CN113820047A

CN113820047A - Glass substrate bearing jig based on pressure adaptability test and test method

Info

Publication number: CN113820047A
Application number: CN202111044758.1A
Authority: CN
Inventors: 员英杰; 程秀文
Original assignee: Bengbu Gaohua Electronic Co ltd
Current assignee: Bengbu Gaohua Electronic Co ltd
Priority date: 2021-09-07
Filing date: 2021-09-07
Publication date: 2021-12-21
Anticipated expiration: 2041-09-07
Also published as: CN113820047B

Abstract

The invention discloses a glass substrate bearing jig based on pressure adaptability test and a test method, and relates to the technical field of glass substrate processing. In the invention: a group of adjusting wide grooves are formed in the two side panels of the base frame plate, a limiting support frame is arranged between the two adjusting wide grooves opposite to the opposite side surfaces, and a pressure sensing belt matched with the position of the notch of the inner periphery is embedded in the limiting support frame; an upper adjusting component is arranged on the outer side surface of the base frame plate; a vertical supporting square rod is arranged between the two low-position guide grooves at the opposite positions of the different side surfaces; a weight sensor is embedded and arranged on the upper side surface of the detection fixing plate; the lateral surface of bed frame deckle plate disposes and is used for adjusting the lower regulation subassembly that detects fixed plate level. The invention can adapt to the loading of glass substrates with more specifications and types, has simple adjustment and high stability, and also improves the static loading stability and safety of the current glass substrate on the loading jig and the reliability and high efficiency in the loading motion process.

Description

Glass substrate bearing jig based on pressure adaptability test and test method

Technical Field

The invention relates to the technical field of glass substrate processing, in particular to a glass substrate bearing jig based on pressure adaptability test and a test method.

Background

The existing glass bearing jig is limited by design, generally only can bear a glass substrate with a certain size, and if the size of the glass substrate is large, various jigs need to be manufactured, so that the cost waste is serious.

In addition, when the glass substrate of various specification and dimension is installed on the bearing tool of the good position of preliminary adjustment, because the regulation of tool generally all is manual regulation, precision and actual matching degree can't reach higher level, lead to the extrusion degree between glass substrate and the limit structure too tight or too loose, limit structure can't form a support protection that is close to the perfection to the glass substrate. In addition, an edge gap is inevitably formed between the limiting structure and the glass substrate, and when various process procedures are carried out, the impact force causes the glass substrate to generate micro position deviation due to the gap, so that the process quality of the glass substrate is easily reduced, and the glass substrate is seriously damaged even.

Prior patent document one, publication No.: CN103738585B, patent name: the glass basket tool mainly comprises the following technical contents: the frame is including being tetragonal chassis that is that the bottom is located, first vaulting pole, the second vaulting pole, third vaulting pole and fourth vaulting pole, enclose the pole on four, at least one first support has between first vaulting pole and the second vaulting pole, at least one second support between third vaulting pole and the fourth vaulting pole, the radical of first support is the same with the radical of second support and length extends along upper and lower direction respectively, be provided with two piece at least first shelves between first vaulting pole and the fourth vaulting pole, glass basket utensil still includes two piece at least second and puts the strip, the second is put the strip and is set up between corresponding first support and second support, it can press from both sides a plurality of V-arrangement grooves of establishing glass to be provided with respectively on first shelves strip and the second shelves strip. The first shelf strip and the second shelf strip can be adjusted in height and size, the distance between the first shelf strip and the second shelf strip is adjusted through the first support and the second support, glass with more sizes and specifications can be stored, and the weight is lighter.

The first patent document (CN103738585B) discloses a multi-specification adjustable and supported glass substrate loading basket, but does not solve the problems of proper extrusion force adjustment for glass substrates during manual adjustment and slight offset during loading of glass substrates.

Disclosure of Invention

The invention provides a glass substrate bearing jig based on pressure adaptability test and a test method, so that more specifications and types of glass substrates can be adapted and loaded, the adjustment is simple, the stability is high, and the static stability and the safety of the current glass substrate bearing on the bearing jig and the reliability and the high efficiency in the bearing movement process are improved.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention provides a glass substrate bearing jig based on pressure adaptability test, which comprises a base frame plate and a plurality of glass substrates bearing the inner periphery of the base frame plate, wherein a group of adjusting wide grooves are formed in two side panels of the base frame plate, and a limiting support frame is arranged between the two adjusting wide grooves at the opposite positions of the different side panels; a plurality of inner-wall notches which are uniformly distributed are formed in the inner side of the limiting support frame, and pressure sensing belts matched with the inner-wall notches are embedded in the limiting support frame; an upper adjusting component for adjusting the horizontal height of the limiting support frames and the distance between the two limiting support frames is arranged on the outer side surface of the base frame plate; the bottoms of two side face plates of the base frame plate are provided with low-level guide grooves, and a vertical support square rod is arranged between the two low-level guide grooves at the opposite positions of the different side faces; detection fixing plates are arranged at the two ends of the bottom side surface of the vertical support square rod, and weight sensors are embedded and arranged on the upper side surface of each detection fixing plate; the lateral surface of bed frame deckle plate disposes and is used for adjusting the lower regulation subassembly that detects fixed plate level.

As a preferred technical scheme of the glass substrate bearing jig provided by the invention: the upper adjusting assembly comprises a first fixed base block fixedly arranged on the outer side surface of the frame plate of the base frame, and a first adjusting longitudinal rod is arranged on the first fixed base block; the upper side end of the first adjusting longitudinal rod is vertically and fixedly connected with a first transverse pipe, the first transverse pipe comprises a pipe inner cavity, and two ends of the first transverse pipe are provided with transverse adjusting support rods; wherein, the two transverse adjusting support rods are symmetrically provided with adjusting reference scales. And the two side ends of the limiting support frame are fixedly provided with first convex guide blocks, and the parts of the first convex guide blocks, which protrude out of the adjusting wide grooves, are fixedly connected with the end sides of the transverse adjusting support rods.

As a preferred technical scheme of the glass substrate bearing jig provided by the invention: a first longitudinal through groove is formed in the first fixed base block, and the first adjusting longitudinal rod is longitudinally installed at the position of the first longitudinal through groove of the first fixed base block; two sides of the first fixed base block are provided with first longitudinal reinforcing knobs for positioning and reinforcing the first adjusting longitudinal rod; the first transverse pipe is provided with a first transverse reinforcing knob for positioning and reinforcing the transverse adjusting support rod.

As a preferred technical scheme of the glass substrate bearing jig provided by the invention: a first data line interface connected with the pressure sensing live line is arranged on a first convex guide block at one side end of the limiting support frame, and a first sealing cover is arranged at an opening of the first data line interface of the first convex guide block.

As a preferred technical scheme of the glass substrate bearing jig provided by the invention: the lower adjusting assembly comprises a second fixed base block fixedly arranged on the outer side surface of the frame plate of the base frame, a second adjusting longitudinal rod is arranged on the second fixed base block, and the lower side end of the second adjusting longitudinal rod is vertically and fixedly connected with a peripheral fixed cross rod; the two side ends of the detection fixing plate are fixedly provided with second outer convex guide blocks, and the parts of the second outer convex guide blocks, which protrude out of the low-position guide grooves, are fixedly connected with the end sides of the peripheral fixing cross rods; and a communicating branch pipe used for sealing and installing an electric circuit is fixedly connected between the adjacent detection fixing plates.

As a preferred technical scheme of the glass substrate bearing jig provided by the invention: a second longitudinal through groove is formed in the second fixed base block, and a second adjusting longitudinal rod is longitudinally installed at the position of the second longitudinal through groove of the second fixed base block; and second longitudinal reinforcing knobs for positioning and reinforcing the second adjusting longitudinal rods are arranged on two sides of the second fixing base block.

As a preferred technical scheme of the glass substrate bearing jig provided by the invention: and a second data line interface connected with a plurality of weight sensor electric lines is arranged on a second outer convex guide block at any position outside the detection fixing plate, and a second sealing cover is arranged at the opening position of the second data line interface of the second outer convex guide block.

The invention relates to a test method of a glass substrate bearing jig based on pressure adaptability test, which comprises the following steps:

(1) adjusting the upper adjusting assembly according to the size of the glass substrate to be carried, and completing the pre-adjustment of the carrying width range of the glass substrate; and adjusting the lower adjusting assembly to complete the pre-adjustment of the longitudinal supporting height position of the glass substrate.

(2) And a glass substrate is preliminarily inserted between the two limiting support frames, a pressure sensing strip test circuit is connected, and the current inserted glass substrate and the insertion contact pressure information of the limiting support frames are measured by the pressure sensing strip.

(3) The control system acquires the insertion contact pressure information transmitted by the pressure sensing belt, the insertion contact pressure information is observed through the display screen, if the insertion contact pressure value is not within the range of the support contact reference pressure, the position of the transverse adjusting support rod in the upper adjusting assembly is adjusted symmetrically and finely until the insertion contact pressure of the currently inserted glass substrate and the limiting support frame is within the range of the support contact reference pressure.

(4) All insert a plurality of glass substrates between two spacing support frames, according to the vibrations value of control system input, rock whole bed frame plate through the manipulator, control system acquires the total value of weight that all weight sensor sensing detected, carries out the analysis to the undulant information of total value of weight:

the total weight value change range sensed by all the weight sensors is G within the time domain that the manipulator shakes the whole frame plate of the bed frame_a，G_b]Let the total weight of all glass substrates be G_MLet the weight fluctuation ratio in the time domain be λ, exist

Setting the maximum reference fluctuation ratio to lambda_OIf λ₁、λ₂Any one of which is greater than lambda_OIf the current glass substrate bearing height is ultrahigh, linearly adjusting the first adjusting longitudinal rod upwards or adjusting the second adjusting longitudinal rod downwards, and testing again until lambda is met₁、λ₂Are no more than lambda_OUntil now.

As an optimized technical scheme of the testing method of the glass substrate bearing jig, the invention comprises the following steps: maximum reference fluctuation ratio λ_OThe total weight G of the glass substrate loaded currently_MThe correlation is positive and the correlation is negative,i.e. F (lambda)_O)∝F(G_M) Wherein, F (λ)_O) For the maximum reference fluctuation ratio function value, F (G)_M) Is the total weight function value of the loaded glass substrate.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the glass substrate bearing jig with the adjustable limiting supports is designed, and a vertical support adjusting mode of the bottom is matched, so that more specification types of glass substrates can be adapted to be borne, the adjustment is simple, and the stability is high;

2. according to the invention, the static stability and the safety of the current glass substrate on the bearing jig and the reliability and the high efficiency in the bearing movement process are improved by performing the adaptive detection and the adjustment of the limiting pressure on the limiting support frame, and performing the sensing detection and the analysis of the weight fluctuation change during the impact shaking and the corresponding limiting support adjustment at the bottom.

Drawings

FIG. 1 is a schematic view of an overall apparatus of a glass substrate loading jig according to the present invention;

FIG. 2 is a schematic view of a fitting structure (top view) between a position-limiting support frame and a glass substrate according to the present invention;

FIG. 3 is a schematic view of the weight sensor, the fixed detecting plate and the communicating branch pipe according to the present invention;

wherein: 1-a pedestal frame plate; 2-a glass substrate; 3-adjusting the wide groove; 4-a first fixed base block; 5-a first longitudinal through slot; 6-a first longitudinal reinforcing knob; 7-a first adjusting longitudinal rod; 8-a first transverse tube; 9-tube inner cavity; 10-a first lateral reinforcement knob; 11-a transverse adjusting strut; 12-a limit support frame; 13-a first male guide; 14-low guide groove; 15-a second fixed base block; 16-a second longitudinal through slot; 17-a second adjusting longitudinal rod; 18-a second longitudinal stiffening knob; 19-peripheral fixed cross bars; 20-vertically supporting the square bar; 21-a second male guide block; 22-a rubber cushion layer; 23-detecting the fixed plate; 24-a weight sensor; 25-a communicating branch; 26-inner peripheral notch; 27-a pressure sensing strip; 28-first data line interface; 29-a first sealing cover; 30-a second data line interface; 31-second sealing lid.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example one

Referring to fig. 1, the first fixed base block 4 is located on the outer side of the plate blocks on both sides of the frame plate 1 of the base frame, the first vertical adjusting rod 7 can vertically adjust on the first vertical through groove 5 of the first fixed base block 4, and then the first vertical adjusting rod 7 can be fixed by the first vertical reinforcing knob 6[ the first vertical reinforcing knob 6 is provided with a threaded rod, and the threaded rod is inserted into and communicated with the first vertical through groove 5 ]. Then can bear the size of the glass substrate 2 of dress as required, adjust the position of horizontal adjusting branch 11 on the first horizontal pipe 8, be equipped with the scale on the horizontal adjusting branch 11, the horizontal adjusting branch 11 symmetry of both sides is adjusted, make two spacing support frames 12 about first adjusting vertical pole 7 symmetry, first adjusting vertical pole 7 is located same vertical line with second adjusting vertical pole 17, when making two spacing support frames 12 carry on spacingly to glass substrate 2, two vertical support square poles 20 of bottom side also can the complete symmetry support to all glass substrate 2.

Similarly, the second vertical reinforcement knob 18 can also adjust the height position of the second vertical adjustment rod 17, so as to adjust the horizontal height positions of the detection fixing plate 23 and the vertical support square rod 20.

Example two

As shown in fig. 2, a capacitive pressure sensing probe is embedded in each inner groove opening 26 of the pressure sensing strip 27, when the glass substrate 2 and the position-limiting support frame 12 are inserted into each other and matched with each other, whether the glass substrate 2 and the position-limiting support frame 12 are matched with each other too loosely or too tightly can be obtained through pressure detection of the pressure sensing strip 27, and a suitable matching pressure relationship can be conveniently realized through adjustment.

EXAMPLE III

Referring to fig. 3, a plurality of communicating branch pipes 25 are fixedly connected between the detecting fixing plates 23, a second data line interface 30 is disposed at an end side of one of the second male guide blocks 21, and the weight sensors 24 at respective positions transmit sensed weight information to the second data line interface 30 through electric lines pre-installed in the communicating branch pipes 25 and to the control system through external data line connections. Meanwhile, the communicating branch pipes 25 connect a plurality of detection fixing plates 23 into a whole, and form a stable supporting chassis for the vertical supporting square rod 20. The upside of vertical support square column 20 is equipped with the one deck rubber cushion, can increase the frictional force with 2 bottoms of glass substrate, reduces the degree of rocking when receiving the impact force.

Example four

Support contact reference pressure range: the glass substrates of various types have the maximum compression strength of the side surface, theoretically, the glass substrates are not best stressed by the pressure of the side surface, but the glass substrates inserted into the bearing jig need to ensure certain stability, the pressure generated between the side surface and the bearing jig is inevitable, and the glass substrates and the bearing jig can form stable friction force under certain pressure, so that the glass substrates can be effectively kept static for process treatment when being sprayed and impacted. The support contact reference pressure range is mainly related to the type, specification and size of the glass substrate, and a corresponding reference value range can be set in the control system according to actual needs.

EXAMPLE five

In the invention, the possibility of impact and vibration generated by the bearing jig in practical use and various process procedures is high, because the glass substrate 2 cannot be completely and seamlessly matched with the inner-periphery notch 26 on the limit support frame 12, a certain gap is reserved between the glass substrate 2 and two side walls of the inner-periphery notch 26, when large shaking and impact occur, micro offset of the glass substrate 2 occurs, and when the glass substrate 2 is contacted with the side walls of the inner-periphery notch 26, if the height of the glass substrate 2 protruding out of the inner-periphery notch 26 is higher, the weight of the glass substrate 2 is more distributed to the weight of the limit support frame 12, the weight value sensed by the weight sensor 24 at the bottom is reduced, which is the significance of establishing comparison and analysis of fluctuation information of the total weight value, establishing comparison and analysis of fluctuation information of the total lifting weight value, judging whether the support height of the current glass substrate 2 relative to the limit support frame 12 is too high, if too high, can satisfy current spacing support frame 12 to glass substrate 2's support through the first regulation vertical pole 7 of linear adjustment or the second regulation vertical pole 17, reduce the problem of the glass substrate 2 technological process decline that leads to because of the too big glass substrate 2 upper region amplitude of rocking that the gap leads to.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a glass substrate holds dress tool based on pressure suitability test, includes bed frame deckle (1) and holds a plurality of glass substrates (2) of dress enclosing in bed frame deckle (1), its characterized in that:

a group of adjusting wide grooves (3) are formed in the two side panels of the base frame plate (1), and a limiting support frame (12) is arranged between the two adjusting wide grooves (3) at the positions opposite to the different side surfaces;

a plurality of inner-wall notches (26) which are uniformly distributed are formed in the inner side of the limiting support frame (12), and pressure sensing belts (27) matched with the inner-wall notches (26) in position are embedded in the limiting support frame (12);

an upper adjusting component for adjusting the horizontal height of the limiting support frames (12) and the distance between the two limiting support frames (12) is arranged on the outer side surface of the base frame plate (1);

the bottom parts of two side panels of the base frame plate (1) are provided with low-level guide grooves (14), and a vertical support square rod (20) is arranged between the two low-level guide grooves (14) at the opposite positions of different side surfaces;

detection fixing plates (23) are arranged at two ends of the bottom side surface of the vertical support square rod (20), and weight sensors (24) are embedded in the upper side surface of each detection fixing plate (23);

the outer side surface of the base frame plate (1) is provided with a lower adjusting component for adjusting the horizontal height of the detection fixing plate (23).

2. The glass substrate bearing jig based on the pressure suitability test of claim 1, wherein:

the upper adjusting assembly comprises a first fixed base block (4) fixedly arranged on the outer side surface of the base frame plate (1), and a first adjusting longitudinal rod (7) is arranged on the first fixed base block (4);

a first transverse pipe (8) is vertically and fixedly connected to the upper side end of the first adjusting longitudinal rod (7), the first transverse pipe (8) comprises a pipe inner cavity (9), and transverse adjusting support rods (11) are mounted at two ends of the first transverse pipe (8);

wherein, the two transverse adjusting support rods (11) are symmetrically provided with adjusting reference scales;

the two side ends of the limiting support frame (12) are fixedly provided with first outward protruding guide blocks (13), and the parts, protruding out of the adjusting wide grooves (3), of the first outward protruding guide blocks (13) are fixedly connected with the end sides of the transverse adjusting support rods (11).

3. The glass substrate bearing jig based on the pressure suitability test of claim 2, wherein:

a first longitudinal through groove (5) is formed in the first fixed base block (4), and the first adjusting longitudinal rod (7) is longitudinally installed at the position of the first longitudinal through groove (5) of the first fixed base block (4);

two sides of the first fixed base block (4) are provided with first longitudinal reinforcing knobs (6) for positioning and reinforcing the first adjusting longitudinal rod (7);

and a first transverse reinforcing knob (10) for positioning and reinforcing a transverse adjusting support rod (11) is arranged on the first transverse pipe (8).

4. The glass substrate bearing jig based on the pressure suitability test of claim 2, wherein:

a first data line interface (28) connected with an electric circuit of the pressure sensing belt (27) is formed in the first convex guide block (13) at one side end of the limiting support frame (12), and a first sealing cover (29) is arranged at an opening of the first data line interface (28) of the first convex guide block (13).

5. The glass substrate bearing jig based on the pressure suitability test of claim 1, wherein:

the lower adjusting assembly comprises a second fixed base block (15) fixedly arranged on the outer side surface of the base frame plate (1), a second adjusting longitudinal rod (17) is arranged on the second fixed base block (15), and a peripheral fixed cross rod (19) is vertically and fixedly connected to the lower side end of the second adjusting longitudinal rod (17);

the two side ends of the detection fixing plate (23) are fixedly provided with second outer convex guide blocks (21), and the parts of the second outer convex guide blocks (21) protruding out of the low-position guide grooves (14) are fixedly connected with the end sides of the peripheral fixed cross rods (19);

and a communication branch pipe (25) for sealing and installing an electric circuit is fixedly connected between the adjacent detection fixing plates (23).

6. The glass substrate bearing jig based on the pressure suitability test of claim 5, wherein:

a second longitudinal through groove (16) is formed in the second fixed base block (15), and the second adjusting longitudinal rod (17) is longitudinally installed at the position of the second longitudinal through groove (16) of the second fixed base block (15);

and second longitudinal reinforcing knobs (18) for positioning and reinforcing second adjusting longitudinal rods (17) are arranged on two sides of the second fixed base block (15).

7. The glass substrate bearing jig based on the pressure suitability test of claim 5, wherein:

a second data line interface (30) connected with a plurality of weight sensors (24) through electric lines is arranged on a second outer convex guide block (21) on the outer side of the detection fixing plate (23) at any position, and a second sealing cover (31) is arranged at the opening position of the second data line interface (30) of the second outer convex guide block (21).

8. A method for testing a glass substrate loading jig based on a pressure adaptability test, which is characterized in that the glass substrate loading jig based on the pressure adaptability test of any one of claims 1 to 7 is adopted, and comprises the following steps:

(1) adjusting an upper adjusting assembly according to the size of the glass substrate (2) to be loaded, and completing the pre-adjustment of the loading width range of the glass substrate (2); adjusting the lower adjusting assembly to complete the pre-adjustment of the longitudinal supporting height position of the glass substrate (2);

(2) preliminarily inserting a glass substrate (2) between the two limiting support frames (12), switching on a pressure sensing strip test circuit, and measuring the insertion contact pressure information of the currently inserted glass substrate (2) and the limiting support frames (12) by a pressure sensing strip (27);

(3) the control system acquires insertion contact pressure information transmitted by the pressure sensing belt (27), and the insertion contact pressure information is observed through the display screen, if the insertion contact pressure value is not within the support contact reference pressure range, the position of a transverse adjusting support rod (11) in the upper adjusting assembly is symmetrically and finely adjusted until the insertion contact pressure of the currently inserted glass substrate (2) and the limiting support frame (12) is within the support contact reference pressure range;

(4) insert a plurality of glass substrates (2) between two spacing support frames (12), according to the vibrations value of control system input, rock whole bed frame plate (1) through the manipulator, control system acquires the total value of weight that all weight sensor (24) sensing detected, carries out the analysis to the undulant information of total value of weight:

the total weight value change range sensed by all the weight sensors (24) is G within the time domain that the manipulator shakes the whole pedestal frame plate (1)_a，G_b]Let the total weight of all glass substrates (2) be G_MLet the weight fluctuation ratio in the time domain be λ, exist

Setting the maximum reference fluctuation ratio to lambda_OIf λ₁、λ₂Any one of which is greater than lambda_OThen, thenJudging that the current glass substrate (2) has ultrahigh bearing height, linearly adjusting the first adjusting longitudinal rod (7) upwards or adjusting the second adjusting longitudinal rod (17) downwards, and testing again until lambda is met₁、λ₂Are no more than lambda_OUntil now.

9. The method for testing the glass substrate bearing jig based on the pressure suitability test as claimed in claim 8, wherein:

maximum reference fluctuation ratio λ_OThe total weight G of the glass substrate (2) and the current load_MPositive correlation, i.e. F (lambda)_O)∝F(G_M) Wherein, F (λ)_O) For the maximum reference fluctuation ratio function value, F (G)_M) Is the total weight function value of the loaded glass substrate (2).