CN114658995A - Shell and conch camera of camera - Google Patents

Abstract

The invention discloses a shell of a camera and a conch camera, wherein the shell of the disclosed camera comprises a base, a fixed cover and a locking piece, the fixed cover is connected with the base, the fixing cover is provided with an accommodating space, at least part of the spherical camera shooting component is positioned in the accommodating space, the base is provided with a second supporting part, the second supporting part comprises a longitudinally extending circular side wall, at least part of the side surface of the spherical camera shooting component along the peripheral direction is abutted against the second supporting part, the fixing cover is provided with a limiting part, the spherical camera shooting component is clamped by the second supporting part and the limiting part, the locking part is in threaded fit with the fixing cover, the axis of the locking part is intersected with the side wall of the second supporting part, and the second end of the locking part can be abutted against or separated from the side wall of the second supporting part by rotating the locking part, thereby adjust the extrusion force of second supporting part to the spheroid subassembly of making a video recording, avoid the spheroid subassembly of making a video recording that receives the extrusion force not enough and the spheroid that produces to make a video recording the not hard up condition of subassembly.

Description

Shell and conch camera of camera

Technical Field

The invention relates to the technical field of monitoring equipment, in particular to a shell of a camera and a conch camera.

Background

The shell of the conch camera is formed by assembling the fixed cover and the base. After the sphere shooting assembly is installed in the shell, the base and the fixing cover generate elastic deformation to elastically clamp the sphere shooting assembly, so that the sphere shooting assembly is kept in an original state and is not easy to loosen. However, plastic casing can often appear and make a video recording the not enough condition that leads to the spheroid subassembly of making a video recording of subassembly extrusion force with the spheroid, makes the conch camera unable original shooting visual angle that keeps, causes the conch camera monitoring function to become invalid, influences the normal use of conch camera.

Disclosure of Invention

The invention discloses a shell of a camera, which aims to solve the technical problem that a spherical camera shooting component of a conch type camera in the related technology is loose.

In order to solve the problems, the invention adopts the following technical scheme:

in a first aspect, embodiments of the present application provide a housing of a camera for supporting a spherical camera assembly, the housing of the camera includes a base, a fixing cover, and a locking member; wherein:

the fixed cover is connected with the base and provided with an accommodating space, and at least part of the sphere camera shooting assembly is positioned in the accommodating space;

the base is provided with a second supporting part, the supporting part comprises a circular side wall extending longitudinally, the second supporting part is positioned in the accommodating space, and at least part of the side surface of the spherical camera shooting component along the peripheral direction abuts against the second supporting part;

the fixing cover is provided with a limiting part, at least part of the side surface of the spherical camera component along the peripheral direction abuts against the limiting part, and the second supporting part and the limiting part clamp the spherical camera component;

the retaining member has first end and the second end of carrying on the back mutually, fixed cover is provided with the perforating hole, the axial of perforating hole with the lateral wall of second supporting part is crossing, the retaining member passes through the perforating hole with fixed cover screw-thread fit, the retaining member can follow the rotation of retaining member is followed the axial displacement of perforating hole, so that the second end of retaining member with the lateral wall looks butt or the phase separation of second supporting part.

In a second aspect, an embodiment of the present application further provides a conch camera, including:

the spherical camera shooting assembly comprises a spherical part and a lens arranged on the spherical part;

a fixed cover, a circumferential shell of the fixed cover forming an accommodating space for accommodating the sphere part, the accommodating space being configured such that the sphere part is movable in the accommodating space, thereby adjusting a position of the lens, the accommodating space having an arc-shaped opening having a lowermost end and an uppermost end, a through hole being provided in a region of the fixed cover near the lowermost end of the arc-shaped opening;

a base including a first support portion supporting the stationary shroud and a second support portion supporting the sphere portion, wherein the first and second support portions include longitudinally extending circular sidewalls, the sidewalls of the second support portion configured to: the height of the side wall of the second supporting part is greater than that of the side wall of the first supporting part, the height of the side wall of the second supporting part is greater than that of the through hole, the height of the side wall of the second supporting part is not more than the lowest end of the arc-shaped opening, and the side wall of the second supporting part at least comprises a first arc part and a second arc part which have circumferential gaps and are not communicated;

a retaining member having a radial length greater than an axial length of the through hole;

wherein the conch camera is configured to: when the retaining member is fastened in the through hole, one end of the fixing cover extending into the retaining member is abutted to the second supporting portion, the second supporting portion is under the abutting force of the retaining member, the circumferential gap is radially reduced, and then the second supporting portion is opposite to the spherical portion to form a radial clamping force, so that the spherical portion cannot move in the accommodating space.

The technical scheme adopted by the invention can achieve the following beneficial effects:

the shell of the camera disclosed by the embodiment of the invention can rotate the locking piece to enable the locking piece to move towards the second supporting part in a screwing mode, so that the second end of the locking piece is abutted against the second supporting part, the locking piece is continuously rotated, the locking piece can push the second supporting part to deform inwards, the second supporting part and the limiting part are enabled to tightly press the spherical camera component, the static friction force borne by the spherical camera component is increased, the capability of the spherical camera component not being easy to loosen is improved, and the stability and the reliability of the monitoring function of the camera are ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is one of the schematic structural diagrams of a conch camera according to the embodiment of the present application;

fig. 2 is one of schematic internal structural diagrams of a housing of a video camera according to an embodiment of the present application;

FIG. 3 is an enlarged partial schematic view at A in FIG. 2;

FIG. 4 is a schematic structural diagram of a base according to an embodiment of the present application;

fig. 5 is a second schematic structural diagram of a conch camera according to the embodiment of the present application;

fig. 6 is a second schematic view of the internal structure of the housing of the camera according to the embodiment of the present application;

FIG. 7 is an enlarged partial schematic view at B of FIG. 6;

fig. 8 is a third schematic structural diagram of a camera according to an embodiment of the present application;

fig. 9 is a third schematic view of the internal structure of the housing of the camera according to the embodiment of the present application;

FIG. 10 is an enlarged partial schematic view at C of FIG. 9;

FIG. 11 is a second schematic structural view of a base according to an embodiment of the present application;

FIG. 12 is a schematic view of the mounting of the housing of the camera of the embodiment of the present application;

fig. 13 is a partially enlarged schematic view at D in fig. 12.

In the figure:

100-a base, 110-a second support part, 111-a support surface, 112-a hole, 120-a first buckle, 130-a line hole, 140-a third buckle, 141-an anti-slip groove and 150-a first support part;

200-a fixed cover, 210-a limiting part, 220-an elastic arm, 221-a first surface, 222-a second surface, 230-a second buckle, 240-a through hole and 250-an arc opening;

300-a retaining member;

400-sphere camera component, 410-sphere part, 420-lens;

500-mounting plate, 510-fourth buckle, 511-anti-slip tooth.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The following describes in detail the housing of the video camera provided in the embodiments of the present application through specific embodiments and application scenarios thereof with reference to fig. 1 to fig. 13.

Referring to fig. 1 to 13, the embodiment of the present application discloses a housing of a camera, which includes a base 100, a fixing cover 200, and a locker 300; the embodiment of the present application also discloses a camera including the aforementioned housing of the camera and the ball camera assembly 400, that is, the camera of the embodiment of the present application includes a base 100, a fixing cap 200, a locking member 300 and the ball camera assembly 400.

The base 100 is a base member of a housing of the camera, and can provide a mounting base for the fixing cover 200. Specifically, the fixing cover 200 is rotatably disposed on the base 100 and forms a housing for mounting the ball camera module 400, the base 100 is provided with a first buckle 120, the first buckle 120 extends along the circumferential direction of the base 100, the fixing cover 200 is provided with a second buckle 230, the second buckle 230 extends along the circumferential direction of the fixing cover 200, and the first buckle 120 and the second buckle 230 are buckled with each other, so that the base 100 and the fixing cover 200 are connected.

The fixed cover 200 is connected with the base 100, the fixed cover 200 has a containing space, at least part of the sphere camera assembly 400 is located in the containing space, the fixed cover 200 is provided with an arc-shaped opening 250, at least part of the sphere camera assembly 400 penetrates out of the containing space through the arc-shaped opening 250, and the sphere camera assembly 400 can shoot through the arc-shaped opening 250. In the embodiment of the present application, the sphere camera assembly 400 includes a sphere portion 410 and a lens 420 disposed on the sphere portion 410, the sphere portion 410 is supported on the second supporting portion 110, and the lens 420 can be exposed through the arc-shaped opening 250 to achieve shooting.

The base 100 is provided with the second support portion 110, the second support portion 110 includes a longitudinally extending circular sidewall, the second support portion 110 is located in the accommodating space, at least part of the side surface of the sphere camera assembly 400 along the peripheral direction abuts against the second support portion 110, the fixing cover 200 is provided with a limiting portion 210, the limiting portion 210 extends along the circumferential direction of the fixing cover 200, at least part of the side surface of the sphere camera assembly 400 along the peripheral direction abuts against the limiting portion 210, the second support portion 110 and the limiting portion 210 can be located on a first side and a second side of the sphere camera assembly 400, the first side and the second side can be opposite sides of the sphere camera assembly 400, that is, the second support portion 110 and the limiting portion 210 elastically clamp the sphere camera assembly 400. Specifically, referring to fig. 2, after the ball camera module 400 is installed in the housing, the ball camera module 400 causes the second supporting portion 110 and the position-limiting portion 210 to expand outward to generate elastic deformation, and the second supporting portion 110 and the position-limiting portion 210 respectively apply pressure to the ball camera module 400 at the first side and the second side of the ball camera module 400 to keep the ball camera module 400 fixed, that is, the housing retains the ball camera module 400 in the accommodating space through the elastic deformation of the second supporting portion 110 and the position-limiting portion 210.

The locker 300 is screw-coupled with the fixing cap 200. referring to fig. 2, the locker 300 may be a screw or a bolt, the locker 300 has first and second ends opposite to each other, the fixing cap 200 is provided with a through hole 240, an axial direction of the through hole 240 intersects with a sidewall of the second supporter 110, and the locker 300 is fitted in the through hole 240. The first end of the locking member 300 is a driving end, the second end of the locking member 300 extends into the accommodating space and faces the second supporting portion 110, and when an external force for driving the locking member 300 to rotate is applied to the first end of the locking member 300, the locking member 300 can move towards the second supporting portion 110 in a screwing manner and abut against the second supporting portion 110, or the locking member 300 is separated from the second supporting portion 110 in a screwing manner.

When the spherical camera assembly 400 is loosened in the housing, the locking member 300 is rotated along the first direction, so that the locking member 300 abuts against the second supporting portion 110 in a screwing manner, the locking member 300 is continuously rotated, the locking member 300 pushes the second supporting portion 110 to deform towards the limiting portion 210, that is, the second supporting portion 110 deforms inwards, so that the pressing force of the second supporting portion 110 on the spherical camera assembly 400 is increased, the static friction force of the second supporting portion 110 on the spherical camera assembly is increased, and the spherical camera assembly 400 is kept in an original state and is not easy to rotate; of course, when the shooting angle of the spherical camera assembly 400 needs to be adjusted, the locking member 300 can be rotated along the second direction, the first direction and the second direction can be opposite to each other, so that the locking member 300 is separated from the second supporting portion 110 in a rotating and retreating manner, the extrusion force of the second supporting portion 110 to the spherical camera assembly 400 is reduced, the static friction force applied to the spherical camera assembly 400 is reduced, at this time, the spherical camera assembly 400 is stressed to easily rotate, and after the spherical camera assembly 400 is rotated to adjust the shooting angle of the spherical camera assembly 400 to a proper angle, the locking member 300 is rotated to lock the spherical camera assembly 400 along the first direction again.

The shell of the camera disclosed in the embodiment of the application can adjust the extrusion force of the second support part 110 on the sphere shooting assembly 400 by rotating the locking part 300, so that the tightness of the sphere shooting assembly 400 can be adjusted, the phenomenon that the sphere shooting assembly 400 is loosened due to insufficient extrusion force on the sphere shooting assembly 400 is avoided, the original shooting angle of the sphere shooting assembly 400 is kept, and the problem that the monitoring function of the camera is invalid is avoided; meanwhile, the tightness adjustment can be realized by screwing the locking member 300, and the device has the characteristics of simple and convenient operation.

As can be seen from the foregoing, the locking member 300 may directly contact the second supporting portion 110 to push the second supporting portion 110 to deform inward, so as to increase the static friction between the second supporting portion 110 and the ball camera module 400, in this case, the locking member 300 may scratch the second supporting portion 110 and the ball camera module 400, which may damage the appearance of the ball camera module 400.

Based on this situation, in the embodiment of the present application, the fixing cover 200 is provided with the elastic arm 220, the elastic arm 220 is provided with a first surface 221 and a second surface 222 at an end away from the fixing cover 200, the first surface 221 and the second surface 222 are located between the locker 300 and the second supporting portion 110, wherein the first surface 221 faces the locker 300, the second surface 222 faces the second supporting portion 110, the first surface 221 is configured to abut against the second end of the locker 300, and the second surface 222 is configured to abut against the second supporting portion 110. Under such a configuration, when the locking member 300 is rotated in the first direction to adjust the pressure of the second supporting portion 110 on the ball camera module 400, the second end of the locking member 300 abuts against the first surface 221, and applies a force to the second supporting portion 110 through the second surface 222 of the elastic arm 220, so that the locking member 300 can be prevented from scratching the second supporting portion 110 or the ball camera module 400 due to the existence of the elastic arm 220; meanwhile, when the axis of the locking member 300 and the outer wall of the second supporting portion 110 are in a non-vertical state and have included angles, the locking member 300 pushes the elastic arm 220 to elastically deform, so that the elastic arm 220 abuts against the second supporting portion 110 to clamp the ball camera shooting assembly 400, the deformation direction of the elastic arm 220 is consistent, the influence of the included angles of the locking member 300 and the second supporting portion 110 is small, thereby the locking adaptability of the locking member 300 can be improved, the locking member 300 has a large selection range relative to the locking angle of the second supporting portion 110, and the design freedom is high.

As can be seen from the foregoing, the locking member 300 may be a screw, and the second end of the screw is tapered, which may cause the second supporting portion 110 or the elastic arm 220 to be scratched and pierced, thereby causing the ball camera module 400 to be damaged; based on this situation, in an alternative embodiment, the second end of the locker 300 is provided with a second end surface, and the second end surface is a plane, so that when the second end of the locker 300 contacts with the outer wall of the second supporter 110 or the first surface 221 of the resilient arm 220, the contact area between the second end of the locker 300 and the second supporter 110 or the resilient arm 220 is increased, and the resilient arm 220 is prevented from being punctured and failing.

In a further technical solution, the area of the second surface 222 is larger than the area of the end surface of the second end of the locking member 300, so that when the elastic arm 220 contacts and presses the second supporting portion 110, the second surface can uniformly distribute the pushing force applied by the locking member 300 to one side of the second supporting portion 110 facing the elastic arm 220, thereby preventing the second supporting portion 110 from being damaged due to the excessive local stress.

In this embodiment, the base 100 includes a bottom wall and a side wall surrounding the bottom wall, the second supporting portion 110 is a cylindrical structure, along an axial direction of the second supporting portion 110, the second supporting portion 110 has a first end and a second end that are opposite to each other, the first end of the second supporting portion 110 is connected to the bottom wall of the base 100, the second end of the second supporting portion 110 is used for supporting the ball camera module 400, and when the base 100 and the fixing cover 200 rotate relatively, at least a portion of a side surface of the ball camera module 400 along the peripheral direction can be always supported at the second end of the cylindrical structure.

The second end of the second support portion 110 is provided with a support surface 111, and when the ball imaging assembly 400 is clamped between the second support portion 110 and the stopper portion 210, at least a part of the side surface of the ball imaging assembly 400 in the peripheral direction is supported by the support surface 111. Further, holding surface 111 is the cambered surface, and holding surface 111 and the surface phase-match of the periphery direction of spheroid camera subassembly 400, so set up down, when the rotation spheroid camera subassembly 400 was adjusted and is shot the angle, holding surface 111 laminated with spheroid camera subassembly 400 mutually, can reduce the frictional wear of second supporting part 110 to spheroid camera subassembly 400, had both guaranteed spheroid camera subassembly 400 pivoted smooth and easy nature, also can guarantee spheroid camera subassembly 400 outward appearance, avoided spheroid camera subassembly 400 outward appearance face impaired.

In a further technical solution, the second supporting portion 110 includes at least two arc portions, the arc portions extend along the circumferential direction of the base 100 and form the aforementioned cylindrical structure, and a gap is formed between two adjacent arc portions; with such a configuration, compared with the cylindrical structure in which the second support part 110 is an integral structure, the structural strength of the split arc part is lower, and when the locking member 300 abuts against the arc part in a screwing manner and locks the spherical camera module 400, the arc part is more easily deformed; meanwhile, due to the existence of the elastic arm 220, in the screwing process of the locker 300, the elastic arm 220 can prevent the locker 300 from being pressed against the ball camera assembly 400 through a gap between two adjacent arc portions to cause the appearance of the ball camera assembly 400 to be damaged.

In an alternative embodiment, referring to fig. 3, the second supporting portion 110 includes two arc portions, the two arc portions enclose a cylindrical structure, and the two arc portions are adopted, so that the second supporting portion 110 can be ensured to be easily elastically deformed after being pushed by the locking member 300, the number of gaps can be reduced, the pause feeling of adjusting the shooting angle by rotating the ball camera assembly 400 can be reduced, and meanwhile, the probability of pushing the locking member 300 into the gaps can be reduced, thereby avoiding scratching the ball camera assembly 400.

When the elastic arm 220 abuts against the second supporting portion 110 due to the existence of the gap, the elastic arm 220 may be pushed into the gap to cause a failure in adjustment. Based on this situation, in the embodiment of the present application, in the circumferential direction of the base 100, the gap has a first width, and the second surface 222 of the elastic arm 220 has a second width, which is greater than the first width; with such a configuration, the elastic arm 220 can be prevented from being pushed into the gap when contacting and pressing the second supporting portion 110, so as to ensure that the locking member 300 can normally adjust the tightness of the second supporting portion 110 for clamping the ball camera module 400.

When the locking member 300 abuts against the second supporting portion 110, the second supporting portion 110 is elastically deformed inward, and there may be a case where the first width of the gap is increased, in a preferred embodiment, the second width is greater than or equal to twice the first width, in this case, even if the second supporting portion 110 is deformed to increase the gap, the elastic arm 220 is prevented from being pushed into the gap, thereby ensuring stability and reliability of adjusting the tightness of the spherical camera assembly 400 clamped between the second supporting portion 110 and the limiting portion 210.

In a further technical solution, the first surface 221 of the elastic arm 220 may be a plane, and the second surface 222 of the elastic arm 220 may be an arc surface, so that when the locking member 300 adjusts the pressure of the second supporting portion 110 on the ball camera module 400, the first surface of the elastic arm 220 is attached to the second end surface of the locking member 300, and the second surface of the elastic arm 220 is attached to the outer wall of the second supporting portion 110, so that the second supporting portion 110 is uniformly stressed, the second supporting portion 110 and the ball camera module 400 have a larger contact area, and the stability of the ball camera module 400 clamped by the second supporting portion 110 and the limiting portion 210 is ensured.

In the height direction of the housing of the camera, if the axis of the locker 300 is higher than the second end of the second support 110, that is, the length of the second support 110 in the axial direction thereof is too short, the second support 110 has a large hardness and a small stress deformation, and when the ball camera assembly 400 is rotated to adjust the photographing angle, the second support 110 easily catches the cable connecting the ball camera assembly 400. Therefore, in the embodiment of the present application, a first distance is provided between the second end of the second supporting portion 110 and the bottom wall, and a second distance is provided between the second end of the locking member 300 and the bottom wall, wherein the first distance is greater than the second distance, that is, the second end of the second supporting portion 110 is higher than the axis of the locking member 300, and during the process of the elastic arm 220 pushing the second supporting portion 110 to deform, the portion of the second supporting portion 110 higher than the axis of the locking member 300 is easily deformed inward to press the ball camera assembly 400.

In a further technical solution, the first end of the second supporting portion 110 is provided with the hole 112, and based on the existence of the hole 112, the elastic deformation capability of the second supporting portion 110 is enhanced, and under such a situation, the second supporting portion 110 has a larger deformation stroke, which significantly improves the flexibility of adjusting the tightness of the sphere camera assembly 400.

The arc-shaped opening 250 has the highest end and the lowest end relative to the bottom wall of the base 100, in this embodiment, a third distance is provided between the lowest end of the arc-shaped opening 250 and the bottom wall of the base 100, and the third distance is greater than the first distance, that is, the lowest end of the arc-shaped opening 250 is higher than the second end of the second supporting portion 110, so that the user can hardly observe the second supporting portion 110 from the outside, and the aesthetic property of the housing of the camera is improved.

As can be seen from the foregoing, the second end of the locking member 300 abuts against the first surface of the elastic arm 220 to push the elastic arm 220 to press the second supporting portion 110. In an alternative embodiment, an included angle between the axis of the locker 300 and the radial direction of the second supporting portion 110 is 45 ° to 90 °, so that a component force of the pressing force of the locker 300 applied to the second supporting portion 110 in the radial direction of the second supporting portion 110 is greater than a component force of the pressing force in the axial direction of the second supporting portion 110; with such a configuration, when the second end of the locker 300 abuts against the elastic arm 220, the component of the pressing force applied by the locker 300 in the direction perpendicular to the sidewall of the second support 110 is large, so that the elastic arm 220 can stably move toward the second support 110; when the included angle between the axis of the locker 300 and the radial direction of the second support part 110 is less than 45 °, the component of the pressing force applied by the locker 300 in the axial direction parallel to the second support part 110 is large, and in the process of adjusting the pressing force of the second support part 110 on the ball camera assembly 400, the locker 300 is easily slid with respect to the first surface 221 or the sidewall of the second support part 110, so that the elastic arm 220 is difficult to generate a desired deformation direction and deformation stroke, and the adjustment effect is poor.

In an alternative embodiment, referring to fig. 3, through-hole 240 may be a counter-bore, retaining member 300 is positioned in the counter-bore, the counter-bore includes a counter-bore section and a connecting bore section, retaining member 300 has a threaded section, and the length of the threaded section of retaining member 300 is greater than the length of the connecting bore section; due to the arrangement, at least part of the thread section of the locking member 300 can penetrate through the connecting hole section to be abutted against the elastic arm 220 or the second supporting part 110, the first end of the locking member 300 can be prevented from being exposed and protruding out of the outer surface of the fixed cover 200, the attractiveness of the fixed cover 200 is ensured, meanwhile, the locking member 300 is scratched with the outside in the installation and use process, and the use safety of the fixed cover 200 is improved.

In the embodiment of the present application, the position of the locker 300 on the fixing cap 200 can be flexibly set. For example, as can be seen from the foregoing, in the embodiment of the present application, referring to fig. 5 to 7, the locking member 300 may be disposed at the arc-shaped opening 250 of the fixing cover 200, and thus the locking member 300 is hidden inside the arc-shaped opening 250 of the fixing cover 200, so that it is difficult to find the locking member 300 from the appearance of the housing of the camera, and the aesthetic property of the housing of the camera is improved.

The base 100 is provided with a wire hole 130, and the wire hole 130 is used for a cable connected with the ball camera assembly 400 to pass through. Based on this, in another alternative embodiment, the locker 300 is disposed in the fixing cover 200, and in particular, referring to fig. 8 and 10, the locker 300 may be first screw-engaged with the fixing cover 200 with the first end of the locker 300 facing the wire hole 130, and thus, when adjusting the pressing force of the second support 110 on the ball camera module 400, the cable may be first taken out from the wire hole 130, and then a screwdriver or a wrench may be extended into the fixing cover 200 through the wire hole 130 to rotatably adjust the locker 300; in this case, the locker 300 is completely hidden in the housing, and the locker 300 or the corresponding mounting hole may not be observed from the exterior of the housing of the camera, thereby remarkably enhancing the aesthetic property of the housing of the camera.

The base 100 comprises a bottom wall and a side wall surrounding the bottom wall, the wire hole 130 is usually opened on the side wall of the base 100 to ensure that the base 100 can be installed on installation surfaces such as ceilings and roofs through the bottom wall, and the interference of cables penetrating the wire hole 130 on installation is avoided. In further technical scheme, retaining member 300 can set up in fixed cover 200, the axis of retaining member 300 can intersect with the diapire of base 100, the diapire is provided with a plurality of through-holes, the circumference distribution of diapire is followed to a plurality of through-holes, retaining member 300 is located in the casing, the first end of retaining member 300 is towards the through-hole of diapire, so set up down, when adjusting retaining member 300 soon, can rotate base 100 and fixed cover 200 relatively, make retaining member 300 quick relative with one of them through-hole, stretch into the casing with the rotation retaining member 300 with screwdriver or spanner through the through-hole, the diapire sets up a plurality of through-holes, retaining member 300 can adjust with any one of them through-hole relatively, the convenience of retaining member 300 regulation has been strengthened.

It can be seen from the above description that the locking member 300 is located in the housing formed by the base 100 and the fixing cover 200, and the installation requires that the shooting angle and the tightness of the ball camera module 400 are adjusted before the installation is performed on the ceiling or the roof, which limits the installation and adjustment sequence of the camera. Therefore, the base 100 of the embodiment can be quickly connected with the mounting disc 500 in a rotary clamping manner, and the mounting disc 500 can be embedded in a roof or a ceiling through a threaded connector, so that the convenience of mounting and adjusting the shell of the camera is improved.

Specifically, referring to fig. 11 to 13, the base 100 of the present embodiment is provided with a plurality of third fasteners 140, the third fasteners 140 are distributed along the circumferential direction of the base 100, correspondingly, the mounting plate 500 is provided with fourth fasteners 510 corresponding to the third fasteners 140, and the base 100 can be fastened to or separated from the mounting plate 500 by rotating the base 100. When the shooting angle of the spherical camera assembly 400 and the tightness of the locking member 300 need to be adjusted, the rotating base 100 takes the casing down from the mounting disc 500, and a screwdriver or a wrench is inserted into the casing through the through hole to rotatably adjust the locking member 300, so that the spherical camera assembly has the characteristics of convenience in disassembly and assembly and convenience in adjustment.

In a further technical solution, one of the third buckle 140 and the fourth buckle 510 is provided with an anti-slip groove 141, and the other is provided with an anti-slip tooth 511, for example, the anti-slip groove 141 is provided on the third buckle, and the anti-slip tooth 511 is provided on the fourth buckle 510, when the third buckle 140 and the fourth buckle 510 are in snap-fit, the anti-slip groove 141 and the anti-slip tooth 511 are in positioning fit, so as to avoid the third buckle 140 and the fourth buckle 510 from being loosened and separated, that is, when the base 100 and the mounting plate 500 are disassembled, a certain external force needs to be applied to separate the base 100 and the mounting plate 500 from each other, thereby ensuring the connection stability of the base 100 and the mounting plate 500.

The embodiment of the application also discloses a conch camera, which comprises a base 100, a fixed cover 200, a locking piece 300 and a sphere shooting assembly 400; wherein:

the sphere camera module 400 includes a sphere portion 410 and a lens 420 disposed on the sphere portion 410;

the circumferential housing of the fixing cover 200 constitutes an accommodating space for accommodating the spherical part 410, the accommodating space being configured such that the spherical part 410 is movable within the accommodating space, thereby adjusting the position of the lens 420, the accommodating space having an arc-shaped opening 250, the arc-shaped opening 250 having a lowermost end and an uppermost end, a through hole 240 being provided in the fixing cover 200 in a region near the lowermost end of the arc-shaped opening 250;

the base 100 includes a first support 150 supporting the fixing cap 200 and a second support 110 supporting the sphere portion 410, wherein the first support 150 and the second support 110 include longitudinally extending circular sidewalls, and the sidewalls of the second support 110 are configured to: the height of the sidewall of the second supporting portion 110 is greater than that of the sidewall of the first supporting portion 150, the height of the sidewall of the second supporting portion 110 is greater than that of the through hole 240, the height of the sidewall of the second supporting portion 110 does not exceed the lowest end of the arc-shaped opening 250, and the sidewall of the second supporting portion 110 at least includes a first arc portion and a second arc portion which have circumferential gaps and are not continuous;

the radial length of the locker 300 is greater than that of the through hole 240;

wherein the conch camera is configured to: when the locker 300 is fastened in the through hole 240, one end of the locker 300, which extends into the fixing cover 200, abuts against the second supporting portion 110, the circumferential gap is radially reduced under the abutting force of the locker 300 by the second supporting portion 110, and then the second supporting portion 110 forms a radial clamping force on the sphere portion 410, so that the sphere portion 410 cannot move in the accommodating space, thereby adjusting the tightness of the spherical camera module 400.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Further, it should be noted that the scope of the methods and apparatus of the embodiments of the present application is not limited to performing the functions in the order illustrated or discussed, but may include performing the functions in a substantially simultaneous manner or in a reverse order based on the functions involved, e.g., the methods described may be performed in an order different than that described, and various steps may be added, omitted, or combined. In addition, features described with reference to certain examples may be combined in other examples.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and shall cover the scope of the present invention.

Claims (10)

1. A housing for a camera for supporting a ball camera assembly (400), comprising a base (100), a fixed cover (200) and a retaining member (300); wherein:

the fixed cover (200) is connected with the base (100), the fixed cover (200) is provided with an accommodating space, and at least part of the sphere camera shooting assembly (400) is positioned in the accommodating space;

the base (100) is provided with a second supporting part (110), the second supporting part (110) comprises a circular side wall extending in the longitudinal direction, the second supporting part (110) is positioned in the accommodating space, and at least part of the side surface of the sphere shooting component (400) along the peripheral direction is abutted against the second supporting part (110);

the fixed cover (200) is provided with a limiting part (210), at least part of the side surface of the spherical camera component (400) along the peripheral direction abuts against the limiting part (210), and the spherical camera component (400) is clamped by the second supporting part (110) and the limiting part (210);

retaining member (300) have first end and the second end that carries on the back mutually, fixed cover (200) are provided with perforating hole (240), the axis of perforating hole (240) with the lateral wall of second support portion (110) is crossing, retaining member (300) pass through perforating hole (240) with fixed cover (200) screw-thread fit, retaining member (300) can be followed retaining member (300)'s rotation and edge the axial displacement of perforating hole (240), so that retaining member (300) the second end with the lateral wall looks butt of second support portion (110) or phase separation.

2. The camera housing according to claim 1, characterized in that the fixed hood (200) is provided with a resilient arm (220), the resilient arm (220) being provided with a first surface (221) and a second surface (222) at an end remote from the fixed hood (200), the first surface (221) and the second surface (222) being located between the lock (300) and the second support (110); wherein:

the first surface (221) faces the retaining member (300), the second surface (222) faces the second support (110), the first surface (221) is for abutting a second end of the retaining member (300), and the second surface (222) is for abutting a side wall of the second support (110).

3. The camera housing according to claim 2, wherein the second support portion (110) comprises at least two arc portions, the arc portions extend along a circumferential direction of the base (100), the arc portions surround to form the second support portion (110), and a gap is formed between two adjacent arc portions.

4. A camera housing according to claim 3, characterized in that the gap has a first width and the second surface (222) has a second width in the circumferential direction of the second support part (110), the second width being larger than the first width.

5. The camera housing of claim 4, wherein the second width is greater than twice the first width.

6. The camera housing according to claim 1, wherein the through hole (240) is a counter-sunk hole, the through hole (240) comprises a counter-sunk hole section and a connection hole section, the locker (300) has a threaded section, and the threaded section of the locker (300) has a length greater than that of the connection hole section.

7. The camera housing according to claim 1, wherein the second end of the locking member (300) is provided with a second end surface for abutting against the second support (110), the second end surface being a plane surface, or the second end surface being a cambered surface matching with a side wall of the second support (110).

8. The camera housing according to claim 1, wherein an angle between an axis of the locker (300) and a radial direction of the second support portion (110) is 45 ° to 90 °, so that a component of the pressing force applied to the second support portion (110) by the locker (300) in the radial direction of the second support portion (110) is greater than a component of the pressing force in the axial direction of the second support portion (110).

9. The camera housing according to claim 1, wherein the base (100) comprises a bottom wall and a side wall surrounding the bottom wall, the second support portion (110) being connected to the bottom wall of the base (100);

in the axial direction of the second support portion (110), the second support portion (110) has a first end and a second end which are opposite to each other, the first end of the second support portion (110) is connected with the bottom wall of the base (100), the second end of the second support portion (120) is provided with a support surface (111), the support surface (111) is an arc surface, and the support surface (111) is used for supporting the sphere camera shooting assembly (400).

10. A conch camera, comprising:

the spherical camera assembly (400), wherein the spherical camera assembly (400) comprises a spherical part (410) and a lens (420) arranged on the spherical part (410);

a fixed cover (200), a circumferential housing of the fixed cover (200) constituting an accommodation space for accommodating the spherical part (410), the accommodation space being configured such that the spherical part (410) is movable within the accommodation space, thereby adjusting a position of the lens (420), the accommodation space having an arc-shaped opening (250), the arc-shaped opening (250) having a lowermost end and an uppermost end, a through hole (240) being provided in a region of the fixed cover (200) near the lowermost end of the arc-shaped opening (250);

a base (100), the base (100) comprising a first support (150) supporting the fixation cage (200) and a second support (110) supporting the sphere (410), wherein the first support (150) and the second support (110) comprise longitudinally extending circular side walls, the side walls of the second support (110) being configured to: the height of the side wall of the second supporting part (110) is greater than that of the side wall of the first supporting part (150), the height of the side wall of the second supporting part (110) is greater than that of the through hole (240), the height of the side wall of the second supporting part (110) does not exceed the lowest end of the arc-shaped opening (250), and the side wall of the second supporting part (110) at least comprises a first arc part and a second arc part which have circumferential gaps and are not communicated;

a locker (300), a radial length of the locker (300) being greater than an axial length of the through hole (240);

wherein the conch camera is configured to: when the retaining member (300) is fastened in the through hole (240), one end of the retaining member (300) extending into the fixing cover (200) abuts against the second supporting portion (110), the circumferential gap of the second supporting portion (110) is radially reduced under the abutting force of the retaining member (300), and then the second supporting portion (110) forms a radial clamping force on the ball portion (410), so that the ball portion (410) cannot move in the accommodating space.

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