CN116754524A - Quality detection equipment for thinning vehicle-mounted window glass and detection method thereof - Google Patents

Abstract

The application discloses quality detection equipment for thinning vehicle-mounted window glass and a detection method thereof, and relates to the field of glass quality detection. The quality detection device for the vehicle-mounted window glass thinning comprises a quality detection device base, wherein a supporting fixing frame is arranged on the quality detection device base, an adjusting type sliding table is arranged on the supporting fixing frame, a light source emitter is arranged on the sliding table, and a fixed light source emitting module is arranged in the light source emitter. This on-vehicle window glass is thinned and is used quality detection equipment guarantees that cambered surface formula on-vehicle window glass material detects conveniently, simultaneously, and light source receiving module's position can be adjusted for light source receiving module is close to on-vehicle window glass material, reduces the focusing or the divergence phenomenon of material to the light source, guarantees to detect stably on-vehicle window glass, and the data is accurate, consequently makes things convenient for on-vehicle window glass material research and development work.

Description

Quality detection equipment for thinning vehicle-mounted window glass and detection method thereof

Technical Field

The application relates to the technical field of glass quality detection, in particular to quality detection equipment for thinning vehicle-mounted window glass and a detection method thereof.

Background

Because glass has better transparency and is used for various observation windows, the glass installed on the windows is called window glass, and in the use of vehicle window glass, the light transmittance of the vehicle window glass is an important parameter reflecting the quality of the vehicle window glass, and the vehicle window glass must ensure that the light transmittance is good so as to ensure the safety of night driving.

In the research and development of vehicle-mounted window glass, the thickness of the vehicle-mounted window glass is also an important condition affecting the light transmittance of the glass, in order to ensure the quality of the vehicle-mounted window glass to be qualified, the vehicle-mounted window glass material is required to be thinned and detected continuously in the research and development process, so that the thickness of the vehicle-mounted window glass material used in mass production of automobiles is established, at present, when the light transmittance of the vehicle-mounted window glass material is detected, light transmittance quality detection equipment is usually required to be used, the traditional quality detection equipment is simple in detection principle, the vehicle-mounted window glass is clamped between a light source and a receiver, and the light source intensity received by the receiver is compared with the emission intensity to judge the light transmittance of the vehicle-mounted window glass material.

The application provides a quality detection device for thinning of vehicle-mounted window glass and a detection method thereof, which are used for solving the problems.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the application provides the quality detection equipment for thinning the vehicle-mounted window glass and the detection method thereof, which solve the problems that the traditional detection equipment is generally only convenient for detecting planar glass, the cambered vehicle-mounted window glass is difficult to clamp and fix, a gap is leaked in a planar clamping mode, a light source is diffused to the outside and cannot be detected, on the other hand, a certain focusing or diffusing phenomenon can occur after the light source passes through the cambered vehicle-mounted window glass, and the detection effect can be influenced if the distance of a receiver is too large, so that the detection of the vehicle-mounted window glass is unstable.

(II) technical scheme

In order to achieve the above purpose, the application is realized by the following technical scheme: the quality detection device for thinning the vehicle-mounted window glass and the detection method thereof comprise a quality detection device base, wherein a supporting fixing frame is arranged on the quality detection device base, an adjusting type sliding table is arranged on the supporting fixing frame, a light source emitter is arranged on the sliding table, and a fixed light source emitting module is arranged in the light source emitter;

the support fixing frame is provided with a fixed light source receiver, and an adjustable light source receiving module is arranged in the light source receiver;

the light source emitter is provided with a first plane clamping plate, and the light source receiver is provided with a second plane clamping plate;

the first cambered surface clamping seat is movably clamped on the first plane clamping plate, and the second cambered surface clamping seat is movably clamped on the second plane clamping plate.

Preferably, the slip table sliding connection is on supporting the mount, fixedly connected with fixed block on the supporting the mount, be equipped with the guide rail pole on the fixed block, slip table sliding connection is on the guide rail pole, cup joint on the guide rail pole and support tight spring, support the both ends of tight spring and fixedly link to each other with slip table and fixed block respectively.

Preferably, the support fixing frame is provided with a sliding groove, the sliding table is slidably connected in the sliding groove, the light source emitter is provided with a first supporting arm, the first supporting arm is fixedly connected with the sliding table, the light source receiver is provided with a second supporting arm, and the second supporting arm is fixedly connected with the support fixing frame.

Preferably, the inside sliding connection of light source receiver has the regulating block, the regulating block is fixed to link to each other with light source receiving module, the bottom threaded connection of light source receiver has accommodate the lead screw, accommodate the lead screw and rotate with the regulating block and link to each other, be equipped with the rotation handle on the accommodate the lead screw.

Preferably, the first planar clamping plate is provided with a first sleeve joint seat, the second planar clamping plate is provided with a second sleeve joint seat, the first cambered surface clamping seat is provided with a first joint plate, the first joint plate is provided with a first joint column, the first joint column is movably clamped in the first sleeve joint seat, the second cambered surface clamping seat is provided with a second joint plate, the second joint plate is provided with a second joint column, and the second joint column is movably clamped in the second sleeve joint seat.

Preferably, the sleeve seat is provided with a locking mechanism corresponding to the clamping column, the locking mechanism comprises a supporting column, the supporting column is fixedly connected between the two groups of sleeve seats, the supporting column is provided with an adjustable sliding block, the sliding block is provided with a locking rod, the first clamping column is provided with a first locking hole, the second clamping column is provided with a second locking hole, and the locking rod is movably clamped in the locking hole.

Preferably, a locking spring is fixedly connected between the two groups of sliding blocks, and a pushing handle is arranged on the sliding blocks.

Preferably, the light source receiver, the second supporting arm and the supporting fixing frame are provided with wiring grooves.

Preferably, the detection method comprises the following steps:

step S1: when the planar vehicle-mounted window glass material is detected, the light source emitter is directly lifted, then the planar vehicle-mounted window glass material is placed between the first planar clamping plate and the second planar clamping plate, the light source emitter is loosened to automatically enable the first planar clamping plate and the second planar clamping plate to clamp the planar vehicle-mounted window glass material, and then the light source emitting module and the light source receiving module are utilized to detect the light transmittance of the planar vehicle-mounted window glass material;

step S2: when detecting the cambered surface type vehicle-mounted window glass material, selecting a proper first cambered surface clamping seat and a proper second cambered surface clamping seat, installing the first cambered surface clamping seat on the light source emitter, and installing the second cambered surface clamping seat on the light source receiver;

step S3: lifting the light source emitter, then placing the cambered vehicle-mounted window glass material between the first cambered clamping seat and the second cambered clamping seat, and loosening the light source emitter to automatically clamp the cambered vehicle-mounted window glass material by the first cambered clamping seat and the second cambered clamping seat;

step S4: and finally, detecting the light transmittance of the planar vehicle-mounted window glass material by utilizing the light source transmitting module and the light source receiving module.

The application discloses a quality detection device for thinning vehicle-mounted window glass and a detection method thereof, which have the following beneficial effects:

1. this vehicle-mounted window glass is thinned and is used quality detection equipment realizes the on-vehicle window glass material centre gripping detection of plane through the cooperation of first plane grip block and second plane grip block, can install first cambered surface grip block and second cambered surface grip block simultaneously on first plane grip block and second plane grip block, select first cambered surface grip block and the second cambered surface grip block of suitable radian to install on the plane grip block, and then realize carrying out the centre gripping detection to cambered surface on-vehicle window glass material, guarantee that cambered surface on-vehicle window glass material detects conveniently, simultaneously, the position of light source receiving module can be adjusted, make light source receiving module be close to on-vehicle window glass material, reduce the focusing or the divergence phenomenon of material to the light source, guarantee to on-vehicle window glass and detect stably, the data is accurate, consequently, make things convenient for on-vehicle window glass material research and development work.

2. This on-vehicle window glass is thinned and is used quality detection equipment utilizes the mode of tight spring and the guide rail pole of support of setting, conveniently makes to support tight spring and applys elasticity to the slip table, and then makes the light source transmitter carry out the centre gripping spacing to on-vehicle window glass material with the light source receiver to be convenient for light source emission module and light source receiving module carry out the detection of luminousness, easy operation is convenient when guaranteeing that the device is whole to use, labour saving and time saving.

3. This on-vehicle window glass is thinned and is used quality detection equipment utilizes joint seat, joint board and joint post's joint mode, when realizing carrying out the butt joint between plane grip block and the cambered surface grip block, easy operation is convenient, labour saving and time saving, consequently cambered surface grip block simple to operate, easily change, realize carrying out quick replacement detection to the on-vehicle window glass material of the different radians of multiunit, the overall structure of locking structure who sets up is simple, utilize slider and support column to realize the position control to the locking lever, when the locking lever inserts the inside in locking hole, can realize carrying out the locking after the joint between joint post and the socket.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a first view of a schematic overall structure of the present application;

FIG. 2 is a schematic view of the whole structure of the present application at a second view angle;

FIG. 3 is a schematic diagram of a light source emitter according to the present application;

FIG. 4 is a schematic view of a chute according to the present application;

FIG. 5 is a schematic view illustrating the disassembly of the second cambered surface clamping seat of the application;

FIG. 6 is a schematic diagram illustrating the movement of the light source receiving module according to the present application;

FIG. 7 is a cross-sectional view of a light source receiver of the present application;

FIG. 8 is a schematic diagram of a light source emitting module according to the present application;

FIG. 9 is a schematic view illustrating the disassembly of the first cambered surface clamping seat of the application;

fig. 10 is a schematic view of the structure of the locking lever of the present application.

In the figure: 1. a quality detection device base; 2. a supporting and fixing frame; 201. a chute; 202. a fixed block; 203. a guide rail rod; 3. a sliding table; 301. a spring is abutted tightly; 4. a light source emitter; 401. a first support arm; 402. a first planar clamping plate; 403. a first socket; 5. a first cambered surface clamping seat; 501. a first butt plate; 502. a first clamping column; 5021. a first locking hole; 6. a light source receiver; 601. a second support arm; 602. a second planar clamping plate; 603. a second sleeve joint seat; 604. wiring grooves; 7. a second cambered surface clamping seat; 701. a second butt plate; 702. the second clamping column; 7021. a second locking hole; 8. a light source emission module; 801. a light source receiving module; 9. adjusting a screw rod; 901. an adjusting block; 902. rotating the handle; 10. a support column; 1001. a slide block; 1002. a locking lever; 1003. a locking spring; 1004. push handle.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions in the embodiments of the present application are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

According to the quality detection equipment and the quality detection method for thinning the vehicle-mounted window glass, the problems that the traditional detection equipment is generally only convenient for detecting planar glass, the cambered surface vehicle-mounted window glass is difficult to clamp and fix, gaps are leaked in a planar clamping mode, a light source diverges to the outside and cannot be detected, on the other hand, after the light source passes through the cambered surface vehicle-mounted window glass, a certain focusing or diverging phenomenon can occur, and if the distance between a receiver is too large, the detection effect is affected, so that the detection of the vehicle-mounted window glass is unstable are solved.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

The embodiment of the application discloses a quality detection device for thinning vehicle-mounted window glass, which is shown in figures 1-10 and comprises a quality detection device base 1, wherein a supporting fixing frame 2 is arranged on the quality detection device base 1, an adjusting sliding table 3 is arranged on the supporting fixing frame 2, a light source emitter 4 is arranged on the sliding table 3, and a fixed light source emitting module 8 is arranged in the light source emitter 4;

the support fixing frame 2 is provided with a fixed light source receiver 6, and an adjustable light source receiving module 801 is arranged in the light source receiver 6;

the light source emitter 4 is provided with a first plane clamping plate 402, and the light source receiver 6 is provided with a second plane clamping plate 602;

the first plane clamping plate 402 is movably clamped with a first cambered surface clamping seat 5, and the second plane clamping plate 602 is movably clamped with a second cambered surface clamping seat 7.

Further, slip table 3 sliding connection is on supporting the mount 2, fixedly connected with fixed block 202 on the supporting the mount 2, be equipped with guide rail pole 203 on the fixed block 202, slip table 3 sliding connection is on guide rail pole 203, cup joint on guide rail pole 203 and support tight spring 301, support tight spring 301's both ends and fixed link to each other with slip table 3 and fixed block 202 respectively, utilize the mode of tight spring 301 and guide rail pole 203 that support that sets up, conveniently make to support tight spring 301 and apply elasticity to slip table 3, and then make light source transmitter 4 can carry out the centre gripping spacing to on-vehicle window glass material with light source receiver 6, thereby the detection of luminousness is carried out to light source transmitting module 8 and light source receiving module 801 of being convenient for, easy operation is convenient when guaranteeing that the device is whole when using, labour saving and time saving.

Further, the support mount 2 is last to have seted up spout 201, slip table 3 sliding connection is in spout 201, be equipped with first support arm 401 on the light source transmitter 4, first support arm 401 links to each other with slip table 3 is fixed, be equipped with second support arm 601 on the light source receiver 6, second support arm 601 links to each other with support mount 2 is fixed, the spout 201 that sets up realizes providing spacingly to slip table 3, first support arm 401 makes fixed effectual between light source transmitter 4 and the slip table 3, the second support arm 601 that sets up makes between light source receiver 6 and the support mount 2 fixed stable.

Still further, the inside sliding connection of light source receiver 6 has regulating block 901, regulating block 901 links to each other with light source receiving module 801 is fixed, the bottom threaded connection of light source receiver 6 has accommodate the lead screw 9, accommodate the lead screw 9 and rotate with regulating block 901 and link to each other, be equipped with on the accommodate the lead screw 9 and rotate handle 902, the light source receiving module 801 that sets up adjusts conveniently, consequently, the convenience makes light source receiving module 801 be close to with the cambered surface on-vehicle window glass material's cambered surface, reduce light source scattering or focusing phenomenon, consequently promote the luminousness detection effect to the on-vehicle window glass material of cambered surface, when adjusting the position of light source receiving module 801, only need rotatory accommodate the lead screw 9 can, the operation is simple and convenient, labour saving and time saving.

As a further optimization of the application, the first planar clamping plate 402 is provided with the first sleeve seat 403, the second planar clamping plate 602 is provided with the second sleeve seat 603, the first cambered clamping seat 5 is provided with the first abutting plate 501, the first abutting plate 501 is provided with the first clamping column 502, the first clamping column 502 is movably clamped in the first sleeve seat 403, the second cambered clamping seat 7 is provided with the second abutting plate 701, the second abutting plate 701 is provided with the second clamping column 702, the second clamping column 702 is movably clamped in the second sleeve seat 603, and when the planar clamping plate and the cambered clamping seat are in butt joint, the operation is simple and convenient, time and labor are saved, the cambered clamping seat is convenient to install and easy to replace, and the quick replacement detection of a plurality of groups of vehicle-mounted window glass materials with different radians is realized.

As a further optimization of the application, the locking mechanism corresponding to the clamping columns is arranged on the sleeve base, the locking mechanism comprises a support column 10, the support column 10 is fixedly connected between two groups of sleeve bases, an adjusting type sliding block 1001 is arranged on the support column 10, a locking rod 1002 is arranged on the sliding block 1001, a first locking hole 5021 is arranged on the first clamping column 502, a second locking hole 7021 is arranged on the second clamping column 702, the locking rod 1002 is movably clamped in the locking hole, the whole structure of the arranged locking structure is simple, the position of the locking rod 1002 is adjusted by the sliding block 1001 and the support column 10, and when the locking rod 1002 is inserted into the locking hole, the locking after the clamping between the clamping columns and the sleeve base can be realized.

Further, a locking spring 1003 is fixedly connected between two groups of sliders 1001, a push handle 1004 is arranged on the sliders 1001, and the set locking spring 1003 integrally applies elasticity to the sliders 1001 and the locking rods 1002, so that the locking rods 1002 can ensure that the locking is stable and not easy to loose when being clamped in the locking holes, thereby ensuring good locking effect between the clamping columns and the sleeving seats, and the set push handle 1004 is convenient to push the sliders 1001 and the locking rods 1002 integrally, so that quick locking or unlocking between the sliders 1001 and the locking rods 1002 is convenient to realize.

Specifically, the light source receiver 6, the second support arm 601 and the support fixing frame 2 are provided with the wiring groove 604, and the wiring groove 604 is convenient for realizing wiring of the light source receiving module 801, so that the light source receiving module 801 and the light source emitting module 8 are connected with a computer end.

The detection method comprises the following steps:

step S1: when the planar vehicle-mounted window glass material is detected, the light source emitter 4 is directly lifted, then the planar vehicle-mounted window glass material is placed between the first planar clamping plate 402 and the second planar clamping plate 602, the light source emitter 4 is loosened to automatically enable the first planar clamping plate 402 and the second planar clamping plate 602 to clamp the planar vehicle-mounted window glass material, and then the light source emitting module 8 and the light source receiving module 801 are utilized to detect the light transmittance of the planar vehicle-mounted window glass material;

step S2: when detecting the cambered surface type vehicle-mounted window glass material, selecting a proper first cambered surface clamping seat 5 and a proper second cambered surface clamping seat 7, installing the first cambered surface clamping seat 5 on the light source emitter 4, and installing the second cambered surface clamping seat 7 on the light source receiver 6;

step S3: lifting the light source emitter 4, then placing the cambered vehicle-mounted window glass material between the first cambered clamping seat 5 and the second cambered clamping seat 7, and loosening the light source emitter 4 to automatically clamp the cambered vehicle-mounted window glass material by the first cambered clamping seat 5 and the second cambered clamping seat 7;

step S4: and the height of the light source receiving module 801 is adjusted so that the light source receiving module 801 is close to the cambered surface position of the cambered surface type vehicle-mounted window glass material, and finally the light source transmitting module 8 and the light source receiving module 801 are utilized to detect the light transmittance of the planar type vehicle-mounted window glass material.

Working principle: according to the quality detection equipment for thinning the vehicle-mounted window glass, when the light source emitter 4 is lifted, the light source emitter 4 drives the first support arm 401 to move, the first support arm 401 drives the sliding table 3 to move, the sliding table 3 moves along the sliding groove 201 and the guide rail rod 203 and presses the abutting spring 301, when the vehicle-mounted window glass material is placed between the light source emitter 4 and the light source receiver 6 and the light source emitter 4 is loosened, the abutting spring 301 automatically pushes the sliding table 3 to move, so that the sliding table 3 drives the first support arm 401 and the light source emitter 4 to move, and therefore the light source emitter 4 and the light source receiver 6 clamp and limit the vehicle-mounted window glass material, and clamping detection of the vehicle-mounted window glass material is achieved;

the device realizes the clamping detection of the planar vehicle-mounted window glass material through the matching of the first planar clamping plate 402 and the second planar clamping plate 602, and simultaneously, the first cambered surface clamping seat 5 and the second cambered surface clamping seat 7 can be arranged on the first planar clamping plate 402 and the second planar clamping plate 602, so that the clamping detection of the cambered surface vehicle-mounted window glass material is realized;

when the first cambered surface clamping seat 5 and the second cambered surface clamping seat 7 are installed with the first plane clamping plate 402 and the second plane clamping plate 602, the operation modes are the same, and the clamping columns are inserted into the sleeve seat and locked by using the locking mechanism.

The first cambered surface clamping seat 5 is installed as follows:

firstly, the first butt plate 501 is aligned with the first plane clamping plate 402, the push handle 1004 is pulled, so that the push handle 1004 drives the sliding block 1001 and the locking rod 1002 to integrally move and squeeze the locking spring 1003, at the moment, the first clamping column 502 is inserted into the first sleeve seat 403, when the first plane clamping plate 402 is attached to the first cambered surface clamping seat 5, the push handle 1004 is loosened, the locking spring 1003 stretches and pushes the sliding block 1001 and the locking rod 1002 to move, the locking rod 1002 is inserted into the first locking hole 5021, and then the installation of the first cambered surface clamping seat 5 is realized;

the installation mode of the second cambered surface clamping seat 7 and the second plane clamping plate 602 is similar to the above mode, and the disassembly process of the cambered surface clamping seat is opposite to the above installation process;

when adjusting the position of light source receiving module 801, direct rotation rotates handle 902 can, rotates handle 902 and can follow the screw hole screw movement of light source receiver 6, and adjusting screw 9 then drives the regulating block 901 and moves, and regulating block 901 drives light source receiving module 801 and moves to make light source receiving module 801 be close to the position of on-vehicle window glass material, improve the luminousness detection effect to on-vehicle window glass material.

This vehicle-mounted window glass is thinned and is used quality detection equipment realizes the on-vehicle window glass material centre gripping detection of plane through the cooperation of first plane grip block 402 and second plane grip block 602, can install first cambered surface grip block 5 and second cambered surface grip block 7 simultaneously on first plane grip block 402 and second plane grip block 602, select for use first cambered surface grip block 5 and the second cambered surface grip block 7 of suitable radian to install on the plane grip block, and then realize carrying out the centre gripping detection to cambered surface on-vehicle window glass material, guarantee that cambered surface on-vehicle window glass material detects conveniently, simultaneously, the position of light source receiving module 801 can be adjusted, make light source receiving module 801 be close to on-vehicle window glass material, reduce the focusing or the divergence phenomenon of material to the light source, guarantee to on-vehicle window glass detects stably, data are accurate, consequently make things convenient for on-vehicle window glass material research and development work.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing has shown and described the basic principles and main features of the present application and the advantages of the present application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present application, and various changes and modifications may be made without departing from the spirit and scope of the application, which is defined in the appended claims. The scope of the application is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a on-vehicle window glass attenuate quality testing equipment, includes quality testing equipment base (1), be equipped with on quality testing equipment base (1) and support mount (2), its characterized in that:

an adjustable sliding table (3) is arranged on the supporting and fixing frame (2), a light source emitter (4) is arranged on the sliding table (3), and a fixed light source emitting module (8) is arranged in the light source emitter (4);

a fixed light source receiver (6) is arranged on the supporting and fixing frame (2), and an adjustable light source receiving module (801) is arranged in the light source receiver (6);

a first plane clamping plate (402) is arranged on the light source emitter (4), and a second plane clamping plate (602) is arranged on the light source receiver (6);

the first cambered surface clamping seat (5) is movably clamped on the first plane clamping plate (402), and the second cambered surface clamping seat (7) is movably clamped on the second plane clamping plate (602).

2. The quality detection apparatus for thinning of vehicular window glass according to claim 1, wherein: slip table (3) sliding connection is on supporting the mount (2), fixedly connected with fixed block (202) on supporting the mount (2), be equipped with guide rail pole (203) on fixed block (202), slip table (3) sliding connection is on guide rail pole (203), cup joint on guide rail pole (203) and support tight spring (301), support the both ends of tight spring (301) and slip table (3) and fixed block (202) fixed link to each other respectively.

3. The quality detection apparatus for thinning of vehicular window glass according to claim 2, characterized in that: the light source device comprises a light source emitter (4), and is characterized in that a sliding groove (201) is formed in a supporting fixing frame (2), the sliding table (3) is slidably connected in the sliding groove (201), a first supporting arm (401) is arranged on the light source emitter (4), the first supporting arm (401) is fixedly connected with the sliding table (3), a second supporting arm (601) is arranged on a light source receiver (6), and the second supporting arm (601) is fixedly connected with the supporting fixing frame (2).

4. A mass detection device for thinning of vehicular window glass according to claim 3, characterized in that: the inside sliding connection of light source receiver (6) has regulating block (901), regulating block (901) and light source receiving module (801) are fixed to be connected, the bottom threaded connection of light source receiver (6) has accommodate the lead screw (9), accommodate the lead screw (9) and regulate block (901) rotate and link to each other, be equipped with on accommodate the lead screw (9) and rotate handle (902).

5. The quality detection apparatus for thinning of vehicular window glass according to claim 1, wherein: be equipped with first cover seat (403) on first plane grip block (402), be equipped with second cover seat (603) on second plane grip block (602), be equipped with first butt joint board (501) on first cambered surface grip block (5), be equipped with first joint post (502) on first butt joint board (501), first joint post (502) activity joint is in first cover seat (403), be equipped with second butt joint board (701) on second cambered surface grip block (7), be equipped with second joint post (702) on second butt joint board (701), activity joint is in second cover seat (603) on second joint post (702).

6. The quality detection apparatus for thinning of vehicular window glass according to claim 5, wherein: be equipped with the locking mechanical system corresponding with the joint post on the cover seat, locking mechanical system includes support column (10), support column (10) fixed connection is between two sets of cover seats, be equipped with slider (1001) of regulation formula on support column (10), be equipped with locking lever (1002) on slider (1001), first locking hole (5021) have been seted up on first joint post (502), second locking hole (7021) have been seted up on second joint post (702), locking lever (1002) activity joint is in the locking hole.

7. The quality detection apparatus for thinning of vehicular window glass according to claim 6, wherein: a locking spring (1003) is fixedly connected between the two groups of sliding blocks (1001), and a pushing handle (1004) is arranged on the sliding blocks (1001).

8. A mass detection device for thinning of vehicular window glass according to claim 3, characterized in that: and wiring grooves (604) are formed in the light source receiver (6), the second supporting arm (601) and the supporting fixing frame (2).

9. The detection method of a quality detection apparatus for thinning of a vehicle-mounted window glass according to any one of claims 1 to 8, characterized in that: the detection method comprises the following steps:

step S1: when the planar vehicle-mounted window glass material is detected, the light source emitter (4) is directly lifted, then the planar vehicle-mounted window glass material is placed between the first planar clamping plate (402) and the second planar clamping plate (602), the light source emitter (4) automatically clamps the planar vehicle-mounted window glass material by the first planar clamping plate (402) and the second planar clamping plate (602), and then the light source emitting module (8) and the light source receiving module (801) are utilized to detect the light transmittance of the planar vehicle-mounted window glass material;

step S2: when detecting cambered surface type vehicle-mounted window glass materials, selecting a proper first cambered surface clamping seat (5) and a proper second cambered surface clamping seat (7), installing the first cambered surface clamping seat (5) on the light source emitter (4), and installing the second cambered surface clamping seat (7) on the light source receiver (6);

step S3: lifting the light source emitter (4), then placing the cambered surface type vehicle-mounted window glass material between the first cambered surface clamping seat (5) and the second cambered surface clamping seat (7), and loosening the light source emitter (4) to automatically clamp the cambered surface type vehicle-mounted window glass material by the first cambered surface clamping seat (5) and the second cambered surface clamping seat (7);

step S4: and adjusting the height of the light source receiving module (801) so that the light source receiving module (801) is close to the cambered surface position of the cambered surface type vehicle-mounted window glass material, and finally, detecting the light transmittance of the planar type vehicle-mounted window glass material by utilizing the light source transmitting module (8) and the light source receiving module (801).