CN210514781U - Metallographic microscope capable of rapidly loading and unloading for liquid crystal display panel detection - Google Patents

Abstract

The utility model relates to a microscope especially relates to a liquid crystal display panel detects with metallography microscope of unloading on quick. The to-be-solved technical problem of the utility model is to provide a liquid crystal display panel detects with metallurgical microscope of unloading on quick. The utility model provides a liquid crystal display panel detects metallographic microscope with unloading in quick, includes metallographic microscope main part, first eyepiece, second eyepiece, objective table. A first ocular is arranged on the front side of the left upper part of the metallographic microscope main body; a second ocular is arranged on the rear side of the left upper part of the metallographic microscope main body; the right side of the top of the metallographic microscope main body is provided with an objective table; the device realizes automatic feeding and discharging conversion of the sample wafer, can watch the information of the detection sample wafer in real time, and can recover the researched sample wafer, so that a researcher can conveniently control the sample wafer to feed and discharge in the unmovable time.

Description

Metallographic microscope capable of rapidly loading and unloading for liquid crystal display panel detection

Technical Field

The utility model relates to a microscope especially relates to a liquid crystal display panel detects with metallography microscope of unloading on quick.

Background

The computer type metallographic microscope or the digital metallographic microscope is a high-tech product developed and researched by perfectly combining an optical microscope technology, a photoelectric conversion technology and a computer image processing technology, and can be used for conveniently observing a metallographic image on a computer, so that a metallographic map is analyzed, graded and the like, and pictures are output and printed;

when producing liquid crystal display panel, need carry out multinomial data to its component part and detect and observe the research, often can use the metallographic microscope when observing the research, but get the sample piece inconvenience from top to bottom when prior art's metallographic microscope uses, because the observation time length of sample piece differs, frequent walking shifts to get and puts the sample piece very inconvenient, waste time and work efficiency simultaneously.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model discloses an it is inconvenient to overcome prior art's metallographic microscope and get sample wafer from top to bottom when using, because the observation time of sample wafer differs in length, frequent walking shifts to get gets and puts sample wafer very inconvenient, the shortcoming of wasting time and work efficiency simultaneously, the to-be-solved technical problem of the utility model is to provide a liquid crystal panel detects with the metallographic microscope of unloading on quick.

The utility model is achieved by the following concrete technical means:

a metallographic microscope capable of feeding and discharging rapidly for liquid crystal panel detection comprises a metallographic microscope main body, a first ocular, a second ocular, an objective table, a feeding and discharging mechanism and a recovery mechanism; a first ocular is arranged on the front side of the left upper part of the metallographic microscope main body; a second ocular is arranged on the rear side of the left upper part of the metallographic microscope main body; the right side of the top of the metallographic microscope main body is provided with an objective table; a feeding and discharging mechanism is arranged on the right side of the metallographic microscope main body; the left front part in the feeding and discharging mechanism is provided with a recovery mechanism.

Further, the feeding and discharging mechanism comprises a supporting table, a plug board, a sample wafer, a storage battery mechanism, an LED curved screen, an electric rotating disc, a sliding rod, a sliding block, a first clamping plate, a first micro push rod, a second clamping plate, a clamping piece, a hand wheel, a controller, a first telescopic rod, a first sucker, a force applying rod, a second telescopic rod and a second sucker; the right side of the middle part in the supporting platform is spliced with the plugboard; the middle rear side of the top end of the support table is connected with the storage battery mechanism through a bolt; the right side of the front end face of the middle part of the support table is sleeved with the LED curved screen; the electric turntable is arranged in the middle of the front part of the support table; the front part of the right end of the support table is sleeved with the clamping piece through a screw; the rear bottom of the right end of the support table is inserted into the controller through a wire; a first telescopic rod is arranged on the right rear side of the bottom end of the support table; a second telescopic rod is arranged on the right front side of the bottom end of the support table; a sample wafer is placed in the middle of the top end of the plug board; the middle part of the top end of the electric turntable is welded with the sliding rod; the bottom of the outer surface of the sliding rod is in sliding connection with the sliding block; the bottom of the front end of the sliding block is connected with the first clamping plate through a bolt; the middle rear side of the top end of the first clamping plate is welded with the first miniature push rod; the middle part of the top end of the first clamping plate is rotatably connected with the second clamping plate, and the rear side of the bottom end of the second clamping plate is connected with the first miniature push rod; the inner top of the clamping piece is screwed with the hand wheel through a screw rod; the bottom end of the first telescopic rod is welded with the first sucking disc; the middle part of the outer surface of the first telescopic rod is sleeved with the stress application rod, and the inner front part of the stress application rod is connected with the second telescopic rod; the connecting bottom end of the second telescopic rod is welded with the second sucker; the right front part of the inner side of the supporting table is connected with a recovery mechanism.

Further, the recovery mechanism comprises a containing cabin, a second micro push rod, a supporting plate, a limiting plate and a guide plate; the right front part of the bottom end in the containing cabin is welded with the second miniature push rod; the top of the right end of the containing cabin is welded with the limiting plate; pouring and fusing the top of the left end of the containing cabin with the guide plate; the top of the second micro push rod is connected with the support plate through a bolt; the top of the outer surface of the containing cabin is connected with a feeding and discharging mechanism; the bottom end of the limiting plate is connected with the feeding and discharging mechanism; the bottom end of the guide plate is connected with the feeding and discharging mechanism.

Furthermore, the clamping pieces and the hand wheel are respectively provided with two clamping pieces and are respectively assembled and installed at the front bottom of the right end and the front bottom of the left end of the supporting platform.

Furthermore, two LED curved surface screens are arranged and are respectively arranged at the front end of the middle part of the support platform; and are respectively installed with the central axis inclined at thirty degrees towards the left and the right.

Furthermore, the plugboard and the sample wafer are provided with a plurality of groups, the left rear side edge of the plugboard is provided with an arc-surface-shaped stop block, the plugboards are placed on the inner side of the supporting platform at equal intervals, and the plugboards are symmetrically placed on the central axis relative to the LED curved screen.

Further, first telescopic link, first sucking disc, the power application pole, second telescopic link and second sucking disc all are provided with two, make up respectively, and total two sets of are installed respectively on the left side and the right side of propping up a supporting bench bottom.

Furthermore, the top section of the containing cabin is inclined from right to left.

Compared with the prior art, the utility model discloses following beneficial effect has:

for solving prior art's metallographic microscope and getting from top to bottom when using and put the sample wafer inconvenient, because the observation time length of sample wafer differs, it is very inconvenient to frequently walk to shift to get to put the sample wafer, time-wasting and work efficiency simultaneously, unloading mechanism and recovery mechanism have been designed, through controller control slider slip height-adjusting during the use, cooperation carousel angle regulation, the rethread is first, two splint press from both sides tight unloading of going up to the sample wafer, recovery mechanism can concentrate the recovery to the sample wafer that the research needs to be retrieved simultaneously, this device has realized unloading conversion sample wafer on automatic, can watch the information that detects the sample wafer simultaneously in real time, and retrieve the sample wafer that the research is good, can realize that the researcher just can the unloading on the portable control sample wafer when unmovable.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the loading and unloading mechanism of the present invention;

fig. 3 is a schematic structural diagram of the recycling mechanism of the present invention.

The labels in the figures are: 1-metallographic microscope body, 2-first eyepiece, 3-second eyepiece, 4-stage, 5-loading and unloading mechanism, 6-recovery mechanism, 501-support table, 502-plug board, 503-sample piece, 504-storage battery mechanism, 505-LED curved screen, 506-electric turntable, 507-slide bar, 508-slide block, 509-first clamping plate, 5010-first micro push rod, 5011-second clamping plate, 5012-clamping plate, 5013-hand wheel, 5014-controller, 5015-first telescopic rod, 5016-first sucker, 5017-stress rod, 5018-second telescopic rod, 5019-second sucker, 601-containing cabin, 602-second micro push rod, 603-support plate, 604-limiting plate, 605-guide plate.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Examples

A metallographic microscope for rapid loading and unloading for detecting a liquid crystal panel is shown in figures 1-3 and comprises a metallographic microscope main body 1, a first ocular 2, a second ocular 3, an objective table 4, a loading and unloading mechanism 5 and a recovery mechanism 6; a first ocular 2 is arranged on the front side of the left upper part of the metallographic microscope body 1; a second ocular 3 is arranged at the rear side of the left upper part of the metallographic microscope body 1; the right side of the top of the metallographic microscope body 1 is provided with an objective table 4; a feeding and discharging mechanism 5 is arranged on the right side of the metallographic microscope main body 1; a recovery mechanism 6 is arranged at the left front part in the feeding and discharging mechanism 5.

The feeding and discharging mechanism 5 comprises a supporting platform 501, an inserting plate 502, a sample wafer 503, a storage battery mechanism 504, an LED curved screen 505, an electric turntable 506, a sliding rod 507, a sliding block 508, a first clamping plate 509, a first micro push rod 5010, a second clamping plate 5011, a clamping plate 5012, a hand wheel 5013, a controller 5014, a first telescopic rod 5015, a first suction cup 5016, a force applying rod 5017, a second telescopic rod 5018 and a second suction cup 5019; the right side of the middle part in the support platform 501 is inserted into the plug board 502; the rear side of the top end of the support table 501 is bolted to the battery mechanism 504; the right side of the front end face of the middle part of the support table 501 is sleeved with the LED curved screen 505; the electric turntable 506 is arranged in the front middle part of the support platform 501; the front part of the right end of the support platform 501 is sleeved with a clamping piece 5012 through a screw; the rear bottom of the right end of the support table 501 is inserted into the controller 5014 through a wire; a first telescopic rod 5015 is arranged on the right rear side of the bottom end of the supporting table 501; a second telescopic rod 5018 is arranged on the right front side of the bottom end of the supporting platform 501; a sample wafer 503 is placed in the middle of the top end of the inserting plate 502; the middle part of the top end of the electric turntable 506 is welded with the sliding rod 507; the bottom of the outer surface of the sliding rod 507 is in sliding connection with the sliding block 508; the bottom of the front end of the sliding block 508 is connected with a first clamping plate 509 through a bolt; the middle rear side of the top end of the first clamping plate 509 is welded with the first micro push rod 5010; the middle part of the top end of the first clamping plate 509 is rotatably connected with the second clamping plate 5011, and the rear side of the bottom end of the second clamping plate 5011 is connected with the first micro push rod 5010; the inner top of the clamping piece 5012 is screwed with the hand wheel 5013 through a screw; the bottom end of the first telescopic rod 5015 is welded with the first suction disc 5016; the middle part of the outer surface of the first telescopic rod 5015 is sleeved with a force applying rod 5017, and the inner front part of the force applying rod 5017 is connected with a second telescopic rod 5018; the connected bottom end of the second telescopic rod 5018 is welded with the second sucker 5019; the right front part of the inner side of the support platform 501 is connected with a recovery mechanism 6.

The recovery mechanism 6 comprises a containing cabin 601, a second micro push rod 602, a supporting plate 603, a limiting plate 604 and a guide plate 605; the right front part of the bottom end in the containing cabin 601 is welded with a second micro push rod 602; the top of the right end of the containing cabin 601 is welded with the limiting plate 604; the top of the left end of the containing cabin 601 is cast and fused with the guide plate 605; the top of the second micro push rod 602 is connected with the support plate 603 by bolts; the top of the outer surface of the containing cabin 601 is connected with the feeding and discharging mechanism 5; the bottom end of the limiting plate 604 is connected with the feeding and discharging mechanism 5; the bottom end of the guide plate 605 is connected with the feeding and discharging mechanism 5.

The clamping pieces 5012 and the handwheels 5013 are respectively provided with two clamping pieces and are respectively assembled and installed at the front bottom of the right end and the front bottom of the left end of the supporting platform 501.

The two LED curved screens 505 are arranged and are respectively arranged at the front end of the middle part of the support platform 501; and are respectively installed with the central axis inclined at thirty degrees towards the left and the right.

The plurality of groups of the inserting plates 502 and the sample plates 503 are arranged, the left back side edge of the inserting plate 502 is provided with an arc-surface-shaped stopper which is equidistantly arranged on the inner side of the supporting platform 501, and the inserting plates 502 are symmetrically arranged on the central axis of the inserting plate 502 relative to the LED curved screen 505.

The first telescopic rod 5015, the first suction cup 5016, the reinforcing rod 5017, the second telescopic rod 5018 and the second suction cup 5019 are respectively provided with two groups of suction cups which are combined and arranged on the left side and the right side of the bottom end of the supporting platform 501 respectively.

The top section of the storage compartment 601 is inclined from right to left.

When the microscope is used, the metallographic microscope main body 1 is assembled, then the microscope is placed on a horizontal desktop, then the first ocular lens 2 and the second ocular lens 3 are respectively sleeved at the upper left of the metallographic microscope main body 1, then the loading and unloading mechanism 5 is placed in the loading and unloading mechanism 5 after the objective table 4 is installed, the loading and unloading mechanism 5 is connected and contacted with the objective table 4, then the loading and unloading mechanism 5 is fixed, then the loading and unloading mechanism 5 and the objective table 4 are fixed, the loading and unloading mechanism 5 and the objective table 4 keep the same horizontal plane, then a power supply is externally connected, the sample pieces 503 are switched through the matching of the loading and unloading mechanism 5, and meanwhile the sample pieces 503 are recovered by the recovery mechanism 6; the device realizes automatic feeding and discharging conversion of the sample 503, can simultaneously watch the information of the detected sample 503 in real time and recover the researched sample 503, and can realize that a researcher can conveniently control the sample 503 to feed and discharge when the researcher does not move.

The feeding and discharging mechanism 5 comprises a supporting platform 501, an inserting plate 502, a sample wafer 503, a storage battery mechanism 504, an LED curved screen 505, an electric turntable 506, a sliding rod 507, a sliding block 508, a first clamping plate 509, a first micro push rod 5010, a second clamping plate 5011, a clamping plate 5012, a hand wheel 5013, a controller 5014, a first telescopic rod 5015, a first suction cup 5016, a force applying rod 5017, a second telescopic rod 5018 and a second suction cup 5019; the right side of the middle part in the support platform 501 is inserted into the plug board 502; the rear side of the top end of the support table 501 is bolted to the battery mechanism 504; the right side of the front end face of the middle part of the support table 501 is sleeved with the LED curved screen 505; the electric turntable 506 is arranged in the front middle part of the support platform 501; the front part of the right end of the support platform 501 is sleeved with a clamping piece 5012 through a screw; the rear bottom of the right end of the support table 501 is inserted into the controller 5014 through a wire; a first telescopic rod 5015 is arranged on the right rear side of the bottom end of the supporting table 501; a second telescopic rod 5018 is arranged on the right front side of the bottom end of the supporting platform 501; a sample wafer 503 is placed in the middle of the top end of the inserting plate 502; the middle part of the top end of the electric turntable 506 is welded with the sliding rod 507; the bottom of the outer surface of the sliding rod 507 is in sliding connection with the sliding block 508; the bottom of the front end of the sliding block 508 is connected with a first clamping plate 509 through a bolt; the middle rear side of the top end of the first clamping plate 509 is welded with the first micro push rod 5010; the middle part of the top end of the first clamping plate 509 is rotatably connected with the second clamping plate 5011, and the rear side of the bottom end of the second clamping plate 5011 is connected with the first micro push rod 5010; the inner top of the clamping piece 5012 is screwed with the hand wheel 5013 through a screw; the bottom end of the first telescopic rod 5015 is welded with the first suction disc 5016; the middle part of the outer surface of the first telescopic rod 5015 is sleeved with a force applying rod 5017, and the inner front part of the force applying rod 5017 is connected with a second telescopic rod 5018; the connected bottom end of the second telescopic rod 5018 is welded with the second sucker 5019; the right front part of the inner side of the support platform 501 is connected with a recovery mechanism 6.

When the device is used, the support platform 501 is firstly leaned against one side of the object stage 4, the first telescopic rod 5015 and the second telescopic rod 5018 are adjusted to be horizontal to the object stage 4, the reinforcing rod 5017 can play a role of increasing the first telescopic rod 5015 and the second telescopic rod 5018, then the first suction cup 5016 and the second suction cup 5019 are fixed, then the hand wheel 5013 is loosened, the second clamping plate 5011 is adjusted to be clamped on the end face of one side of the included angle of the object stage 4, then the hand wheel 5013 is screwed, the stability of the whole use of the loading and unloading mechanism 5 is improved, then the external power supply is connected, when in use, the sample 503 can be placed in a cabin formed by combining the plug board 502 and the support platform 501 in advance, the head of the sample 503 in the cabin on the right side faces one side of the slide rod 507, the placement on the left side is opposite, then the information, the specification or the name and the like of the sample 503 at, meanwhile, the angle is adjusted by matching with the rotation of the electric turntable 506, and then the first micro push rod 5010 on the first clamping plate 509 stretches and retracts to drive the second clamping plate 5011 to clamp the sample 503, so that the sample 503 is clamped and taken out, before the sample 503 is taken out, a researcher only needs to tilt the head to match the obliquely installed LED curved screen 505 to observe whether the sampling information is correct, and then the electric turntable 506 is rotated and then the sliding block 508 is descended after the sampling information is determined to be correct, so that the sample 503 is close to the objective table 4, the researcher can conveniently take and place the sample 503, the classified storage of the sample 503 is realized, and meanwhile, the real-time information display is provided, the device can adapt to the adjustment and use of microscopes with various specifications, the movement of.

The recovery mechanism 6 comprises a containing cabin 601, a second micro push rod 602, a supporting plate 603, a limiting plate 604 and a guide plate 605; the right front part of the bottom end in the containing cabin 601 is welded with a second micro push rod 602; the top of the right end of the containing cabin 601 is welded with the limiting plate 604; the top of the left end of the containing cabin 601 is cast and fused with the guide plate 605; the top of the second micro push rod 602 is connected with the support plate 603 by bolts; the top of the outer surface of the containing cabin 601 is connected with the feeding and discharging mechanism 5; the bottom end of the limiting plate 604 is connected with the feeding and discharging mechanism 5; the bottom end of the guide plate 605 is connected with the feeding and discharging mechanism 5.

During the use through last unloading mechanism 5 with sample 503 centre gripping to retrieve 6 tops of mechanism, then the miniature push rod 602 lift backup pad 603 of second, make it rise, the purpose is big in order to reduce sample 503 and put into containing cabin 601 time drop, it is impaired to lead to sample 503 and containing cabin 601 collision, then go up unloading mechanism 5 and loosen sample 503, make its sample 503 slide in containing cabin 601, and guide plate 605 can play supplementary water conservancy diversion effect, limiting plate 604 and guide plate 605 can play the effect of supporting spacing containing cabin 601 and steadily placing on last unloading mechanism 5 simultaneously, real-time recovery has been realized, and have the guard action, assurance sample 503 that can be fine can not be impaired.

The clamping pieces 5012 and the hand wheels 5013 are respectively arranged at the front bottom of the right end and the front bottom of the left end of the supporting platform 501 in a combined mode, can be matched with the object stages 4 of various specifications to clamp and fix the two sides of the object stages simultaneously, and further enhance the stability of the feeding and discharging mechanism 5.

The two LED curved screens 505 are arranged and are respectively arranged at the front end of the middle part of the support platform 501; and the central axis is respectively installed at thirty degrees inclined towards the left side and the right side, so that an observer can observe the displayed data by directly inclining the head from the left side and the right side.

The plurality of groups of the inserting plates 502 and the sample wafers 503 are arranged, arc-surface-shaped stoppers are arranged on the left rear side edge of the inserting plate 502 and are equidistantly placed on the inner side of the supporting platform 501, the inserting plates 502 are symmetrically placed on the central axis of the inserting plate 502 relative to the LED curved screen 505 and can be simultaneously matched with the first clamping plate 509, and the moving tracks of the left side and the right side of a clamping arm formed by the first miniature push rod 5010 and the second clamping plate 5011 are clamped and matched.

The two first telescopic rods 5015, the two first suction cups 5016, the two booster rods 5017, the two second telescopic rods 5018 and the two second suction cups 5019 are respectively combined, and the two groups of the two telescopic rods are respectively arranged on the left side and the right side of the bottom end of the supporting platform 501; the supporting platform 501 can be supported at the same time, and the stability of the supporting platform 501 is ensured.

The top section of the storage compartment 601 is inclined from right to left, so that the sample 503 can be prevented from sliding out at one side during recovery.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (8)

1. A metallographic microscope capable of feeding and discharging rapidly for liquid crystal panel detection comprises a metallographic microscope main body, a first ocular, a second ocular and an objective table, and is characterized by further comprising a feeding and discharging mechanism and a recycling mechanism; a first ocular is arranged on the front side of the left upper part of the metallographic microscope main body; a second ocular is arranged on the rear side of the left upper part of the metallographic microscope main body; the right side of the top of the metallographic microscope main body is provided with an objective table; a feeding and discharging mechanism is arranged on the right side of the metallographic microscope main body; the left front part in the feeding and discharging mechanism is provided with a recovery mechanism.

2. The metallographic microscope capable of rapidly feeding and discharging liquid crystal display panels as claimed in claim 1, wherein the feeding and discharging mechanism comprises a supporting table, a plug board, a sample wafer, a storage battery mechanism, an LED curved screen, an electric rotating disc, a sliding rod, a sliding block, a first clamping plate, a first micro push rod, a second clamping plate, a hand wheel, a controller, a first telescopic rod, a first sucker, a force applying rod, a second telescopic rod and a second sucker; the right side of the middle part in the supporting platform is spliced with the plugboard; the middle rear side of the top end of the support table is connected with the storage battery mechanism through a bolt; the right side of the front end face of the middle part of the support table is sleeved with the LED curved screen; the electric turntable is arranged in the middle of the front part of the support table; the front part of the right end of the support table is sleeved with the clamping piece through a screw; the rear bottom of the right end of the support table is inserted into the controller through a wire; a first telescopic rod is arranged on the right rear side of the bottom end of the support table; a second telescopic rod is arranged on the right front side of the bottom end of the support table; a sample wafer is placed in the middle of the top end of the plug board; the middle part of the top end of the electric turntable is welded with the sliding rod; the bottom of the outer surface of the sliding rod is in sliding connection with the sliding block; the bottom of the front end of the sliding block is connected with the first clamping plate through a bolt; the middle rear side of the top end of the first clamping plate is welded with the first miniature push rod; the middle part of the top end of the first clamping plate is rotatably connected with the second clamping plate, and the rear side of the bottom end of the second clamping plate is connected with the first miniature push rod; the inner top of the clamping piece is screwed with the hand wheel through a screw rod; the bottom end of the first telescopic rod is welded with the first sucking disc; the middle part of the outer surface of the first telescopic rod is sleeved with the stress application rod, and the inner front part of the stress application rod is connected with the second telescopic rod; the connecting bottom end of the second telescopic rod is welded with the second sucker; the right front part of the inner side of the supporting table is connected with a recovery mechanism.

3. The metallographic microscope with rapid loading and unloading for liquid crystal panel detection according to claim 1, wherein the recovery mechanism comprises a storage cabin, a second micro push rod, a support plate, a limit plate and a guide plate; the right front part of the bottom end in the containing cabin is welded with the second miniature push rod; the top of the right end of the containing cabin is welded with the limiting plate; pouring and fusing the top of the left end of the containing cabin with the guide plate; the top of the second micro push rod is connected with the support plate through a bolt; the top of the outer surface of the containing cabin is connected with a feeding and discharging mechanism; the bottom end of the limiting plate is connected with the feeding and discharging mechanism; the bottom end of the guide plate is connected with the feeding and discharging mechanism.

4. The metallographic microscope with rapid loading and unloading function for liquid crystal display panel detection according to claim 2, wherein the two clamping pieces and the two hand wheels are respectively assembled and installed at the front bottom of the right end and the front bottom of the left end of the support platform.

5. The metallographic microscope with rapid loading and unloading for liquid crystal panel detection according to claim 2, wherein two LED curved screens are arranged and respectively mounted at the front end of the middle part of the support platform; and are respectively installed with the central axis inclined at thirty degrees towards the left and the right.

6. The metallographic microscope with rapid loading and unloading for liquid crystal panel detection as claimed in claim 2, wherein the plugboard and the sample wafer are provided with multiple groups, and the left rear edge of the plugboard is provided with an arc-shaped stopper which is equidistantly placed on the inner side of the support platform, and the plugboards are symmetrically placed around the central axis of the LED curved screen.

7. The metallographic microscope with rapid loading and unloading function for liquid crystal panel detection according to claim 2, wherein the number of the first telescopic rod, the number of the first suction cups, the number of the stress applying rods, the number of the second telescopic rods and the number of the second suction cups are two, and the two groups of the first telescopic rods, the number of the stress applying rods, the number of the second telescopic rods and the number of the second suction cups are respectively combined and are respectively installed on the left side and the right side of.

8. The metallographic microscope with rapid feeding and discharging function for liquid crystal panel detection according to claim 3, wherein the cross section of the top of the containing cabin is inclined from right to left.

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