CN112866524B - Camera support, production process thereof and camera assembly - Google Patents

Abstract

The invention provides a camera support, which comprises at least one mounting opening positioned on a horizontal plane, wherein a camera is mounted in the mounting opening, the camera support comprises a plastic body and a metal piece, the plastic body is internally provided with the mounting opening, the metal piece is embedded in the plastic body, the metal piece is formed by integrally stamping a sheet metal plate and then bending the sheet metal plate for multiple times, the metal piece comprises at least one metal frame, the metal frame is arranged corresponding to the mounting opening, the metal frame is surrounded by a plurality of connecting arms, and the connecting arms are embedded in the plastic body and distributed in a vertical plane vertical to the horizontal plane.

Description

Camera support, production process thereof and camera assembly

Technical Field

The invention relates to the technical field of cameras, in particular to a camera bracket, a production process thereof and a camera assembly.

Background

With the continuous development of electronic technology, mobile terminals such as smart phones or tablet computers have become electronic devices commonly used by users. At present, mobile terminals with cameras are more and more common, the cameras enable the mobile terminals to take pictures and make video recordings while having a conversation function, and therefore the using functions of the mobile terminals are greatly enriched and expanded, and much fun is added to the lives of people. In order to achieve a better shooting effect, the types and the number of corresponding cameras are increased more and more. A plurality of cameras are arranged in the mobile terminal, and if the mobile terminal is relied on to limit the plurality of cameras respectively, a complex limiting structure needs to be arranged in the mobile terminal.

In order to solve the above problems, some mobile phone manufacturers design a metal camera support (die-casting) and assemble and fix a plurality of cameras and the metal camera support together by a camera module factory, and then carry out calibration test and then deliver the camera module to a mobile phone assembly factory. In order to reduce the cost, some mobile phone manufacturers adopt the method of designing a camera support formed by plastic injection molding, wherein at least one side wall part of the camera support is made of pure plastic, and the structural strength is weak.

Therefore, there is a need for a new camera support, a production process thereof and a camera assembly.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a novel camera bracket, a production process thereof and a camera assembly, so as to overcome the defects of the prior art.

The technical scheme adopted by the invention for solving the problems in the prior art is as follows:

the utility model provides a camera support, its includes that at least one is located a horizontal plane's installing port, the installing port supplies the camera to install wherein, camera support includes inside formation the plastic body of installing port and inlays and locate this internal metalwork of plastic, the metalwork is bent many times by flaky sheet metal material through integrative punching press formation strip material area back rethread the strip material area forms, the metalwork includes the metal frame of at least one bottom surface fretwork, the metal frame corresponds the installing port sets up, the metal frame is for enclosing the closed frame mouth of establishing and forming by a plurality of linking arms, and is a plurality of the linking arm is by the strip material area along closed frame mouth direction is buckled many times and is formed, and is a plurality of the linking arm inlays to be located this internal and distribution of plastic is in the perpendicular to in the horizontal plane's vertical plane.

Preferably, the plastic body is formed by an integral injection molding mode, and the plastic body covers the outer sides of the connecting arms. Preferably, the metal frame is a rectangular frame formed by surrounding four connecting arms.

Preferably, the camera support comprises at least two adjacent mounting openings, the metal piece comprises at least two adjacent metal frames, and two adjacent connecting arms of the two adjacent metal frames are integrally connected.

Preferably, top sides or bottom sides of two adjacent connecting arms of two adjacent metal frames along a vertical direction are integrally connected, and the two adjacent connecting arms are overlapped at intervals in a horizontal direction.

Preferably, two adjacent connecting arms of two adjacent metal frames are folded and then stacked at intervals in the horizontal direction.

Preferably, the plastic body that forms the installing port corresponds every the metal frame sets up the plastic frame, adjacent two the plastic frame sharing plastic frame arm, adjacent two the double-phase neighbour of metal frame linking arm an organic whole set up in the plastic frame arm.

Preferably, the metal part includes three metal frames, including a first metal frame, a second metal frame and a third metal frame, where the first metal frame and the second metal frame are disposed adjacent to each other along a first direction, and the second metal frame and the third metal frame are disposed adjacent to each other along a second direction.

Preferably, the first direction and the second direction are both perpendicular to the vertical direction and perpendicular to each other.

Preferably, the plastic body including correspond to first plastic frame of first metal frame, correspond to the second plastic frame of second metal frame and correspond to the third plastic frame of third metal frame, the second plastic frame has adjacent setting and mutually perpendicular first plastic frame arm and second plastic frame arm, first plastic frame with second plastic frame sharing first plastic frame arm, the second plastic frame with third plastic frame shares second plastic frame arm.

Preferably, first metal frame is enclosed by a plurality of first linking arms and is established and form, second metal frame is enclosed by a plurality of second linking arms and establishes and form, third metal frame is enclosed by a plurality of third linking arms and establishes and form first metal frame with second metal frame borders on the department, first linking arm with second linking arm body coupling just inlays jointly and locates in the first plastic frame arm second metal frame with third metal frame borders on the department, the second linking arm with third linking arm body coupling just inlays jointly and locates in the second plastic frame arm.

Preferably, the first connecting arm and the second connecting arm are stacked at an interval along the first direction in the horizontal plane where the first metal frame is adjacent to the second metal frame; and the second connecting arm and the third connecting arm are overlapped at intervals along the second direction in the horizontal plane at the position where the second metal frame is adjacent to the third metal frame.

Preferably, the metal plate is integrally stamped to form strip-shaped material belts corresponding to the metal frames, the strip-shaped material belts are arranged in parallel at intervals and are partially integrally connected with each other at the middle positions of two adjacent strip-shaped material belts, each strip-shaped material belt is bent and then surrounded to form the metal frames, the two ends of each strip-shaped material belt are connected through a riveting process to form a riveting part, and the riveting part is located on one of the connecting arms of the metal frame.

Preferably, the strip-shaped material belt comprises a base connecting arm, a first relative connecting arm located at one end of the base connecting arm, a second relative connecting arm located at the other end of the base connecting arm, a first portion connected to the first relative connecting arm and a second portion connected to the second relative connecting arm and far away from the base connecting arm, wherein the tail end of the first portion is riveted with the tail end of the second portion, so that the riveting connecting arm is parallel and opposite to the base connecting arm, the first relative connecting arm is parallel and opposite to the second relative connecting arm, and the base connecting arm is adjacent to the first relative connecting arm or the second relative connecting arm of the metal frame and integrally connected to form two adjacent connecting arms of the metal frame.

Preferably, the base connecting arms of two adjacent strip-shaped material belts are arranged in a staggered manner along the arrangement direction of the strip-shaped material belts.

Preferably, the connecting arm is provided with a plurality of through holes.

Preferably, the metal member is made of stainless steel.

A production process of a camera support comprises the following steps:

s11, integrally stamping a metal plate to form a peripheral material belt and at least one strip-shaped material belt connected with the peripheral material belt, wherein the peripheral material belt and the strip-shaped material belt are positioned in a horizontal plane;

s12, bending the strip-shaped material belt to form a metal frame, wherein the metal frame is a closed frame opening which is formed by a plurality of connecting arms in a surrounding mode and is hollow in the bottom surface, the strip-shaped material belt is bent along the direction of the closed frame opening to form the plurality of connecting arms, and the plurality of connecting arms are distributed in a vertical plane perpendicular to the horizontal plane;

s13, integrally injection-molding a plastic body on the outer sides of the connecting arms of the metal frame;

and S14, cutting off the peripheral material belt to form the camera support.

Preferably, in step S12, two ends of the strip-shaped material tape are connected by a riveting process to form a riveted portion, and the riveted portion is located on one of the connecting arms of the metal frame.

Preferably, in step S11 and step S12, sheet metal forms after integrative punching press connect in a plurality of peripheral material area the strip material area, it is a plurality of the strip material area parallel interval sets up and adjacent two the intermediate position department of strip material area is partly integrative continuous, and is a plurality of the strip material area is buckled in proper order and is formed a plurality of the metal frame, it is a plurality of the metal frame is adjacent in proper order to set up, and is a plurality of the metal frame is in the horizontal plane.

Preferably, each strip-shaped material belt comprises a base connecting arm, a first relative connecting arm located at one end of the base connecting arm, a second relative connecting arm located at the other end of the base connecting arm, a first portion connected to the first relative connecting arm and a second portion connected to the second relative connecting arm and far away from one end of the base connecting arm, the tail end of the first portion of the riveting connecting arm is riveted with the tail end of the second portion of the riveting connecting arm, so that the riveting connecting arm is parallel and opposite to the base connecting arm, the first relative connecting arm is parallel and opposite to the second relative connecting arm, and the base connecting arm is adjacent to the first relative connecting arm or the second relative connecting arm of the metal frame and integrally connected to form two adjacent connecting arms of the metal frame.

Preferably, the base connecting arms of two adjacent strip-shaped material belts are staggered along the arrangement direction of the plurality of strip-shaped material belts.

A camera assembly comprising at least one camera and a camera support according to any preceding claim.

The invention has the beneficial effects that: the plastic body is formed by an integral injection molding mode, the metal part is embedded in the plastic body and comprises a plurality of metal frames, the metal frames form a closed frame opening, the metal part with the plurality of metal frames can be formed by punching and bending the same metal plate without secondary processing, not only is automatic operation convenient and can the capacity be rapidly improved, but also the metal part is in an integral type and is convenient to position during injection molding, so that the plastic body is convenient to form; in addition, because the plastic body is formed by integral injection molding, structures such as a lug, a groove and the like can be arranged on the plastic body according to actual requirements, and the manufacturing cost can be greatly reduced.

Drawings

The above objects, technical solutions and advantages of the present invention can be achieved by the following drawings:

FIG. 1 is a schematic view of a camera head bracket according to the present invention;

FIG. 2 is an exploded perspective view of the camera bracket of FIG. 1;

fig. 3 to 18 disclose a process of molding the camera stand according to the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings of embodiments.

As shown in fig. 1 to 18, a camera bracket 100 according to the present invention is used for supporting a camera in an electronic product such as a mobile terminal. The camera support 100 includes a plurality of mounting ports located on a horizontal plane, and a plurality of cameras (not shown) are respectively mounted in the plurality of mounting ports, in this embodiment, the camera support 100 includes three mounting ports, which are a first mounting port 101, a second mounting port 102, and a third mounting port 103, respectively, the first mounting port 101 is adjacent to the second mounting port 102, the second mounting port 102 is adjacent to the third mounting port 103, and the three cameras are respectively mounted in the three mounting ports (101, 102, 103). The camera support 100 includes a plastic body 20 and a metal member 10 embedded in the plastic body 20, in this embodiment, the metal member 10 includes three metal frames, which are a first metal frame 111, a second metal frame 112, and a third metal frame 113, respectively, the three metal frames (111, 112, 113) and three mounting openings (101, 102, 103) are arranged in a one-to-one correspondence manner, and each metal frame forms a rectangular closed frame opening. The metal part 10 further includes a metal sheet 12 connected to one of the metal frames, the metal part 10 is formed by integrally stamping a sheet metal plate and then bending the sheet metal plate for multiple times, and finally the plastic body 20 coated outside the connecting arms of the three metal frames (111, 112, 113) and outside the metal sheet 12 is formed in an integrally injection molding manner, so as to form the camera holder 100 with the three mounting ports. In this embodiment, the metal member 10 is made of a stainless steel material by stamping and bending.

Specifically, the three mounting openings (101, 102, 103) of the camera bracket 100 are all rectangular mounting openings, the first mounting opening 101 and the second mounting opening 102 are adjacently arranged along a first direction, and the second mounting opening 102 and the third mounting opening 103 are adjacently arranged along a second direction, in this embodiment, the first direction and the second direction are both perpendicular to the vertical direction and are perpendicular to each other. In other modified embodiments, the first direction and the second direction may be set to be parallel directions or any other intersecting angular directions, and how the first direction and the second direction are arranged depends on the positional arrangement relationship of the three mounting ports (101, 102, 103).

The plastic body 20 includes a first plastic frame 201 corresponding to the first metal frame 111, a second plastic frame 202 corresponding to the second metal frame 112, and a third plastic frame 203 corresponding to the third metal frame 113, the first plastic frame 201, the second plastic frame 202, and the third plastic frame 203 are formed by surrounding four plastic frame arms, the second plastic frame 202 has a first plastic frame arm 21 and a second plastic frame arm 22 which are adjacently arranged and perpendicular to each other, the first plastic frame 201 and the second plastic frame 202 share the first plastic frame arm 21, and the second plastic frame 202 and the third plastic frame 203 share the second plastic frame arm 22. In the present invention, at least one plastic frame arm is disposed between adjacent plastic frames.

The first metal frame 111 and the second metal frame 112 are adjacently arranged along a first direction, the second metal frame 112 and the third metal frame 113 are adjacently arranged along a second direction, wherein the first metal frame 111 is surrounded by four first connecting arms 114 to form a rectangular frame, the second metal frame 112 is surrounded by four second connecting arms 115 to form a rectangular frame, the third metal frame 113 is surrounded by four third connecting arms 116 to form a rectangular frame, and the four connecting arms of each metal frame are embedded in the plastic body 20 and distributed in a vertical plane perpendicular to the horizontal plane. The first connecting arm 114 and the second connecting arm 115 are stacked at an interval along the first direction in the horizontal plane where the first metal frame 111 and the second metal frame 112 are adjacent; the second link arm 115 and the third link arm 116 are stacked at an interval along the second direction in the horizontal plane where the second metal frame 112 and the third metal frame 113 are adjacent to each other. At the adjacent position of the first metal frame 111 and the second metal frame 112, the first connecting arm 114 of the first metal frame 111 and the second connecting arm 115 of the second metal frame 112 are integrally connected along the top side or the bottom side of the vertical direction, the first connecting arm 114 of the first metal frame 111 and the second connecting arm 115 of the second metal frame 112 are folded and then overlapped at intervals in the horizontal direction, and the first connecting arm 114 and the second connecting arm 115 are embedded in the first plastic frame arm 21 shared by the first plastic frame 201 and the second plastic frame 202. At the adjacent position of the second metal frame 112 and the third metal frame 113, the second connecting arm 115 of the second metal frame 112 and the third connecting arm 116 of the third metal frame 113 are integrally connected along the top side or the bottom side of the vertical direction, the second connecting arm 115 of the second metal frame 112 and the third connecting arm 116 of the third metal frame 113 are folded and then overlapped at intervals in the horizontal direction, and the second connecting arm 115 and the third connecting arm 116 are embedded in the second plastic frame arm 22 shared by the second plastic frame 202 and the third plastic frame 203.

The metal plate is formed with the periphery material belt 30 after punching integrally, is connected with the fourth material belt 40 of the periphery material belt 30 locally, is connected with the third material belt 50 of the fourth material belt 40 locally, is connected with the second material belt 60 of the third material belt 50 locally and is connected with the first material belt 70 of the second material belt 60 locally, the first material belt 70, the second material belt 60 and the third material belt 50 are strip material belts, and the first material belt 70, the second material belt 60 and the third material belt 50 are arranged in parallel at intervals and are connected with one part of the middle position of two adjacent strip material belts integrally. The first metal frame 111 is formed by bending and enclosing the first material belt 70, that is, the first material belt 70 is bent and enclosed to form the first metal frame 111 with four first connecting arms 114, two ends of the first material belt 70 are connected by a riveting process, and a riveted part a is located on one of the first connecting arms 114. Similarly, the second metal frame 112 is formed by bending the second material strip 60 and enclosing the second material strip 60, that is, the second material strip 60 is bent and enclosed to form the second metal frame 112 having four second connecting arms 115, two ends of the second material strip 60 are connected by a riveting process, and the riveted part a is located on one of the second connecting arms 115. The third metal frame 113 is formed by bending and enclosing the third material belt 50, that is, the third material belt 50 is bent and enclosed to form the third metal frame 113 with four third connecting arms 116, two ends of the third material belt 50 are connected by a riveting process, and a riveted part a is located on one of the third connecting arms 116. The metal sheet 12 is formed from the fourth strip of material 40, the metal sheet 12 being connected to one of the third connecting arms 116 of the third metal frame 113.

Each strip-shaped material belt comprises a basic connecting arm 13, a first relative connecting arm 14 located at one end of the basic connecting arm 13, a second relative connecting arm 15 located at the other end of the basic connecting arm 13, a first part of a riveting connecting arm 16 connected to one end, far away from the basic connecting arm 13, of the first relative connecting arm 14 and a second part of the riveting connecting arm 16 connected to one end, far away from the basic connecting arm 13, of the second relative connecting arm 15, wherein the tail end of the first part of the riveting connecting arm 16 and the tail end of the second part of the riveting connecting arm are riveted with each other, so that the riveting connecting arm 16 is parallel and opposite to the basic connecting arm 13, the first relative connecting arm 14 is parallel and opposite to the second relative connecting arm 15, and the basic connecting arm 13 is integrally connected with one relative connecting arm of adjacent metal frames to form two adjacent connecting arms of the adjacent two metal frames. The basic connecting arms of two adjacent strip material belts are arranged in a staggered mode along the arrangement direction of the strip material belts.

Of the four first connecting arms 114 of the first metal frame 111, except for one first connecting arm 114 integrally connected with and spaced apart from the second connecting arm 115 of the second metal frame 112, the remaining three first connecting arms 114 are provided with a plurality of through holes 80; of the four second connecting arms 115 of the second metal frame 112, except for two second connecting arms 115 which are integrally connected with the first connecting arm 114 of the first metal frame 111 and the third connecting arm 116 of the third metal frame 113 respectively and are overlapped at intervals, the other two second connecting arms 115 are provided with a plurality of through holes 80; of the four third link arms 116 of the third metal frame 113, the remaining three third link arms 116 are provided with a plurality of through holes 80, except for one third link arm 116 that is integrally connected to the second link arm 115 of the second metal frame 112 and is spaced apart from and stacked on the other third link arm. The arrangement of the through holes 80 can ensure that the holding force of the plastic body 20 is increased when the plastic body 20 is injection molded at the outer side of each connecting arm of the three metal frames, and the plastic body 20 and the metal piece 10 are tightly combined into a whole.

Referring to fig. 3 to 18, the present invention provides a process for manufacturing a camera bracket 100, including the following steps: .

S11, referring to fig. 3, after being integrally stamped, a metal plate is formed into a peripheral strip 30, a fourth strip 40 partially connected to the peripheral strip 30, a third strip 50 partially connected to the fourth strip 40, a second strip 60 partially connected to the third strip 50, and a first strip 70 partially connected to the second strip 60, where the peripheral strip 30, the fourth strip 40, the third strip 50, the second strip 60, and the first strip 70 are all located in a horizontal plane, the first strip 70, the second strip 60, and the third strip 50 are disposed in parallel at intervals, and a portion of a middle position of two adjacent strips is integrally connected, where the first strip 70, the second strip 60, and the third strip 50 are all strip-shaped and are all provided with a plurality of through holes 80, each strip-shaped connection arm includes a base connection arm 13, a first relative connection arm 14 located at one end of the base connection arm 13, a second relative connection arm 15 located at the other end of the base connection arm 13, a first portion of a riveting connection arm 16 connected to one end of the first relative connection arm 14 far away from the base connection arm 13, and a second relative connection arm 15, and two adjacent strip-shaped connection arms 13 connected to one end of the base connection arm 14, which is staggered in the second relative connection arm 13, are disposed along a plurality of the adjacent strip-shaped connection arms 13;

s12, with reference to fig. 4 to 6, bending the first material tape 70 to form a first metal frame 111, where the first metal frame 111 is a rectangular frame surrounded by four first connecting arms 114, two ends of the first material tape 70 are connected by a riveting process, a riveted portion a is located at one of the first connecting arms 114, and specifically, a terminal of a first portion and a terminal of a second portion of the riveting connecting arm 16 of the first material tape 70 are riveted to each other, so that the riveting connecting arm 16 is parallel to and opposite to the base connecting arm 13, and the first opposite connecting arm 14 is parallel to and opposite to the second opposite connecting arm 15;

s13, referring to fig. 6 and 7, one of the first connecting arms 114 of the first metal frame 111 is connected to the second material tape 60, and the connecting portion is bent, so that the first connecting arm 114 connected to the second material tape 60 is perpendicular to the second material tape 60;

s14, with reference to fig. 8 to 10, bending the second material tape 60 to form a second metal frame 112, where the second metal frame 112 is a rectangular frame surrounded by four second connecting arms 115, two ends of the second material tape 60 are connected by a riveting process, a riveted part a is located at one of the second connecting arms 115, and specifically, a terminal of a first portion and a terminal of a second portion of the riveting connecting arm 16 of the second material tape 60 are riveted to each other, so that the riveting connecting arm 16 is parallel and opposite to the base connecting arm 13, and the first opposite connecting arm 14 is parallel and opposite to the second opposite connecting arm 15;

s15, referring to fig. 10 and 11, one of the second connection arms 115 of the second metal frame 112 is connected to the third material tape 50, and the connection point is bent, so that the second connection arm 115 connected to the third material tape 50 is perpendicular to the third material tape 50;

s16, with reference to fig. 12 to 14, bending a connection portion between the second connecting arm 115 of the second metal frame 112 and the third material tape 50, so that the second connecting arm 115 connected to the third material tape 50 and the third material tape 50 are stacked at an interval, bending the third material tape 50 to form a third metal frame 113, where the third metal frame 113 is a rectangular frame surrounded by four third connecting arms 116, two ends of the third material tape 50 are connected by a riveting process, a riveted portion a is located on one of the third connecting arms 116, the second metal frame 112 and the third metal frame 113 are located in the same plane, and specifically, a first end and a second end of a first portion of the riveting connecting arm 16 of the third material tape 50 are riveted to each other, so that the riveting connecting arm 16 is parallel to the base connecting arm 13, and the first opposite connecting arm 14 is parallel to the second opposite connecting arm 15;

s17, referring to fig. 15, bending a connection portion between the first connection arm 114 of the first metal frame 111 and the second connection arm 115 of the second metal frame 112, so that the first connection arm 114 and the second connection arm 115 are stacked at an interval, specifically, the base connection arm 13 of the first tape 70 is integrally connected to one of the opposite connection arms (14, 15) of the adjacent second tape 60 to form two adjacent connection arms of the first metal frame 111 and the second metal frame 112, and similarly, the base connection arm 13 of the second tape 60 is integrally connected to one of the opposite connection arms (14, 15) of the adjacent third tape 50 to form two adjacent connection arms of the second metal frame 112 and the third metal frame 113, so that the first metal frame 111, the second metal frame 112 and the third metal frame 113 are located in the same plane;

s18, referring to fig. 16, bending a connection portion between the third connection arm 116 of the third metal frame 113 and the fourth tape 40, so that the third connection arm 116 connected to the fourth tape 40 is perpendicular to the fourth tape 40, and thus the first metal frame 111, the second metal frame 112, the third metal frame 113 and the peripheral tape 30 are located in the horizontal plane, and the four connection arms of each metal frame are distributed in a vertical plane perpendicular to the horizontal plane;

s19, referring to fig. 17 and 18, integrally injection-molding the plastic body 20 outside the connecting arms of the three metal frames (111, 112, 113) and outside the fourth tape 40;

and S20, cutting off the peripheral material belt 30 to obtain the camera support 100.

The present invention provides a camera assembly (not shown) comprising at least one camera (not shown) and the above-mentioned camera bracket 100 for mounting the camera.

In the invention, the plastic body 20 is formed by an integral injection molding mode, the metal part 10 is embedded in the plastic body 20, the metal part 10 with a plurality of closed frame openings can be formed by punching and bending the same metal plate without secondary processing, thereby not only facilitating automatic operation and rapidly improving productivity, but also facilitating the positioning of the integral metal part with a plurality of metal frames compared with the injection molding requirement of respectively positioning a single metal frame during injection molding because the metal part is of an integral type, and the invention has the advantages that the plastic body 20 is convenient to form and accurate in size by connecting the plurality of metal frames, and the relative positions of the plurality of metal frames are more accurately set, thereby being beneficial to saving design space; in addition, compared with a camera bracket formed by a die-casting forming mode, the plastic body 20 is formed by integral injection molding, the injection molding cost is low, the plasticity is high, and therefore structures such as a convex block, a groove and the like can be arranged on the plastic body 20 in combination with actual requirements, and the manufacturing cost can be greatly reduced.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (23)

1. The utility model provides a camera support, its includes that at least one is located a horizontal plane's installing port, the installing port supplies the camera to install in wherein, its characterized in that, camera support includes inside formation the plastic body of installing port and inlays and locate this internal metalwork of plastic, the metalwork is bent many times through rethread behind integrative punching press formation strip material area by flaky sheet metal the strip material area is formed later, the metalwork includes the metal frame of at least one bottom surface fretwork, the metal frame corresponds the installing port sets up, the metal frame encloses the closed frame mouth of establishing to form for by a plurality of linking arms, and is a plurality of the linking arm is by strip material area along closed frame mouth direction is buckled many times and is formed, and is a plurality of the linking arm inlays to be located this internal and distribute in the perpendicular to in the horizontal plane's vertical plane.

2. The camera bracket of claim 1, wherein the plastic body is formed by injection molding, and the plastic body covers the connecting arms.

3. The camera bracket of claim 1, wherein said metal frame comprises a rectangular frame defined by four of said connecting arms.

4. The camera bracket according to claim 2, wherein the camera bracket comprises at least two adjacent mounting openings, the metal member comprises at least two adjacent metal frames, and two adjacent connecting arms of the two adjacent metal frames are integrally connected.

5. The camera bracket according to claim 4, wherein two adjacent connecting arms of two adjacent metal frames are integrally connected to each other at a top side or a bottom side along a vertical direction, and the two adjacent connecting arms are stacked at intervals in a horizontal direction.

6. The camera bracket according to claim 5, wherein two adjacent connecting arms of two adjacent metal frames are overlapped at intervals in the horizontal direction after being bent.

7. The camera bracket according to claim 4, wherein the plastic body forming the mounting opening is provided with a plastic frame corresponding to each of the metal frames, two adjacent plastic frames share a plastic frame arm, and two adjacent connecting arms of two adjacent metal frames are integrally provided in the plastic frame arm.

8. The camera bracket of claim 7, wherein the metal member comprises three metal frames, including a first metal frame, a second metal frame and a third metal frame, the first metal frame and the second metal frame are disposed adjacent to each other along a first direction, and the second metal frame and the third metal frame are disposed adjacent to each other along a second direction.

9. The camera mount of claim 8, wherein the first direction and the second direction are both perpendicular to the vertical direction and perpendicular to each other.

10. The camera bracket of claim 9, wherein the plastic body comprises a first plastic frame corresponding to the first metal frame, a second plastic frame corresponding to the second metal frame, and a third plastic frame corresponding to the third metal frame, the second plastic frame has a first plastic frame arm and a second plastic frame arm that are adjacently disposed and perpendicular to each other, the first plastic frame and the second plastic frame share the first plastic frame arm, and the second plastic frame and the third plastic frame share the second plastic frame arm.

11. The camera bracket of claim 10, wherein the first metal frame is surrounded by a plurality of first connecting arms, the second metal frame is surrounded by a plurality of second connecting arms, the third metal frame is surrounded by a plurality of third connecting arms, the first metal frame and the second metal frame are adjacent, the first connecting arms and the second connecting arms are integrally connected and jointly embedded in the first plastic frame arm, and the second metal frame and the third metal frame are adjacent, the second connecting arms and the third connecting arms are integrally connected and jointly embedded in the second plastic frame arm.

12. The camera bracket of claim 11, wherein said first connecting arm and said second connecting arm are stacked in said horizontal plane at a spacing along said first direction where said first metal frame and said second metal frame abut; and at the position where the second metal frame is adjacent to the third metal frame, the second connecting arm and the third connecting arm are overlapped at intervals along the second direction in the horizontal plane.

13. The camera bracket according to claim 4, wherein the metal plate is integrally stamped to form the strip-shaped material strips corresponding to each metal frame, the strip-shaped material strips are arranged in parallel at intervals, a part of the middle position of each two adjacent strip-shaped material strips is integrally connected, each strip-shaped material strip is bent to form the metal frame in a surrounding manner, two ends of each strip-shaped material strip are connected through a riveting process to form a riveting position, and the riveting position is located on one of the connecting arms of the metal frame.

14. The camera bracket according to claim 13, wherein the strip-shaped material strap comprises a base connecting arm, a first opposing connecting arm at one end of the base connecting arm, a second opposing connecting arm at the other end of the base connecting arm, a first portion of a riveting connecting arm connected to one end of the first opposing connecting arm away from the base connecting arm, and a second portion of a riveting connecting arm connected to one end of the second opposing connecting arm away from the base connecting arm, wherein a terminal of the first portion of the riveting connecting arm and a terminal of the second portion are riveted to each other so that the riveting connecting arm is parallel-opposed to the base connecting arm, the first opposing connecting arm is parallel-opposed to the second opposing connecting arm, and the base connecting arm is integrally connected to the first opposing connecting arm or the second opposing connecting arm of an adjacent metal frame to form two adjacent connecting arms of the two adjacent metal frames.

15. The camera bracket of claim 14, wherein said base connecting arms of two adjacent strips of material are staggered along the direction of arrangement of said strips of material.

16. The camera bracket of claim 1, wherein said connecting arm is provided with a plurality of through holes.

17. The camera mount of claim 1, wherein the metal member is made of stainless steel.

18. The production process of the camera support is characterized by comprising the following steps of:

s11, integrally stamping a metal plate to form a peripheral material belt and at least one strip-shaped material belt connected with the peripheral material belt, wherein the peripheral material belt and the strip-shaped material belt are positioned in a horizontal plane;

s12, bending the strip-shaped material belt to form a metal frame, wherein the metal frame is a closed frame opening with a hollow bottom surface and formed by surrounding a plurality of connecting arms, bending the strip-shaped material belt along the direction of the closed frame opening to form a plurality of connecting arms, and distributing the connecting arms in a vertical plane perpendicular to the horizontal plane;

s13, integrally injection-molding a plastic body on the outer sides of the connecting arms of the metal frame;

and S14, cutting off the peripheral material belt to form the camera support.

19. The process for producing a camera holder according to claim 18, wherein in the step S12, two ends of the strip-shaped material tape are connected by a riveting process to form a riveted joint, and the riveted joint is located on one of the connecting arms of the metal frame.

20. The production process of the camera bracket according to claim 18, wherein in the steps S11 and S12, the metal plate is integrally stamped to form a plurality of strip-shaped material belts connected to the peripheral material belt, the strip-shaped material belts are arranged in parallel at intervals, a part of the strip-shaped material belts is integrally connected to a middle position of two adjacent strip-shaped material belts, the strip-shaped material belts are sequentially bent to form a plurality of metal frames, the metal frames are sequentially arranged adjacently, and the metal frames are located in the horizontal plane.

21. The production process of the camera bracket according to claim 20, wherein each strip-shaped material strap comprises a base connecting arm, a first opposite connecting arm located at one end of the base connecting arm, a second opposite connecting arm located at the other end of the base connecting arm, a first portion of a riveting connecting arm connected to one end of the first opposite connecting arm away from the base connecting arm, and a second portion of a riveting connecting arm connected to one end of the second opposite connecting arm away from the base connecting arm, wherein the tail end of the first portion of the riveting connecting arm and the tail end of the second portion of the riveting connecting arm are riveted with each other so that the riveting connecting arm is parallel to and opposite to the base connecting arm, the first opposite connecting arm is parallel to and opposite to the second opposite connecting arm, and the base connecting arm is integrally connected with the first opposite connecting arm or the second opposite connecting arm of an adjacent metal frame to form two adjacent connecting arms of the two adjacent metal frames.

22. The production process of the camera bracket according to claim 21, wherein the base connecting arms of two adjacent strip-shaped material belts are arranged in a staggered manner along the arrangement direction of the plurality of strip-shaped material belts.

23. A camera assembly, characterized in that it comprises at least one camera and a camera support according to any one of claims 1 to 17.

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