CN222616535U - Mounting bracket of multi-view multi-direction camera - Google Patents

Abstract

The utility model discloses a mounting bracket of a multi-view multi-direction camera, which comprises a mounting base and a shell which is detachably connected with the mounting base, wherein the mounting base is used for being fixed on a fixed surface, the shell is used for assembling the multi-view multi-direction camera component, the mounting bracket also comprises a connecting piece and an elastic reset piece, the shell or the mounting base is provided with a pivot shaft, one end of the connecting piece is provided with a pivot groove, one side of the pivot groove is provided with a mounting notch so that the pivot shaft can be detachably penetrated in the pivot groove and form rotary connection with each other, the connecting piece is slidably arranged on the shell or the mounting base, the elastic reset piece applies a rebound force to the connecting piece so as to drive the mounting notch of the connecting piece to elastically abut against the outer wall of the shell or the mounting base, and further an anti-unhooking arrangement is formed between the shell and the mounting base, the pivot shaft and the pivot groove can be prevented from being unhooked accidentally, and the safety of the multi-view multi-direction camera in the mounting process is ensured.

Description

Mounting bracket of multi-view multi-direction camera

Technical Field

The utility model relates to the technical field of camera design, in particular to a mounting bracket of a multi-view and multi-direction camera.

Background

A multi-view and multi-directional camera is a relatively common imaging apparatus, and includes a plurality of cameras circumferentially arranged around to realize multi-directional monitoring.

The existing multi-view multi-direction camera mainly realizes fixed installation through a wall-mounted bracket or a top-mounted bracket and the like, wherein the wall-mounted bracket needs one side to be close to a wall body for installation, and cannot meet some scenes needing top-mounted.

In addition, the existing top mounting bracket is generally provided with a pivot structure formed by a pivot shaft and a pivot groove to realize rotary mounting, namely, the top mounting bracket is firstly fixed on a wall body, then the multi-view multi-directional camera is rotatably fixed on the top mounting bracket through the pivot structure, and the multi-view multi-directional camera and the top mounting bracket are opened at a certain angle, so that wires of the multi-view multi-directional camera are conveniently connected, and finally the multi-view multi-directional camera is rotated to be parallel to the top mounting bracket and fastened together.

In order to prevent unhooking, a part of the pin joint groove is matched with a safety rope to prevent accidental falling to the ground due to unhooking, but under the action of the safety rope, suspended equipment can shake back and forth to influence subsequent wiring operation, the design requirement of small volume is not met, and the safety is not effectively ensured.

Disclosure of utility model

Therefore, the utility model aims to solve the problems, and provides a mounting bracket for a multi-view multi-direction camera, which can prevent the accidental unhooking of a pivot shaft and a pivot groove, thereby ensuring the safety of the multi-view multi-direction camera in the mounting process.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

The utility model provides a mounting bracket of a multi-view multi-direction camera, which comprises a mounting base and a shell detachably connected to the mounting base, wherein the mounting base is used for being fixed on a fixed surface, the shell is used for assembling a multi-view multi-direction camera component, the mounting bracket further comprises a connecting piece and an elastic reset piece, the shell or the mounting base is provided with a pivot shaft, one end of the connecting piece is provided with a pivot groove matched with the pivot shaft, one side of the pivot groove is provided with a mounting notch so that the pivot shaft can be detachably penetrated in the pivot groove and form rotary connection with each other, the connecting piece is slidably arranged on the shell or the mounting base, and the elastic reset piece applies a rebound force to the connecting piece so as to drive the mounting notch of the connecting piece to elastically abut against the outer wall of the shell or the mounting base, and further form an anti-unhooking arrangement between the shell and the mounting base.

Further, the mounting base is provided with the pivot shaft, the connecting piece is slidably assembled on one side of the shell, which faces the mounting base, and the elastic reset piece is arranged between the shell and the connecting piece.

Further, the connecting piece is provided with a limit guide groove penetrating through the upper surface and the lower surface of the connecting piece, a limit pin is arranged between the connecting piece and the shell, and the limit pin movably penetrates through the limit guide groove and is fixed on the shell so that the connecting piece can be arranged in a sliding mode.

Further, the elastic reset piece is a tension spring.

Further, the connecting piece is provided with a push block which extends outwards and is convenient to push.

Furthermore, one end of the connecting piece is provided with a hook part which is bent and extended to one side, the hook part is provided with a through groove which is opened outwards, and the through groove is the pivoting groove.

Further, an abdication groove for abdicating the hook part is formed in the outer wall of the shell, and the wall body of the abdication groove is elastically abutted against the mounting notch.

Further, a pre-fixing mechanism is arranged between the shell and the mounting base, and the shell is detachably pre-fixed on the mounting base through the pre-fixing mechanism.

Further, the pre-fixing mechanism comprises a buckle and a clamping groove which are matched, the buckle is detachably clamped in the clamping groove, the buckle is fixed on one side, facing the shell, of the mounting base, the clamping groove is arranged on one side, facing the mounting base, of the shell, or the clamping groove is arranged on one side, facing the shell, of the mounting base, and the buckle is fixed on one side, facing the mounting base, of the shell.

Further, a wiring hole which is convenient for wiring is formed in one side of the shell, which faces the mounting base, and a separable hole plug is arranged in the wiring hole.

The technical scheme provided by the utility model has the following beneficial effects:

The connecting piece is slidably arranged on the shell or the mounting base and the elastic reset piece applies elastic force to the connecting piece, so that the connecting piece can elastically stretch and retract under the limitation of the elastic force, and the mounting notch of the connecting piece is driven to elastically abut against the outer wall of the shell or the mounting base, so that accidental unhooking between the pivot shaft on the shell or the mounting base and the pivot groove of the connecting piece is prevented, namely unhooking between the shell and the mounting base is prevented, and the safety of the multi-view multi-direction camera in the mounting process is further ensured.

Drawings

FIG. 1 is a schematic view showing the structure of a mounting bracket of a multi-view multi-directional camera in an open state according to an embodiment;

FIG. 2 is an exploded view of a mounting bracket for a multi-view, multi-directional camera in an embodiment;

FIG. 3 is a schematic view of a connector according to an embodiment;

FIG. 4 is a schematic view of a mounting base in an embodiment;

FIG. 5 is an external view showing a mounting bracket of the multi-view camera in a fastened state in the embodiment;

Fig. 6 is a cross-sectional view of a mounting bracket for a multi-view multi-camera in a fastened state in an embodiment.

Detailed Description

For further illustration of the various embodiments, the utility model is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible embodiments and advantages of the present utility model. The components in the figures are not drawn to scale and like reference numerals are generally used to designate like components.

The utility model will now be further described with reference to the drawings and detailed description.

Referring to fig. 1 to 6, the present embodiment provides a mounting bracket for a multi-view multi-directional camera (hereinafter simply referred to as a mounting bracket), the mounting bracket includes a mounting base 1 and a housing 2 detachably connected to the mounting base 1, the mounting base 1 is fixed on a fixed surface, such as fixing the mounting base 1 on a wall, the housing 2 is used for assembling a multi-view multi-directional camera assembly, a pre-fixing mechanism is provided between the housing 2 and the mounting base 1, and after a wiring operation is completed, the housing 2 is detachably pre-fixed to the mounting base 1 by the pre-fixing mechanism to facilitate a fastening operation of a next step.

The mounting bracket further comprises a connecting piece 3 and an elastic resetting piece 4, wherein the mounting base 1 shown in fig. 4 is provided with a pivot shaft 11, one end of the connecting piece 3 shown in fig. 3 is provided with a pivot groove 31 matched with the pivot shaft 11, one side of the pivot groove 31 is provided with a mounting notch 311, so that the pivot shaft 11 can be detachably penetrated in the pivot groove 31 and form rotary connection with each other, and the connecting piece can be rotated to a certain opening angle before being detachably pre-fixed on the mounting base 1 to be matched with the shell 2, so that the wiring action of the next step is facilitated.

As shown in fig. 1, the connecting piece 3 is slidably assembled on one side of the housing 2 facing the mounting base 1, and an elastic reset piece 4 is disposed between the housing 2 and the connecting piece 3, where the elastic reset piece 4 applies a resilience force to the connecting piece 3 to drive the mounting notch 311 of the connecting piece 3 to elastically abut against the outer wall of the housing 2, so as to form an anti-unhooking arrangement between the housing 2 and the mounting base 1.

In this embodiment, as shown in fig. 3, the connecting piece 3 has two limiting guide grooves 33 penetrating through the upper and lower surfaces thereof, the two limiting guide grooves 33 are arranged in parallel, two limiting pins 34 are disposed between the connecting piece 3 and the housing 2, the limiting pins 34 movably penetrate through the corresponding limiting guide grooves 33 and are fixed on the housing 2 to form a slidable arrangement, the connecting piece 3 only elastically stretches and contracts along the extending direction of the limiting guide grooves 33 under the common limitation of the resilience force of the elastic restoring piece 4, the limiting pins 34 and the limiting guide grooves 33, and the housing 2, the connecting piece 3, the elastic restoring piece 4 and the limiting pins 34 are connected to form a multi-view multi-camera main body, and the multi-view multi-camera main body can rotate around the pivot shaft 11 of the mounting base 1 within a certain angle range through the pivot structure formed by the pivot shaft 11 and the pivot groove 31.

One end of the connecting piece 3 is provided with a hook part 32 which is bent and extended to one side, the hook part 32 is provided with a penetrating groove which is opened outwards, the penetrating groove is a pivoting groove 31, the outer wall of the shell 2 is provided with a yielding groove 21 of the yielding hook part 32, and the wall body of the yielding groove 21 is elastically abutted with the mounting notch 311, so that the mounting notch 311 of the connecting piece 3 is always elastically abutted with the outer wall of the shell 2 under the action of no external force, the mounting notch 311 of the connecting piece 3 is blocked, and accidental unhooking between the pivoting shaft 11 on the mounting base 1 and the pivoting groove 31 of the connecting piece 3 is further prevented.

The connecting piece 3 is slidably arranged on the shell 2 and the elastic reset piece 4 applies the rebound force to the connecting piece 3, so that the connecting piece 3 can stretch elastically under the limitation of the rebound force, and the installation notch 311 of the connecting piece 3 is driven to elastically abut against the outer wall of the shell 2, so that accidental unhooking between the pivot shaft 11 on the installation base 1 and the pivot groove 31 of the connecting piece 3 is prevented, namely unhooking between the shell 2 and the installation base 1 is prevented, the safety of the multi-view multi-direction camera in the installation process is further ensured, and meanwhile, a safety rope is not required any more in order to meet the design requirement of small volume.

Of course, in other embodiments, the housing 2 may be provided with a pivot shaft 11, and the connecting member 3 may be slidably disposed on the mounting base 1, so that the connecting member 3 may be elastically telescopic.

In another preferred embodiment, as shown in fig. 1 and 2, the pre-fixing mechanism includes a buckle 5 and a clamping groove, where the buckle 5 is fixed on one side of the mounting base 1 facing the housing 2 in an integral connection manner such as a screw, and the clamping groove is disposed on one side of the housing 2 facing the mounting base 1, and the buckle 5 is detachably clamped in the clamping groove, so as to realize pre-fixing installation between the housing 2 and the mounting base 1.

In this particular embodiment, the housing 2 comprises a first housing, a second housing, and an intermediate housing connected between the first housing and the second housing, and the multi-view camera assembly is assembled on a side of the second housing facing away from the mounting base 1 and forms a second housing assembly.

After passing through the limit guide groove 33, the limit pin 34 is fixed on the second housing through screw connection, and in addition, the abdication groove 21 and the clamping groove are respectively positioned on the outer wall of the second housing.

The specific elastic resetting piece 4 is a tension spring, when the installation base 1 is fixed on a wall body and the second shell component is required to be assembled on the pivot shaft 11 of the installation base 1 together with the connecting piece 3, an installer firstly overcomes the resilience force of the tension spring and pushes the connecting piece 3 outwards to force the installation notch 311 of the connecting piece 3 to be far away from the outer wall of the second shell, further the installation notch 311 is ensured to be completely exposed or not to be blocked, then the pivot groove 31 of the connecting piece 3 is assembled with the pivot shaft 11 of the installation base 1 through the installation notch 311 to form pivot, finally the installer removes the external force, and the connecting piece 3 is elastically retracted under the resilience force of the tension spring, so that the installation notch 311 of the connecting piece 3 is elastically abutted against the outer wall of the second shell again, and further the installation notch 311 of the connecting piece 3 is ensured to be blocked as shown in fig. 6.

When the second shell component and the mounting base 1 are pivoted and the next wiring is needed, the second shell component rotates around the pivot shaft 11 of the mounting base 1 to a certain opening angle, the installer can perform wiring action, the tension spring is always in a natural tension state without external force action in the rotation process and the wiring process of the second shell component, unhooking can not occur between the pivot shaft 11 on the mounting base 1 and the pivot groove 31 of the connecting piece 3, unhooking caused by misoperation in the mounting process of the second shell component can be prevented, and of course, the limit resilience force of the selected tension spring is larger than the gravity of the multi-eye multidirectional camera main body, so that the tension spring is always in a safe range of elastic extension, and if the second shell component is accidentally bumped or rotated, the tension spring exerts a certain force, and can also return to an initial state under the resilience force of the tension spring, so that unhooking is prevented.

After wiring is completed, the second housing assembly is rotated to be parallel to the mounting base 1, then the second housing assembly is detachably pre-fixed to the mounting base 1 through the pre-fixing mechanism, so that the hands of an installer are liberated, namely, the second housing assembly is not dragged by the hands to carry out next fastening operation, then the second housing assembly is fastened on the mounting base 1 through screws, and finally, the middle housing and the first housing are sequentially assembled on the second housing assembly, so that the whole multi-view multi-directional camera main body as shown in fig. 5 and 6 is fastened on the mounting base 1.

Of course, in other embodiments, the side of the mounting base 1 facing the housing 2 may also be provided with a clamping groove, and the side of the housing 2 facing the mounting base 1 is fixed with a buckle 5, which will not be described in detail herein.

The elastic restoring member 4 may be an elastic member such as a rubber band.

It is further preferred that the connector 3 has a push block 35 extending to be protruded outward and facilitating pushing, as shown in fig. 3, so that an installer can push the push block 35 by hand to force the connector 3 to slide outward.

In another preferred embodiment, as shown in fig. 2, a side of the housing 2 facing the mounting base 1 is provided with a wiring hole for facilitating internal wiring, and the wiring hole is provided with a separable hole plug 6 for facilitating the installer to draw out the wires in the housing 2 and complete the wiring action.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. The mounting bracket of the multi-view multi-direction camera comprises a mounting base and a shell detachably connected with the mounting base, wherein the mounting base is used for being fixed on a fixed surface, and the shell is used for assembling a multi-view multi-direction camera component and is characterized by further comprising a connecting piece and an elastic resetting piece;

The shell or the mounting base is provided with a pivot shaft, one end of the connecting piece is provided with a pivot groove matched with the pivot shaft, and one side of the pivot groove is provided with a mounting notch so that the pivot shaft can be detachably penetrated in the pivot groove and form rotary connection with each other;

The connecting piece slidable sets up the casing or on the installation base, elasticity reset piece is right the connecting piece exerts resilience force, so that order about the installation breach elasticity butt of connecting piece the casing or the outer wall of installation base, and then make form the anticreep hook setting between casing and the installation base.

2. The mounting bracket of a multi-view camera of claim 1, wherein the mounting base has the pivot axis, the connector is slidably mounted on a side of the housing facing the mounting base, and the elastic restoring member is disposed between the housing and the connector.

3. The mounting bracket for a multi-view camera as set forth in claim 2, wherein the connector has a limit guide slot extending through the upper and lower surfaces thereof, and a limit pin is disposed between the connector and the housing, the limit pin movably extending through the limit guide slot and being fixed to the housing such that the connector is slidably disposed.

4. The mounting bracket for a multi-view camera of any of claims 1-3, wherein the resilient return member is a tension spring.

5. The mounting bracket for a multi-view camera of any of claims 1-3 wherein the connector has a push block that extends outwardly of the protrusion and facilitates pushing.

6. The mounting bracket for a multi-view camera according to any one of claims 1 to 3, wherein one end of the connecting member has a hook portion extending to one side in a bending manner, the hook portion is provided with a through groove opening outwards, and the through groove is the pivoting groove.

7. The mounting bracket of the multi-view camera of claim 6, wherein a yielding groove for yielding the hook part is formed in the outer wall of the shell, and a wall body of the yielding groove elastically abuts against the mounting notch.

8. A mounting bracket for a multi-view camera according to any one of claims 1-3, wherein a pre-fixing mechanism is provided between the housing and the mounting base, and the housing is detachably pre-fixed to the mounting base by the pre-fixing mechanism.

9. The mounting bracket of a multi-view camera according to claim 8, wherein the pre-fixing mechanism comprises a buckle and a clamping groove which are matched, the buckle is detachably clamped in the clamping groove, the buckle is fixed on one side of the mounting base facing the housing, the clamping groove is arranged on one side of the housing facing the mounting base, or the clamping groove is arranged on one side of the mounting base facing the housing, and the buckle is fixed on one side of the housing facing the mounting base.

10. A mounting bracket for a multi-view camera according to any one of claims 1-3, wherein a wiring hole for facilitating wiring is provided in a side of the housing facing the mounting base, and the wiring hole is provided with a detachable plug.