CN208297384U - Glass baseplate surface dust detection system - Google Patents

Abstract

This disclosure relates to a kind of glass baseplate surface dust detection system, including the transmission device for glass substrate to be transmitted with vertical state, and it is fixed on the lower section of glass substrate and the detection device that direction of illumination is parallel with the surface of glass substrate, transmission device includes and the spaced column of detection device, for clamping the clamping piece of glass substrate, and the driving member being fixedly connected with clamping piece, the top of column is arranged in driving member in which can slide back and forth, and is also rotatably coupled on column for the directive wheel tangent with the lower end of glass substrate.Driving member drive glass substrate with vertical state by a process horizontal transmission to next process during, detection device is located at the lower section of glass substrate, the dust of the glass baseplate surface of transmission is detected, the lower end of glass substrate is in contact with directive wheel always in transmit process, it can avoid the shaking of glass substrate in detection process, guarantee the accuracy of testing result, and then guarantees the quality of glass substrate.

Description

Glass baseplate surface dust detection system

Technical field

This disclosure relates to glass substrate production field, and in particular, to a kind of glass baseplate surface dust detection system.

Background technique

In glass substrate production process, especially in the transmit process of glass substrate, the powder of workshop can glue It is attached to the surface of glass substrate, causes the defect of glass baseplate surface, it is influenced and produces quality.To glass baseplate surface dust During being detected, since glass substrate is vertical lifting, it is also easy to produce shaking, seriously affects the accuracy of testing result.

Utility model content

Purpose of this disclosure is to provide a kind of glass baseplate surface dust detection system, which is able to solve detection The problem of glass substrate shakes in the process, guarantees the accuracy of testing result.

To achieve the goals above, the disclosure provides a kind of glass baseplate surface dust detection system, including is used for glass The transmission device that glass substrate is transmitted with vertical state, and it is fixed on lower section and direction of illumination and the institute of the glass substrate The parallel detection device in the surface of glass substrate is stated, the transmission device includes spaced vertical with the detection device Column, for clamping the clamping piece of the glass substrate, and the driving member being fixedly connected with the clamping piece, the driving member can The top of the column is set slidingly back and forth, be also rotatably coupled on the column for the glass substrate The tangent directive wheel in lower end.

Optionally, the directive wheel is the transmission of the line and the glass substrate at the two and two directive wheel point of contacts Direction is parallel.

Optionally, it is connected with level board on the column, the protrusion upwardly extended is formed on the level board, it is described to lead It is rotatably connected in the protrusion to wheel.

Optionally, mounting plate is further fixed on the side wall of the column, the mounting plate and the level board pass through connection Axis is rotatably coupled.

Optionally, the column is the more columns along direction of transfer spaced more of the glass substrate Top be connected by sliding rail, the sliding block being slidably attached in the sliding rail is formed on the driving member.

Optionally, the detection device includes the mounting bracket being arranged in below the glass substrate and is fixed on the peace Fill the light source that on bracket and direction of illumination is parallel with the glass baseplate surface.

Optionally, it is fixed with the clamping element for passing through for the light source in the mounting bracket, and the light source Direction of illumination towards meet to the direction of the glass substrate tilt.

Optionally, the detection system further includes the display device being connected with the detection device.

Optionally, the column includes the first rod segment and the second rod segment being mutually socketed, first rod segment can on move down It is fixed in second rod segment dynamicly.

Optionally, be respectively formed on first rod segment and the opposite side wall of second rod segment it is multiple along the vertical direction Spaced mounting hole, first rod segment and second rod segment are connected by passing through the locking member of the mounting hole.

Through the above technical solutions, driving member drive glass substrate with vertical state by a process horizontal transmission to next During a process, detection device is located at the lower section of glass substrate, can examine to the dust of the glass baseplate surface of transmission It surveys, meanwhile, the lower end of glass substrate is in contact with directive wheel always in transmit process, can avoid glass substrate in detection process Shaking, guarantee the accuracy of testing result, and then guarantee the production quality of glass substrate.

Other feature and advantage of the disclosure will the following detailed description will be given in the detailed implementation section.

Detailed description of the invention

Attached drawing is and to constitute part of specification for providing further understanding of the disclosure, with following tool Body embodiment is used to explain the disclosure together, but does not constitute the limitation to the disclosure.In the accompanying drawings:

Fig. 1 is the structural schematic diagram for the glass baseplate surface dust detection system that disclosure illustrative embodiments provide；

Fig. 2 is the knot of transmission device in the glass baseplate surface dust detection system of disclosure illustrative embodiments offer Structure schematic diagram；

Fig. 3 is detection device and aobvious in glass baseplate surface dust detection system that disclosure illustrative embodiments provide The structural schematic diagram of showing device.

Description of symbols

1 glass substrate, 2 transmission device

21 column, 22 clamping piece

23 driving member, 24 directive wheel

25 level board, 26 protrusion

27 mounting plate, 28 connecting shaft

3 detection device, 31 mounting bracket

32 light source, 33 clamping element

4 display device, 211 first rod segment

212 second rod segments

Specific embodiment

It is described in detail below in conjunction with specific embodiment of the attached drawing to the disclosure.It should be understood that this place is retouched The specific embodiment stated is only used for describing and explaining the disclosure, is not limited to the disclosure.

In the disclosure, in the absence of explanation to the contrary, the noun of locality used such as "upper" "lower" is typically referred to phase It answers and defines on the basis of the drawing of attached drawing, " preceding " " rear " refers to for the direction of transfer of glass substrate, "inner" "outside" Refer to the inner and outer of corresponding component profile, term " first " used in the disclosure " second " etc. be in order to distinguish an element and Another element does not have succession and importance.In addition, in the following description when referring to the accompanying drawings, unless otherwise indicated, difference is attached Same numbers in figure indicate the same or similar element.

As depicted in figs. 1 and 2, the disclosure provides a kind of glass baseplate surface dust detection system, which includes Transmission device 2 for glass substrate 1 to be transmitted with vertical state, and it is fixed on lower section and the irradiation of glass substrate 1 The direction detection device 3 parallel with the surface of glass substrate 1, wherein the transmission device 2 includes being spaced with detection device 3 The column 21 of setting, for clamping the clamping piece 22 of glass substrate 1, and the driving member 23 being fixedly connected with clamping piece 22, it passes The top of column 21 is arranged in moving part 23 in which can slide back and forth, be also rotatably coupled on column 21 for glass substrate 1 The tangent directive wheel 24 in lower end.It should be noted that in the present embodiment, it, can band during 1 horizontal transmission of glass substrate Action-oriented wheel 24 rotates and remains tangent with the lower end of glass substrate 1, in addition, detection device 3 is fixed on glass substrate 1 Lower section will not generate interference to the transmission of glass substrate 1, and can be to 1 surface dust of glass substrate for being sent to the position Adherency situation is detected.

Through the above technical solutions, driving member 23 drive glass substrate 1 with vertical state by a process horizontal transmission extremely During next process, detection device 3 is located at the lower section of glass substrate 1, can be to the dust on 1 surface of glass substrate of transmission It is detected, meanwhile, the lower end of glass substrate 1 is in contact with directive wheel 24 always in transmit process, can avoid detection process The shaking of middle glass substrate 1 guarantees the accuracy of testing result, and then guarantees the production quality of glass substrate 1.

As an illustrative embodiments of the disclosure, as shown in Fig. 2, directive wheel 24 is two and two directive wheels 24 are cut The line of point is parallel with the direction of transfer of glass substrate 1.In 1 transmit process of glass substrate, for guarantee directive wheel 24 always with Glass substrate 1 is mutually circumscribed, can be the identical directive wheel 24 of two diameters in the present embodiment, for example, working as glass base Plate 1 move forward when, while drive two directive wheels 24 rotate clockwise, directive wheel 24 always with the lower end phase of glass substrate 1 Contact can avoid glass substrate 1 in detection process and shake.

Specifically, as shown in Fig. 2, being connected with level board 25 on column 21, be formed on level board 25 upwardly extend it is convex 26 are played, directive wheel 24 is rotatably connected in protrusion 26.In this way, directive wheel 24 is rotatably connected on column 21, glass Directive wheel 24 can be driven to rotate during 1 horizontal transmission of substrate, the periphery of directive wheel 24 will not draw 1 surface of glass substrate Damage, in addition, it is also necessary to guarantee the cleannes of 24 periphery of directive wheel.

Further, as shown in Fig. 2, being further fixed on mounting plate 27 on the side wall of column 21, mounting plate 27 and level board 25 It is rotatably coupled by connecting shaft 28, such as pin shaft.Mounting plate 27 can play a supporting role to level board 25, pass through Rotational installation plate 27 can realize two directive wheels 24 close to or far from glass substrate 1, for example, the upper end when glass substrate 1 passes through After clamping piece 22 is fixed, it can be rotated level board 25 and be connected to directive wheel 24 on glass substrate 1 and be transmitted, when transmission finishes Afterwards, level board 25 can be rotated backward, makes directive wheel 24 far from glass substrate 1, avoid scratching and facilitates operation.

Driving member 23 drive the mode that is moved forward and backward in the horizontal direction of glass substrate 1 can be it is a variety of, in the disclosure In, as shown in Fig. 2, column 21 is along direction of transfer spaced more of glass substrate 1, the top of more root posts 21 passes through Sliding rail is connected, and the sliding block being slidably attached in sliding rail is formed on driving member 23.In other embodiments, sliding rail is also Can be the groove for being formed directly into the top of column 21, the quantity of column 21 can transmit as needed the distance of glass substrate 1 into Row relevant design guarantees that glass substrate 1 can be stable is transmitted along the longitudinal direction, and then guarantees glass substrate production just Often carry out.

To avoid the detection device 3 of clamped glass substrate 1 and lower section from interfering, especially in glass substrate 1 When size is larger, as shown in Figure 1, column 21 includes the first rod segment 211 and the second rod segment 212 being mutually socketed, the first rod segment 211 It can be fixed on up or down in the second rod segment 212.It can be to the position of glass substrate 1 by moving up and down for the first rod segment 211 Up and down adjustment is carried out, such as larger-size glass substrate 1, the first rod segment 211 can be moved up, to increase glass substrate The distance between 1 and detection device 3；For the lesser glass substrate 1 of size, the first rod segment 211 can be moved down, to reduce glass Distance between glass substrate 1 and detection device 3 can either guarantee that glass substrate 1 and detection device 3 will not generate interference, while Detection device 3 can be guaranteed to the accuracy of 1 testing result of glass substrate.

Specifically, as an illustrative embodiments of the disclosure, the first rod segment 211 and the opposite side of the second rod segment 212 Be respectively formed on wall multiple mounting holes spaced along the vertical direction, the first rod segment 211 and the second rod segment 212 by across The locking member of mounting hole, such as bolt are connected.In this way, can according to the size of glass substrate 1 adjust the first rod segment 211 relative to The height of second rod segment 212, and being fixed by locking member, it is reliable and stable and facilitate adjusting.

In addition, in the disclosure, as shown in figure 3, detection device 3 includes the mounting bracket being arranged in below glass substrate 1 31 and it is fixed on the light source 32 that in mounting bracket 31 and direction of illumination is parallel with 1 surface of glass substrate.Such as light source 32 can be with Using strong light focused light source of the brightness more than 1000 lumens, glass substrate 1 can be accurately clearly observed along beam direction Whether surface is stained with dust, that is, can complete the detection of surface dust in the transmit process of glass substrate 1, guarantee transmission The quality of glass substrate 1.

Specifically, as shown in figure 3, being fixed with the clamping element 33 for passing through for light source 32 in mounting bracket 31, and light The direction of illumination in source 32 towards meet to the direction of glass substrate 1 tilt.Clamping element 33 can be to be fixed in mounting bracket 31 Sleeve, and the mounting hole passed through for light source 32 is formed on sleeve, it is designed by the angle to mounting hole, it is ensured that light source 32 direction of illumination is tilted towards meeting to the direction of glass substrate 1, is capable of the surface of inswept glass substrate 1 from front to back, will not There is omission.

Detection system further includes the display device 4 being connected with detection device 3.In the present embodiment, display device 4 is The controller and display screen being electrically connected with light source 32, when detection device 3 detects that glass, there are when dust, is controlled from 1 surface of substrate Device can issue alarm in time, and the position of dust is timely transmitted to display screen, direct 1 surface of glass substrate visible in detail The adherency situation of dust, takes corresponding measure convenient for operator, reduces the working strength of operator, improves detection efficiency.

The preferred embodiment of the disclosure is described in detail in conjunction with attached drawing above, still, the disclosure is not limited to above-mentioned reality The detail in mode is applied, in the range of the technology design of the disclosure, a variety of letters can be carried out to the technical solution of the disclosure Monotropic type, these simple variants belong to the protection scope of the disclosure.

It is further to note that specific technical features described in the above specific embodiments, in not lance In the case where shield, can be combined in any appropriate way, in order to avoid unnecessary repetition, the disclosure to it is various can No further explanation will be given for the combination of energy.

In addition, any combination can also be carried out between a variety of different embodiments of the disclosure, as long as it is without prejudice to originally Disclosed thought equally should be considered as disclosure disclosure of that.

Claims (10)

1. a kind of glass baseplate surface dust detection system, which is characterized in that including being used for glass substrate (1) with vertical state The transmission device (2) being transmitted, and it is fixed on lower section and direction of illumination and the glass substrate of the glass substrate (1) (1) the parallel detection device in surface (3), the transmission device (2) include spaced vertical with the detection device (3) Column (21), for clamping the clamping piece (22) of the glass substrate (1), and the transmission being fixedly connected with the clamping piece (22) Part (23), the driving member (23) are arranged in the top of the column (21), may be used also on the column (21) in which can slide back and forth It is rotationally connected with for the directive wheel (24) tangent with the lower end of the glass substrate (1).

2. glass baseplate surface dust detection system according to claim 1, which is characterized in that the directive wheel (24) is The line at two and two directive wheel (24) point of contacts is parallel with the direction of transfer of the glass substrate (1).

3. glass baseplate surface dust detection system according to claim 2, which is characterized in that connect on the column (21) It is connected to level board (25), the protrusion (26) upwardly extended is formed on the level board (25), the directive wheel (24) can be rotated Ground is connected on raised (26).

4. glass baseplate surface dust detection system according to claim 3, which is characterized in that the side of the column (21) It is further fixed on wall mounting plate (27), the mounting plate (27) and the level board (25) can be rotated by connecting shaft (28) Ground connection.

5. glass baseplate surface dust detection system according to claim 1, which is characterized in that the column (21) is edge The top of spaced more of the direction of transfer of the glass substrate (1), the more columns (21) is connected by sliding rail, The sliding block being slidably attached in the sliding rail is formed on the driving member (23).

6. glass baseplate surface dust detection system according to claim 1, which is characterized in that the detection device (3) Including mounting bracket (31) below the glass substrate (1) is arranged and is fixed on the mounting bracket (31) and irradiation side To the light source (32) parallel with the glass substrate (1) surface.

7. glass baseplate surface dust detection system according to claim 6, which is characterized in that the mounting bracket (31) On be fixed with clamping element (33) for passing through for the light source (32), and the direction of illumination of the light source (32) towards meet to The direction of the glass substrate (1) tilts.

8. glass baseplate surface dust detection system according to claim 1, which is characterized in that the detection system is also wrapped Include the display device (4) being connected with the detection device (3).

9. glass baseplate surface dust detection system according to claim 1 to 8, which is characterized in that described vertical Column (21) includes the first rod segment (211) and the second rod segment (212) being mutually socketed, and first rod segment (211) can move up and down Ground is fixed on second rod segment (212).

10. glass baseplate surface dust detection system according to claim 9, which is characterized in that first rod segment (211) and on the opposite side wall of second rod segment (212) multiple mounting holes spaced along the vertical direction are respectively formed with, First rod segment (211) is connected with second rod segment (212) by passing through the locking member of the mounting hole.