CN220874644U - Top-mounted structure of monitoring camera and monitoring camera thereof - Google Patents

Abstract

The application discloses a top mounting structure of a monitoring camera and the monitoring camera. The top loading structure comprises a camera shell and a top loading piece which are matched with each other. Top of camera housing: has a cylindrical main body contour, and the inner wall is provided with a plurality of protruding parts. Top dress piece: the plate-shaped main body profile is provided with a central through hole and a plurality of screw mounting holes, a plurality of gaps which are uniformly distributed in the circumferential direction are formed in the outer edge of the plate-shaped main body profile, and buckling pieces are arranged at the edges of the gaps and are clamped with the edges of the protruding pieces. The monitoring camera adopting the top loading structure has the following installation process: the top mounting piece of independent package is assembled to the ceiling or the roof by the screw, and the top end of the monitoring camera body comprising the camera shell is clamped at the bottom end of the top mounting piece, so that the operation is simple.

Description

Top-mounted structure of monitoring camera and monitoring camera thereof

Technical Field

The application belongs to the technical field of video monitors, and particularly relates to a top mounting structure of a monitoring camera and the monitoring camera adopting the top mounting structure.

Background

The existing top mounting structure of the small monitoring camera has the following three types.

(1) Referring to fig. 9, the monitoring camera 100 includes a top-loading case 110, a housing 120, and an adjusting case 130. The electronics are located within the conditioning case 130 with leads leading out from the top of the top housing 110. The adjustment housing 130 is embedded in the outer housing 120, and the outer housing 120 is fixedly assembled at the bottom end of the top-loading housing 110. The outer edge of the top case 110 is provided in a flange type structure having a plurality of screw holes 110a mounted on the ceiling by screws. The top-loading structure is simple to install, but is not attractive.

(2) Referring to fig. 10, the monitoring camera 200 includes a top case 210, a housing 220, and an adjustment case 230. The differences from the monitoring camera 100 described above are: the top-loading case 210 has a plurality of screw holes 210a formed in the middle thereof and a ring groove 210b formed in the lower side thereof to be concave toward the central axis. The top side of the housing 220 is fixed around the ring groove 210b by bolts 91. The top-loading structure has neat appearance and complicated installation process, and the top-loading shell 210 is first removed from the commercial product, and the outer shell 220 is installed on the top-loading shell 210 by two hands.

(3) Similar to that shown in fig. 10, but with the top housing threadably engaged with the outer housing. Because of the short thread runs, repeated attempts are made to assemble successfully.

Disclosure of utility model

The technical problem to be solved by the application is how to improve the top mounting structure of the monitoring camera so as to simplify the mounting process.

The first aspect of the present application discloses a top-loading structure of a monitoring camera, hereinafter referred to as top-loading structure,

This roof-mounted structure includes a camera shell and a roof-mounted spare of mutually supporting, the top of camera shell: the device is provided with a cylindrical main body outline, and a plurality of protruding parts are arranged on the inner wall of the device; the top mount: the novel screw fixing device is characterized by comprising a plate-shaped main body outline, a central through hole and a plurality of screw mounting holes are formed in the outline, a plurality of gaps which are uniformly distributed in the circumferential direction are formed in the outer edge of the outline, buckling pieces are arranged at the edges of the gaps, and the buckling pieces are connected with the edges of the protruding pieces in a clamping mode.

Optionally, in some embodiments of the application, an outer edge of the top mount is embedded in the camera housing.

In some embodiments of the application, optionally, the top of the camera housing has a cylindrical body profile, the top mount has a circular plate-shaped body profile, and the notch: the U-shaped structure is four in number and corresponds to the protruding pieces one by one.

Further, the fastener includes:

Three pairs of wedge-shaped hooks, each pair of wedge-shaped hooks is symmetrically arranged inside the side edges of three notches, and one pair of side edges of the three notches are parallel to each other.

A pair of raised apex angles located in the lower half of the remaining lateral ends of said U-shaped notch, the opening of which is narrower than the bottom.

Further, the top surface of the top member is provided with a plurality of wire grooves extending radially.

Further, the top mounting member bottom surface is provided with:

A collar surrounding the central through hole;

four straight-line raised strips extending radially from the outer wall of the convex ring; and

The four arc-shaped raised strips circumferentially extend by taking the tail ends of the straight raised strips as the midpoints, but the tail ends are bent and point to the circle center.

In some embodiments of the present application, the ends of the protruding members of the camera housing are respectively provided with a downward protruding arc-shaped mounting seat, and the arc-shaped mounting seats (respectively provided with an arc-shaped buffer pad or jointly provided with a buffer pad ring).

In some embodiments of the application, the ends of the protruding members of the camera housing are bent downward and are connected to a circular ring mount for mounting a buffer grommet (390).

A second aspect of the present application discloses a monitoring camera.

The monitoring camera comprises the top mounting structure of the first aspect.

By implementing the technical scheme of the application, the following beneficial effects can be obtained:

The application discloses a top mounting structure of a monitoring camera and the monitoring camera. The top loading structure comprises a camera shell and a top loading piece which are matched with each other. Top of camera housing: has a cylindrical main body contour, and the inner wall is provided with a plurality of protruding parts. Top dress piece: the plate-shaped main body profile is provided with a central through hole and a plurality of screw mounting holes, a plurality of gaps which are uniformly distributed in the circumferential direction are formed in the outer edge of the plate-shaped main body profile, and buckling pieces are arranged at the edges of the gaps and are clamped with the edges of the protruding pieces. The monitoring camera adopting the top loading structure has the following installation process: the top mounting piece of independent package is assembled to the ceiling or the roof by the screw, and the top end of the monitoring camera body comprising the camera shell is clamped at the bottom end of the top mounting piece, so that the operation is simple.

Drawings

The following drawings are intended to be used in connection with the detailed description. In the accompanying drawings:

FIG. 1 is an exploded view of a first embodiment in which the top mount is secured and the monitor housing is moved in the direction of the arrow to complete the assembly;

FIG. 2 is a schematic diagram of an assembled structure of the first embodiment;

FIG. 3 is a schematic bottom view of the first embodiment;

FIG. 4 is a schematic bottom view of a top mount according to the first embodiment;

FIG. 5 is a schematic top view of the first embodiment;

FIG. 6 is a schematic top view of a top mount according to the first embodiment;

FIG. 7 is a perspective view of a cushion collar of an adaptation embodiment I;

FIG. 8 is another perspective view of the cushion collar of FIG. 7;

FIG. 9 is a schematic diagram of a small-sized monitoring camera in the prior art;

fig. 10 is a schematic diagram of another conventional small-sized monitoring camera.

Detailed Description

In order to facilitate an understanding of the present application, embodiments are described below with reference to the accompanying drawings.

In this specification, "one embodiment, some embodiments, other embodiments," and so forth, "is used to distinguish between different embodiments, and does not generally refer to all embodiments.

Unless specifically stated otherwise: the drawings are schematic, are not strictly practical, and the dimensional proportions observed from the drawings do not necessarily belong to the following embodiments; directions/positions indicated by "top, bottom, center, edge, inner, outer, far, near, long, wide, longitudinal, transverse, upper, lower, front, rear, left, right", etc., are not to be construed as being a component/device located at a particular position, in a particular direction, based on the viewing angle of the drawing; the sequence words "first, second, third" etc. do not have a sequential meaning when used to distinguish between components/devices of like function/name.

Example 1

Disclosed is a top loading structure of a monitoring camera, hereinafter referred to as top loading structure.

The top mounting structure is used for mounting the small monitoring camera. The monitoring camera includes a camera housing 310 and an adjustment housing. The electronic components are located in the conditioning case with their power and signal conductors led out from the top. The adjustment housing is embedded in the camera housing 310.

Referring to fig. 1 and 2, the top mounting structure includes the camera housing 310 and a top mounting member 800 that are matched with each other. The overall structure of the camera housing 310 can be seen in fig. 10. In fig. 1 and 2, only the top of the camera housing 310 is depicted.

The top of the camera housing 310 has a cylindrical body profile. The barrel 318 at the top of the camera housing 310 has four protrusions on its inner wall. In the drawings, four bosses are designated 311, 312, 313 and 314, respectively. The protruding piece is the platy that the level set up, and the breadth middle part is equipped with screw 303.

Top mount 800: the screw mounting device has a circular plate-shaped main body outline, is provided with a central through hole 800e and four screw mounting holes 803, and is provided with four gaps uniformly distributed in the circumferential direction at the outer edge. The edges of the four notches are provided with buckling pieces. The clamping piece is clamped with the edge of the protruding piece. In the drawings, four notches are labeled 800a, 800b, 800c, and 800d, respectively.

By adopting the structure, the installation process of the monitoring camera is as follows: the individually packaged top mount 800 is assembled to a ceiling or a roof by screws, and the top end of the monitoring camera body including the camera housing 310 is snapped to the bottom end of the top mount 800. The process can be completed by one-hand operation without two hands for matching, pre-disassembling the bottom shell, and repeated attempts for threaded engagement.

Referring to fig. 5, after assembly, the outer edge of the top mount 800 is fully embedded in the camera housing 310. With this structure, only the camera housing 310 is visible in appearance, and the top mount 800 is not visible.

Referring to fig. 3, 4, 5 and 6, the four notches are all U-shaped and correspond to the four protruding members one by one. The fastener comprises four pairs. By adopting the structure, the appearance is concise and symmetrical, the assembly is convenient, and the device is stable and reliable.

The three pairs of fasteners are wedge-shaped hooks 801 which are symmetrically arranged inside the side edges of the notch 800a, the notch 800c and the notch 800d respectively. Notch 800a, notch 800c, and notch 800d, each have a pair of sides parallel to each other.

Referring to fig. 1, 3, 4, 5 and 6, the remaining pair of snap members are raised apex angles 802 located in the lower half of the lateral ends of the notch 800 b. The opening of the notch 800b is narrower than the bottom. Namely: the notch 800b is provided with steps on both sides of the opening, the steps face down, and the step tips are provided with raised apex angles 802. When assembled, the convex apex angle 802 is elastically deformed by the convex member 312, and finally engages with the root of the convex member 312.

The top surface of the top member 800 is provided with four wire grooves 800f extending radially. The power supply wire and the signal wire are led out from the circuit board, sequentially pass through the top of the camera housing 310 and the central through hole 800e of the top mounting member 800, are embedded into a wire groove 800f of the top mounting member 800, and are finally led out from the wire notch 310a at the top end of the camera housing 310. Or power and signal conductors may be routed through the suspended ceiling and disposed above the suspended ceiling.

The bottom surface of the top mounting part is provided with the following three parts which are used for reinforcing the structure and facilitating assembly and positioning.

A collar 810 surrounding the central through hole 800e;

Four linear ribs 820 extending radially from the outer wall of the collar 810; and

Four arcuate ribs 830 extend circumferentially about the ends of the linear ribs 820 at the midpoint, but the ends are curved and point toward the center of the circle.

The ends of the four protruding members of the camera housing 310 are respectively provided with an arc-shaped mounting seat 301 protruding downwards. Each arc-shaped mounting base 301 is provided with an arc-shaped buffer pad.

In another similar embodiment, the four arcuate mounts 301 are slightly modified in construction to cooperatively mount a cushion collar 390 (fig. 7, 8). The top surface of the cushion collar 390 is provided with an annular groove 390a which is matched with the arc-shaped mounting seat 301.

In another similar embodiment, the ends of the four protrusions of camera housing 310 are each bent downward and connected to a circular ring mount. The circular ring mount is used to mount a buffer grommet 390.

In another approximate embodiment, the top outer profile of the camera housing 310 may be elliptical, regular hexagonal or tetragonal cylindrical, while the inner cavity profile is cylindrical; or the opposite outer contour is cylindrical, and the inner contour is elliptical, regular hexagonal or tetragonal.

Example two

A monitoring camera is disclosed.

After the monitoring camera is installed, the top part adopts the top loading structure of the first embodiment.

All the above embodiments and application examples are intended to introduce the technical idea and features of the present application, so that those skilled in the art can understand and implement the technical scheme of the present application, but do not constitute any limitation on the protection scope of the present application. Simple modifications or equivalent variations of the above embodiments are within the scope of the application.

Claims (9)

1. A top mounting structure of a monitoring camera comprises a camera housing (310) and a top mounting member (800) which are matched with each other, and is characterized in that,

The top of camera shell: the device is provided with a cylindrical main body outline, and a plurality of protruding parts are arranged on the inner wall of the device;

-said top mount (800): the novel screw fixing device is provided with a plate-shaped main body outline, a central through hole (800 e) and a plurality of screw mounting holes (803) are formed in the outline, a plurality of gaps which are uniformly distributed in the circumferential direction are formed in the outer edge of the outline, buckling pieces are arranged at the edges of the gaps, and the buckling pieces are buckled with the edges of the protruding pieces.

2. The roof structure of claim 1, wherein an outer edge of the roof is embedded in the camera housing.

3. The roof mount structure of claim 1, wherein the top of the camera housing has a cylindrical body profile, the roof mount has a circular plate-shaped body profile, the notch: the U-shaped structure is four in number and corresponds to the protruding pieces one by one.

4. A roof mounting structure as claimed in claim 3, wherein the clip comprises:

Three pairs of wedge-shaped hooks (801), each pair of which is symmetrically arranged inside the side edges of three notches, the side edges of the three notches are parallel to each other,

A pair of raised apex corners (802) located in the lower half of the remaining lateral ends of said U-shaped notch, the opening of which is narrower than the bottom.

5. A roof structure according to claim 3, characterized in that the roof member has a top surface provided with a plurality of radially extending wire grooves (800 f).

6. A roof structure according to claim 3, wherein the roof member bottom surface is provided with:

a collar (810) surrounding the central through hole;

four linear ribs (820) extending radially from the outer wall of the collar; and

Four arcuate ribs (830) extend circumferentially about the ends of the linear ribs at the midpoint, but the ends are curved and point toward the center of the circle.

7. The top-loading structure according to claim 1, wherein the protruding member ends of the camera housing are respectively provided with a downwardly protruding arc-shaped mounting seat, the arc-shaped mounting seat (301): an arcuate cushion pad is mounted separately or together with a cushion collar (390).

8. The top mounting structure of claim 1, wherein the ends of the protruding members of the camera housing are each bent downward and connected to a circular ring mount for mounting a bumper collar (390).

9. A monitoring camera comprising the top-loading structure of any one of claims 1 to 7.