CN112145932B - Embedded camera's installation component and subassembly of making a video recording - Google Patents

Abstract

The invention relates to an installation component and a camera shooting component of an embedded camera, wherein the installation component of the embedded camera comprises a bracket and an adjusting piece, and the adjusting piece is used for being connected with the camera; the bracket is provided with an installation space, and the adjusting piece is movably arranged on the bracket in the height direction of the bracket, so that the camera can move in the height direction of the bracket, and the base of the camera is positioned in the installation space. The camera assembly comprises a camera and the embedded camera mounting assembly, and the camera is detachably connected with the adjusting piece. After the adjusting piece is connected with the camera, the position of the adjusting piece in the height direction of the support is changed, and then the base of the camera can be hidden in the installation space. For cameras with various sizes, the base of the camera can be hidden in the installation space by changing the position of the adjusting piece in the height direction of the support. The installation component of the embedded camera can adapt to cameras of various sizes and has good universality.

Description

Embedded camera's installation component and subassembly of making a video recording

Technical Field

The invention relates to the technical field of camera shooting, in particular to an installation assembly of an embedded camera and a camera shooting assembly.

Background

The current installation modes of the dome camera comprise hoisting, wall mounting, ceiling mounting, embedded mounting and the like.

The embedded mounting requires the use of an embedded mounting bracket through which the dome camera is mounted into the ceiling. The embedded mounting bracket has a mounting space, and the base of the dome camera needs to be disposed in the mounting space of the embedded mounting bracket. After the dome camera is installed on the ceiling through the embedded installation bracket, the lens faces downwards to a target position, and the transparent cover covered on the lens protrudes out of the outer surface of the ceiling, so that the transparent cover can be seen by human eyes. The heights of the bases of the dome cameras of different sizes are different.

The height of the base of the existing embedded mounting bracket and the base of the hemispherical camera is corresponding, the embedded mounting bracket with one height corresponds to the base with one height, the universality of the existing embedded mounting bracket is low, and the following problems exist:

1. when a new dome camera is developed, a new embedded mounting bracket corresponding to the height of the dome camera is often required to be designed, which increases the development cost of the dome camera.

2. When a customer needs to replace a dome camera with another height, the old embedded mounting bracket has to be discarded, and a new embedded mounting bracket needs to be purchased, which causes waste of resources and increase of purchase cost.

Disclosure of Invention

The invention aims to provide an embedded camera mounting component with good universality and a camera shooting component comprising the embedded camera mounting component.

The mounting assembly of the embedded camera comprises a bracket and an adjusting piece, wherein the adjusting piece is used for being connected with the camera; the bracket is provided with an installation space; the adjusting piece is movably arranged on the support in the height direction of the support, so that the camera can move in the height direction of the support, and the base of the camera is located in the installation space.

Preferably, in the above-described installation assembly of an embedded camera, the bracket includes a main body and a decorative cover, and the decorative cover and the main body enclose the installation space.

Preferably, in the installation component of the embedded camera, the decoration cover is connected with the main body in a clamping manner, or the decoration cover and the main body are adsorbed together through magnetic attraction.

Preferably, in the above-described installation assembly of a built-in camera, the installation space includes a first installation space and a second installation space that communicate with each other, a cross-sectional area of the first installation space is larger than a cross-sectional area of the second installation space, the first installation space is configured to accommodate the camera, and the adjusting member is movably disposed in the second installation space.

Preferably, in the above-described installation set of an embedded camera, the second installation space is a through hole.

Preferably, in the installation assembly of the embedded camera, the installation assembly of the embedded camera includes a positioning part, the adjusting part is provided with at least two positioning parts, and the at least two positioning parts are distributed at intervals along the moving direction of the adjusting part; the positioning piece is matched with the positioning part in a positioning mode.

Preferably, in the installation component of the embedded camera, the positioning element includes a telescopic positioning rod, the positioning portion is a positioning hole arranged on the outer surface of the adjusting element, and the positioning rod is in insertion fit with the positioning hole.

Preferably, in the mounting assembly of an embedded camera, the positioning portion is a positioning hole, and a first protruding portion is disposed on an outer surface of the adjusting member, and the positioning hole is disposed on the first protruding portion.

Preferably, in the installation assembly of the embedded camera, the positioning element includes a sleeve, a positioning rod and a pressing part, the pressing part and the positioning rod are movably disposed in the installation space of the sleeve, and the inner wall of the sleeve is provided with short slots and long slots at intervals; the pressing part drives the positioning rod to be alternately positioned in the short groove or the long groove, so that the positioning rod extends or retracts.

Preferably, in the installation assembly of the embedded camera, the installation assembly of the embedded camera further includes a touch piece, the touch piece includes a telescopic sliding body, the sliding body is connected with the adjusting piece, the bracket is provided with a sliding hole, and an outer end of the sliding body is in sliding fit with a port of the sliding hole; the number of the sliding bodies is at least two, and at least two sliding bodies are distributed at intervals along the moving direction of the adjusting piece, or the number of the sliding holes is at least two, and at least two sliding holes are distributed at intervals along the moving direction of the adjusting piece.

Preferably, in the mounting assembly of the embedded camera, a first mounting hole is formed in an outer surface of the adjusting member, a part of the sliding body is disposed in the first mounting hole, and an elastic member is interposed between the sliding body and a bottom wall of the first mounting hole.

Preferably, in the mounting assembly of the embedded camera, the bracket is provided with a guide slope, a distance between the guide slope and the adjusting member in a direction toward the slide hole is gradually reduced, and the guide slope is in guide fit with the outer end of the slide body.

Preferably, in the installation component of above-mentioned embedded camera, the touch piece still include spacing portion and with the limiting plate that the regulating part is connected, spacing portion with the sliding body is connected, the limiting plate is provided with first through-hole, the outer end of sliding body passes first through-hole with sliding hole sliding fit, spacing portion with limiting plate is spacing cooperation.

Preferably, in the above-described installation assembly of an embedded camera, the adjustment member is provided with a second protrusion portion, and the first installation hole is provided on the second protrusion portion.

Preferably, in the installation component of the embedded camera, the installation component of the embedded camera includes a second enclosure enclosing the second installation space, the second enclosure is provided with a second through hole, and the positioning element passes through the second through hole to position the positioning part.

Preferably, in the above-mentioned embedded camera mounting assembly, the embedded camera mounting assembly includes a plate-shaped mounting plate, the mounting plate is connected to the adjusting member, and the mounting plate is configured to be connected to the camera.

Preferably, in the installation assembly of the embedded camera, the installation assembly of the embedded camera includes an installation part, the installation part includes an elastic body and an adjusting rod, and the adjusting rod is connected with the bracket; the adjusting rod is provided with a threaded section, the elastic body is in threaded connection with the threaded section, and the elastic body is used for being in clamping fit with the inner surface of a ceiling.

Preferably, in the mounting assembly of the embedded camera, the adjusting rod is rotatably connected to the bracket, and the bracket limits the elastic body in a rotation direction of the elastic body.

Preferably, in the mounting assembly of an embedded camera, the elastic body includes a first elastic part and a second elastic part, one end of the first elastic part is connected to one end of the second elastic part, and the other end of the first elastic part and the other end of the second elastic part are disposed on the adjustment lever at an interval.

A camera shooting assembly comprises a camera and the embedded camera mounting assembly, wherein the camera is detachably connected with the adjusting piece, and the camera comprises a base which is located in the mounting space.

The camera has the advantages that after the adjusting piece is connected with the camera, the position of the adjusting piece in the height direction of the support is changed, and the base of the camera can be hidden in the installation space. For cameras with various sizes, the base of the camera can be hidden in the installation space by changing the position of the adjusting piece in the height direction of the support. The installation component of the embedded camera can adapt to cameras of various sizes and has good universality.

Drawings

Fig. 1 is a side structural view of a mounting assembly of an embedded camera of embodiment 1 of the present invention;

fig. 2 is an exploded view of a mounting assembly of an embedded camera of embodiment 1 of the present invention;

fig. 3 is a perspective view of a mount of embodiment 1 of the present invention;

fig. 4 is a perspective view of a positioning member according to embodiment 1 of the present invention;

fig. 5 is an exploded view of a spacer according to embodiment 1 of the present invention;

FIG. 6 is an exploded view of an adjusting member according to embodiment 1 of the present invention;

FIG. 7 is a perspective view of an adjusting member according to embodiment 1 of the present invention;

fig. 8 is a side view of a camera module according to embodiment 2 of the present invention;

fig. 9 is an exploded view of a camera module according to embodiment 2 of the present invention;

fig. 10 is a sectional view of a camera module according to embodiment 2 of the present invention;

fig. 11 is an assembly view of the tactile member, the positioning member, the bracket and the adjusting member in embodiment 1 of the present invention;

FIG. 12 is a cross-sectional view of a positioning rod of embodiment 1 of the present invention in an extended state;

fig. 13 is a cross-sectional view of a positioning rod in a contracted state according to embodiment 1 of the present invention.

The component names and designations in the drawings are as follows:

the support 10, the first enclosure 11, the first installation space 111, the flange 112, the second enclosure 12, the second installation space 121, the sliding hole 122, the second through hole 123, the guiding inclined plane 124, the adsorbing member 13, the decorating cover 14, the cover hole 141, the adjusting member 20, the first protrusion 21, the positioning hole 211, the second protrusion 23, the first installation hole 231, the positioning member 30, the sleeve 31, the long groove 311, the short groove 312, the connecting plate 313, the positioning rod 32, the transmission member 321, the protrusion 3211, the inserting rod 3212, the returning member 33, the pressing portion 35, the slider 351, the tooth surface 352, the touch member 40, the sliding body 41, the limiting portion 42, the limiting plate 43, the first through hole 431, the elastic member 44, the camera 50, the base 51, the transparent cover 52, the installation disc 60, the routing hole 61, the connecting column 62, the installation member 70, the adjusting rod 71, the head 711, the elastic body 72, the first elastic portion 721, the fourth end portion 7211, the fourth end portion 722, the second elastic portion 7212, and the second elastic portion, A first end 7221, a second end 7222, and a connection block 723.

Detailed Description

Example 1

The embodiment discloses a mounting assembly of an embedded camera, which comprises a bracket 10 and an adjusting piece 20, wherein the adjusting piece 20 is used for connecting a camera 50; the bracket 10 has an installation space; the adjusting member 20 is movably provided on the stand 10 in the height direction of the stand 10, so that the camera 50 is movable in the height direction of the stand 10, and the base 51 of the camera 50 is located in the installation space.

The present embodiment has an advantage in that the base 51 of the camera 50 can be hidden in the installation space by changing the position of the adjusting member 20 in the height direction of the stand 10 after the adjusting member 20 is coupled to the camera 50. For cameras 50 of various sizes, the base 51 of the camera 50 can be hidden in the installation space by changing the position of the adjusting member 20 in the height direction of the stand 10. The mounting component of the embedded camera of the present embodiment can accommodate cameras 50 of various sizes, and is excellent in versatility. The base 51 hidden into the installation space means: the base 51 is completely hidden into the installation space, where installation errors are allowed.

As shown in fig. 10, the stand 10 includes a main body and a cosmetic cover 14, and the cosmetic cover 14 encloses an installation space with the main body. The main body comprises a first enclosure 11 and a second enclosure 12 connected. The first enclosure 11 and the second enclosure 12 are distributed along the height direction of the bracket 10, the first enclosure 11 encloses a first installation space 111, and the second enclosure 12 encloses a second installation space 121. The first installation space 111 communicates with the second installation space 121 and constitutes an installation space of the bracket 10. The first installation space 111 is used to accommodate the camera 50. The cross-sectional area of the first installation space 111 is larger than that of the second installation space 121, and the adjusting member 20 is movably disposed in the second installation space 121, so that the size of the adjusting member 20 can be set small, saving costs. The cross-sectional area refers to: area taken by a plane perpendicular to the center line of the installation space.

One end of the first enclosure 11 is connected to one end of the second enclosure 12, and the other end of the first enclosure 11 is a first open end through which the camera 50 enters the first installation space 111. The other end of the second enclosure 12 is a second open end. The second installation space 121 is a through hole structure with both open ends, so that the moving range of the adjusting member 20 is larger, the height of the second enclosure 12 can be saved, and cost saving is facilitated.

After the adjusting member 20 is connected to the camera 50, the position of the adjusting member 20 in the height direction of the second installation space 121 is changed, so that the base 51 of the camera 50 can be hidden in the first installation space 111, and then the adjusting member 20 is positioned in the second installation space 121 by the positioning member 30, i.e. the connection between the installation component of the embedded camera and the camera 50 is completed. For cameras 50 of various sizes, the base 51 of the camera 50 can be hidden in the first installation space 111 by changing the position of the adjusting member 20 in the height direction of the second installation space 121. The mounting component of the embedded camera of the present embodiment can accommodate cameras 50 of various sizes, and is excellent in versatility.

The installation assembly of the embedded camera comprises a positioning part 30, and the adjusting part 20 is provided with at least two positioning parts which are distributed at intervals along the moving direction of the adjusting part 20. The positioning member 30 is in positioning fit with the positioning portion. When the position of the adjusting member 20 needs to be changed, the positioning member 30 first performs the positioning of the positioning portion engaged therewith, then moves the adjusting member 20 to the target position along the height direction of the second installation space 121, and finally the positioning member 30 performs the positioning of the other positioning portion corresponding to the adjusting member. The positioning mode of the adjusting part 20 of the embodiment is simpler, and cost saving is facilitated.

The positioning part is a positioning hole 211, and the positioning hole 211 is simple in structure and easy to set. The outer surface of the adjusting member 20 is provided with a first protruding portion 21, the positioning hole 211 is provided on the first protruding portion 21, and the advantage of providing the first protruding portion 21 is: the positioning hole 211 is guaranteed to have enough length, the positioning reliability is guaranteed, the wall thickness of the adjusting part 20 does not need to be increased, the wall thickness of the adjusting part 20 can be thinner, and therefore cost can be saved. The adjusting member 20 has a central hole with two open ends, which can facilitate the passage of the electric wire of the camera 50, and thus the connection with the external power source.

As shown in fig. 4 and 5, the positioning member 30 includes a sleeve 31, a positioning rod 32, a returning member 33, and a pressing portion 35. The sleeve 31 further comprises a connection plate 313, and in connection with fig. 12 and 13, the connection plate 313 is mounted on the outer surface of the second enclosure 12 by means of screws or other connectors. The second enclosure 12 is provided with a second through hole 123, and the second through hole 123 communicates with the second installation space 121.

The sleeve 31 has an installation space with both ends open, and the pressing portion 35 and the positioning rod 32 are both movably disposed in the installation space of the sleeve 31. Pressing the pressing portion 35 can drive the positioning rod 32 to pass through the second through hole 123 to be in inserting fit with the positioning hole 211, and at this time, the adjusting member 20 is positioned. When the pressing portion 35 is pressed again, the positioning rod 32 can be retracted and withdrawn from the positioning hole 211, and at this time, the position of the adjuster 20 can be changed.

The specific way to realize the extension and retraction of the positioning rod 32 is as follows: as shown in fig. 5, short grooves 312 and long grooves 311 are provided at intervals on the inner wall of sleeve 31, the number of short grooves 312 and long grooves 311 is plural, and short grooves 312 and long grooves 311 are alternately provided. A guide slope is provided between adjacent short groove 312 and long groove 311. As shown in fig. 5, an end of the sleeve 31 facing away from the adjusting member 20 is an outer open end, and a distance between the long slot 311 and the outer open end is smaller than a distance between the short slot 312 and the outer open end.

The outer surface of the pressing portion 35 is provided with a slider 351, the end surface of the pressing portion 35 facing the positioning rod 32 is a tooth surface 352, and the slider 351 is provided in the long groove 311 so that the pressing portion 35 can move in the mounting space of the sleeve 31 but does not come off the sleeve 31.

The positioning rod 32 further includes a transmission member 321, the outer surface of the transmission member 321 is sequentially distributed with a convex block 3211 along the circumferential direction, the transmission member 321 is provided with an insertion rod 3212 towards one end of the pressing portion 35, one end of the pressing portion 35 towards the insertion rod 3212 is provided with a blind hole, and the insertion rod 3212 is in insertion fit with the blind hole of the pressing portion 35. The tooth surface 352 and the protrusion 3211 can rotate relatively and abut.

In the process of pressing the pressing portion 35, the circumferential position of the pressing portion 35 is not changed, and the pressing portion 35 drives the projection 3211 of the transmission member 321 to be alternately located in the short groove 312 or the long groove 311 along the guide inclined plane, so that the positioning rod 32 extends or contracts. In this process, the reset member 33 always applies an elastic force to the positioning rod 32 toward the short groove 312 or the long groove 311, after the pressing portion 35 is pressed each time, the projection 3211 of the transmission member 321 can move to the bottom surface of the short groove 312 or the long groove 311, and the outer end of the pressing portion 35 can be always in the external environment. The positioning member 30 of the present embodiment is a driving structure similar to a ballpoint pen, and presses a pressing body at the tail of the ballpoint pen to drive the pen tip of the ballpoint pen to extend or retract. The positioning member 30 of the present embodiment is simple and convenient to operate.

As shown in fig. 6 and 11, in order to increase the hand feeling when changing the adjusting member 20 and facilitate the operator to sense the position of the adjusting member 20, the mounting assembly of the embedded camera of the present embodiment further includes a touch sensing member 40, the touch sensing member 40 includes a retractable sliding body 41, the sliding body 41 is connected with the adjusting member 20, the second enclosure 12 is provided with a sliding hole 122, and the end surface of the sliding body 41 facing the sliding hole 122 is in sliding fit with the port of the sliding hole 122. The number of the sliding bodies 41 is at least two, the at least two sliding bodies 41 are distributed at intervals along the moving direction of the adjusting piece 20, the number of the sliding holes 122 is one, and in the moving process of the adjusting piece 20, the ports of the sliding holes 122 are in sliding fit with different sliding bodies 41 in sequence, so that an operator can sense the moving height of the adjusting piece 20 or the position of the adjusting piece 20.

The surface of the sliding body 41 which is in sliding fit with the port of the sliding hole 122 is a curved surface, so that the resistance of the sliding body 41 to movement is reduced. The outer surface of the adjusting member 20 is provided with a first mounting hole 231, a part of the sliding body 41 is disposed in the first mounting hole 231, and the elastic member 44 is interposed between the sliding body 41 and the bottom wall of the first mounting hole 231. Due to the elastic member 44, the sliding body 41 can be extended and contracted by a certain distance. The connection structure of the sliding body 41 and the adjusting member 20 is simple.

As shown in fig. 11, two ends of the second enclosure 12 are respectively provided with a guiding inclined plane 124, one guiding inclined plane 124 is arranged at one end of the second enclosure 12 connected with the first enclosure 11, and the other guiding inclined plane 124 is arranged at one end of the second enclosure 12 departing from the first enclosure 11. The guide slope 124 is gradually decreased in distance from the adjusting member 20 in a direction toward the slide hole 122. The guide slope 124 guides the slider 41, and improves the smoothness of movement of the slider 41 in the height direction. The guide slopes 124 may not be provided at both ends of the second enclosure body 12, and the guide slopes 124 may be provided at any positions capable of guiding the sliding body 41.

The adjusting member 20 is provided with the second protruding portion 23, the first mounting hole 231 is provided on the second protruding portion 23, and the advantage of providing the second protruding portion 23 lies in: a sufficient length of the first mounting hole 231 is ensured and additionally, it is not necessary to increase the wall thickness of the adjusting member 20, so that the wall thickness of the adjusting member 20 can be set thinner, thereby enabling cost saving.

The tactile member 40 further comprises a limiting portion 42 and a limiting plate 43 connected to the adjusting member 20, and the limiting plate 43 can be connected to the adjusting member 20 by screws or other connecting members. The limiting part 42 is connected with the sliding body 41, the limiting plate 43 is provided with a first through hole 431, the outer end of the sliding body 41 penetrates through the first through hole 431 to be in sliding fit with the sliding hole 122, and the limiting part 41 is in limiting fit with the limiting plate 43. The stopper plate 43 is coupled to the stopper portion 42 to restrict the slider 41 and prevent the slider 41 from coming off the adjuster 20 while ensuring the extension and contraction of the slider 41. The stopper structure of the slider 41 of the present embodiment is simple. The number of the first through holes 431 of the stopper plate 43 is the same as that of the sliding bodies 41, and they are arranged in one-to-one correspondence.

Referring to fig. 1 and 3, the mounting assembly of the embedded camera includes two mounting members 70, and the two mounting members 70 are symmetrically disposed. The mounting 70 comprises an elastomer 72 and an adjustment bar 71, the elastomer 72 being adapted to snap fit with the inner surface of the ceiling. The adjustment rod 71 is preferably a long screw comprising a head 711 and a threaded section, the end of the long screw opposite the head 711 being a free end. The first open end of the first enclosure 11 is provided with a flange 112, the flange 112 of the bracket 10 is provided with a through hole, the free end of the adjusting rod 71 passes through the through hole on the flange 112 to be connected with the elastic body 72, and the head 711 is limited by the through hole on the flange 112 and cannot pass through the through hole. The adjustment lever 71 can rotate relative to the through hole of the burring 112.

The elastic body 72 is sleeved on the threaded section of the long screw, the elastic body 72 comprises a connecting block 723, the connecting block 723 is provided with a threaded hole, the connecting block 723 is in threaded fit with the threaded section of the long screw, and the change of the position of the connecting block 723 drives the whole elastic body 72 to change. The outer surface of the first enclosure 11 limits the elastic body 72 in the rotation direction of the elastic body 72.

The position adjustment process of the elastic body 72 is as follows: when the bracket 10 is installed on the ceiling, the head 711 is exposed to the outside environment, the operator manually rotates the head 711, the elastic body 72 cannot rotate along with the long screw due to the limiting effect of the outer surface of the first enclosure 11, and the elastic body 72 gradually moves towards the inner surface of the ceiling in the rotation process of the long screw until the elastic body abuts against and is in clamping fit with the inner surface of the ceiling.

The elastic body 72 of the embodiment is arranged on the thread section of the adjusting rod 71 in a threaded manner, so that the position of the elastic body 72 can be adjusted, the elastic body 72 can adapt to ceilings with different thicknesses, and the application range of the installation assembly of the embedded camera of the embodiment is widened.

The elastic member 72 includes a first elastic body 721 and a second elastic body 722, the first elastic body 721 has a third end 7211 and a fourth end 7212 at both ends, the second elastic body 722 has a first end 7221 and a second end 7222 at both ends, the third end 7211 and the first end 7221 are arranged at an interval, the third end 7211 and the first end 7221 are movably arranged on the adjusting rod 71, and the fourth end 7212 and the second end 7222 are connected, so that the elastic member 72 has greater strength, and the clamping reliability of the elastic member 72 and the ceiling is improved. The connection manner of the first elastic body 721 and the second elastic body 722 is preferably: and (4) integrally forming.

The distance between the first elastic body 721 and the flange 112 is greater than the distance between the second elastic body 722 and the flange 112, and the distance between the third end 7211 and the flange 112 is greater than the distance between the fourth end 7212 and the flange 112. The surface of the first elastic body 721 forms a guide surface for facilitating the installation of the elastic member 72 into the cavity of the ceiling from the open end of the ceiling.

In another embodiment, the adjustment of the adjusting member 20 is a stepless adjustment, i.e. the adjusting member 20 can be continuously adjusted in the height direction of the support 10. For example, a slider may be provided on the adjusting member 20, a slide may be provided on the inner surface of the second enclosure body 12, the slide extending in the height direction, and the slider may slide in the slide so that the adjusting member 20 moves in the height direction.

In another embodiment, the number of the sliding holes 122 is at least two, and at least two sliding holes 122 are spaced along the moving direction of the adjusting member 20. The number of the sliding bodies 41 is 1, and during the moving process of the adjusting member 20, the sliding bodies 41 are in sliding fit with the ports of different sliding holes 122 in sequence, so that an operator can sense the moving height of the adjusting member 20 or the position of the adjusting member 20.

Example 2

As shown in fig. 8 to 10, the present embodiment discloses a camera assembly, which includes a camera 50 and the mounting assembly of the embedded camera of embodiment 1, the camera 50 includes a base 51, a camera assembly disposed in the base 51, and a transparent cover 52 connected to the base 51, the camera assembly includes a lens, and the lens is disposed opposite to the transparent cover 52. The camera 50 is detachably coupled to the adjusting member 20, and the base 51 of the camera 50 is located in the first installation space 111.

The camera 50 is a dome camera, and after the camera 50 is mounted on the ceiling through the mounting assembly of the embedded camera, the transparent cover 52 protrudes out of the outer surface of the ceiling to ensure that the lens can normally take a picture. The outer surface of the ceiling refers to the surface of the ceiling facing the floor. At this time, the portion of the camera 50 other than the transparent cover 52 constitutes a base.

The mounting assembly of the embedded camera comprises a plate-shaped mounting disc 60, the mounting disc 60 is connected with the adjusting piece 20, and the mounting disc 60 is provided with a wire-passing hole 61, and the wire-passing hole 61 is used for allowing the electric wire of the camera 50 to pass through. The mounting disc 60 is further provided with a plurality of connecting columns 62, the base 51 is in threaded connection with the connecting columns 62, the camera 50 is mounted on the adjusting piece 20 through the mounting disc 60, connection is convenient, and improvement of connection reliability of the camera 50 and the adjusting piece 20 is facilitated. The decoration cover 14 is provided with a cover hole 141, and the transparent cover 52 extends from the cover hole 141 to the outside of the outer surface of the decoration cover 14.

The decoration cover 14 and the turned-over edge 112 are attracted together by magnetic attraction, specifically, the turned-over edge 112 is provided with the attraction piece 13, the attraction piece 13 is made of metal material, and the attraction piece 13 can be partially made of metal material or can be made of metal material completely. The decoration cover 14 is provided with magnet, and decoration cover 14 adsorbs together through magnetic attraction with adsorbing piece 13, and connected mode is simple, and the installation is all more convenient with the dismantlement. The decoration cover 14 plays a role of beauty and decoration, and the decoration cover 14 may not be provided in the present embodiment.

In another embodiment, the decorative cover 14 is connected with the turned-over edge 112 in a clamping mode, and the connection structure is simple.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

The above is only an example of the present invention, and the present invention is not limited to the above, and various modifications and changes may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (18)

1. A mounting assembly for a built-in camera, comprising a bracket (10) and an adjusting member (20), the adjusting member (20) being adapted to be connected to the camera (50); the bracket (10) is provided with an installation space; the adjusting piece (20) is movably arranged on the bracket (10) in the height direction of the bracket (10), so that the camera (50) can move in the height direction of the bracket (10), and a base (51) of the camera (50) is positioned in the installation space;

the bracket (10) comprises a main body and a decorative cover (14), wherein the decorative cover (14) and the main body enclose the installation space; the main body comprises a first enclosing body (11) and a second enclosing body (12) which are connected, the first enclosing body (11) and the second enclosing body (12) are distributed along the height direction of the support (10), the first enclosing body (11) encloses a first installation space (111), the second enclosing body (12) encloses a second installation space (121), and the first installation space (111) is communicated with the second installation space (121) to form the installation space;

the first installation space (111) is used for accommodating the camera (50), the adjusting piece (20) is movably arranged in the second installation space (121) and can move relative to the second enclosure body (12) in the height direction of the support (10), and the adjusting piece (20) can be positioned and matched in the second installation space (121);

the mounting component of the embedded camera comprises a plate-shaped mounting disc (60), the mounting disc (60) is connected with the adjusting piece (20), and the mounting disc (60) is used for being connected with the camera (50).

2. The mounting assembly of an embedded camera according to claim 1, wherein the decoration cover (14) is connected with the main body in a clamping manner, or the decoration cover (14) and the main body are adsorbed together through magnetic attraction.

3. The mounting assembly of an embedded camera according to claim 1, wherein the cross-sectional area of the first mounting space (111) is larger than the cross-sectional area of the second mounting space (121).

4. The mounting assembly of an embedded camera according to claim 3, characterized in that the second mounting space (121) is a through hole.

5. The embedded camera mounting assembly according to claim 1, comprising a positioning member (30), wherein the adjusting member (20) is provided with at least two positioning portions, and the at least two positioning portions are spaced apart along a moving direction of the adjusting member (20); the positioning piece (30) is matched with the positioning part in a positioning mode.

6. The embedded camera mounting assembly according to claim 5, wherein the positioning member (30) comprises a telescopic positioning rod (32), the positioning portion is a positioning hole (211) provided on an outer surface of the adjusting member (20), and the positioning rod (32) is in plug-in fit with the positioning hole (211).

7. The mounting assembly of an embedded camera according to claim 5, wherein the positioning portion is a positioning hole (211), the outer surface of the adjusting member (20) is provided with a first boss (21), and the positioning hole (211) is provided on the first boss (21).

8. The embedded camera mounting assembly according to claim 5, wherein the positioning member (30) comprises a sleeve (31), a positioning rod (32) and a pressing portion (35), the pressing portion (35) and the positioning rod (32) are movably disposed in the mounting space of the sleeve (31), and short grooves (312) and long grooves (311) are disposed at intervals on the inner wall of the sleeve (31); the pressing part (35) drives the positioning rod (32) to be alternately positioned in the short groove (312) or the long groove (311), so that the positioning rod (32) extends or contracts.

9. The embedded camera mounting assembly according to claim 1, further comprising a tactile member (40), wherein the tactile member (40) comprises a retractable sliding body (41), the sliding body (41) is connected with the adjusting member (20), the bracket (10) is provided with a sliding hole (122), and an outer end of the sliding body (41) is in sliding fit with a port of the sliding hole (122); the number of the sliding bodies (41) is at least two, and at least two sliding bodies (41) are distributed at intervals along the moving direction of the adjusting piece (20), or the number of the sliding holes (122) is at least two, and at least two sliding holes (122) are distributed at intervals along the moving direction of the adjusting piece (20).

10. The mounting assembly of an embedded camera according to claim 9, wherein the outer surface of the adjusting member (20) is provided with a first mounting hole (231), a portion of the sliding body (41) is disposed in the first mounting hole (231), and an elastic member (44) is interposed between the sliding body (41) and the bottom wall of the first mounting hole (231).

11. The mounting assembly of a built-in camera according to claim 9, characterized in that the bracket (10) is provided with a guide slope (124), the guide slope (124) gradually decreases in distance from the adjusting member (20) in a direction toward the slide hole (122), and the guide slope (124) is in guide engagement with the outer end of the slider (41).

12. The mounting assembly of an embedded camera according to claim 9 or 10, wherein the tactile member (40) further comprises a limiting portion (42) and a limiting plate (43) connected to the adjusting member (20), the limiting portion (42) is connected to the sliding body (41), the limiting plate (43) is provided with a first through hole (431), the outer end of the sliding body (41) passes through the first through hole (431) to be slidably fitted to the sliding hole (122), and the limiting portion (42) is in limiting fit with the limiting plate (43).

13. The mounting assembly of an embedded camera according to claim 10, wherein the adjusting member (20) is provided with a second boss (23), and the first mounting hole (231) is provided on the second boss (23).

14. The mounting assembly of the embedded camera according to claim 5, wherein the mounting assembly of the embedded camera comprises a second enclosure (12) enclosing the second mounting space (121), the second enclosure (12) is provided with a second through hole (123), and the positioning member (30) passes through the second through hole (123) to position the positioning portion.

15. The mounting assembly of an embedded camera according to claim 1, characterized in that the mounting assembly of an embedded camera comprises a mounting member (70), the mounting member (70) comprises an elastic body (72) and an adjusting rod (71), and the adjusting rod (71) is connected with the bracket (10); the adjusting rod (71) is provided with a threaded section, the elastic body (72) is in threaded connection with the threaded section, and the elastic body (72) is used for being in clamping fit with the inner surface of a ceiling.

16. The mounting assembly of a built-in camera according to claim 15, wherein the adjusting lever (71) is rotatably coupled to the bracket (10), and the bracket (10) limits the elastic body (72) in a rotation direction of the elastic body (72).

17. The mounting assembly of an embedded camera according to claim 15, wherein the elastic body (72) comprises a first elastic part (721) and a second elastic part (722), one end of the first elastic part (721) is connected with one end of the second elastic part (722), and the other end of the first elastic part (721) is spaced apart from the other end of the second elastic part (722) on the adjustment lever (71).

18. A camera assembly, characterized by comprising a camera (50) and a camera-embedded mounting assembly according to any one of claims 1-17, said camera (50) being detachably connected to said adjusting member (20), said camera (50) comprising a base (51), said base (51) being located in said mounting space.

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