CN218456453U - Modular shooting device - Google Patents

Abstract

The utility model relates to a field is shot in the parking, concretely relates to equipment is shot to modularization. The utility model provides a modularized shooting device, which comprises two shooting devices arranged on a fixed object at intervals, wherein each shooting device comprises a host module provided with a camera and a power supply module for supplying power to the host module; including decorating the connecting piece, its detachably installs between two shooting devices, specifically, host computer module in every shooting device has at least one side to be can with the adjacent side of closing the installation of the tip of decorating the connecting piece, two host computer modules are put with the relative mode in adjacent side, decorate the first of connecting piece, the second end respectively adjacent install the adjacent side at first, the second host computer module. The modularized shooting equipment has the advantages that when any one of the two host modules of the modularized shooting equipment breaks down and needs to be maintained, the other host module is not influenced to be continuously used, and the shooting equipment has the integral aesthetic feeling.

Description

Modular shooting equipment

Technical Field

The utility model relates to a field is shot in the parking, concretely relates to equipment is shot to modularization.

Background

In daily life, roadside parking spaces are often provided with roadside photographing equipment for photographing license plates of vehicles parked in the parking spaces. The common roadside shooting equipment has two types, namely vertical type and horizontal type, and the two types of the shooting equipment have respective advantages and disadvantages, and the sections suitable for installation are different. The existing vertical roadside shooting equipment is internally provided with a host module and a power supply module for supplying power to the host module, the host module is provided with a camera and an induction head which are respectively aligned to a parking space, and after a vehicle is induced to park into the parking space by the induction head, the camera is activated to shoot a license plate of the parked vehicle. In fact, current vertical roadside shooting equipment generally can install between two adjacent roadside parking stalls, and should shoot the inside two host computer modules that are equipped with of equipment, these two host computer modules respectively towards two adjacent roadside parking stalls, so, two adjacent shooting equipment respectively have a pair host computer module to aim at same parking stall, so when the vehicle stops into this parking stall, aim at the camera of two host computer modules on same parking stall and can shoot the preceding, back license plate of stopping into the vehicle respectively, improve license plate snapshot success rate. However, in consideration of waterproof sealing, the angle of the two cameras of the existing vertical shooting equipment with two cameras is relatively fixed, and an installer cannot adjust the angle of one camera independently. In addition, if one of the host modules is damaged, the whole shooting equipment needs to be disassembled and maintained after being shut down.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an equipment is shot to modularization, does not influence another host computer module when any host computer module breaks down in its two host computer modules and need the maintenance and continue to use, and shoots the equipment and have whole aesthetic feeling.

The utility model discloses the further technical problem who solves is: the shooting angle can be adjusted alone to two cameras of modularization shooting equipment, adapts to different shooting angle requirements.

In order to solve the above problems, the utility model provides a modularized shooting device,

the device comprises two shooting devices arranged on a fixed object at intervals, wherein each shooting device comprises a host module provided with a camera and a power supply module for supplying power to the host module;

including decorating the connecting piece, its detachably installs between two shooting devices, specifically, host computer module in every shooting device has at least one side to be can with the adjacent side of closing the installation of the tip of decorating the connecting piece, two host computer modules are put with the relative mode in adjacent side, decorate the first of connecting piece, the second end respectively adjacent install the adjacent side at first, the second host computer module.

Has the beneficial effects that: the shooting equipment comprises two shooting devices which are arranged at intervals, and the host module in each shooting device is powered by the corresponding power supply module, so that if one shooting device breaks down, maintenance is needed, and the other shooting device is not influenced to be continuously used. The two shooting devices arranged at intervals can be connected in a decoration mode through the decoration connecting piece, so that the shooting equipment forms a whole body instead of two separated parts, and the shooting equipment has integral aesthetic feeling.

Wherein, at least one host computer module adjacent side quantity is at least two, and each adjacent side outward appearance of same host computer module can both laminate with the corresponding tip of decorating the connecting piece mutually, and two host computer modules can be put into with respective arbitrary adjacent side is relative, decorate the connecting piece and install between two host computer modules then its two tip respectively the relative adjacent side of two host computer modules of appearance laminating realize adjacent installation.

Has the beneficial effects that: because two host computer modules are respectively the adjacent installation at the both ends of decorating the connecting piece, and at least one host computer module adjacent side quantity is at least two, so installer can make adjacent side quantity be any adjacent side adjacent installation of at least two host computer modules with the difference and decorate the corresponding tip of connecting piece to adjust the shooting angle of its camera of this host computer module, adapt to different shooting angle requirements, and do not influence another shooting device.

The host modules with at least two adjacent sides have circular horizontal section outline, and correspondingly, the edges of the corresponding end parts of the decorative connecting pieces are in an inwards concave arc shape.

Wherein, in the host computer module, the camera is towards non-adjacent side.

Wherein, every host computer module all is equipped with the line groove of crossing that leads to the adjacent side of closing, decorate the inside or below of connecting piece and leave the line space, decorate the connecting piece and install between two host computer modules then two host computer modules cross the line groove and communicate each other through the line space of crossing of decorating the connecting piece and realize the adjacent installation of closing.

The bottom surface of the decorative connecting piece is provided with a wire hiding groove, and the wire passing space is formed in the wire hiding groove.

The electric connection wire can sequentially pass through the wire passing groove of one host module, the wire passing space and the wire passing groove of the other host module, so that the two host modules are electrically connected.

The modularized shooting equipment is vertical shooting equipment, and specifically, a host module is installed at the top of the power supply module.

Wherein, set up threaded hole on the host computer module bottom surface, the rigid coupling bolt can be worn to establish at power module's top, and the screw hole on the host computer module bottom surface is in the same place with the rigid coupling bolt threaded connection who wears to establish at power module top, and host computer module installs at the power module top with this mode.

The shooting device and the decorative connecting piece can be installed on the installation bottom plate, and the shooting device and the decorative connecting piece can be installed on the fixture through the installation bottom plate.

Drawings

Fig. 1 is a schematic block diagram of the structure of a modular photographing apparatus.

FIG. 2 is a schematic diagram of a trim attachment.

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

Fig. 4 is a schematic diagram of a bottom view of the modular photographing apparatus with two power supply modules hidden.

Fig. 5 isbase:Sub>A sectional view taken alongbase:Sub>A-base:Sub>A in fig. 1 with two power supply modules hidden.

Fig. 6 is a schematic diagram of the structure of the right power supply module.

Fig. 7 is an exploded view of the right power module of fig. 6.

Description of the symbols:

1-modular photographing equipment; 2-right host module; 21-a housing; 211-a housing chamber; 212-a groove; 213-a first working aperture; 214-a second working aperture; 22-apposition side; 23-a base plate; 231-cavities; 232-conductive blocks; 233-threaded hole; 24-a wire-passing groove; 25-a control circuit board; 26-a camera assembly; 27-an inductive head; 28-a communication module; 3-left host module; 4-decorative connecting pieces; 41-right end; 42-left end; 43-wire hiding groove; 44-mounting through holes; 5-a right power supply module; 51-a cylinder; 511-countersunk through holes; 52-a mounting cavity; 53-vertical bar cells; 54-connecting cover plate; 541-a threaded blind hole; 542-a wire passing hole; 543-fixedly connecting through holes; 6-left power supply module.

Detailed Description

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

The modular shooting equipment is shown in figure 1 and is installed on the road surface close to roadside parking spaces or the top surface of curbs to shoot license plates of vehicles parked in the roadside parking spaces. The modular shooting device 1 comprises a centered decorative connecting piece 4, left and right host modules 2 and 3 positioned at the left and right end sides of the decorative connecting piece 4, and left and right power supply modules 5 and 6 respectively supplying power to the two host modules 2 and 3. Referring to fig. 2, the decorative connecting member 4 is a strip shape, and the edges of the left and right ends are concave arc shapes. Referring to fig. 3, the right host module 2 has a discoid housing 21, with the housing 21 having a small upper top surface and a large lower bottom surface. The outline of any horizontal section of the shell 21 is circular, the side faces of each part of the shell 21 have the same radian, and the shape is convex arc-shaped and is matched with the shapes of the concave arc-shaped left end 41, concave arc-shaped right end 42 of the decorative connecting piece 4 (see figure 2), so that the right host module 2 can be installed in an adjacent mode with the shape of the concave arc-shaped left end 41 of the decorative connecting piece 4 in an attaching mode.

See fig. 5, the bottom surface is sunken upwards partially under the shell 21 of right host computer module 2 and forms holding chamber 211, 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 of electric connection 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 and 5, a groove 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 groove 212 to penetrate through the wall of the housing to reach 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. Because the outline of the horizontal cross section of the shell 21 of the right host module 2 is circular, and the camera assembly 26 and the sensor 27 of the right host module 2 are exposed at the front side surface of the shell 21, the sides (excluding the top surface and the bottom surface of the shell) of the shell 21 except the front side where the camera assembly 26 faces are all the adjacent sides 22, and the front side surface is the non-adjacent side, the outline of any adjacent side 22 can be attached to the right end 41 of the decorative connecting piece 4 (see fig. 2), therefore, the decorative connecting piece 4 is attached to any adjacent side 22 on the shell 21 of the right host module 2 in an adjacent way by the right end 41 thereof, and the camera assembly 26 and the sensor 27 cannot be blocked.

Referring to fig. 4 and 5, the bottom plate 23 is detachably mounted on the housing 21 of the right host module 2 to cover the opening of the receiving cavity 211. The bottom surface of the bottom plate 23 is flush with the bottom surface of the housing 21 and together serves as the bottom surface of the right host module 2. The bottom plate 23 is partially recessed upward at the center to form a cavity 231, and two radial wire passing grooves 24 are formed in the bottom surface of the bottom plate 23, wherein the two wire passing grooves 24 start from the cavity 231, and the tail ends of the two wire passing grooves respectively extend to the left rear side and the right rear side. Referring to fig. 2, the bottom surface of the decorative connector 4 is provided with a wire hiding groove 43, and after the right end 41 of the decorative connector 4 is adjacently installed on the left side of the right host module 2 as shown in fig. 4, the right part of the wire hiding groove 43 is communicated with the wire passing groove 24 of the right host module 2 which passes through the left rear side. The right host module 2 is adjacently installed at the right end 41 part of the decorative connecting piece 4 through any adjacent side 22, and at least one wire passing groove 24 on the bottom surface of the right host module 2 is matched and communicated with the wire hiding groove 43 of the decorative connecting piece 4.

The cavity 231 is provided with a conductive block 232, the inner side surface of the conductive block 232 is electrically connected with the control circuit board 25, the outer side surface is provided with an electric wire (not shown in the figure), the tail end of the electric wire, which is far away from the conductive block 232, is provided with a waterproof butt joint (not shown in the figure), and the right host module 2 is electrically connected with the right power supply module 5 (shown in the figure 1) through the electric wire to take electricity. The right power supply module 5 is shown in fig. 6 and fig. 7, and has a cylindrical barrel 51, the barrel 51 is internally hollow to form a mounting cavity 52, the opening of the mounting cavity 52 is upward opened, and a plurality of vertical strip-shaped batteries 53 are arranged in the mounting cavity. The top of the cylinder 51 is provided with a connecting cover plate 54, the outer diameter of which is matched with the inner diameter of the cylinder 51. The side surface of the connecting cover plate 54 is provided with a radial threaded blind hole 541, the side wall of the cylinder body 51 is provided with a radial countersunk through hole 511, the connecting cover plate 54 sinks into the cylinder body 51 from the cavity opening of the mounting cavity 52 until the threaded blind hole 541 is aligned with the countersunk through hole 511, an installer penetrates a screw into the countersunk through hole 511 from the outside of the cylinder body 51 and screws the screw into the threaded blind hole 541, and therefore, the connecting cover plate 54 is detachably mounted at the top of the cylinder body 51 to cover the cavity opening of the mounting cavity 52. The center of the connection cover plate 54 is provided with a wire passing hole 542 axially penetrating the whole connection cover plate 54, the top surface of the connection cover plate 54 is provided with four fixed connection through holes 543 arranged at intervals around the wire passing hole 542, and the bottom surface of the bottom plate 23 of the right host module 2 (see fig. 4) is correspondingly provided with four threaded holes 233 arranged at intervals around the cavity 231.

Right host computer module 2 need install right power module 5 top, constitutes vertical right shooting device jointly with right power module 5, and concrete mounting means is as follows: an installer firstly detaches the connecting cover plate 54 at the top of the right host module 2, then makes the waterproof butt joint of the electric wire of the right host module 2 penetrate through the wire passing hole 542 of the connecting cover plate 54, then the installer rotates the connecting cover plate 54 to make the four fixed connection through holes 543 aligned with the four threaded holes 233 of the bottom plate 23 of the right host module 2 one by one, and then respectively uses four screws to penetrate the four fixed connection through holes 543 and screw down into the aligned four threaded holes 233, therefore, the connecting cover plate 54 is detachably installed and connected with the bottom plate 23 of the right host module 2. Then, the installer connects the waterproof butt joint of the wire getting out of the wire through hole 542 of the connection cover plate 54 to the plurality of vertical strip batteries 53 in the installation cavity 52 of the right power supply module 5 to realize electrical connection, and then the connection cover plate 54 sinks into the cylinder 51 from the cavity of the installation cavity 52 of the right power supply module 5 until the blind threaded hole 541 aligns with the countersunk through hole 511, the installer then screws the screw into the blind threaded hole 541 from the outside of the cylinder 51 through the countersunk through hole 511, the connection cover plate 54 is detachably installed on the top of the cylinder 51, the right host module 2 is installed on the right power supply module 5 through the connection cover plate 54, and the right power supply module 5 supplies power. The installer places the installed vertical right shooting device on the road surface or the top surface of the curb, rotates the right power supply module 5 of the vertical right shooting device to enable the camera module 26 and the induction head 27 of the right host computer module 2 installed on the vertical right shooting device to be aligned with the roadside parking space, then the installer installs the right power supply module 5 on the road surface or the top surface of the curb by using the explosion screws, the right power supply module 5 is installed together with the right host computer module 2 installed on the vertical right shooting device, and the right host computer module 2 can sense the vehicle parked in the parking space and shoot the license plate of the vehicle.

Left host computer module 3 is the same with right host computer module 2 structure, can the adjacency install in the 4 left end 42 portions of decorative connection, and left power module 6 is the same with right power module 5 structure, so left host computer module 3 can be installed together and constitute vertical left shooting device jointly with left power module 6 equally, vertical left shooting device can be installed in order to carry out the license plate to this vehicle and shoot the response in order to parking stall's vehicle and to this vehicle at road surface or curb top surface with the same mode of vertical right shooting device, and it is no longer repeated here.

When equipment 1 is shot to the modularization of needs installation, the installer can usually take two host computer modules earlier, two power module and one decorate connecting piece 4 and take between two adjacent roadside parking stalls, at first place two power module left and right intervals and vertically put, then get a host computer module and adorn 6 tops of left power module and become left host computer module 3, the installation has just been accomplished to left side shooting device, then get another host computer module and adorn 5 tops of right power module and become right host computer module 2, the installation is also accomplished to right side shooting device. After the installation is completed, the left and right cameras are rotated to make their respective camera assemblies 26 respectively align with the left and right adjacent parking spaces. Meanwhile, the installer places the left host module 3 and the right host module 2 to be opposite to each other with any one of the adjacent sides 22, and a space for the decorative connecting piece 4 to be installed is reserved between the left host module 3 and the right host module 2. Then, the installer places the decorative connector 4 between the left host module 3 and the right host module 2 such that the left and right ends 41, 42 of the decorative connector 4 are respectively shaped to abut the opposing abutting sides 22 of the left and right host modules 2, 3, and the decorative connector 4 is supported by the left and right host modules 2, 3 as shown in fig. 5, such that it is adjacently installed between the left and right host modules 2, 3.

Referring to fig. 2 and 4, the front and rear sides of the decorative connecting member 4 are provided with vertical mounting through holes 44, and an installer can insert long mounting bolts (not shown) with appropriate size into the mounting through holes 44, so that the decorative connecting member 4 is connected to the ground through the long mounting bolts in a state of being adjacently mounted between the left and right host modules 2 and 3, and thus the decorative connecting member 4 is not easily detached by passers-by.

In the state that the decorative connecting piece 4 is respectively adjacently installed with the left host module 3 and the right host module 2 as shown in fig. 1, as shown in fig. 4, at least one wire passing groove of each of the left host module 3 and the right host module 2 is communicated through the wire hiding groove 43 of the decorative connecting piece 4, at this time, the decorative connecting piece 4 is adjacently installed on the right side of the left host module 3 and the left side of the right host module 2 in a mode of outer shape fitting and in a mode of respectively communicating at least one wire passing groove of each of the left host module 3 and the right host module 2 through the wire hiding groove 43. Therefore, the left host module 3 and the right host module 2 can be electrically connected through an electrical connection wire (not shown in the figure), one end of the electrical connection wire is electrically connected with the control circuit board 25 in the right host module 2, the other end of the electrical connection wire firstly penetrates into the cavity 231 of the bottom plate 23 from the accommodating cavity 211 in the right host module 2, then extends into the wire-hiding groove 43 of the decorative connecting piece 4 through the wire-passing groove 24 of the right host module 2, then penetrates into the cavity of the bottom plate of the left host module 3 through the wire-passing groove of the left host module 3 and then penetrates through the bottom plate to be electrically connected with the control circuit board in the left host module 3, and the respective control circuit boards of the left host module 3 and the right host module 2 are electrically connected in this way. In the present embodiment, a wire passing space through which the above-mentioned electric connection wire passes is formed in the wire hiding groove 43 of the ornamental connector 4. In this embodiment, the wire passing space is located inside the ornamental connector 4; in other embodiments, the wire hiding groove 43 is not formed in the decorative connecting piece 4, but the electrical connection wire directly passes through the lower portion of the decorative connecting piece 4, and the wire passing space is formed below the decorative connecting piece 4. In addition, in other embodiments, the electrical connection line may be formed by two electrical connection lines connected through an electrical interface, for example, one of the electrical connection lines has one end electrically connected to the control circuit board in the left host module 3 and the other end extending into the wire hiding groove 43 of the decorative connection member 4 through the wire passing groove of the left host module 3, the other electrical connection line has one end electrically connected to the control circuit board 25 in the right host module 2 and the other end extending into the wire hiding groove 43 of the decorative connection member 4 through the wire passing groove 24 of the right host module 2, the corresponding ends of the two electrical connection lines extending into the wire hiding groove 43 can be butted together to realize electrical connection, and the respective control circuit boards of the left host module 3 and the right host module 2 can also realize electrical connection.

In the present embodiment, the decorative connecting member 4, the vertical left photographing device, and the vertical right photographing device of the modular photographing apparatus 1 may each be directly mounted on a road surface or a curb top surface or the like. In other embodiments, the modular photographing apparatus 1 may be provided with a mounting base plate (not shown in the drawings), the mounting base plate is pre-provided with a plurality of threaded holes (not shown in the drawings), an installer can mount the mounting base plate on a road surface or a top surface of a curb first, then the decorative connector 4, the vertical left photographing device and the vertical right photographing device are respectively screwed into the corresponding threaded holes for mounting and fixing, the decorative connector 4, the vertical left photographing device and the vertical right photographing device are mounted on a fixed object by means of the mounting base plate, and after the mounting is completed, the decorative connector 4, the left host module 3 and the right host module 2 are abutted together. In other embodiments, the fixture may also be an open parking ground.

In the present embodiment, the left host module 3 and the right host module 2 are identical in structure. In other embodiments, the two host modules 2 and 3 may be different, for example, the right host module 2 may not be provided with the sensor head 27, and accordingly the housing 21 thereof is not provided with the second working hole 214, so that the right host module 2 may activate the camera module 26 to take a license plate of a vehicle in the parking space when the communication module 28 receives the activation signal. In addition, in other embodiments, the outer casing 21 of the right host module 2 may be modified to have a regular polygon shape in any horizontal cross section, and the edge of the right end 41 of the decorative connecting member 4 is modified to have a shape capable of matching with the regular polygon shape.

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 (10)

1. Modularization shooting equipment, characterized by:

the device comprises two shooting devices arranged on a fixed object at intervals, wherein each shooting device comprises a host module provided with a camera and a power supply module for supplying power to the host module;

including decorating the connecting piece, its detachably installs between two shooting devices, specifically, host computer module in every shooting device has at least one side to be can with the adjacent side of closing the installation of the tip of decorating the connecting piece, two host computer modules are put with the relative mode in adjacent side, decorate the first of connecting piece, the second end respectively adjacent install the adjacent side at first, the second host computer module.

2. The modular camera device of claim 1, wherein the number of adjacent sides of the at least one host module is at least two, each adjacent side of the same host module is configured to engage a corresponding end of the decorative connector, the two host modules are configured to face each other with either of the adjacent sides, and the decorative connector is configured to fit between the two host modules such that the two ends of the decorative connector engage the opposite adjacent sides of the two host modules.

3. The modular photographing apparatus according to claim 2, wherein the host modules having at least two adjoining sides have a circular horizontal sectional profile, and accordingly, the edges of the corresponding ends of the decorative connecting members have a concave circular arc shape.

4. The modular camera device of claim 1, wherein the camera head faces the non-contiguous side of the host module.

5. The modular photographing apparatus according to claim 1, wherein each of the host modules is provided with a wire passing groove opened to an adjoining side, a wire passing space is left inside or below the decorative connecting member, and the decorative connecting member is installed between the two host modules such that the wire passing grooves of the two host modules are communicated with each other through the wire passing space of the decorative connecting member to achieve adjoining installation.

6. The modular photographing apparatus as claimed in claim 5, wherein a wire hiding groove is formed on a bottom surface of the decorative connector, and the wire passing space is formed in the wire hiding groove.

7. The modular photographing apparatus as claimed in claim 5 or 6, comprising an electrical connection line which can sequentially pass through the wire passing groove of one of the host modules, the wire passing space and the wire passing groove of the other host module to realize electrical connection between the two host modules.

8. The modular photographing apparatus according to claim 1, wherein the modular photographing apparatus is a vertical photographing apparatus, and particularly, a host module is installed on top of the power supply module.

9. The modular photographing apparatus as claimed in claim 8, wherein a threaded hole is formed on a bottom surface of the host module, a fixing bolt is inserted into a top portion of the power supply module, the threaded hole on the bottom surface of the host module is threadedly coupled to the fixing bolt inserted into the top portion of the power supply module, and the host module is mounted on the top portion of the power supply module in this manner.

10. The modular camera apparatus of claim 1, comprising a mounting plate mounted to the fixture, the camera and the decorative connector being mountable to the mounting plate by the mounting plate to the fixture.

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