CN108322587B - Mobile phone part detection equipment - Google Patents

Abstract

The invention discloses mobile phone part detection equipment, which comprises a base box, a carrier for carrying mobile phone parts, a positioning mechanism, a detection module for detecting mobile phone parts and a power mechanism, wherein a horizontal working platform is arranged on the top side of the base box, the carrier is movably arranged on the horizontal working platform, and the carrier can be fixed relative to the horizontal working platform under the action of the positioning mechanism; the detection module is arranged above the horizontal working platform and can also move under the drive of the power mechanism so as to detect mobile phone parts arranged on the carrier; compared with the prior art, the mobile phone part detection equipment has the advantages of high control intelligent degree, high detection precision and high running speed, effectively ensures the product yield and greatly improves the production efficiency.

Description

Mobile phone part detection equipment

Technical Field

The invention relates to the technical field of detection equipment, and particularly provides mobile phone part detection equipment.

Background

With the development of the smart phone industry, the quality control of mobile phones is a common pursuit of all mobile phone manufacturers, and the quality of mobile phones is a serious issue in the mobile phone production process.

In the current manufacturing process of mobile phones, in order to control the quality of the mobile phones, after the mobile phone products are manufactured and assembled at each stage, the mobile phones are required to be detected to determine whether the mobile phones are OK products. However, in the current mobile phone production line, the quality detection is performed on the mobile phone through manual operation, so that the detection precision is low, the working efficiency is low, a large amount of manpower is consumed, and the production cost is high.

In view of this, the present invention has been made.

Disclosure of Invention

In order to overcome the defects, the invention provides the mobile phone part detection equipment which has the advantages of high control intelligent degree, high detection precision and high running speed, thereby not only effectively ensuring the product yield, but also greatly improving the production efficiency.

The technical scheme adopted by the invention for solving the technical problems is as follows: the mobile phone part detection equipment comprises a base box, a carrier for carrying mobile phone parts, a positioning mechanism, a detection module for detecting the mobile phone parts and a power mechanism, wherein a horizontal working platform is arranged on the top side of the base box, the carrier is movably arranged on the horizontal working platform, and the carrier can be fixed relative to the horizontal working platform under the action of the positioning mechanism; the detection module is arranged above the horizontal working platform, and the detection module can also move in position under the drive of the power mechanism so as to detect mobile phone parts arranged on the carrier.

As a further improvement of the present invention, the left-right direction is defined as the X-axis direction and the front-rear direction is defined as the Y-axis direction based on the use state of the mobile phone component detection device;

two first sliding rails which extend along the Y-axis direction are positioned and laid on the horizontal working platform; the carrier comprises a carrier main body for bearing mobile phone parts, the carrier main body is bridged on the two first sliding rails and is also respectively connected with the two first sliding rails in a matched sliding way, and the carrier main body is also provided with a plurality of suckers for sucking the mobile phone parts and a photoelectric sensor for sensing whether the mobile phone part information is placed or not.

As a further improvement of the invention, two limiting blocks used for limiting the carrier are positioned between the two first sliding rails, and the two limiting blocks are close to two sides of the length direction of the first sliding rails.

As a further improvement of the invention, the structure for realizing the fixing of the carrier relative to the horizontal working platform under the action of the positioning mechanism is as follows: the positioning mechanism comprises two jacking cylinders, the two jacking cylinders are arranged on the horizontal working platform at intervals along the X-axis direction, and meanwhile, the two jacking cylinders are also oppositely arranged outside two sides of the carrier, in addition, the piston rods of the two jacking cylinders are upwards directed, a pressing block is respectively and fixedly connected to the piston rod of each jacking cylinder, and the two pressing blocks can be respectively pressed against and far away from the carrier main body under the driving of the two jacking cylinders.

As a further improvement of the invention, two vertical frames are positioned and arranged on the horizontal working platform, the two vertical frames are arranged at intervals along the X-axis direction, and the carrier, the positioning mechanism and the two first sliding rails are also arranged between the two vertical frames;

the detection module comprises a mounting seat, a laser device and a CCD camera, wherein the laser device and the CCD camera are both mounted on the mounting seat; and realize the detection module can also carry out the position movement under power unit's drive to place in the cell-phone spare part on the carrier detects the structure does: the power mechanism comprises a first power mechanism and a second power mechanism, wherein the first power mechanism is arranged on the top side of one stand, the second power mechanism is bridged on the top sides of two stands and is also respectively connected with the top sides of the two stands in a matched sliding way, and the second power mechanism can be driven by the first power mechanism to carry out reciprocating movement positioning along the Y-axis direction; the mounting seat is connected to the second power mechanism, and can be driven by the second power mechanism to reciprocate along the X-axis direction for positioning.

As a further improvement of the invention, the first power mechanism comprises a first servo motor, a first mounting frame and a first ball screw assembly, wherein the first servo motor and the first mounting frame are respectively and fixedly arranged on the top side of one stand, the first ball screw assembly is provided with a first screw and a first nut which is slidingly arranged on the first screw, the first screw extends along the Y-axis direction and is movably arranged on the first mounting frame, and meanwhile, one shaft end of the first screw is fixedly connected with a power output shaft of the first servo motor through a coupler;

the second power mechanism comprises a second mounting frame, a second servo motor and a second ball screw assembly, wherein the second mounting frame spans and is connected to the top sides of the two vertical frames in a sliding mode, meanwhile, the second mounting frame is also connected with the first nuts in a positioning mode, the second servo motor is mounted on the second mounting frame in a positioning mode, the second ball screw assembly is provided with a second screw and a second nut which is arranged on the second screw in a sliding mode, the second screw extends along the X-axis direction and is movably mounted on the second mounting frame, and meanwhile, one shaft end of the second screw is also connected with a power output shaft of the second servo motor in a positioning mode through a coupler;

the mounting seat is connected to the second nut in a positioning mode.

As a further improvement of the invention, a second sliding rail extending along the Y-axis direction is respectively positioned and laid on the top side of each vertical frame, and the second installation frame spans and is connected with the two second sliding rails in a sliding way;

the mounting seat is connected to the second nut in a positioning way through a bracket; in addition, a third sliding rail extending along the X-axis direction is also positioned and laid on the second mounting frame, and the bracket is also in sliding connection with the third sliding rail.

As a further improvement of the invention, a human-machine interface is also provided, a processor is integrated in the human-machine interface, and the processor can control the positioning mechanism and the power mechanism to work;

in addition, the photoelectric sensor is also electrically connected to the processor.

The beneficial effects of the invention are as follows: compared with the prior art, (1) the mobile phone part detection equipment has the advantages of high control intelligent degree, high detection precision and high running speed, thereby effectively ensuring the product yield and greatly improving the production efficiency. (2) The carrier is effectively positioned by configuring the positioning mechanism, so that the stability of mobile phone parts in detection can be improved, and further the detection precision is ensured to be improved. (3) When the mobile phone part detection equipment is operated, excessive operators are not needed, and the production cost is effectively saved.

Drawings

Fig. 1 is a schematic perspective view of a mobile phone component detecting device according to the present invention;

FIG. 2 is a schematic view of an assembly structure of the carrier and the positioning mechanism according to the present invention;

FIG. 3 is a schematic diagram of an assembled structure of the detection module and the power mechanism according to the present invention.

The following description is made with reference to the accompanying drawings:

1-base box 2-carrier

20-Carrier body 21-suction cup

3-positioning mechanism 30-jacking cylinder

31-briquetting 4-detecting module

40-mounting seat 41-laser device

42-CCD camera 5-first slide rail

6-stopper 70-first servo motor

71-first ball screw assembly 72-second mounting frame

73-second servomotor 74-second ball screw assembly

75-second slide rail 76-third slide rail

8-man-machine interface

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1:

fig. 1 is a schematic perspective view of a mobile phone component detection apparatus according to the present invention. The mobile phone part detection equipment comprises a base box 1, a carrier 2 for carrying mobile phone parts, a positioning mechanism 3, a detection module 4 for detecting the mobile phone parts and a power mechanism, wherein a horizontal working platform is arranged on the top side of the base box 1, the carrier 2 is movably arranged on the horizontal working platform, and the carrier 2 can be fixed relative to the horizontal working platform under the action of the positioning mechanism 3; the detection module 4 is disposed above the horizontal working platform, and the detection module 4 can also be driven by the power mechanism to perform position movement so as to detect mobile phone parts disposed on the carrier 2.

In the present embodiment, it is preferable that the left-right direction is defined as the X-axis direction and the front-rear direction is defined as the Y-axis direction based on the use state of the mobile phone component detection device;

referring to fig. 2, two first sliding rails 5 extending along the Y-axis direction are positioned and laid on the horizontal working platform; the carrier 2 comprises a carrier main body 20 for receiving mobile phone parts, the carrier main body 20 is bridged on the two first slide rails 5 and is also respectively connected with the two first slide rails 5 in a matched sliding way, and a plurality of suckers 21 (optionally vacuum suckers) for sucking the mobile phone parts and a photoelectric sensor for sensing whether the mobile phone part information is placed or not are further arranged on the carrier main body 20.

Further preferably, referring to fig. 2, two limiting blocks 6 for limiting the carrier 2 are further positioned between the two first sliding rails 5, and the two limiting blocks 6 are further close to two sides of the length direction of the first sliding rails 5.

In this embodiment, preferably, the structure for fixing the position of the carrier 2 relative to the horizontal working platform under the action of the positioning mechanism 3 is as follows: referring to fig. 2, the positioning mechanism 3 includes two lifting cylinders 30, the two lifting cylinders 30 are arranged on the horizontal working platform at intervals along the X-axis direction, and the two lifting cylinders 30 are also arranged outside the two sides of the carrier 2 relatively, in addition, the piston rods of the two lifting cylinders 30 are directed upwards, and a pressing block 31 is respectively positioned and connected to the piston rod of each lifting cylinder 30, and the two pressing blocks 31 can be respectively pressed against and far away from the carrier main body 20 under the driving of the two lifting cylinders 30.

In this embodiment, preferably, referring to fig. 3, two vertical frames are further positioned on the horizontal working platform, the two vertical frames are arranged at intervals along the X-axis direction, and the carrier 2, the positioning mechanism 3, and the two first sliding rails 5 are all further disposed between the two vertical frames;

the detection module 4 comprises a mounting seat 40, a laser 41 and a CCD camera 42, wherein the laser 41 and the CCD camera 42 are both arranged on the mounting seat 40; and realize detection module 4 can also carry out the position movement under power unit's drive to the structure that detects the cell-phone spare part of placing in on the carrier 2 is: the power mechanism comprises a first power mechanism and a second power mechanism, wherein the first power mechanism is arranged on the top side of one stand, the second power mechanism is bridged on the top sides of two stands and is also respectively connected with the top sides of the two stands in a matched sliding way, and the second power mechanism can be driven by the first power mechanism to carry out reciprocating movement positioning along the Y-axis direction; the mounting seat 40 is connected to the second power mechanism, and the mounting seat 40 can also be driven by the second power mechanism to perform reciprocating movement and positioning along the X-axis direction.

Still further preferably, referring to fig. 3, the first power mechanism includes a first servomotor 70, a first mounting frame, and a first ball screw assembly 71, wherein the first servomotor 70 and the first mounting frame are respectively positioned and mounted on a top side of one of the uprights, the first ball screw assembly 71 includes a first screw and a first nut slidingly mounted on the first screw, the first screw extends along the Y-axis direction and is movably mounted on the first mounting frame, and at the same time, one shaft end of the first screw is also positioned and connected with a power output shaft of the first servomotor 70 through a coupling;

the second power mechanism comprises a second mounting frame 72, a second servo motor 73 and a second ball screw assembly 74, wherein the second mounting frame 72 spans and is connected to the top sides of the two vertical frames in a sliding manner, meanwhile, the second mounting frame 72 is also connected with the first nuts in a positioning manner, the second servo motor 73 is arranged on the second mounting frame 72 in a positioning manner, the second ball screw assembly 74 is provided with a second screw rod and a second nut which is arranged on the second screw rod in a sliding manner, the second screw rod extends along the X axis direction and is movably arranged on the second mounting frame 72, and meanwhile, one shaft end of the second screw rod is also connected with a power output shaft of the second servo motor 73 in a positioning manner through a coupling;

the mounting block 40 is positioned and coupled to the second nut.

Further preferably, a second sliding rail 75 extending along the Y-axis direction is respectively positioned and laid on the top side of each vertical frame, and the second mounting frame 72 spans and is slidingly connected to the two second sliding rails 75;

the mounting seat 40 is positioned and connected to the second nut through a bracket; in addition, a third sliding rail 76 extending along the X-axis direction is positioned and laid on the second mounting frame 72, and the bracket is also slidably connected with the third sliding rail 76.

In this embodiment, preferably, referring to fig. 1, a human-machine interface 8 is further provided, and a processor is integrated in the human-machine interface 8, where the processor can control the positioning mechanism 3) to work with the power mechanism (specifically, two jacking cylinders 30) and the power mechanism (specifically, two first servomotors 70 and one second servomotor 73);

in addition, the photoelectric sensor is also electrically connected to the processor.

In addition, the invention also provides a working mode of the mobile phone part detection equipment, which comprises the following steps: (1) the operator places the mobile phone parts on the carrier main body 20, the photoelectric sensor senses the information of the mobile phone parts and transmits the information to the processor, the processor controls the two jacking air cylinders 30 to start, and the two jacking air cylinders 30 drive the two pressing blocks 31 to press the carrier main body 20;

(2) next, the processor controls the two first servomotors 70 and the second servomotors 73 to start, and correspondingly drives the two first ball screw assemblies 71 and the second ball screw assemblies 74 to act, so as to move the detection module 4 to the upper side of the carrier main body 20, thereby realizing that the detection module 4 detects the mobile phone parts.

In conclusion, compared with the prior art, the mobile phone part detection equipment disclosed by the invention has the advantages of high control intelligent degree, high detection precision and high running speed, so that the product yield is effectively ensured, and the production efficiency is greatly improved. In addition, when the mobile phone part detection equipment is operated, excessive operators are not needed, and the production cost is effectively saved.

The above embodiments are merely illustrative of the efficacy of the invention, and not intended to limit it, but it should be pointed out that it will be obvious to those skilled in the art that various modifications and variations can be made without departing from the technical principles of the invention, and these modifications and variations shall be regarded as being within the scope of the invention.

Claims (3)

1. A mobile phone part detection device is characterized in that: the mobile phone part detection device comprises a base box (1), a carrier (2) for bearing the mobile phone part, a positioning mechanism (3), a detection module (4) for detecting the mobile phone part and a power mechanism, wherein a horizontal working platform is arranged on the top side of the base box (1), the carrier (2) is movably arranged on the horizontal working platform, and the carrier (2) can be fixed relative to the horizontal working platform under the action of the positioning mechanism (3); the detection module (4) is arranged above the horizontal working platform, the detection module (4) can also move under the drive of the power mechanism so as to detect mobile phone parts arranged on the carrier (2), the use state of the mobile phone part detection equipment is taken as a reference, the left-right direction is defined as an X-axis direction, and the front-back direction is defined as a Y-axis direction;

two first sliding rails (5) which extend along the Y-axis direction are positioned and laid on the horizontal working platform; the carrier (2) comprises a carrier main body (20) for bearing mobile phone parts, the carrier main body (20) is bridged on two first slide rails (5) and is also respectively connected with the two first slide rails (5) in a matched sliding way, a plurality of suckers (21) for sucking the mobile phone parts and a photoelectric sensor for sensing whether the mobile phone parts are placed or not are further arranged on the carrier main body (20), two limiting blocks (6) which are respectively used for limiting the carrier (2) are further positioned between the two first slide rails (5), the two limiting blocks (6) are respectively close to two sides of the length direction of the first slide rails (5), and the carrier (2) can be fixed relative to the horizontal working platform under the action of the positioning mechanism (3) in the position: the positioning mechanism (3) comprises two jacking cylinders (30), wherein the two jacking cylinders (30) are arranged on the horizontal working platform at intervals along the X-axis direction, and meanwhile, the two jacking cylinders (30) are also arranged outside two sides of the carrier (2) relatively, in addition, the piston rods of the two jacking cylinders (30) are upwards directed, a pressing block (31) is respectively and fixedly connected to the piston rod of each jacking cylinder (30), the two pressing blocks (31) can be respectively pressed against and far away from the carrier main body (20) under the driving of the two jacking cylinders (30), two vertical frames are also arranged on the horizontal working platform at intervals along the X-axis direction, and the carrier (2), the positioning mechanism (3) and the two first sliding rails (5) are also arranged between the two vertical frames;

the detection module (4) comprises a mounting seat (40), a laser (41) and a CCD camera (42), wherein the laser (41) and the CCD camera (42) are both mounted on the mounting seat (40); and realize detection module (4) can also carry out the position movement under power unit's drive to detect the structure of placing mobile phone spare part on carrier (2) is: the power mechanism comprises a first power mechanism and a second power mechanism, wherein the first power mechanism is arranged on the top side of one stand, the second power mechanism is bridged on the top sides of two stands and is also respectively connected with the top sides of the two stands in a matched sliding way, and the second power mechanism can be driven by the first power mechanism to carry out reciprocating movement positioning along the Y-axis direction; the mounting seat (40) is connected to the second power mechanism, the mounting seat (40) can be driven by the second power mechanism to reciprocate along the X-axis direction for positioning, the first power mechanism comprises a first servo motor (70), a first mounting frame and a first ball screw assembly (71), the first servo motor (70) and the first mounting frame are respectively positioned and mounted on the top side of a stand, the first ball screw assembly (71) is provided with a first screw and a first nut which is slidingly arranged on the first screw, the first screw extends along the Y-axis direction and is movably mounted on the first mounting frame, and meanwhile, one shaft end of the first screw is also positioned and connected with a power output shaft of the first servo motor (70) through a coupling;

the second power mechanism comprises a second mounting frame (72), a second servo motor (73) and a second ball screw assembly (74), wherein the second mounting frame (72) spans and is connected to the top sides of the two vertical frames in a sliding mode, meanwhile, the second mounting frame (72) is also connected with the first nut in a positioning mode, the second servo motor (73) is mounted on the second mounting frame (72) in a positioning mode, the second ball screw assembly (74) is provided with a second screw and a second nut which is arranged on the second screw in a sliding mode, the second screw extends along the X-axis direction and is movably mounted on the second mounting frame (72), and meanwhile one shaft end of the second screw is connected with a power output shaft of the second servo motor (73) in a positioning mode through a coupler;

the mounting seat (40) is connected to the second nut in a positioning way.

2. The mobile phone component detection device according to claim 1, wherein: a second sliding rail (75) extending along the Y-axis direction is respectively positioned and laid on the top side of each vertical frame, and the second installation frame (72) spans and is connected to the two second sliding rails (75) in a sliding manner;

the mounting seat (40) is positioned and connected to the second nut through a bracket; in addition, a third sliding rail (76) extending along the X-axis direction is also positioned and laid on the second mounting frame (72), and the bracket is also in sliding connection with the third sliding rail (76).

3. The mobile phone component detection device according to claim 1, wherein: the device is also provided with a human-computer interface (8), wherein a processor is integrated in the human-computer interface (8), and the processor can control the positioning mechanism (3) and the power mechanism to work;

in addition, the photoelectric sensor is also electrically connected to the processor.