CN113883985B - Touch screen thickness detection device and use method - Google Patents

Abstract

The invention discloses a touch screen thickness detection device and a use method thereof, which belong to the technical field of touch screen detection and comprise the following steps: the bottom plate, first slip subassembly, first supporting component and second supporting component are through rotating the lower extreme at the sampling post and install the gyro wheel, along with the pick-up plate moves forward, the gyro wheel rolls on the touch-sensitive screen, if touch-sensitive screen thickness height is inconsistent, higher department can support the gyro wheel and promote the sampling post upwards, make L shape offset plate slip a section distance on the third slide rail, and through sensing end sensor to the sensor, obtain the testing result, compare traditional thickness detection to touch-sensitive screen single position, the roughness of touch-sensitive screen is detected still detectable to roll formula, the detection accuracy nature of touch-sensitive screen is improved.

Description

Touch screen thickness detection device and use method

Technical Field

The invention belongs to the technical field of touch screen detection, and particularly relates to a touch screen thickness detection device and a use method thereof.

Background

The mobile phone touch screen generally has certain requirements on thickness uniformity, and the problems of overlarge thickness precision error, poor thickness uniformity and the like of the touch screen can be caused by the reasons of size design, processing conditions and the like in the process of producing the touch screen, so that unqualified products are required to be detected and removed.

The common detection method is manual detection and machine detection, the manual detection is performed through a quantitative thickness detection device, the manual measurement precision, stability and detection efficiency are low, defective products are easy to occur, the condition that the defective products are not detected is easy to occur, the machine detection is performed on one point of the touch screen, the whole flatness of the touch screen cannot be detected, and the qualified requirement is difficult to meet.

Disclosure of Invention

The invention aims to provide a device for detecting the thickness of a touch screen and a use method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a touch screen thickness detection device and a use method thereof comprise the following steps: the device comprises a bottom plate, a first sliding component, a first supporting component and a second supporting component.

The anti-skid pad is arranged on the lower surface of the bottom plate, the number of the anti-skid pads which are arranged in a preferable mode is four, and the anti-skid pads are respectively and fixedly arranged at four corners of the lower surface of the bottom plate to fix the bottom plate.

The touch screen to be detected is replaced by a detection person conveniently, the touch screen to be detected is driven to the detection position, manual pushing is saved, the first sliding assembly comprises a pair of first sliding rails arranged on the bottom plate, the extending direction of the pair of first sliding rails is the same as that of the bottom plate, the detection plate is connected to the pair of first sliding rails in a sliding mode, and the touch screen to be detected is placed on the detection plate.

The first supporting component comprises a pair of supporting legs, the supporting legs are stably arranged on the bottom plate through flanges, the supporting legs are fixedly arranged on the bottom plate at the tail end of the travel of the first sliding rail, the upper ends of the supporting legs are provided with connecting blocks, a joint plate is jointly arranged between the connecting blocks, and a U-shaped mounting groove is formed in the joint plate and used for fixing the cylinder seat.

The second supporting component comprises an L-shaped moving plate arranged on one side of the connecting plate, which is away from the connecting block, a second sliding component is arranged between the L-shaped moving plate and the connecting plate, the L-shaped moving plate is driven to move up and down through the second sliding component, the L-shaped moving plate is used for adjusting the position in a large range, a third sliding component is arranged on the other side of the L-shaped moving plate, and a detection component is connected to the third sliding component in a sliding mode.

As one preferable mode of the invention, a pair of shaft seats are arranged on the bottom plate along the two sides of the length direction, a screw rod is rotatably connected between the pair of shaft seats, one end of the screw rod penetrates through the shaft seat, one end of the screw rod penetrating through the shaft seat is connected with a motor through a coupler, a nut seat is connected onto the screw rod in a threaded manner, the nut seat is fixedly arranged on the lower surface of the detection plate, a first sliding block is further arranged on the detection plate positioned on the two sides of the nut seat through bolts, the first sliding block is matched with a first sliding rail, and limiting pins are arranged at the two ends of the upper surface of the first sliding rail.

As one preferable mode of the invention, the upper surface of the detection plate is provided with a placing groove seat, a groove opening is formed in the placing groove seat, and one side of the detection plate is provided with a limiting table.

As one preferable aspect of the present invention, the second sliding assembly includes a cylinder block mounted on the joint plate, a cylinder is mounted on the cylinder block, a movable end of the cylinder penetrates through the cylinder block, a fixing block is fixedly mounted at the penetrated end, and a side surface of the fixing block is mounted with the L-shaped moving plate.

As one preferable aspect of the present invention, the second sliding assembly further includes a second sliding rail installed at both sides of the joint plate, and the L-shaped moving plate is installed with a pair of second sliding blocks, and the second sliding blocks are adapted to the second sliding rail.

As one preferable mode of the invention, the detection assembly comprises an L-shaped offset plate, a sampling column is arranged on the lower surface of the horizontal section of the L-shaped offset plate, a notch is formed in the lower end of the sampling column, a roller is rotatably connected in the notch through a pin shaft, a supporting plate is horizontally arranged on the vertical section of the L-shaped motion plate, a sensor is arranged on the supporting plate, a sensing end of the sensor penetrates out of the supporting plate, and one end of the sensing end penetrating out of the supporting plate is propped against the L-shaped offset plate.

As one preferable mode of the invention, the third sliding component comprises a third sliding rail arranged on the L-shaped moving plate, a third sliding block is connected to the third sliding rail in a sliding way, and one side of the third sliding block is fixedly arranged together with the L-shaped offset plate.

As one preferable mode of the invention, the lower surface of the L-shaped moving plate is provided with a sleeve, one side of the sleeve is provided with a locking hole, a locking bolt is connected in the locking hole in a threaded manner, a sliding rod is connected in the sleeve in a sliding manner, and the sliding rod abuts against the locking bolt.

As a preferred method of the present invention, a method for using a touch screen thickness detection device includes the steps of:

s1: the L-shaped moving plate is driven by the air cylinder to carry out large-range position adjustment, and the length of the exposed end of the sliding rod is adjusted by the locking bolt and is propped against the limiting table, so that the downward movement distance of the sampling column is limited;

s2: placing the touch screen in a placing groove seat on a detection plate, driving a screw rod to rotate by a motor, driving the detection plate to linearly move on a first sliding rail by the rotating screw rod through a nut seat, and moving to the position below a sampling column, so that a roller is accurately contacted with the surface of the touch screen;

s3: the roller rolls on the touch screen, if the thickness of the touch screen is inconsistent, the higher part can prop against the roller to push the sampling column upwards, so that the L-shaped offset plate slides on the third sliding rail for a certain distance and is sensed to the sensor through the sensing end.

The invention has the beneficial effects that:

1. according to the invention, the roller is rotatably arranged at the lower end of the sampling column, and rolls on the touch screen along with the forward movement of the detection plate, if the thickness of the touch screen is inconsistent, the higher part props against the roller to push the sampling column upwards, so that the L-shaped offset plate slides a certain distance on the third slide rail, and the L-shaped offset plate is sensed to the sensor through the sensing end, so that a detection result is obtained, and compared with the traditional method for detecting the thickness of a single position of the touch screen, the rolling type detection can also detect the flatness of the touch screen, and the detection accuracy of the touch screen is improved.

2. According to the invention, the L-shaped moving plate is driven by the air cylinder to perform large-range position adjustment, the length of the exposed end of the sliding rod is adjusted by the locking bolt and is propped against the limiting table, so that the downward movement distance of the sampling column is limited, the roller is enabled to be accurately contacted with the surface of the touch screen, and the touch screen is prevented from being scratched.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1B according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1C according to the present invention;

fig. 5 is an enlarged schematic view of the structure of fig. 1D according to the present invention.

In the figure: 1. a bottom plate; 2. an anti-slip pad; 3. a first slide rail; 4. a detection plate; 5. support legs; 6. a connecting block; 7. a splice plate; 8. an L-shaped motion plate; 9. a shaft seat; 10. a screw rod; 11. a motor; 12. a nut seat; 13. a first slider; 14. a limiting pin; 15. placing a groove seat; 16. a groove opening; 17. a cylinder block; 18. a cylinder; 19. a fixed block; 20. a second slide rail; 21. a second slider; 22. an L-shaped offset plate; 23. a sampling column; 24. a notch; 25. a roller; 26. a support plate; 27. a sensor; 28. a third slider; 29. a sleeve; 2901. a locking hole; 30. a locking bolt; 31. a slide bar; 32. a limiting table; 33. and a third slide rail.

Detailed Description

In the description of the present invention, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "configured to," "engaged with," "connected to," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Examples

Referring to fig. 1, a device for detecting thickness of a touch screen and a method for using the same include: the base plate 1, the first sliding component, the first supporting component and the second supporting component.

The anti-slip pad 2 is mounted on the lower surface of the bottom plate 1, and the number of the anti-slip pads 2 which are preferably arranged is four, and the anti-slip pads are respectively and fixedly mounted at four corners of the lower surface of the bottom plate 1 to fix the bottom plate 1.

Wherein, in order to make things convenient for the inspector to change and wait to detect the touch-sensitive screen to drive and wait to detect the touch-sensitive screen to detection department, save manual work and promote, first sliding component is including installing a pair of first slide rail 3 on bottom plate 1, and a pair of first slide rail 3 extending direction is the same with bottom plate 1 extending direction, and sliding connection has pick-up plate 4 on a pair of first slide rail 3, waits to detect the touch-sensitive screen and places on pick-up plate 4.

The first supporting component comprises a pair of supporting legs 5, the supporting legs 5 are stably arranged on the bottom plate 1 through flanges, the pair of supporting legs 5 are fixedly arranged on the bottom plate 1 at the tail end of the stroke of the first sliding rail 3, connecting blocks 6 are arranged at the upper ends of the pair of supporting legs 5, a joint plate 7 is jointly arranged between the pair of connecting blocks 6, and a U-shaped mounting groove is formed in the joint plate 7 and used for fixing a cylinder seat 17.

Wherein, the second supporting component is including setting up the L shape motion board 8 that deviates from connecting block 6 one side at linking board 7, is provided with the second slip subassembly between L shape motion board 8 and the linking board 7, drives through the second slip subassembly that sets up L shape motion board 8 reciprocates for adjust the position of the extensive of slide bar 31 position, the opposite side of L shape motion board 8 is provided with the third slip subassembly, sliding connection has detection component on the third slip subassembly.

Specifically, referring to fig. 1, a pair of shaft seats 9 are installed on two sides of a bottom plate 1 along a length direction, a screw rod 10 is rotationally connected between the pair of shaft seats 9, one end of the screw rod 10 penetrates out of the shaft seats 9, one end of the screw rod 10 penetrating out is connected with a motor 11 through a coupling, a nut seat 12 is connected to the screw rod 10 through threads, the nut seat 12 is fixedly installed on the lower surface of a detection plate 4, the output end of the motor 11 drives the screw rod 10 to rotate through the coupling through starting the motor 11, the screw rod 10 is sleeved with the nut seat 12 through threads, the nut seat 12 and the lower surface of the detection plate 4 are fixedly installed together, the rotational operation of the motor 11 driving the screw rod 10 to rotate is changed into linear reciprocating motion of the nut seat 12, so that the movement of the detection plate 4 is controlled, a first sliding block 13 is installed on the detection plate 4 positioned on two sides of the nut seat 12 through bolts, the first sliding block 13 is matched with the first sliding rail 3, limiting pins 14 are installed on two ends of the upper surface of the first sliding rail 3, and the sliding stroke of the first sliding block 14 is prevented from being limited by the first sliding limiting pins 14.

Specifically, referring to fig. 2, a placement groove seat 15 is provided on the upper surface of the detection board 4, for placing the touch screen to be detected, and since the touch screen is thinner, a notch 16 is provided in the placement groove seat 15, so that a detection worker can conveniently pick up the touch screen after detecting, and a limit table 32 is installed on one side of the detection board 4.

Specifically, referring to fig. 3, the second sliding component includes a cylinder seat 17 mounted on the joint plate 7, a cylinder 18 is mounted on the cylinder seat 17, a movable end of the cylinder 18 penetrates out of the cylinder seat 17, a fixing block 19 is fixedly mounted at the penetrating end, a side surface of the fixing block 19 is mounted with the L-shaped moving plate 8, the fixing block 19 is driven to move by the movable end of the cylinder 18, and the fixing block 19 drives the L-shaped moving plate 8 to move for adjusting a wide range of positions of the slide bar 31.

Specifically, referring to fig. 3, the second sliding assembly further includes a second sliding rail 20 installed at both sides of the joint plate 7, and a pair of second sliding blocks 21 are installed on the L-shaped moving plate 8, and the second sliding blocks 21 are matched with the second sliding rail 20, so that guiding function is provided for movement of the L-shaped moving plate 8 through mutual matching between the second sliding blocks 21 and the second sliding rail 20.

Specifically, referring to fig. 4, the detection assembly includes an L-shaped offset plate 22, a sampling column 23 is mounted on a lower surface of a horizontal section of the L-shaped offset plate 22, a notch 24 is opened at a lower end of the sampling column 23, a roller 25 is rotatably connected in the notch 24 through a pin, a support plate 26 is horizontally mounted on a vertical section of the L-shaped motion plate 8, a sensor 27 is mounted on the support plate 26, a sensing end of the sensor 27 penetrates out of the support plate 26, and one end penetrating out of the sensing end abuts against the L-shaped offset plate 22, when the roller 25 rolls on the touch screen, if the thickness of the touch screen is inconsistent, a higher position abuts against the roller 25 to push the sampling column 23 upwards, so that the L-shaped offset plate 22 slides a distance on a third slide rail 33, and a detection result is obtained by sensing the sensing end to the sensor 27.

Specifically, referring to fig. 4, the third sliding assembly includes a third sliding rail 33 mounted on the L-shaped moving plate 8, a third sliding block 28 is slidably connected to the third sliding rail 33, one side of the third sliding block 28 is fixedly mounted with the L-shaped offset plate 22, and a guiding function is provided for the movement of the L-shaped offset plate 22 by sliding fit between the third sliding rail 33 and the third sliding block 28.

Specifically, referring to fig. 5,L, a sleeve 29 is mounted on the lower surface of the moving plate 8, a locking hole 2901 is formed in one side of the sleeve 29, a locking bolt 30 is connected in the locking hole 2901 in a threaded manner, a sliding rod 31 is slidably connected in the sleeve 29, the sliding rod 31 abuts against the locking bolt 30, the length of the exposed end of the sliding rod 31 is adjusted through the locking bolt 30, and abuts against a limiting table 32, so that the downward movement distance of the sampling column 23 is limited, and the roller 25 is accurately contacted with the surface of the touch screen.

Specifically, the application method of the device for detecting the thickness of the touch screen comprises the following steps:

s1: the L-shaped moving plate 8 is driven by the air cylinder 18 to carry out large-range position adjustment, the length of the exposed end of the sliding rod 31 is adjusted by the locking bolt 30 and is propped against the limiting table 32, so that the downward movement distance of the sampling column 23 is limited;

s2: placing the touch screen in a placing groove seat 15 on the detection plate 4, driving a screw rod 10 to rotate by a motor 11, and driving the detection plate 4 to linearly move on a first sliding rail 3 by the rotating screw rod 10 through a nut seat 12 to move to the position below a sampling column 23, so that a roller 25 is accurately contacted with the surface of the touch screen;

s3: the roller 25 rolls on the touch screen, if the thickness of the touch screen is inconsistent, the higher part pushes the sampling column 23 upwards against the roller 25, so that the L-shaped offset plate 22 slides on the third sliding rail 33 for a certain distance, and the L-shaped offset plate is sensed to the sensor 27 through the sensing end.

Working principle:

the touch screen to be detected is placed in the placing groove seat 15, the motor 11 is started, the output end of the motor 11 drives the screw rod 10 to rotate through the coupler, as the screw rod 10 is sleeved with the nut seat 12 in a threaded manner, the nut seat 12 is fixedly arranged on the lower surface of the detection plate 4, the original rotation operation of the motor 11 driving the screw rod 10 to rotate is changed into linear reciprocating motion of the nut seat 12, the detection plate 4 is controlled to move to the lower part of the sampling column 23, the L-shaped motion plate 8 is driven by the air cylinder 18 to perform large-range position adjustment, the length of the exposed end of the sliding rod 31 is adjusted through the locking bolt 30 and is propped against the limiting table 32, the downward movement distance of the sampling column 23 is limited, the roller 25 is enabled to accurately contact the surface of the touch screen, the roller 25 rolls on the touch screen along with the forward movement of the detection plate 4, if the thickness of the touch screen is inconsistent, the higher position can push the sampling column 23 upwards, the L-shaped offset plate 22 slides a distance on the third sliding rail 33, the sensing end is sensed to the sensor 27, the detection result is obtained, the motor 11 is reversely rotated to drive the detection plate 4, and the detection is enabled to pass through the notch 16 to be replaced by a notch, and the touch screen is accurately contacted by a group.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (1)

1. The application method of the touch screen thickness detection device is characterized in that the touch screen thickness detection device comprises the following steps:

the anti-skid device comprises a bottom plate (1), wherein an anti-skid pad (2) is arranged on the lower surface of the bottom plate (1);

the first sliding assembly comprises a pair of first sliding rails (3) arranged on the bottom plate (1), and a detection plate (4) is connected to the pair of first sliding rails (3) in a sliding manner;

the first support assembly comprises a pair of support legs (5), wherein the support legs (5) are fixedly arranged on a bottom plate (1) at the stroke end of a first sliding rail (3), connecting blocks (6) are arranged at the upper ends of the support legs (5), and a connecting plate (7) is jointly arranged between the connecting blocks (6);

the second support assembly comprises an L-shaped moving plate (8) arranged on one side of the connecting plate (7) away from the connecting block (6), a second sliding assembly is arranged between the L-shaped moving plate (8) and the connecting plate (7), a third sliding assembly is arranged on the other side of the L-shaped moving plate (8), and a detection assembly is connected onto the third sliding assembly in a sliding manner;

a pair of shaft seats (9) are arranged on the bottom plate (1) along the two sides of the length direction, a pair of shaft seats (9) are rotationally connected with a screw rod (10), one end of the screw rod (10) penetrates through the shaft seats (9), one end of the screw rod (10) penetrating through the shaft seat is connected with a motor (11) through a coupling, a nut seat (12) is connected onto the screw rod (10) in a threaded manner, the nut seat (12) is fixedly arranged on the lower surface of the detection plate (4), a first sliding block (13) is further arranged on the detection plate (4) positioned on the two sides of the nut seat (12) through bolts, the first sliding block (13) is matched with a first sliding rail (3), and limiting pins (14) are arranged at the two ends of the upper surface of the first sliding rail (3);

a placing groove seat (15) is formed in the upper surface of the detection plate (4), a groove opening (16) is formed in the placing groove seat (15), and a limit table (32) is arranged on one side of the detection plate (4);

the second sliding assembly comprises a cylinder seat (17) arranged on the connecting plate (7), a cylinder (18) is arranged on the cylinder seat (17), the movable end of the cylinder (18) penetrates out of the cylinder seat (17), a fixed block (19) is fixedly arranged at the penetrated end, and the side surface of the fixed block (19) is arranged together with the L-shaped moving plate (8);

the second sliding component further comprises second sliding rails (20) arranged on two sides of the connecting plate (7), a pair of second sliding blocks (21) are arranged on the L-shaped moving plate (8), and the second sliding blocks (21) are matched with the second sliding rails (20);

the detection assembly comprises an L-shaped offset plate (22), a sampling column (23) is arranged on the lower surface of the horizontal section of the L-shaped offset plate (22), a notch (24) is formed in the lower end of the sampling column (23), a roller (25) is rotatably connected in the notch (24) through a pin shaft, a supporting plate (26) is horizontally arranged on the vertical section of the L-shaped motion plate (8), a sensor (27) is arranged on the supporting plate (26), the sensing end of the sensor (27) penetrates out of the supporting plate (26), and one end of the sensing end penetrating out abuts against the L-shaped offset plate (22);

the third sliding assembly comprises a third sliding rail (33) arranged on the L-shaped moving plate (8), a third sliding block (28) is connected to the third sliding rail (33) in a sliding manner, and one side of the third sliding block (28) is fixedly arranged together with the L-shaped offset plate (22);

a sleeve (29) is arranged on the lower surface of the L-shaped moving plate (8), a locking hole (2901) is formed in one side of the sleeve (29), a locking bolt (30) is connected in the locking hole (2901) in a threaded mode, a sliding rod (31) is connected in the sleeve (29) in a sliding mode, and the sliding rod (31) abuts against the locking bolt (30);

the using method of the touch screen thickness detection device comprises the following steps:

s1: the L-shaped moving plate (8) is driven by the air cylinder (18) to carry out large-range position adjustment, the length of the exposed end of the sliding rod (31) is adjusted by the locking bolt (30) and is propped against the limiting table (32), so that the downward movement distance of the sampling column (23) is limited;

s2: placing the touch screen in a placing groove seat (15) on a detection plate (4), driving a screw rod (10) to rotate by a motor (11), driving the detection plate (4) to linearly move on a first sliding rail (3) by the rotating screw rod (10) through a nut seat (12), and moving to the position below a sampling column (23), so that a roller (25) is accurately contacted with the surface of the touch screen;

s3: the roller (25) rolls on the touch screen, if the thickness of the touch screen is inconsistent, the higher part can push the sampling column (23) upwards against the roller (25), so that the L-shaped offset plate (22) slides on the third sliding rail (27) for a certain distance, and the L-shaped offset plate is sensed to the sensor (27) through the sensing end.