CN219799271U - Multi-arc detection device for mobile phone shell - Google Patents

Abstract

The utility model discloses a multi-arc detection device for a mobile phone shell, which comprises: the first lamp bracket is internally provided with a cavity for the in-out and detection of the target mobile phone; a first annular light-emitting component is arranged in the first lamp bracket; a plurality of first observation windows are arranged on the peripheral wall of the first lamp bracket; the second lamp holder is fixedly connected with one end of the first lamp holder and is communicated with the cavity; the second lamp bracket comprises a second annular luminous component and an arc hemispherical reflection dome, the light emitted by the second annular luminous component faces to the inner wall of the reflection dome, and a plurality of second observation windows are arranged on the reflection dome. Through the design of first lighting fixture and second lighting fixture, can simply detect four circular arc angles of target cell-phone clearly, improve detection efficiency.

Description

Multi-arc detection device for mobile phone shell

Technical Field

The utility model relates to the technical field of detection light sources, in particular to a multi-arc detection device for a mobile phone shell.

Background

The rear cover of the mobile phone shell is usually made of metal, signal wires are embedded in the shell, the signal wires are arranged at four corner positions, corners are generally designed in a multi-arc mode, the rear cover of the mobile phone is generally made of thin plastic parts, hardware parts or plastic hardware assemblies, and the parts are large in size and thin, so that flaws, chromatic aberration, white spots or deformation are easily generated at the joints of the four corners of the rear cover of the mobile phone and the signal wires in the production process; in addition, gaps are easily generated after the finished product is assembled, and impurities such as dust enter the mobile phone to cause the fault of the mobile phone. Therefore, the signal line and the arc angle of the mobile phone case need to be detected.

The existing detection device has the defects that the light source is difficult to detect the arc-shaped corners of the mobile phone shell due to the shape and the structure, four corners cannot be detected at one time, the position needs to be manually adjusted for multiple times of detection, the time and the labor are consumed, and the detection efficiency is low.

Disclosure of Invention

In order to solve the technical problems, the utility model aims to provide a multi-arc detection device for a mobile phone shell, which is used for simply and clearly detecting four arc angles of a target mobile phone and improving detection efficiency.

In view of the above, the present utility model provides a multi-arc detection device for a mobile phone case, comprising:

the first lamp bracket is internally provided with a cavity for the in-out and detection of the target mobile phone; a first annular light-emitting component is arranged in the first lamp bracket; a plurality of first observation windows are arranged on the peripheral wall of the first lamp bracket;

the second lamp holder is fixedly connected with one end of the first lamp holder and is communicated with the cavity;

the second lamp bracket comprises a second annular luminous component and an arc hemispherical reflection dome, the light emitted by the second annular luminous component faces to the inner wall of the reflection dome, and a plurality of second observation windows are arranged on the reflection dome.

Further, the first observation windows are arranged at intervals along the peripheral wall of the first lamp bracket, and a plurality of the first observation windows are arranged right above the target mobile phone.

Further, the second viewing windows are spaced along the top wall of the reflective dome, wherein a plurality of the second viewing windows are disposed at a center point of the top surface of the reflective dome.

Further, the second annular light emitting assembly comprises an annular base and a third annular lamp panel, and the third annular lamp panel is arranged on the inner peripheral side of the annular base.

Further, an annular mounting plate is arranged on the top surface of the outer edge of the annular base, and the annular mounting plate is fixedly connected with the annular edge of the reflection dome piece.

Further, the first lamp holder is hollow cylindrical.

Further, an inlet and an outlet for the target mobile phone to enter and exit are arranged on the peripheral wall of the first lamp bracket.

Further, the first annular light-emitting component comprises a first annular lamp panel and a second annular lamp panel which are arranged at intervals, and the light emitting direction of the first annular lamp panel and the light emitting direction of the second annular lamp panel are opposite.

Further, the first annular lamp panel is arranged on one surface, far away from the second annular lamp panel, of the annular base.

Further, the second annular lamp panel is arranged on the underframe of the first lamp holder far away from the second lamp holder.

The utility model has the beneficial effects that: the embodiment of the utility model provides a multi-arc detection device for a mobile phone shell, which comprises the following components: the first lamp bracket is internally provided with a cavity for the in-out and detection of the target mobile phone; a first annular light-emitting component is arranged in the first lamp bracket; a plurality of first observation windows are arranged on the peripheral wall of the first lamp bracket; the second lamp holder is fixedly connected with one end of the first lamp holder and is communicated with the cavity; the second lamp bracket comprises a second annular luminous component and an arc hemispherical reflection dome, the light emitted by the second annular luminous component faces to the inner wall of the reflection dome, and a plurality of second observation windows are arranged on the reflection dome. Through the design of first lighting fixture and second lighting fixture for can simply clearly detect four circular arc angles of target cell-phone, improve detection efficiency.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic diagram of an overall structure of a multi-arc detection device for a mobile phone shell according to an embodiment of the present utility model;

fig. 2 is an exploded view of a multi-arc detection device for a mobile phone shell according to an embodiment of the present utility model;

FIG. 3 is a side view of a CCD camera added in use for a multi-arc detection device for a mobile phone housing according to an embodiment of the present utility model;

fig. 4 is a top view of a CCD camera added in use for a multi-arc detection device for a mobile phone case according to an embodiment of the present utility model.

In the figure: 100. a first viewing window; 200. a second viewing window; 1. a first lamp holder; 10. a cavity; 11. a first annular light emitting assembly; 110. a first annular lamp panel; 111. a second annular lamp panel;

2. a second lamp holder; 20. a second annular light emitting assembly; 21. a reflective dome; 201. an annular base; 202. the third annular lamp panel; 203. and (3) mounting a plate.

Detailed Description

The embodiment of the utility model provides a multi-arc detection device for a mobile phone shell, which is used for simply and clearly detecting four arc angles of a target mobile phone and improving detection efficiency.

In order to make the objects, features and advantages of the present utility model more comprehensible, the technical solutions in the embodiments of the present utility model are described in detail below with reference to the accompanying drawings, and it is apparent that the embodiments described below are only some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

Examples:

fig. 1 is a schematic diagram of an overall structure of a multi-arc detection device for a mobile phone shell, as shown in fig. 1 to 4, and the multi-arc detection device for a mobile phone shell includes: the mobile phone comprises a first lamp holder 1, wherein a cavity 10 for allowing a target mobile phone to enter and exit and detect is formed in the first lamp holder 1; the cavity 10 is used for placing a target mobile phone, a rear cover of the target mobile phone is upwards placed on a clamp figure which is not shown, then the target mobile phone is moved into the cavity 10 through a carrying assembly, a positioning base which can rotate 180 degrees is arranged in the cavity 10 and is not shown in the figure, the positioning base can fix the clamp, and the clamp and the mobile phone on the clamp can rotate 180 degrees. Therefore, after the arc-shaped corner and the signal line at one end of the target mobile phone are detected, the target mobile phone can be automatically rotated to detect the arc-shaped corner and the signal line at the other end of the target mobile phone.

In addition, a first annular light-emitting component 11 is arranged in the first lamp bracket 1; a plurality of first observation windows 100 are arranged on the peripheral wall of the first lamp bracket 1; specifically, the first annular light emitting component 11 is configured to emit light to illuminate a detection surface of a target mobile phone, and the first observation window 100 is configured to mount a CCD camera, where a plurality of first observation windows 100 are disposed on a peripheral wall of the first lamp holder 1, and capturing images of a rear cover, a signal line, a side edge and a circular arc corner of the target mobile phone from different angles respectively.

Specifically, the second lamp holder 2 is fixedly connected with one end of the first lamp holder 1 and is communicated with the cavity 10; the second lamp holder 2 includes a second ring-shaped light emitting component 20 and an arc-shaped hemispherical reflective dome 21, the light emitted from the second ring-shaped light emitting component 20 is directed to the inner wall of the reflective dome 21, the inner wall of the reflective dome 21 diffusely reflects the light beam, the diffusely reflected light covers the position of the arc corner of the target mobile phone, and then an image of the arc corner of the target mobile phone is obtained by means of CCD cameras installed in a plurality of second viewing windows 200 provided on the reflective dome 21.

Working principle: the method comprises the steps that a target mobile phone is positioned through a clamp, then the target mobile phone is sucked through a sucker of a carrying assembly and placed on a detection station of a cavity 10, a first annular light-emitting assembly 11 and a second annular light-emitting assembly 20 start to detect a signal wire package at the front end of the target mobile phone, then the clamp rotates for 180 degrees, the detection of the signal wire package of the mobile phone at the rear end is started, and a rearview carrying assembly after detection is completed moves the target mobile phone to a discharging position. Through the design of the first annular light-emitting component 11 of the first lamp holder 1 and the reflective dome piece 21 and the second annular light-emitting component 20 of the second lamp holder 2, four arc angles of a target mobile phone can be simply and clearly detected, and the detection efficiency is improved.

Further, as shown in fig. 3, the first observation windows 100 are disposed at intervals along the peripheral wall of the first lamp holder 1, where a plurality of the first observation windows 100 are disposed right above the target mobile phone.

Specifically, according to the placement position of the target mobile phone, a plurality of first observation windows 100 are arranged on the peripheral wall of the first lamp bracket 1 at intervals, wherein one or a plurality of first observation windows 100 can be arranged right above the target mobile phone, and the metal shell and the signal wire on the rear cover of the target mobile phone can be conveniently detected.

Further, as shown in fig. 4, the second viewing windows 200 are spaced along the top wall of the reflective dome 21, wherein a plurality of the second viewing windows 200 are disposed at the center point of the top surface of the reflective dome 21.

Specifically, the second observation windows 200 are disposed at intervals along the top wall of the reflective dome 21, wherein one or more second observation windows 200 are disposed at the top center point of the reflective dome 21, so as to facilitate detection of the signal line at the front end of the target cell phone.

It should be noted that, the other first observation window 100 and the second observation window 200 are disposed on two sides, or selectively disposed according to the placement of the target mobile phone, and the positions of the first observation window 100 and the second observation window 200 are not particularly limited.

Further, as shown in fig. 2, the second annular light emitting assembly 20 includes an annular base 201 and a third annular lamp panel 202, and the third annular lamp panel 202 is disposed on an inner peripheral side of the annular base 201.

Specifically, the annular base 201 of the second annular light emitting assembly 20 is disposed at the bottom of the reflective dome 21, the third annular light panel 202 is disposed at the inner peripheral side of the annular base 201, the diameter of the annular base 201 is larger than that of the third annular light panel 202, the third annular light panel 202 includes a circuit board and a plurality of LED light beads disposed on the circuit board, and the color types of the LED light beads are not limited.

Further, as shown in fig. 2, an annular mounting plate 203 is provided on the top surface of the outer edge of the annular base 201, and the annular mounting plate 203 is fixedly connected to the annular rim of the reflective dome 21.

Specifically, an annular mounting plate 203 is disposed on the top surface of the outer edge of the annular base 201, the annular mounting plate 203 is fixedly connected with the annular rim of the reflective dome 21, and the diameter of the annular mounting plate 203 is the same as the diameter of the reflective dome 21.

Further, as shown in fig. 3, the first lamp holder 1 is hollow cylindrical.

Specifically, the first lamp holder 1 is provided with a hollow cylindrical shape, and an inlet and an outlet 12 for the target mobile phone to enter and exit are arranged on the peripheral wall of the first lamp holder 1, and the inlet and the outlet can be strip-shaped or other shapes.

Further, as shown in fig. 2, the first annular light emitting assembly 11 includes a first annular light panel 110 and a second annular light panel 111 that are disposed at intervals, and a light emitting direction of the first annular light panel 110 and a light emitting direction of the second annular light panel 111 are disposed opposite to each other.

Specifically, the first annular lamp panel 110 and the second annular lamp panel 111 each include a circuit board and an LED lamp bead, and the light emitting directions of the LED lamp beads of the two are opposite to each other.

Further, as shown in fig. 2, the first annular lamp panel 110 is disposed on a surface of the annular base 201 away from the second annular lamp panel 111.

Specifically, the first annular lamp panel 110 is disposed on a surface of the annular base 201 away from the third annular lamp panel 202, and the diameter of the first annular lamp panel 110 is the same as the diameter of the third annular lamp panel 202.

Further, as shown in fig. 2, the second annular lamp panel 111 is disposed on the chassis 13 of the first lamp stand 1 remote from the second lamp stand 2.

Specifically, one end of the first annular lamp panel 110 close to the second lamp holder 2 is set to be the top surface of the cylindrical first lamp holder 1, and the second annular lamp panel 111 is set on the bottom frame 13 of the first lamp holder 1 far from the second lamp holder 2.

In summary, an embodiment of the present utility model provides a multi-arc detection device for a mobile phone shell, including: the first lamp bracket is internally provided with a cavity for the in-out and detection of the target mobile phone; a first annular light-emitting component is arranged in the first lamp bracket; a plurality of first observation windows are arranged on the peripheral wall of the first lamp bracket; the second lamp holder is fixedly connected with one end of the first lamp holder and is communicated with the cavity; the second lamp bracket comprises a second annular luminous component and an arc hemispherical reflection dome, the light emitted by the second annular luminous component faces to the inner wall of the reflection dome, and a plurality of second observation windows are arranged on the reflection dome. Through the design of first lighting fixture and second lighting fixture for can simply clearly detect four circular arc angles of target cell-phone, improve detection efficiency.

The above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. A be used for cell phone case many circular arcs detection device, characterized by comprising:

the mobile phone comprises a first lamp holder (1), wherein a cavity (10) for allowing a target mobile phone to enter and exit and detect is formed in the first lamp holder (1); a first annular light-emitting component (11) is arranged in the first lamp bracket (1); a plurality of first observation windows (100) are arranged on the peripheral wall of the first lamp bracket (1);

the second lamp holder (2) is fixedly connected with one end of the first lamp holder (1) and is communicated with the cavity (10);

the second lamp holder (2) comprises a second annular luminous component (20) and an arc hemispherical reflecting dome (21), the emergent light of the second annular luminous component (20) faces to the inner wall of the reflecting dome (21), and a plurality of second observation windows (200) are arranged on the reflecting dome (21).

2. The multi-arc detection device for the mobile phone shell according to claim 1, wherein the first observation windows (100) are arranged at intervals along the peripheral wall of the first lamp bracket (1), and a plurality of the first observation windows (100) are arranged right above a target mobile phone.

3. The multi-arc detection apparatus for a mobile phone case according to claim 1, wherein the second viewing windows (200) are spaced along the top wall of the reflective dome (21), wherein a plurality of the second viewing windows (200) are disposed at a top center point of the reflective dome (21).

4. The multi-arc detection device for a mobile phone case according to claim 1, wherein the second annular light emitting assembly (20) includes an annular base (201) and a third annular lamp panel (202), the third annular lamp panel (202) being disposed on an inner peripheral side of the annular base (201).

5. The multi-arc detection device for a mobile phone case according to claim 4, wherein an annular mounting plate (203) is provided on the top surface of the outer edge of the annular base (201), and the annular mounting plate (203) is fixedly connected with the annular edge of the reflective dome (21).

6. The multi-arc detection device for the mobile phone shell according to claim 4, wherein the first lamp holder (1) is hollow cylindrical.

7. The multi-arc detection device for the mobile phone shell according to claim 6, wherein an inlet and an outlet (12) for the target mobile phone to enter and exit are arranged on the peripheral wall of the first lamp bracket (1).

8. The multi-arc detection device for a mobile phone case according to claim 7, wherein the first annular light emitting component (11) comprises a first annular lamp panel (110) and a second annular lamp panel (111) which are arranged at intervals, and the light emitting direction of the first annular lamp panel (110) and the light emitting direction of the second annular lamp panel (111) are arranged opposite to each other.

9. The multi-arc detection device for a mobile phone case according to claim 8, wherein the first annular lamp panel (110) is disposed on a side of the annular base (201) away from the second annular lamp panel (111).

10. The multi-arc detection device for a mobile phone shell according to claim 8, wherein the second annular lamp panel (111) is arranged on a chassis (13) of the first lamp holder (1) far away from the second lamp holder (2).