demand's the condition, so can not lead to the camera extravagant as prior art is that.

Drawings

Fig. 1 is a schematic block diagram of the structure of a modular multi-camera.

Fig. 2 is a schematic diagram of the structure of the power supply module.

Fig. 3 is a schematic diagram of the structure of the right host module.

Fig. 4 is a partial exploded view of a modular multi-camera.

Fig. 5 is a schematic block diagram of the structure of the bottom surface of a modular multi-camera.

Fig. 6 isbase:Sub>A sectional view taken alongbase:Sub>A-base:Sub>A in fig. 1.

Description of the symbols:

1-a modular multi-camera; 2-right host module; 21-a housing; 211-a housing chamber; 212-a groove; 213-a first working aperture; 214-a second working aperture; 215-a backplane; 216-a cavity; 217-conductive block; 22-an abutment; 23-bolt mounting holes; 24-a wire-passing groove; 25-a control circuit board; 26-a camera assembly; 27-an inductive head; 28-a communication module; 3-a power supply module; 31-right power supply interface; 32-right apposition side; 33-mounting a through hole; 34-right wire collection bin; 35-a battery compartment; 351-a storage battery; 36-battery compartment cover plate; 37-a solar panel; 4-left host module; z-axis.

Detailed Description

The invention is described in further detail below with reference to specific embodiments.

The modularized multi-camera shooting device is shown in a figure 1, is installed on a road surface close to a roadside parking space or a fixed surface such as a curb top surface, and is used for shooting license plates of vehicles parked in the roadside parking space. The modularized multi-camera shooting device 1 comprises a power supply module 3 arranged in the middle and host modules 2 and 4 respectively arranged on the left side and the right side of the power supply module 3 in an adjacent mode. Referring to fig. 2 and 4, the power supply module 3 is in the form of a long plate, and the left and right ends of the power supply module are adjacent sides for installing the host module. The top surface of the power supply module 3 is partially recessed to form a battery compartment 35, and a storage battery 351 is accommodated in the battery compartment 35. The battery compartment 35 is provided with a battery compartment cover plate 36 at the compartment opening, and the battery compartment cover plate 36 is provided with a solar panel 37. Referring to fig. 5 and 6, the bottom surface of the right end of the power supply module 3 is partially recessed upward to form a right wire storage compartment 34, and the right wire storage compartment 34 is open to the right. The left side wall of the right wire collection bin 34 is provided with a right power supply interface 31 connected with the right adjacent side 32, the right end of the right power supply interface 31 is exposed and accommodated in the right wire collection bin 34, and the left end of the right power supply interface 31 is communicated with the battery bin 35 and is respectively connected with the storage battery 351 and the solar panel 37 in a power supply mode. The left end of the power supply module 3 is symmetrically arranged with the right end, and the left end is correspondingly provided with a left wire hiding bin and a left power supply interface connected to the left adjacent side, which is not repeated herein.

Taking the right host module 2 installed on the right side of the power supply module 3 as an example, referring to fig. 3, the right host module 2 has a disk-shaped housing 21 with a small upper top surface and a large lower bottom surface, and the contour of any horizontal section of the housing 21 is circular. The side surfaces of the housing 21 have the same radian and are convex circular arcs, and the shapes of the side surfaces are matched with the shapes of the concave circular arc left end edge and concave circular arc right end edge of the power supply module 3 (see fig. 2). See fig. 6, the bottom surface is sunken formation holding chamber 211 upwards partially under the shell 21, installs the control circuit board 25 that has preset control program in the holding chamber 211, still installs the subassembly 26 of making a video recording (see fig. 3), inductive head 27 (see fig. 3) and the communication module 28 that connect control circuit board 25 respectively, and wherein, the subassembly 26 of making a video recording includes camera, light filling lamp and pilot lamp. Referring to fig. 3, a recess 212 is formed at the front side of the housing 21 by partially recessing, and a first working hole 213 and a second working hole 214 are formed at the bottom of the recess 212 and penetrate through the wall of the housing to the receiving cavity 211. The camera module 26 is exposed out of the first working hole 213 to be flush with the bottom of the groove 212; the inductive head 27 is exposed at the second working hole 214 to be flush with the bottom of the groove 212. Referring to fig. 5 and 6, the bottom plate 215 is detachably mounted on the housing 21 to cover the opening of the receiving cavity 211. The bottom surface of the bottom plate 215 is flush with the bottom surface of the housing 21, together serving as the bottom surface of the right host module 2. The center of the bottom plate 215 is partially recessed upwards to form a cavity 216, a conductive block 217 is installed in the cavity 216, the inner side surface of the conductive block 217 is electrically connected with the control circuit board 25, the outer side surface of the conductive block 217 is provided with an electric wire (not shown in the figure), and the tail end of the electric wire far away from the conductive block 217 is provided with a waterproof butt joint (not shown in the figure).

Referring to fig. 3, the outer shell 21 of the right host module 2 is circular in horizontal cross-sectional outline, the camera assembly 26 and the sensor 27 of the right host module 2 are exposed at the front side of the outer shell 21, the sides (excluding the top surface and the bottom surface of the outer shell) of the outer shell 21 except the front side where the camera assembly 26 faces are all adjacent parts 22, the front side is a non-adjacent part 22, the outline of any adjacent part 22 can be attached to the right adjacent side 32 of the power supply module 3 (see fig. 2), and the right host module 2 can be attached to the right adjacent side 32 of the power supply module 3 through any adjacent part 22 without blocking the camera assembly 26 and the sensor 27.

Referring to fig. 5, two radial wire passing grooves 24 are formed in the bottom surface of the bottom plate 215 of the right host module 2, and both of the two wire passing grooves 24 start from the cavity 216 and end to the left rear side and the right rear side respectively. After the right host module 2 is adjacently mounted to the right side of the power supply module 3 as shown in fig. 6, the right wire-hiding bin 34 of the power supply module 3 receives the left side of the right host module 2 and is communicated with the wire-passing groove 24 of the right host module 2, which leads to the left rear side. So, in the wire of getting of right host computer module 2 extended to right wire storehouse 34 from conducting block 217 through wire casing 24, the waterproof butt joint of getting wire self put through the right power supply interface 31 right-hand member in the right wire storehouse 34, battery 351 (see fig. 6) and solar panel 37 in the power module 3 had just supplied power and have connected the control circuit board 25 in the right host computer module 2, control circuit board 25 gets the back from power module 3 and supplies with camera module 26 (see fig. 3), inductive head 27 (see fig. 3) and communication module 28 use. In order to avoid the exposure of the taken electric wire, the right host module 2 is adjacently installed on the right adjacent side 32 of the power supply module 3 through any adjacent part 22, and at least one wire passing groove 24 on the bottom surface of the right host module 2 is in matched communication with the right wire storage bin 34 of the power supply module 3.

Referring to fig. 2, four vertical mounting through holes 33 are respectively formed at four corners of the power supply module 3, and a mounting bolt (not shown in the figure) is arranged in each mounting through hole 33. Referring to fig. 3, four bolt mounting holes 23 vertically penetrating the housing 21 are respectively formed at four corners of the housing 21 of the right host module 2, and mounting bolts (not shown) are respectively arranged in each bolt mounting hole 23. When the installation is needed, an installer firstly places the power supply module 3 on the road surface or the top surface of the curb between two adjacent parking spaces, then respectively installs four installation bolts into four installation through holes 33 of the power supply module 3 and screws the installation bolts on the ground, and the power supply module 3 is detachably installed on the road surface or the top surface of the curb. Then, the installer takes the right host module 2 and puts it to the right side of the power supply module 3, so that the power line at the bottom of the right host module 2 extends out through the wire passing groove 24 toward the left rear side and is connected to the right power supply interface 31 of the right wire storage 34 of the power supply module 3, and then the left adjacent part 22 of the right host module 2 is attached to the right adjacent side 32 of the power supply module 3 in shape, and then four mounting bolts are respectively mounted in the four bolt mounting holes 23 of the right host module 2 and screwed to the ground, so that the right host module 2 is detachably mounted on the road surface or the road tooth top surface, and is mounted on the right side of the power supply module 3 in shape matching manner as shown in fig. 6. Because any one of the adjacent parts 22 of the right host module 2 can be attached to the right adjacent side 32 of the power supply module 3, if the shooting angle of the right host module 2 needs to be adjusted, an installer can unscrew four mounting bolts in the four bolt mounting holes 23 first, then the right host module 2 can adjust the front side orientation of the right host module 2 by rotating around the axis Z in situ, so as to adjust the shooting angle, after the right host module 2 rotates in place, the installer screws the four mounting bolts again, the right host module 2 finishes the adjustment of the shooting angle, and in the rotating process of the right host module 2, one adjacent part 22 is always attached to the right adjacent side 32 of the power supply module 3. In other embodiments, the right host module 2 may instead be directly screwed to the power module 3 without forming the bolt mounting hole 23 in the housing 21 and without being mounted to the ground or the top surface of the curb.

Referring to fig. 1, the left host module 4 and the right host module 2 have the same structure, except that the left host module 4 is not provided with the communication module 28 (see fig. 3), and the left host module 4 is mounted adjacent to the left side of the power supply module 3 in the same manner as the right host module is mounted adjacent to the right side of the power supply module 3, and only the mounting directions are opposite, which is not described herein again. In other embodiments, the positions of the left and right host modules 2 adjacently mounted to the power supply module 3 may be exchanged, or the host modules adjacently mounted on the left and right sides of the power supply module 3 may be both the host module 2 or the host module 4.

In this embodiment, the power supply module 3 is a long strip plate, the left and right adjacent sides of the power supply module are respectively used for the left and right host modules 2 and 4 to be installed adjacently, and the fixed surface on which the modularized multi-camera shooting device 1 is installed is the road surface or the top surface of a curb. In other embodiments, for example, in the case of an open parking lot, a "Y" shaped power supply module or an "X" shaped power supply module may be used instead, the power supply module is installed on the ground serving as a fixed surface beside the parking space of the parking lot, the adjacent sides of the power supply module are correspondingly three or four, and each adjacent side may be adjacently installed with one host computer module. Further, the fixing surface may also be a curb side surface, and the solar panel 37 of the power supply module 3 is accordingly provided on the upward side surface of the power supply module 3 instead.

The above description is only an embodiment of the present invention, and the scope of protection is not limited thereto. The insubstantial changes or substitutions will now be made by those skilled in the art based on the teachings of the present invention, which fall within the scope of the claims.

Claims (11)

1. The power supply module is characterized in that at least two sides are adjacent sides, each adjacent side can enable the host module provided with the camera to be installed in an adjacent mode, the power supply module is provided with power supply interfaces corresponding to the adjacent sides in quantity, and each power supply interface is connected to the host module which is installed in the corresponding adjacent side in an adjacent mode through power supply connection.

2. The power supply module of claim 1 wherein a power supply is provided in the middle of said power supply module and is electrically connected to each of said power supply interfaces.

3. The power module of claim 1 wherein the power source of the power module is a solar power source.

4. A power supply module as claimed in claim 2, wherein said power supply module is in the form of a strip, and the two ends of the strip are said abutting sides.

5. The power supply module according to claim 1 or 4, wherein the edge of the power supply module corresponding to the adjacent side is an inward concave arc.

6. Many cameras of modularization shoot device, including power module and at least two host computer modules that are equipped with the camera, characterized by: the power supply module is provided with side sides corresponding to the host modules in number, the side sides are adjacent sides which can enable the host modules to be arranged adjacently, and each host module is arranged on each adjacent side respectively; the power supply module is provided with power supply interfaces corresponding to the adjacent sides in quantity, and each power supply interface is connected to each adjacent side respectively to supply power to be connected with the host module which is installed on the corresponding adjacent side in an adjacent mode.

7. A camera apparatus as claimed in claim 6, wherein both the host module and the power module are provided with mounting formations, the two being mountable on a fixed surface by the respective mounting formations.

8. The camera device as claimed in claim 6, wherein the host module has an adjacent portion whose outer shape fits the adjacent side of the power supply module, and when the host module is mounted on any one adjacent side of the power supply module, the outer shape of the adjacent portion fits the adjacent side to achieve adjacent mounting.

9. The camera device as claimed in claim 8, wherein the host module has a plurality of said adjacent portions, and the host module is mounted to any one of the adjacent sides of the power supply module through any one of the adjacent portions thereof such that the adjacent portion is shaped to fit the adjacent side to achieve the adjacent mounting.

10. A camera device according to claim 9, wherein the host module has a circular horizontal cross-sectional profile and the power supply module is, accordingly, according to claim 5.

11. The camera according to any one of claims 6 to 9, wherein the power supply module is the power supply module according to any one of claims 1 to 5.

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