CN216049590U - Multi-size detection equipment for universal mobile phone glass - Google Patents

Multi-size detection equipment for universal mobile phone glass Download PDF

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Publication number
CN216049590U
CN216049590U CN202122468088.8U CN202122468088U CN216049590U CN 216049590 U CN216049590 U CN 216049590U CN 202122468088 U CN202122468088 U CN 202122468088U CN 216049590 U CN216049590 U CN 216049590U
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China
Prior art keywords
transverse
mobile phone
plate
phone glass
longitudinal
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CN202122468088.8U
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Chinese (zh)
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陈征
高庆占
武文瑞
陈天园
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Suzhou Paifute Intelligent Manufacturing Technology Co ltd
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Suzhou Paifute Intelligent Manufacturing Technology Co ltd
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Abstract

The utility model discloses multi-size detection equipment for universal mobile phone glass, which comprises a quantitative shell and a transverse distance correlation sensor, wherein a transverse electric cylinder is arranged on one side of the quantitative shell, a transverse push plate is arranged outside the transverse electric cylinder, a guide rod is fixed on one side of the transverse push plate, a guide sleeve component for self-lubrication is arranged outside the guide rod, an energy absorption component for absorbing energy is additionally fixed on one side of the transverse push plate, a transverse measuring plate is arranged outside the energy absorption component, and the transverse distance correlation sensor is arranged above the transverse measuring plate. This general mobile phone glass's many size check out test set compares with current ordinary many size check out test set, and scale passes through board bottom and ration shell bottom parallel and level, and the staff of being convenient for passes through the thickness that mobile phone glass was surveyed to the scale and passes through the board, treats that mobile phone glass detects the completion back, starts electric jar three and rises the lifter plate, and mobile phone glass rises thereupon, and the staff of being convenient for takes out the mobile phone glass who detects the completion, promotes work efficiency.

Description

Multi-size detection equipment for universal mobile phone glass
Technical Field
The utility model relates to the technical field of mobile phone screen glass, in particular to a multi-size detection device for general mobile phone glass.
Background
The mobile phone screen glass is mainly ultra-thin glass (0.4-1.0mm thick), and is manufactured by a series of special processing technologies such as glass sheet cutting, profiling edge grinding, polishing, hardening, ultrasonic cleaning, vacuum coating, silk screen printing and the like, and multiple size detection equipment is required when the size of the mobile phone glass is detected.
The method for detecting the thickness of the existing multi-size detection equipment is complex, the efficiency is low, the mobile phone glass is troublesome to take out, the detection efficiency is low, and the use requirements of people cannot be well met.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a multi-size detection device for universal mobile phone glass, so as to solve the problems in the background technology.
In order to achieve the purpose, the utility model provides the following technical scheme: the multi-size detection equipment for the universal mobile phone glass comprises a quantitative shell and a transverse distance correlation sensor, wherein a transverse electric cylinder is arranged on one side of the quantitative shell, a transverse push plate is arranged outside the transverse electric cylinder, a guide rod is fixed on one side of the transverse push plate, a guide sleeve component for self-lubricating is arranged outside the guide rod, an energy absorption component for absorbing energy is fixed on the other side of the transverse push plate, and the energy absorption component is externally provided with a transverse measuring plate, the transverse distance correlation sensor is arranged above the transverse measuring plate, the rear end of the quantitative shell is provided with a longitudinal electric cylinder, and a longitudinal push plate group is arranged outside the longitudinal electric cylinder, a longitudinal measuring plate is arranged at the front end of the longitudinal push plate group, and a longitudinal distance correlation sensor is installed above the longitudinal measuring plate, a scale penetrating plate is fixed at the front end of the quantitative shell, a third electric cylinder is arranged below the quantitative shell, and a lifting plate is installed above the third electric cylinder.
Preferably, the guide rods are symmetrically arranged in two positions along the center of the transverse push plate, and the central axis of the transverse push plate coincides with the central axis of the transverse measuring plate.
Preferably, the guide sleeve assembly comprises a guide sleeve, a sponge core and balls, the sponge core is arranged on the inner wall of the guide sleeve, and the balls are attached to the outer portion of the sponge core.
Preferably, the guide sleeve is in sliding connection with the guide rod through balls, and the balls are distributed at equal intervals in the horizontal direction of the sponge core.
Preferably, the energy absorption assembly comprises a damper, a hexagonal nut and a spring, the hexagonal nut is mounted outside the damper, and the spring is arranged outside the hexagonal nut.
Preferably, the two dampers are symmetrically arranged along the center of the transverse push plate and are in threaded connection with the hexagonal nut.
Preferably, the longitudinal plate is rectangular, and the central axis of the longitudinal plate coincides with the central axis of the longitudinal distance correlation sensor.
Preferably, the outer surface of the lifting plate is attached to the inner surface of the quantitative shell, and the central axis of the lifting plate coincides with the central axis of the electric cylinder III.
Compared with the prior art, the utility model has the beneficial effects that: the multi-size detection equipment has a self-lubricating structure, abrasion is effectively reduced, the damper is matched with the spring to absorb partial clamping force, the mobile phone glass is prevented from being broken and damaged due to excessive clamping, workers can conveniently take out the detected mobile phone glass, and the working efficiency is improved;
1. according to the utility model, through the arrangement of the guide sleeve, the sponge core and the balls, the cover plate on the guide sleeve is opened to add lubricating oil, then the lubricating oil is absorbed by the sponge core, the balls are attached to the lubricating oil on the sponge core along with the sliding of the guide rod, and the guide sleeve, the balls and the guide rod are lubricated, so that the multi-size detection equipment has a self-lubricating structure, and the abrasion is effectively slowed down;
2. according to the utility model, through the arrangement of the damper, the hexagon nut, the spring and the transverse measuring plate, when the transverse measuring plate is contacted with the mobile phone glass, the damper is matched with the spring to absorb part of clamping force, so that the mobile phone glass is prevented from being broken and damaged due to excessive clamping, the hexagon nut is rotated, and the stroke of the spring is changed, so that the hardness of the damper is changed, and the damper can be suitable for various working conditions;
3. according to the utility model, through the arrangement of the scale transparent plate, the third electric cylinder and the lifting plate, the bottom of the scale transparent plate is flush with the bottom of the quantitative shell, so that a worker can conveniently measure the thickness of the mobile phone glass through the scale transparent plate, after the mobile phone glass is detected, the third electric cylinder is started to lift the lifting plate, and then the mobile phone glass is lifted, so that the worker can conveniently take out the detected mobile phone glass, and the working efficiency is improved.
Drawings
FIG. 1 is a schematic front view of the present invention;
FIG. 2 is a schematic top cross-sectional view of the present invention;
FIG. 3 is a schematic top view of the present invention;
FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention.
In the figure: 1. quantifying the shell; 2. a transverse electric cylinder; 3. a transverse push plate; 4. a guide bar; 5. a guide sleeve assembly; 501. a guide sleeve; 502. a sponge core; 503. a ball bearing; 6. an energy absorbing assembly; 601. a damper; 602. a hexagonal nut; 603. a spring; 7. a transverse measuring plate; 8. a lateral distance correlation sensor; 9. a longitudinal electric cylinder; 10. a longitudinal push plate group; 11. a longitudinal plate; 12. a longitudinal correlation sensor; 13. a scale penetration plate; 14. an electric cylinder III; 15. a lifting plate.
Detailed Description
As shown in fig. 1-3, the multi-dimension detection device for universal mobile phone glass comprises a quantitative shell 1 and a transverse distance correlation sensor 8, wherein one side of the quantitative shell 1 is provided with a transverse electric cylinder 2, a transverse push plate 3 is installed outside the transverse electric cylinder 2, one side of the transverse push plate 3 is fixed with a guide rod 4, the outside of the guide rod 4 is provided with a guide sleeve component 5 for self-lubrication, two guide rods 4 are symmetrically arranged along the central position of the transverse push plate 3, the central axis of the transverse push plate 3 is coincident with the central axis of a transverse measuring plate 7, one side of the transverse push plate 3 is additionally fixed with an energy absorption component 6 for absorbing energy, the outside of the energy absorption component 6 is provided with a transverse measuring plate 7, the transverse distance correlation sensor 8 is installed above the transverse measuring plate 7, the rear end of the quantitative shell 1 is provided with a longitudinal electric cylinder 9, the outside of the longitudinal electric cylinder 9 is provided with a longitudinal push plate group 10, the front end of the longitudinal push plate group 10 is provided with a longitudinal measuring plate 11, a longitudinal distance correlation sensor 12 is installed above the longitudinal measuring plate 11, the longitudinal measuring plate 11 is rectangular, the central axis of the longitudinal measuring plate 11 coincides with the central axis of the longitudinal distance correlation sensor 12, a scale transparent plate 13 is fixed at the front end of the quantifying shell 1, a third electric cylinder 14 is arranged below the quantifying shell 1, the outer surface of a lifting plate 15 installed above the third electric cylinder 14 is attached to the inner surface of the quantifying shell 1, the central axis of the lifting plate 15 coincides with the central axis of the third electric cylinder 14, the bottom of the scale transparent plate 13 is flush with the bottom of the quantifying shell 1, a worker can conveniently measure the thickness of the mobile phone glass through the scale transparent plate 13, after the mobile phone glass is detected, the third electric cylinder 14 is started to lift the lifting plate 15, the mobile phone glass is lifted, the worker can conveniently take out the detected mobile phone glass, and the working efficiency is improved.
As shown in fig. 4, the guide sleeve assembly 5 comprises a guide sleeve 501, a sponge core 502 and balls 503, the sponge core 502 is arranged on the inner wall of the guide sleeve 501, the balls 503 are attached to the outside of the sponge core 502, the guide sleeve 501 is connected with the guide rod 4 in a sliding manner through the balls 503, the balls 503 are distributed at equal intervals along the horizontal direction of the sponge core 502, a cover plate on the guide sleeve 501 is opened to add lubricating oil, the lubricating oil is absorbed by the sponge core 502, the balls 503 are attached to the lubricating oil on the sponge core 502 along with the sliding of the guide rod 4, the guide sleeve 501, the balls 503 and the guide rod 4 are lubricated, so that the multi-size detection device has a self-lubricating structure and effectively reduces wear, the energy absorption assembly 6 comprises a damper 601, a hexagon nut 602 and a spring 603, the hexagon nut 602 is mounted on the outside of the damper 601, the spring 603 is arranged on the outside of the hexagon nut 602, two dampers 601 are symmetrically arranged along the central positions of the transverse hexagon push plate 3, and the damper 601 is in threaded connection with the hexagon nut 602, when the transverse measuring plate 7 is in contact with the mobile phone glass, the damper 601 and the spring 603 are matched to absorb part of clamping force, so that the mobile phone glass is prevented from being broken and damaged due to excessive clamping, the hexagon nut 602 is rotated, the stroke of the spring 603 is changed, and the hardness of the damper 601 is changed, so that the damper can be suitable for various working conditions.
The working principle is as follows: when the universal mobile phone glass multi-size detection equipment is used, firstly, mobile phone glass is placed in a quantitative shell 1, products with various sizes can be placed in the quantitative shell 1, a transverse electric cylinder 2 is started to push a transverse push plate 3, a guide rod 4 slides along the inner wall of a guide sleeve 501 along with the movement of the transverse push plate 3 to assist the transverse push plate 3 to stably move, a cover plate on the guide sleeve 501 is opened to add lubricating oil, the lubricating oil is absorbed by a sponge core 502 along with the sliding of the guide rod 4, a ball 503 is attached to the lubricating oil on the sponge core 502 to lubricate the guide sleeve 501, the ball 503 and the guide rod 4, the transverse push plate 3 and a transverse amount plate 7 are installed at two ends of a damper 601, the transverse amount plate 7 is attached to one side of the mobile phone glass to clamp the mobile phone glass along with the movement of the transverse push plate 3, the damper 601 is matched with a spring 603 to absorb part of clamping force to avoid the mobile phone glass from being broken and damaged due to excessive clamping, and a hexagon nut 602 is rotated, the stroke of the spring 603 is changed, so that the hardness of the damper 601 is changed, the transverse distance correlation sensor 8 on the transverse measuring plate 7 measures the width of the mobile phone glass, the longitudinal electric cylinder 9 is started, the longitudinal electric cylinder 9 pushes the longitudinal push plate group 10, the longitudinal measuring plate 11 is attached to one end of the mobile phone glass and clamps the mobile phone glass, the longitudinal distance correlation sensor 12 on the longitudinal measuring plate 11 measures the length of the mobile phone glass, the bottom of the scale transparent plate 13 is flush with the bottom of the quantitative shell 1, the thickness of the mobile phone glass is measured through the scale transparent plate 13, the multi-size detection equipment can detect the mobile phone glass with various sizes, after the detection of the mobile phone glass is completed, the electric cylinder three 14 is started to lift the lifting plate 15, the mobile phone glass is lifted and taken out, and the working principle of the multi-size detection equipment for the universal mobile phone glass is achieved.

Claims (8)

1. The multi-size detection equipment for the universal mobile phone glass comprises a quantitative shell (1) and a transverse distance correlation sensor (8), and is characterized in that a transverse electric cylinder (2) is arranged on one side of the quantitative shell (1), a transverse push plate (3) is arranged outside the transverse electric cylinder (2), a guide rod (4) is fixed on one side of the transverse push plate (3), a guide sleeve component (5) for self-lubrication is arranged outside the guide rod (4), an energy absorption component (6) for absorbing energy is additionally fixed on one side of the transverse push plate (3), a transverse gauge plate (7) is arranged outside the energy absorption component (6), the transverse distance correlation sensor (8) is arranged above the transverse gauge plate (7), a longitudinal electric cylinder (9) is arranged at the rear end of the quantitative shell (1), a longitudinal push plate group (10) is arranged outside the longitudinal electric cylinder (9), a longitudinal measuring plate (11) is arranged at the front end of the longitudinal push plate group (10), and a longitudinal distance correlation sensor (12) is installed above the longitudinal measuring plate (11), a scale penetrating plate (13) is fixed at the front end of the quantitative shell (1), a third electric cylinder (14) is arranged below the quantitative shell (1), and a lifting plate (15) is installed above the third electric cylinder (14).
2. The universal mobile phone glass multi-size detection device according to claim 1, wherein two guide rods (4) are symmetrically arranged along the center of the transverse pushing plate (3), and the central axis of the transverse pushing plate (3) coincides with the central axis of the transverse measuring plate (7).
3. The universal mobile phone glass multi-size detection device according to claim 1, wherein the guide sleeve assembly (5) comprises a guide sleeve (501), a sponge core (502) and balls (503), the sponge core (502) is arranged on the inner wall of the guide sleeve (501), and the balls (503) are attached to the outer portion of the sponge core (502).
4. The universal mobile phone glass multi-size detection device according to claim 3, wherein the guide sleeve (501) is in sliding connection with the guide rod (4) through balls (503), and the balls (503) are distributed at equal intervals along the horizontal direction of the sponge core (502).
5. The universal mobile phone glass multi-size detection device according to claim 1, wherein the energy absorption assembly (6) comprises a damper (601), a hexagonal nut (602) and a spring (603), the hexagonal nut (602) is mounted on the outside of the damper (601), and the spring (603) is arranged on the outside of the hexagonal nut (602).
6. The universal mobile phone glass multi-size detection device according to claim 5, wherein two dampers (601) are symmetrically arranged along the center of the transverse push plate (3), and the dampers (601) are in threaded connection with the hexagonal nut (602).
7. The universal mobile phone glass multi-size detection device according to claim 1, wherein the longitudinal plate (11) is rectangular in shape, and a central axis of the longitudinal plate (11) coincides with a central axis of the longitudinal distance correlation sensor (12).
8. The universal mobile phone glass multi-size detection device according to claim 1, wherein the outer surface of the lifting plate (15) is attached to the inner surface of the quantitative shell (1), and the central axis of the lifting plate (15) is coincident with the central axis of the electric cylinder III (14).
CN202122468088.8U 2021-10-13 2021-10-13 Multi-size detection equipment for universal mobile phone glass Active CN216049590U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122468088.8U CN216049590U (en) 2021-10-13 2021-10-13 Multi-size detection equipment for universal mobile phone glass

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122468088.8U CN216049590U (en) 2021-10-13 2021-10-13 Multi-size detection equipment for universal mobile phone glass

Publications (1)

Publication Number Publication Date
CN216049590U true CN216049590U (en) 2022-03-15

Family

ID=80548803

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122468088.8U Active CN216049590U (en) 2021-10-13 2021-10-13 Multi-size detection equipment for universal mobile phone glass

Country Status (1)

Country Link
CN (1) CN216049590U (en)

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