CN217466649U - Large-scale ultra-thin glass stripe degree detection equipment - Google Patents

Abstract

The utility model relates to a large-scale ultra-thin glass stripe degree check out test set belongs to support plate glass quality testing technical field. The xenon lamp moving device comprises an annular rail, wherein two moving devices are movably arranged on the annular rail and are oppositely arranged on the annular rail, a xenon lamp is arranged at the upper end of one moving device, a photoelectric sensor is arranged at the upper end of the other moving device, and the xenon lamp and the photoelectric sensor are oppositely arranged and matched for use. The utility model discloses having changed in the past support plate glass need carry the working method that the checkout stand detected the stripe degree, only needing to transport the assembly line cooperation with support plate glass, with the vertical detection position who transports to the ring rail top of support plate glass, mobile device drives xenon lamp, photoelectric sensor and removes on the ring rail, and photoelectric sensor collects and shines the light that passes support plate glass by the xenon lamp, realizes the detection to support plate glass multi-angle, obtains support plate glass's stripe degree.

Description

Large-scale ultra-thin glass stripe degree detection equipment

Technical Field

The utility model relates to a large-scale ultra-thin glass stripe degree check out test set belongs to support plate glass quality testing technical field.

Background

The carrier plate glass is used for OLED coating, is large in size, thin in thickness and inconvenient to carry, and is usually carried to a special inspection bench for sampling inspection manually for the streak detection of the carrier plate glass. However, the following technical problems exist: the requirement of large-scale ultra-thin glass on the accuracy of the rotation angle is high in detection of the strip degree of the glass, the operation is inconvenient when a single person detects the strip degree of the glass, the rotation angle is read inaccurately, and meanwhile, certain glass breaking risks exist.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the defects of the prior art are overcome, the large-scale ultrathin glass stripe degree detection equipment is provided, the detection angle is accurate, and the detection process is convenient.

The utility model discloses a large-scale ultra-thin glass stripe degree detection device, which comprises an annular track, wherein two moving devices are movably arranged on the annular track and are oppositely arranged on the annular track; the xenon lamp is arranged at the upper end of one of the moving devices, the photoelectric sensor is arranged at the upper end of the other moving device, and the xenon lamp and the photoelectric sensor are oppositely arranged and matched for use.

Preferably, the annular rail is provided with an inner chute and an outer chute, the lower end of the moving device is provided with an inner roller and an outer roller, the inner roller is matched with the inner chute, the outer roller is matched with the outer chute, and the moving device can flexibly move on the annular rail.

Preferably, a motor is arranged in the moving device, the output end of the motor is connected with the inner roller or the outer roller, and the motor serves as a driving device and provides power for the moving device.

Preferably, the moving device is provided with a control panel for controlling the xenon lamp or the photoelectric sensor, the control panel matched with the xenon lamp is used for controlling the working state of the xenon lamp, and the control panel matched with the photoelectric sensor is used for recording and analyzing the brightness of the received light rays with different angles.

Preferably, the bottom of the annular track is provided with a plurality of supporting feet for supporting and placing the whole device.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses be equipped with xenon lamp and photoelectric sensor that ring rail, mobile device and mobile device set up, the mobile device is rotated 90 degrees simultaneously under the drive of gyro wheel, with the operating condition of xenon lamp complex control panel control, with photoelectric sensor complex control panel record and analyze the different angle light luminance of receipt, detect a plurality of angles of support plate glass, it is convenient, the angle is accurate to detect;

(2) the motor provides power as drive arrangement, interior gyro wheel and interior spout cooperation, outer gyro wheel and the cooperation of spout outward, and interior gyro wheel or outer gyro wheel are connected to the motor output, and one of them is as the action wheel of interior gyro wheel and outer gyro wheel, and another is as from the driving wheel, not only can make mobile device move in annular track is nimble, can practice thrift the energy consumption moreover.

Drawings

Figure 1 is a schematic structural view of an embodiment of the present invention,

figure 2 is a front view of figure 1,

figure 3 is a left side view of figure 1,

fig. 4 is a top view of fig. 1.

In the figure: 1. an annular track; 2. a mobile device; 3. a xenon lamp; 4. a photoelectric sensor; 5. a control panel; 6. a transportation assembly line; 7. a carrier plate glass; 8. supporting legs;

11. an inner chute; 12. an outer chute;

21. an inner roller; 22. and an outer roller.

Detailed Description

Example 1

As shown in fig. 1-4, large-scale ultra-thin glass stripe degree check out test set, including circular orbit 1, the activity sets up two mobile device 2 on the circular orbit 1, two mobile device 2 relative arrangement on circular orbit 1, 2 upper ends of one of them mobile device are equipped with xenon lamp 3, and 2 upper ends of another mobile device are equipped with photoelectric sensor 4, and xenon lamp 3 sets up, cooperates the use with photoelectric sensor 4 relatively, detects support plate glass's stripe degree.

The annular track 1 is provided with an inner chute 11 and an outer chute 12, the lower end of the moving device 2 is provided with an inner roller 21 and an outer roller 22, the inner roller 21 is matched with the inner chute 11, and the outer roller 22 is matched with the outer chute 12. A motor is arranged in the moving device 2, the output end of the motor is connected with the inner roller 21 or the outer roller 22, one of the inner roller 21 and the outer roller 22 serves as a driving wheel, and the other serves as a driven wheel, so that energy consumption is saved.

As shown in fig. 2 and 3, the control panel 5 is disposed on the moving device 2, the control panel 5 cooperating with the xenon lamp 3 controls the working state of the xenon lamp 3, and the control panel 5 cooperating with the photoelectric sensor 4 records and analyzes the received light brightness at different angles to obtain the degree of striae of the carrier plate glass 7.

As shown in fig. 2, the bottom of the circular track 1 is provided with a plurality of supporting feet 8 for supporting and fixing the whole device.

Working process or working principle:

after the carrier plate glass 7 is vertically conveyed to the detection position above the annular track 1 by the conveying line 6, the movement is stopped, and at the moment, the xenon lamp 3 and the photoelectric sensor 4 are oppositely arranged and are positioned at two sides of the carrier plate glass 7. The motor drives the inner roller 21 and the outer roller 22 to rotate, the two moving devices 2 rotate in the same rotation direction for 90 degrees, the photoelectric sensor 4 collects light rays penetrating through the carrier plate glass 7 from the xenon lamp 3, the control panel 5 matched with the xenon lamp 3 controls the working state of the xenon lamp 3, and the control panel 5 matched with the photoelectric sensor 4 records and analyzes light rays with abnormal brightness at different angles to obtain the degree of striping of the carrier plate glass 7.

After the detection of the current carrier plate glass 7 is completed, the motor drives the moving device 2 to rotate reversely and reset, the transportation assembly line 6 continues to work, the next carrier plate glass 7 is transported to the detection position above the circular track 1, the cycle is repeated, the detection angle of the stripe degree of the carrier plate glass 7 is accurate, and the detection process is convenient.

The photoelectric sensor 4 can be of the type: louis test LE 328/4P.

The utility model discloses in to the direction of structure and the description of relative position relation, it is right not to constitute like the description from top to bottom all around the utility model discloses a restriction only is the description convenient.

Claims (5)

1. The large ultrathin glass streak degree detection equipment is characterized by comprising an annular track (1), wherein two moving devices (2) are movably arranged on the annular track (1), and the two moving devices (2) are oppositely arranged on the annular track (1);

one of them mobile device (2) upper end is equipped with xenon lamp (3), and another mobile device (2) upper end is equipped with photoelectric sensor (4), and xenon lamp (3) and photoelectric sensor (4) relative setting, cooperation are used.

2. The large ultra-thin glass streak detection apparatus according to claim 1, wherein the ring-shaped track (1) is provided with an inner chute (11) and an outer chute (12), the lower end of the moving device (2) is provided with an inner roller (21) and an outer roller (22), the inner roller (21) is engaged with the inner chute (11), and the outer roller (22) is engaged with the outer chute (12).

3. The large ultra-thin glass streak detection apparatus according to claim 2, wherein a motor is provided inside the moving device (2), and the output end of the motor is connected to the inner roller (21) or the outer roller (22).

4. A large ultra-thin glass streak detection apparatus according to any one of claims 1 to 3, wherein the moving device (2) is provided with a control panel (5) for controlling the xenon lamp (3) or the photoelectric sensor (4).

5. A large ultra-thin glass streak detection apparatus according to claim 4, wherein the ring track (1) is provided with a plurality of support legs (8) at the bottom.

Images