CN211347995U - Mobile phone screen detection mechanism - Google Patents

Abstract

The utility model relates to a mobile phone screen detection mechanism, which comprises a base, a support plate, a first mobile station, a second mobile station and a CCD camera; the base is concave and is provided with two linear guide rails; the support plate is slidably arranged on the linear guide rail; the first mobile station is arranged on the support plate, and the length extension direction of the linear track of the first mobile station is consistent with the length extension direction of the support plate; the second mobile station is connected with the first mobile station; the length extension direction of the linear track is vertical to that of the first mobile station linear track; the second mobile station is fixedly connected with the CCD camera at the same time. The CCD camera arranged in the mechanism can freely move in a three-dimensional space under the action of the first moving block, the second moving block and the supporting plate, and the reference point of the CCD camera is only required to be readjusted for a new machine type without manufacturing equipment, so that mobile phone screens of various types and sizes can be detected, and the universality is good; in addition, the mechanism has simple structure, convenient operation and low cost.

Description

Mobile phone screen detection mechanism

Technical Field

The utility model relates to a cell-phone detection area especially relates to a cell-phone screen detection mechanism.

Background

With the development of society, mobile phones have become an indispensable tool in people's life. The mobile phone screen is used as an important component of the mobile phone, and the quality of the mobile phone screen is directly related to the quality of the mobile phone. At present, the detection of the screen of the mobile phone is mostly finished manually; however, because the current mobile phone has a large output, if manual detection is adopted, due to the fact that standards of human eyes are inconsistent, misjudgment is caused due to low accuracy, and a streamline worker artificially detects the station for a long time, and irreversible damage is caused to eyesight. Therefore, manual detection is changed into automatic detection by the instrument for testing the mobile phone screen; however, at present, automatic detection instruments for mobile phone screens are complex in structure, high in cost, suitable for only specific or limited mobile phones and low in universality.

Disclosure of Invention

The utility model overcomes prior art's is not enough, provides a simple structure, strong mobile phone screen detection mechanism of commonality.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a cell-phone screen detection mechanism which characterized in that: the device comprises a base, a supporting plate, a first mobile platform, a second mobile platform and a CCD camera; the base is concave and comprises a base part and protruding parts arranged on two sides of the base part, and the two protruding parts are perpendicular to the base part; linear guide rails are arranged on the extension parts, and the length extension direction of the linear guide rails is the same as that of the extension parts; the supporting plate is horizontally arranged on the base, two ends of the supporting plate are respectively slidably arranged on the linear guide rails, and the length extending direction of the supporting plate is perpendicular to the length extending direction of the two linear guide rails; the first mobile station and the second mobile station respectively comprise a linear track and a moving block capable of moving along the linear track; the first moving platform is arranged on the supporting plate, and the length extending direction of the linear track of the first moving platform is consistent with the length extending direction of the supporting plate; the moving block of the first moving platform extends out of the support plate and is positioned in a gap formed by surrounding of the base part and the extending part of the base; the second mobile station is connected with the first mobile station moving block; the length extension direction of the linear track of the second mobile station is vertical to that of the linear track of the first mobile station; and the moving block of the second moving platform is fixedly connected with the CCD camera.

As a preferred scheme, the first mobile station and the second mobile station are both dovetail groove sliding tables.

As a more preferable scheme, the first moving table and the second moving table are respectively provided with a stop screw and a feed knob.

As a preferred scheme, a plurality of supporting guide blocks are arranged on the linear guide rail; the two ends of the bottom of the supporting plate are respectively provided with a sliding chute corresponding to the linear guide rail; the sliding grooves can be respectively embedded on the supporting guide blocks on the corresponding linear guide rails and can slide.

More preferably, the two ends of the supporting plate are respectively provided with a stop handle at the positions corresponding to the sliding grooves.

As a further preferred solution, the position of the support guide shoes on the linear guide is adjustable.

Preferably, the two ends of the linear track of the first mobile station and the second mobile station are respectively provided with a light probe.

The beneficial technical effects of the utility model mainly lie in: the mobile phone screen detection mechanism is simple in structure and high in universality. Compared with the traditional manual detection, the mechanism has the advantages that the CCD camera is arranged to detect the screen of the mobile phone to be detected, so that the detection precision is better, the detection efficiency is higher, and the labor cost is lower; meanwhile, the CCD camera can freely move in a three-dimensional space under the action of the first mobile station moving block, the second mobile station moving block and the supporting plate, the adjustment is convenient, the reference point of the CCD camera is only required to be adjusted again for a new machine type, and equipment is not required to be manufactured, so that mobile phone screens of various types and sizes can be detected, and the universality is good; in addition, the mechanism has simple structure, convenient operation and low cost.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic top view of a preferred embodiment of the invention.

Fig. 2 is a schematic front view of a preferred embodiment of the present invention.

Fig. 3 is a schematic side view of a preferred embodiment of the invention.

Fig. 4 is an enlarged view of a in fig. 3.

In the figure: reference numeral 1 denotes a base, 11 denotes a base, 12 denotes an extension, 121 denotes a linear guide, 122 denotes a support guide, 2 denotes a support plate, 21 denotes a chute, 22 denotes a stop knob, 3 denotes a first moving stage, 31 denotes a first moving stage linear rail, 32 denotes a first moving stage moving block, 33 denotes a first moving stage stop screw, 34 denotes a first moving stage feed knob, 4 denotes a second moving stage, 41 denotes a second moving stage linear rail, 42 denotes a second moving stage moving block, 43 denotes a second moving stage stop screw, 44 denotes a second moving stage feed knob, 5 denotes a CCD camera, and 6 denotes a light probe.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings, which are simplified schematic drawings and illustrate, by way of illustration only, the basic structure of the invention, and which therefore show only the constituents relevant to the invention. The structures, connections and methods not described in detail in the examples are all understood to be common knowledge in the art. It should also be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1-4, a mobile phone screen detection mechanism includes a base 1, a support plate 2, a first mobile station 3, a second mobile station 4, and a CCD camera 5.

The base 1 is of a concave structure and comprises a base 11 and two extending parts 12 arranged on two sides of the base 11, wherein the two extending parts 12 are parallel and are both perpendicular to the base 11; linear guide rails 121 are arranged on the extension parts 12, the two linear guide rails 121 are parallel, and the length extension direction of the linear guide rails is the same as that of the extension parts 12; a plurality of supporting guide blocks 122 are dispersedly arranged on the linear guide rail 121; the support guide 122 is position-adjustably provided on the linear guide 121; when in use, the supporting guide block 122 is firstly moved to a desired position on the linear guide rail 121, and the supporting guide block 122 is fixed on the linear guide rail 121 by conventional devices such as locking screws, buckles and the like; if the position of the supporting guide block 122 needs to be changed, the locking screw, the buckle and the like are loosened for adjustment again.

The supporting plate 2 is a rectangular structure with four corners provided with chamfers and is horizontally arranged on the base 1; the lower surfaces of two ends of the supporting plate 2 are respectively provided with a sliding chute 21, the length extending direction of the sliding chute 21 is vertical to the length extending direction of the supporting plate 2 (namely the length extending direction of the sliding chute 21 is consistent with the width extending direction of the supporting plate 2), and two ends of the sliding chute 21 respectively penetrate through corresponding side surfaces of the supporting plate 2; the sliding grooves 21 correspond to the positions of the linear guide rails 121 and the sizes of the supporting guide blocks 122, so that the sliding grooves 21 can be respectively embedded in the supporting guide blocks 122 on the corresponding linear guide rails 121, and the sliding grooves 21 can slide along the linear guide rails 121 under the guidance of the supporting guide blocks 122 (at this time, the length extension direction of the support plate 2 is perpendicular to the length extension directions of the two linear guide rails 121); a plurality of position-adjustable supporting guide blocks 122 are arranged on the linear guide rail 121, so that the relative positions of the supporting guide blocks 122 can be adjusted according to the width of the supporting plate 2, and the supporting plates 2 with various sizes can be conveniently used; the upper surfaces of the two ends of the supporting plate 2 are respectively provided with a stop handle 22 at the positions corresponding to the sliding grooves 21; after the support plate 2 is slid along the linear guide 121 to a desired position, the position can be fixed by the brake knob 22; at the same time, the arrangement of the stop handle 22 can also better push the support plate 2 to slide on the linear guide 121; the stopping handle 22 may be of a conventional structure in the art, for example, the stopping handle 22 may include a handle and a pressing rod penetrating the supporting plate 2, and one end of the handle is connected with the pressing rod; the other end of the handle is lifted up, and the pressure lever can be pressed downwards, so that the pressure lever can prop against the support guide block 122 or the linear guide rail 121, the effect of fixing the position is achieved, and the change of the reference caused by accidental touch of personnel is prevented.

The first mobile station 3 and the second mobile station 4 are dovetail groove sliding tables; both comprise a linear track (31, 41) and a mobile block (32, 42) movable along the linear track; the first mobile station 3 is fixedly connected to the support plate 2; the linear track 31 of the first mobile station 3 is horizontally arranged, and the length extension direction of the linear track is consistent with that of the support plate 2, so that the moving block 32 of the first mobile station 3 moves along the horizontal direction; the moving block 32 of the first moving table 3 extends out of the support plate 2 and is positioned in a gap enclosed by three surfaces of the base part 11 and the extension part 12; the top of the first moving platform moving block 32 is fixedly connected with the back of the linear track 41 of the second moving platform 4; the second moving stage linear track 41 is vertically arranged, and the length extension direction thereof is perpendicular to the length extension direction of the first moving stage linear track 31, so that the moving block 42 of the second moving stage 4 can move up and down; the top of the second moving block 42 is fixedly connected with the CCD camera 5; the CCD camera 5 is moved to the detection position of the mobile phone to be detected through the sliding of the first mobile station moving block 32 and the second mobile station moving block 42 and the sliding of the support plate 2 on the linear guide rail 121; the CCD camera 5 photographs and compares the screen of the mobile phone to be detected, so that the screen of the mobile phone is detected, and compared with the traditional manual detection, the detection precision is better, the detection efficiency is higher, and the labor cost is lower; meanwhile, the CCD camera 5 can freely move in a three-dimensional space under the action of the first moving platform moving block 32, the second moving platform moving block 42 and the supporting plate 2, so that mobile phone screens of various types and sizes can be detected, and the universality is good; and the structure is simple and the cost is low.

In addition, the first moving table 3 and the second moving table 4 are respectively provided with stop screws (33, 43) and feed knobs (34, 44), so that the first moving table moving block 32 and the second moving table moving block 42 can be moved and positioned better.

The light probes 6 are respectively disposed at both ends of the first and second moving stage linear rails 31 and 41. The light probe 6 can detect light intensity and can send out a reminding signal when the detected light intensity is weakened (the setting is similar to the shading and photographing function on the current commonly used automobile data recorder, the difference is that on the automobile data recorder, when a finger covers the probe, a photographing signal is sent out, and the reminding signal is sent out in the device). The purpose of this setting is: in the operation of actually adjusting the position of the CCD camera 5, an operator usually pays attention to the position between the CCD camera 5 and the mobile phone to be detected, ignores whether the moving blocks (32 and 42) move to the edges of the linear tracks (31 and 41) or not and has the danger of unstable support or not; the setting of the light probe 6 is a reminder for this.

In light of the foregoing, it is to be understood that various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. The utility model provides a cell-phone screen detection mechanism which characterized in that: the device comprises a base, a supporting plate, a first mobile platform, a second mobile platform and a CCD camera; the base is concave and comprises a base part and protruding parts arranged on two sides of the base part, and the two protruding parts are perpendicular to the base part; linear guide rails are arranged on the extension parts, and the length extension direction of the linear guide rails is the same as that of the extension parts; the supporting plate is horizontally arranged on the base, two ends of the supporting plate are respectively slidably arranged on the linear guide rails, and the length extending direction of the supporting plate is perpendicular to the length extending direction of the two linear guide rails; the first mobile station and the second mobile station respectively comprise a linear track and a moving block capable of moving along the linear track; the first moving platform is arranged on the supporting plate, and the length extending direction of the linear track of the first moving platform is consistent with the length extending direction of the supporting plate; the moving block of the first moving platform extends out of the support plate and is positioned in a gap formed by surrounding of the base part and the extending part of the base; the second mobile station is connected with the first mobile station moving block; the length extension direction of the linear track of the second mobile station is vertical to that of the linear track of the first mobile station; and the moving block of the second moving platform is fixedly connected with the CCD camera.

2. The mobile phone screen detection mechanism of claim 1, wherein: the first mobile station and the second mobile station are both dovetail groove sliding tables.

3. The mobile phone screen detection mechanism of claim 2, wherein: the first mobile station and the second mobile station are respectively provided with a stop screw and a feed knob.

4. The mobile phone screen detection mechanism of claim 1, wherein: a plurality of supporting guide blocks are arranged on the linear guide rail; the two ends of the bottom of the supporting plate are respectively provided with a sliding chute corresponding to the linear guide rail; the sliding grooves can be respectively embedded on the supporting guide blocks on the corresponding linear guide rails and can slide.

5. The mobile phone screen detection mechanism of claim 4, wherein: and the positions of the two ends of the supporting plate corresponding to the sliding grooves are respectively provided with a stop handle.

6. The mobile phone screen detection mechanism of claim 4, wherein: the position of the support guide block on the linear guide rail is adjustable.

7. The mobile phone screen detection mechanism of claim 1, wherein: and two ends of the linear track of the first mobile station and the second mobile station are respectively provided with a light probe.

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