CN110954415A

CN110954415A - Anti-violence test equipment for automobile glass

Info

Publication number: CN110954415A
Application number: CN201911040714.4A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Flat Glass Group Co Ltd
Priority date: 2019-10-30
Filing date: 2019-10-30
Publication date: 2020-04-03
Anticipated expiration: 2039-10-30
Also published as: CN110954415B

Abstract

The invention relates to the technical field of automobile glass, in particular to an anti-violence test device for automobile glass, and aims to provide an anti-violence test device for automobile glass, which comprises a single-shaft indexing mechanism, a horizontal moving device and a pressure simulation device, the middle part of the bottom end in the test workbench is provided with the single-shaft transposition mechanism, the invention achieves the purpose of switching the stress angle of the automobile glass, and the fixed inclination angle of the automobile glass, and the moving pressure simulator in each direction in the horizontal plane, the omnibearing stress test of each point on the surface of the automobile glass is carried out, the pressure requirement of the installation of the edge of the automobile is met, the use state of the automobile glass under different conditions is completely simulated, the simulation is close to the real level, the data and the collecting effect of the stress condition and the limit condition of each point on the surface of the automobile glass at different angles are obtained.

Description

Anti-violence test equipment for automobile glass

Technical Field

The invention relates to the technical field of automobile glass, in particular to an anti-violence testing device for automobile glass.

Background

The safety of the automobile glass means that when the automobile is impacted from outside, the elastic intermediate layer has the function of absorbing impact and can prevent an impact object from penetrating, even if the glass is damaged, the possession quantity of the automobile is greatly increased along with the development of the society, and the case layer of stealing and robbing money in the automobile by utilizing various means is endless, so that the safety problem of the automobile is more and more important.

The prior art Chinese patent CN108362553A discloses an automobile glass strength testing machine aiming at the problem that the existing glass bearing strength is blank, which overcomes the problem that the glass bearing strength is blank by detecting the glass bearing strength in advance in the production process and identifying and early warning the bearing strength, but because the experimental equipment is not enough to simulate the existing conditions of actual use, the detection result is not convincing and the real use condition cannot be simulated.

Chinese patent CN206990325U discloses an automobile windshield testing device, aiming at the problem that the existing windshield wiper continuously rubs with the windshield to generate scratch and cannot be tested, which overcomes the problem that the windshield wiper rubs to generate scratch and cannot be tested, but because the whole and local impact property of the windshield wiper cannot be tested, the product passing through the test still has the problem of insufficient impact resistance.

Chinese patent CN108593450A discloses a glass strength testing device for the problem that the existing glass strength test is not enough, which uses a hydraulic cylinder to push a compression bar to test the stress on the glass surface, thus overcoming the problem of single-point test bearing and impact of glass strength test, but because the force at different angles can not be simulated, and the distributed test can not be carried out on the glass surface comprehensively, the problem of use condition that can not be truly reflected in the glass product reproduction process and test can be caused.

To sum up, need research and develop the user state under the different situation of a complete simulation car glass at present, make the simulation approach true level, to the data of the atress condition of car glass surface each point at different angles and extreme condition and the anti-riot test equipment of a car glass of collection, but in car glass production and detection in overcoming prior art, can't carry out the multidimension degree to current glass, the violence test of multi-angle, it is unsatisfactory to the simulation of true user condition, simple and crude glass anti-riot intensity test's equipment, make the unable up-to-standard shortcoming that leads to the product defective rate to rise easily of glass anti-riot intensity.

Disclosure of Invention

The invention aims to overcome the defects that in the production and detection of automobile glass, the existing glass cannot be subjected to multidimensional and multi-angle violence test, the real use condition is simulated undesirably, and the glass explosion-proof strength test equipment is simple and crude, so that the glass explosion-proof strength cannot reach the standard and the product reject ratio is increased easily.

The invention is achieved by the following specific technical means:

an anti-violence test device for automobile glass comprises a test workbench, the automobile glass, a first electric stopping device, a motor, a first cylindrical gear, a control panel, a single-shaft indexing mechanism, a horizontal moving device and a pressure simulation device, wherein the single-shaft indexing mechanism is arranged in the middle of the bottom end in the test workbench, the bottom of the left end in the test workbench is in bolted connection with the first electric stopping device, the right end of the first electric stopping device is connected with the single-shaft indexing mechanism, the middle of the left end in the test workbench is in bolted connection with the motor, the horizontal moving device is arranged at the top in the test workbench, the top of the left end of the test workbench is in bolted connection with the control panel, the pressure simulation device is arranged in the middle in the test workbench, the automobile glass is arranged in the middle of the top end of the single-shaft indexing mechanism, and the top of the left end of the single-shaft indexing mechanism is, and the inner surface of the first cylindrical gear is connected with a motor, and the middle right part of the bottom end of the horizontal moving device is welded with the pressure simulation device.

Further, the single-shaft indexing mechanism comprises a rotating bracket, a first rotating limiting hole, a first rotating shaft, a first limiting gear, a first limiting bolt, a second limiting bolt, a first fixed base, a first silica gel pad, a first fastening steel wire rope, a first pressing cover plate, a first locking handle, a first limiting spring, a first limiting slide block, a second rotating limiting hole, a second rotating shaft, a second limiting gear, a third limiting bolt, a fourth limiting bolt, a second fixed base, a second silica gel pad, a second fastening steel wire rope, a second pressing cover plate, a second locking handle, a second limiting spring, a second limiting slide block, a first electric push rod, a first bevel gear, a second cylindrical gear, a second electric push rod, a third bevel gear, a fourth bevel gear, a first driving wheel, a fourth driving wheel and a special-shaped line concentrating wheel groove, wherein the top of the right end of the rotating bracket is welded with the first rotating limiting hole, the top of the right end of the rotating bracket is rotatably connected with a first rotating shaft, the right side of the outer surface of the first rotating shaft is connected with a first rotation limiting hole, the top of the left end of the rotating bracket is welded with a second rotation limiting hole, the top of the left end of the rotating bracket is rotatably connected with a second rotating shaft, the left side of the outer surface of the second rotating shaft is connected with the second rotation limiting hole, the bottom end of the rotating bracket is provided with a special-shaped wire collecting wheel groove, the middle part of the top end of the first rotation limiting hole is spliced with a first limiting bolt, the top of the right end of the first rotation limiting hole is spliced with a second limiting bolt, the right side in the first rotating shaft is provided with a first limiting gear, the left end of the first rotating shaft is welded with a first fixing base, the left side of the top end of the first fixing base is spliced with a first silica gel pad, and the middle part of the right end, a first pressing cover plate is arranged on the right side of the top end of the first fixing base, the right part in the first pressing cover plate is rotatably connected with a first locking handle, the bottom of the outer surface of the first locking handle is sleeved with a first limiting spring, the middle part of the outer surface of the first locking handle is slidably connected with a first limiting slider, the bottom end of the first limiting slider is welded with the first limiting spring, the middle part of the top end of a second rotation limiting hole is spliced with a third limiting bolt, the top part of the left end of the second rotation limiting hole is spliced with a fourth limiting bolt, a second limiting gear is arranged on the left side in the second rotating shaft, the right end of the second rotating shaft is welded with a second fixing base, the left end of the second rotating shaft is welded with a first electric push rod, the right side of the top end of the second fixing base is spliced with a second silica gel pad, and a second fastening steel wire rope is arranged on the middle part of the left end of the second, a second pressing cover plate is arranged on the left side of the top end of the second fixing base, the left portion of the inner portion of the second pressing cover plate is rotatably connected with a second locking handle, the bottom of the outer surface of the second locking handle is sleeved with a second limiting spring, the middle portion of the outer surface of the second locking handle is slidably connected with a second limiting slider, the bottom end of the second limiting slider is welded with the second limiting spring, the left end of the first electric push rod is spliced with a first bevel gear, the lower portion of the right end of the first bevel gear is meshed with a second bevel gear, the top end of the second bevel gear is spliced with a second cylindrical gear, the bottom end of the second bevel gear is spliced with a second electric push rod, the bottom of the outer surface of the second electric push rod is spliced with a third bevel gear, the rear portion of the bottom end of the third bevel gear is meshed with a fourth bevel gear, and the front end of the fourth bevel gear is spliced with a, the right side of the first transmission wheel is in transmission connection with a fourth transmission wheel, the front end of the fourth transmission wheel is connected with a special-shaped line concentration wheel groove, the left side of the bottom end of the rotating support and the right side of the bottom end of the rotating support are connected with a test workbench, the left end of the second cylindrical gear is connected with the first cylindrical gear, the top end of the second cylindrical gear is connected with a pressure simulation device, and the right end of the fourth bevel gear is connected with a first electric stopping device.

Further, the horizontal moving device comprises a third electric push rod, a fifth bevel gear, a sixth bevel gear, a first screw rod, a toothed bar, a third cylindrical gear, a linear guide rail, a seventh bevel gear, an eighth bevel gear, a second electric stopping device, a first polish rod, a second screw rod and a feeding slide block, wherein the top end of the third electric push rod is inserted into the fifth bevel gear, the right side of the top end of the fifth bevel gear is engaged with the sixth bevel gear, the inner surface of the sixth bevel gear is inserted into the first screw rod, the front end of the first screw rod is provided with the toothed bar, the middle part of the front end of the toothed bar is engaged with the third cylindrical gear, the bottom end of the third cylindrical gear is rotatably connected with the linear guide rail, the top end of the third cylindrical gear is inserted into the seventh bevel gear, and the rear part of the guide rail at the right end of the linear guide rail is connected with, the inner back bottom of the linear guide rail is connected with the first polish rod in a sliding way, the inner front bottom of the linear guide rail is connected with the second polish rod in a sliding way, the inner front top of the linear guide rail is rotationally connected with the second screw rod, the middle part of the outer surface of the linear guide rail is connected with the feeding slide block in a sliding way, the front part of the top end of the seventh bevel gear is meshed with an eighth bevel gear, the middle part of the front end of the eighth bevel gear is welded with a second screw rod, the middle part of the outer surface of the second screw rod is sleeved with the feeding slide block, the bottom end of the third electric push rod is connected with the pressure simulation device, the right end of the first screw rod is connected with a test workbench, the left end and the right end of the first polish rod are both connected with the test workbench, the left end and the right end of the second polished rod are both connected with the test workbench, and the bottom end of the feeding sliding block is connected with the pressure simulation device.

Further, the pressure simulation device comprises a ninth bevel gear, a tenth bevel gear, a third driving wheel, a wire winding barrel, a fourth electric push rod, an installation support frame, a fifth electric push rod, a fifth driving wheel, a first friction turntable, a second friction turntable, a third screw rod, a top hammer, a pressure sensor, a first infrared emitter and a second infrared emitter, wherein the front part of the top end of the ninth bevel gear is meshed with the tenth bevel gear, the middle part of the front end of the tenth bevel gear is spliced with the third driving wheel, the wire winding barrel is arranged below the right side of the third driving wheel, the installation support frame is arranged on the right side of the third driving wheel, the rear end of the wire winding barrel is rotatably connected with the fourth electric push rod, the fifth electric push rod is arranged in the middle part of the installation support frame, the left side of the bottom end of the installation support frame is spliced with the first infrared emitter, the second infrared emitter is spliced on the right side of the, the bottom of the rear end of the fifth electric push rod is rotationally connected with a fifth driving wheel, the middle part of the rear end of the fifth driving wheel is inserted with the first friction turntable, the middle lower part of the rear end of the first friction turntable is in transmission connection with a second friction turntable, the middle part of the bottom end of the second friction turntable is welded with a third screw rod, the middle part of the outer surface of the third screw rod is sleeved with the mounting support frame, the bottom end of the third screw rod is inserted with the top hammer, a pressure sensor is arranged in the middle of the inside of the top hammer, the top end of the ninth bevel gear is connected with a horizontal moving device, the bottom end of the ninth bevel gear is connected with a single-shaft indexing mechanism, the front end of the tenth bevel gear is connected with a test workbench, the right end of the fourth electric push rod is connected with the test workbench, the top end of the mounting support frame is connected with the horizontal moving device, and the top end of the fifth electric push rod is connected with the horizontal moving device.

Furthermore, the outer sides of the first fixing base and the second fixing base are provided with grooves, and openings at the top ends of the grooves are provided with downward bulges.

Furthermore, a transverse through hole is formed in the middle of the first limiting bolt and the third limiting bolt, and the inner diameter of the through hole is matched with the outer diameter of the second limiting bolt and the outer diameter of the fourth limiting bolt.

Furthermore, through holes are formed in the inner front lower portion and the inner rear portion of the linear guide rail, the inner diameter of a pupil is matched with the outer diameters of the first polished rod and the second polished rod, a rotating groove is formed in the inner front upper portion of the linear guide rail, and the inner diameter of the rotating groove is matched with the outer diameter of the second lead screw.

Furthermore, the first fastening steel wire rope and the second fastening steel wire rope are wound in the grooves on the outer sides of the first fixing base and the second fixing base in a single circle, and are only connected with the special-shaped wire collecting wheel groove from the middle parts of the front ends of the first fixing base and the second fixing base.

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

in order to solve the problems that in the production and detection of automobile glass, the existing glass can not be subjected to multidimensional and multi-angle violence test, the simulation of real use conditions is not ideal, the simple and crude glass violence prevention strength test equipment ensures that the glass violence resistance can not reach the standard and the product fraction defective is increased easily, a single-shaft indexing mechanism, a horizontal moving device and a pressure simulation device are designed, the inclination angle of the automobile glass is adjusted to reach different stress angles through the single-shaft indexing mechanism, and simultaneously, the pressure sensor is used for collecting data by matching with the movement of the horizontal moving device and the friction type pressing of the pressure simulation device, so that the full-angle full-plane stress test is achieved, the stress switching angle of the automobile glass is achieved, the inclination angle of the automobile glass is fixed, the pressure simulation device is moved in each direction in the horizontal plane, and the all-directional stress test of each point on the surface, the pressure requirement of automobile edge installation is met, the use states of the automobile glass under different conditions are completely simulated, the simulation is close to the real level, and the data and the collection effect of the stress conditions and the limit conditions of all points on the surface of the automobile glass at different angles are achieved.

Drawings

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

FIG. 2 is a schematic view of a single axis indexing mechanism according to the present invention;

FIG. 3 is a schematic view of a fixing effect structure of the horizontal movement device according to the present invention;

FIG. 4 is a schematic view of a horizontal movement device according to the present invention;

FIG. 5 is a top view of a part of the horizontal movement device of the present invention;

FIG. 6 is a schematic structural diagram of a pressure simulator in accordance with the present invention;

FIG. 7 is a schematic view of the linear guide of the present invention;

FIG. 8 is an enlarged view of region X of the present invention;

fig. 9 is an enlarged view of the Y region of the present invention.

The labels in the figures are: 1-test bench, 2-single-shaft indexing mechanism, 3-automotive glass, 4-first electric stopping device, 5-motor, 6-first cylindrical gear, 7-horizontal moving device, 8-control panel, 9-pressure simulation device, 201-rotating bracket, 202-first rotating limiting hole, 203-first rotating shaft, 204-first limiting gear, 205-first limiting bolt, 206-second limiting bolt, 207-first fixing base, 208-first silica gel pad, 209-first fastening steel wire rope, 2010-first pressing cover plate, 2011-first locking handle, 2012-first limiting spring, 2013-first limiting slider, 2014-second rotating limiting hole, 2015-second rotating shaft, 2016-second limiting gear, 2017-a third limit bolt, 2018-a fourth limit bolt, 2019-a second fixed base, 2020-a second silica gel pad, 2021-a second fastening steel wire rope, 2022-a second pressing cover plate, 2023-a second locking handle, 2024-a second limit spring, 2025-a second limit slider, 2026-a first electric push rod, 2027-a first bevel gear, 2028-a second bevel gear, 2029-a second cylindrical gear, 2030-a second electric push rod, 2031-a third bevel gear, 2032-a fourth bevel gear, 2033-a first transmission wheel, 2034-a fourth transmission wheel, 2035-a special-shaped cluster gear groove, 701-a third electric push rod, 702-a fifth bevel gear, 703-a sixth bevel gear, 704-a first screw rod, 705-a rack rod, 706-a third cylindrical gear, 707-linear guide rail, 708-seventh bevel gear, 709-eighth bevel gear, 7010-second electric stopping device, 7011-first polish rod, 7012-second polish rod, 7013-second screw rod, 7014-feeding slide block, 901-ninth bevel gear, 902-tenth bevel gear, 903-third driving wheel, 904-wire winding cylinder, 905-fourth electric push rod, 906-mounting support frame, 907-fifth electric push rod, 908-fifth driving wheel, 909-first friction rotating disc, 9010-second friction rotating disc, 9011-third screw rod, 9012-top hammer, 9013-pressure sensor, 9014-first infrared emitter, 9015-second infrared emitter.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

An anti-violence test device for automobile glass is disclosed, as shown in fig. 1-9, comprising a test workbench 1, automobile glass 3, a first electric braking device 4, a motor 5, a first cylindrical gear 6, a control panel 8, a single-shaft indexing mechanism 2, a horizontal moving device 7 and a pressure simulation device 9, wherein the single-shaft indexing mechanism 2 is arranged in the middle of the inner bottom end of the test workbench 1, the bottom of the inner left end of the test workbench 1 is in bolted connection with the first electric braking device 4, the right end of the first electric braking device 4 is connected with the single-shaft indexing mechanism 2, the middle of the inner left end of the test workbench 1 is in bolted connection with the motor 5, the horizontal moving device 7 is arranged at the inner top of the test workbench 1, the top of the inner left end of the test workbench 1 is in bolted connection with the control panel 8, the middle of the inner side of the test workbench 1 is provided with the pressure, automobile glass 3 is arranged in the middle of the top end of the single-shaft indexing mechanism 2, the top of the left end of the single-shaft indexing mechanism 2 is meshed with the first cylindrical gear 6, the inner surface of the first cylindrical gear 6 is connected with the motor 5, and the middle right part of the bottom end of the horizontal moving device 7 is welded with the pressure simulation device 9.

The single-shaft indexing mechanism 2 comprises a rotating bracket 201, a first rotating limit hole 202, a first rotating shaft 203, a first limit gear 204, a first limit bolt 205, a second limit bolt 206, a first fixed base 207, a first silica gel pad 208, a first fastening steel wire rope 209, a first pressing cover plate 2010, a first locking handle 2011, a first limit spring 2012, a first limit slider 2013, a second rotating limit hole 2014, a second rotating shaft 2015, a second limit gear 2016, a third limit bolt 2017, a fourth limit bolt 2018, a second fixed base 2019, a second silica gel pad 2020, a second fastening steel wire rope 2021, a second pressing cover plate 2022, a second locking handle 2023, a second limit spring 2024, a second limit slider 2025, a first electric push rod 2026, a first bevel gear 2027, a second bevel gear 2028, a second cylindrical gear 2032029, a second electric push rod 2030, a third bevel gear 1, a fourth bevel gear 2, a third bevel gear 2021, a fourth bevel gear 2022, A first driving wheel 2033, a fourth driving wheel 2034 and a special-shaped wire collecting wheel groove 2035, wherein the top of the right end of the rotary bracket 201 is welded with the first rotary limiting hole 202, the top of the right end of the rotary bracket 201 is rotatably connected with the first rotary shaft 203, the right side of the outer surface of the first rotary shaft 203 is connected with the first rotary limiting hole 202, the top of the left end of the rotary bracket 201 is welded with the second rotary limiting hole 2014, the top of the left end of the rotary bracket 201 is rotatably connected with the second rotary shaft 2015, the left side of the outer surface of the second rotary shaft 2015 is connected with the second rotary limiting hole 2014, the bottom end of the rotary bracket 201 is provided with the special-shaped wire collecting wheel groove 2035, the middle part of the top end of the first rotary limiting hole 202 is inserted with the first limiting bolt 205, the top of the right end of the first rotary limiting hole 202 is inserted with the second limiting bolt 206, the first limiting gear 204 is arranged on the right, the left end of the first rotating shaft 203 is welded with a first fixed base 207, the left side of the top end of the first fixed base 207 is bonded with a first silica gel pad 208, the middle part of the right end of the first fixed base 207 is provided with a first fastening steel wire rope 209, the right side of the top end of the first fixed base 207 is provided with a first pressing cover plate 2010, the right part in the first pressing cover plate 2010 is rotatably connected with a first locking handle 2011, the bottom part of the outer surface of the first locking handle 2011 is sleeved with a first limiting spring 2012, the middle part of the outer surface of the first locking handle 2011 is slidably connected with a first limiting slider 2013, the bottom end of the first limiting slider 2013 is welded with the first limiting spring 2012, the middle part of the top end of the second rotating limiting hole 2014 is spliced with a third limiting bolt 2017, the top part of the left end of the second rotating limiting hole 2014 is spliced with a fourth limiting bolt 2018, and the left side in the second rotating shaft 2015 is provided with a second limiting gear 2016, the right end of the second rotating shaft 2015 is welded with a second fixed base 2019, the left end of the second rotating shaft 2015 is welded with a first electric push rod 2026, the right side of the top end of the second fixed base 2019 is adhered with a second silica gel pad 2020, a second fastening steel wire rope 2021 is arranged in the middle of the left end of the second fixed base 2019, a second pressing cover plate 2022 is arranged on the left side of the top end of the second fixed base 2019, the left part in the second pressing cover plate 2022 is rotatably connected with a second locking handle 2023, the bottom of the outer surface of the second locking handle 2023 is sleeved with a second limiting spring 2024, the middle of the outer surface of the second locking handle 2023 is slidably connected with a second limiting slider 2025, the bottom end of the second limiting slider 2025 is welded with the second limiting spring 2024, the left end of the first electric push rod 2026 is inserted into a first bevel gear 2027, the lower part of the right end of the first bevel gear 2027 is engaged with a second bevel gear 2028, the top end of the second bevel gear 2028 is inserted with a second cylindrical gear 2029, the bottom end of the second bevel gear 2028 is inserted with a second electric push rod 2030, the bottom of the outer surface of the second electric push rod 2030 is inserted with a third bevel gear 2031, the rear part of the bottom end of the third bevel gear 2031 is engaged with a fourth bevel gear 2032, the front end of the fourth bevel gear 2032 is inserted into a first transmission wheel 2033, the right side of the first driving wheel 2033 is in driving connection with a fourth driving wheel 2034, and the front end of the fourth driving wheel 2034 is connected with the special-shaped wire collecting wheel groove 2035, the left side of the bottom end and the right side of the bottom end of the rotating bracket 201 are connected with the test workbench 1, the left end of the second cylindrical gear 2029 is connected to the first cylindrical gear 6, the top end of the second cylindrical gear 2029 is connected to the pressure simulator 9, and the right end of the fourth bevel gear 2032 is connected to the first electric braking device 4.

The horizontal moving device 7 comprises a third electric push rod 701, a fifth bevel gear 702, a sixth bevel gear 703, a first screw rod 704, a toothed bar 705, a third cylindrical gear 706, a linear guide rail 707, a seventh bevel gear 708, an eighth bevel gear 709, a second electric stopping device 7010, a first polish rod 7011, a second polish rod 7012, a second screw rod 7013 and a feeding slide block 7014, wherein the top end of the third electric push rod 701 is inserted with the fifth bevel gear 702, the right side of the top end of the fifth bevel gear 702 is engaged with the sixth bevel gear 703, the inner surface of the sixth bevel gear is inserted with the first screw rod 704, the front end of the first screw rod 704 is provided with the toothed bar 705, the middle part of the front end of the toothed bar is engaged with the third cylindrical gear 706, the bottom end of the third cylindrical gear 706 is rotatably connected with the linear guide rail 707, the top end of the third cylindrical gear 706 is inserted with the seventh bevel gear 708, the rear part of the right end of the linear guide rail 707 is connected with a second electric stopping device 7010 by bolts, the inner rear bottom part of the linear guide rail 707 is connected with a first polished rod 7011 in a sliding manner, the inner front bottom part of the linear guide rail 707 is connected with a second polished rod 7012 in a sliding manner, the inner front top part of the linear guide rail 707 is connected with a second lead screw 7013 in a rotating manner, the middle part of the outer surface of the linear guide rail 707 is connected with a feeding sliding block 7014 in a sliding manner, the front part of the top end of a seventh bevel gear 708 is meshed with an eighth bevel gear 709, the middle part of the front end of the eighth bevel gear 709 is welded with the second lead screw 7013, the middle part of the outer surface of the second lead screw 7013 is sleeved with the feeding sliding block 7014, the bottom end of the third electric push rod 701 is connected with a pressure simulation device 9, the right end of the first lead screw 704 is connected with, the left end and the right end of the second polished rod 7012 are both connected with the test workbench 1, and the bottom end of the feeding sliding block 7014 is connected with the pressure simulation device 9.

The pressure simulation device 9 comprises a ninth bevel gear 901, a tenth bevel gear 902, a third driving wheel 903, a wire winding cylinder 904, a fourth electric push rod 905, an installation support frame 906, a fifth electric push rod 907, a fifth driving wheel 908, a first friction rotary disc 909, a second friction rotary disc 9010, a third screw rod 9011, a top hammer 9012, a pressure sensor 9013, a first infrared emitter 9014 and a second infrared emitter 9015, wherein the front part of the top end of the ninth bevel gear 901 is meshed with the tenth bevel gear 902, the middle part of the front end of the tenth bevel gear 902 is spliced with the third driving wheel 903, the wire winding cylinder 904 is arranged on the lower right of the third driving wheel 903, the installation support frame 906 is arranged on the right of the third driving wheel 903, the rear end of the wire winding cylinder 904 is rotatably connected with the fourth electric push rod 905, the fifth electric push rod 907 is arranged in the middle part of the installation support frame 906, the left side of the bottom end of the installation support frame 906 is spliced with the first infrared emitter, the second infrared emitter 9015 is inserted into the right side of the bottom end of the mounting support frame 906, the bottom of the rear end of the fifth electric push rod 907 is rotatably connected with the fifth driving wheel 908, the middle of the rear end of the fifth driving wheel 908 is inserted into the first friction rotating disc 909, the middle lower part of the rear end of the first friction rotating disc 909 is rotatably connected with the second friction rotating disc 9010, the middle of the bottom end of the second friction rotating disc 9010 is welded with the third screw 9011, the middle of the outer surface of the third screw 9011 is sleeved with the mounting support frame 906, the bottom end of the third screw 9011 is inserted into the top hammer 9012, the middle inside the top hammer 9012 is provided with the pressure sensor 9013, the top end of the ninth bevel gear 901 is connected with the horizontal moving device 7, the bottom end of the ninth bevel gear 901 is connected with the single-shaft indexing mechanism 2, the front end of the tenth bevel gear 902 is connected with the test workbench 1, and the right end of the fourth electric push, the top end of the mounting support frame 906 is connected with the horizontal moving device 7, and the top end of the fifth electric push rod 907 is connected with the horizontal moving device 7.

Grooves are formed in the outer sides of the first fixing base 207 and the second fixing base 2019, and downward protrusions are arranged at openings in the top ends of the grooves.

The inner middle parts of the first limiting bolt 205 and the third limiting bolt 2017 are provided with transverse through holes, and the inner diameters of the through holes are matched with the outer diameters of the second limiting bolt 206 and the fourth limiting bolt 2018.

The linear guide rail 707 is provided with through holes at the inner front lower part and the inner rear part, the inner diameter of the pupil is matched with the outer diameters of the first polished rod 7011 and the second polished rod 7012, the inner front upper part of the linear guide rail 707 is provided with a rotating groove, and the inner diameter of the rotating groove is matched with the outer diameter of the second lead screw 7013.

The first fastening steel wire rope 209 and the second fastening steel wire rope 2021 are wound in the grooves on the outer sides of the first fixing base 207 and the second fixing base 2019 in a single turn, and are connected with the special-shaped wire collecting wheel groove 2035 only from the middle parts of the front ends of the first fixing base 207 and the second fixing base 2019.

When in use, the violence-proof testing equipment of the automobile glass 3 is horizontally placed in a testing workshop of the automobile glass 3, the first limiting slider 2013 and the second locking handle 2023 are rotated to enable the bottom end not to be buckled with the first fixing base 207 and the second fixing base 2019, the pressing frame consisting of the first pressing cover plate 2010 and the second pressing cover plate 2022 is taken down, the automobile glass 3 to be tested is prevented on the fixing frame consisting of the first fixing base 207 and the second fixing base 2019, the pressing frame consisting of the first pressing cover plate 2010 and the second pressing cover plate 2022 is covered, the first limiting slider 2013 and the second locking handle 2023 are buckled with the first pressing cover plate 2010 and the second pressing cover plate 2022, a power supply is turned on, an emergency switch on the control panel 8 is pulled up, then the switch is pressed down, the control panel 8 is used for operating the motor 5 to rotate, the first cylindrical gear 6 is driven to rotate, and is meshed with the second cylindrical gear 2029, the second bevel gear 2028 is engaged with the first bevel gear 2027 to drive the rotation of the first electric push rod 2026, so that the first electric push rod 2026 drives the second rotation shaft 2015 to rotate, further drives the fixed frame consisting of the first fixed base 207 and the second fixed base 2019 to rotate, after reaching a required angle, the first limit bolt 205 and the third limit bolt 2017 are put down to clamp the first limit gear 204 and the second limit gear 2016 and are simultaneously inserted into the second limit bolt 206 and the fourth limit bolt 2018 to respectively fix the first limit bolt 205 and the third limit bolt 2017, then the first electric push rod 2026 is contracted to disengage the first bevel gear 2027 from the second bevel gear 2028 and extend out of the second electric push rod 2030, so that the third bevel gear 2031 is engaged with the fourth bevel gear 2032, the fourth drive wheel 2034 is driven to rotate by the rotation of the first drive wheel 2033, and the special-shaped line concentrating wheel groove 2035 is driven to rotate, the tightening of the first fastening steel wire rope 209 and the second fastening steel wire rope 2021 is realized, the requirement of the simulated installation pressure on the edge of the automobile glass 3 is met, the fourth bevel gear 2032 is locked and fixed by the extension of the first electric stopping device 4, the second electric push rod 2030 is recovered, the third bevel gear 2031 is disengaged from the fourth bevel gear 2032, the third electric push rod 701 is driven to rotate by the first cylindrical gear 6, the first screw rod 704 is rotated to move the toothed bar 705 leftwards and rightwards by the engagement of the fifth bevel gear 702 and the sixth bevel gear 703, the third cylindrical gear 706 is locked by the second electric stopping device 7010, the left side and the right side of the linear guide 707 slide on the first polished rod 7011 and the second polished rod 7012 respectively by the engagement of the toothed bar 705 and the third cylindrical gear 706, the left and the right side of the linear guide 707 are adjusted, namely the first direction of the pressure simulating device 9 is adjusted, when the required direction is reached, the second electric stopping device 7010 is contracted to enable the rack 705 and the third cylindrical gear 706 to be meshed and rotated, the first screw rod 704 is continuously rotated, the rack 705 and the third cylindrical gear 706 are meshed and rotated, the seventh bevel gear 708 and the eighth bevel gear 709 are driven to be meshed and rotated, the second screw rod 7013 is rotated, the front and back positions of the feeding slide block 7014 are adjusted, namely the second direction of the whole pressure simulation device 9 is adjusted, when the requirement is met, the third electric push rod 701 is contracted to enable the fifth bevel gear 702 and the sixth bevel gear 703 to be disengaged, then the second cylindrical gear 2029 is meshed and driven through the first cylindrical gear 6 to drive the ninth bevel gear 901 and the tenth bevel gear 902 to be meshed and rotated, the third driving wheel 903 is driven to drive the fifth driving wheel 908 to rotate, and the first friction rotary disc 909 is rotated through friction of the rear end surface, the second friction turntable 9010 is driven to rotate, meanwhile, the third screw rod 9011 is driven to rotate in the mounting support frame 906, so that the anvil 9012 rotates, when the anvil 9012 contacts the surface of the automobile glass 3, recording is started, the change curve of the internal structure of the automobile glass 3 is observed on the control panel 8 through the first infrared emitter 9014 and the second infrared emitter 9015, recording is started, when the change curve reaches the maximum value, the operation is repeated, and other points are tested, when the device is used, the stress switching angle of the automobile glass 3 is changed, the inclination angle of the automobile glass 3 is fixed, the moving pressure simulation device 9 in each direction in the horizontal plane tests all-directional stress of each point on the surface of the automobile glass 3, the pressure requirement of automobile edge mounting is met, the use state of the automobile glass 3 under different conditions is completely simulated, and the simulation is close to the real level, the data and collection of the stress conditions and the limit conditions of all points on the surface of the automobile glass 3 at different angles are recommended to be popularized and used in an automobile glass 3 detection workshop.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. An anti-violence test device for automobile glass comprises a test workbench (1) and the automobile glass (3), and is characterized by further comprising a first electric stopping device (4), a motor (5), a first cylindrical gear (6), a control panel (8), a single-shaft indexing mechanism (2), a horizontal moving device (7) and a pressure simulation device (9), wherein the single-shaft indexing mechanism (2) is arranged in the middle of the inner bottom end of the test workbench (1), the bottom of the inner left end of the test workbench (1) is in bolted connection with the first electric stopping device (4), the right end of the first electric stopping device (4) is connected with the single-shaft indexing mechanism (2), the middle of the inner left end of the test workbench (1) is in bolted connection with the motor (5), the horizontal moving device (7) is arranged at the inner top of the test workbench (1), and the top of the left end of the test workbench (1) is in bolted connection with the control panel (8), the middle part is provided with pressure analogue means (9) in test bench (1), unipolar indexing mechanism (2) top middle part is provided with car glass (3), unipolar indexing mechanism (2) left end top meshes with first spur gear (6) to first spur gear (6) internal surface is connected with motor (5), the right part welds with pressure analogue means (9) in horizontal migration device (7) bottom.

2. The anti-violence test equipment for the automobile glass according to claim 1, wherein the single-shaft indexing mechanism (2) comprises a rotating support (201), a first rotating limiting hole (202), a first rotating shaft (203), a first limiting gear (204), a first limiting bolt (205), a second limiting bolt (206), a first fixing base (207), a first silica gel pad (208), a first fastening steel wire rope (209), a first pressing cover plate (2010), a first locking handle (2011), a first limiting spring (2012), a first limiting slider (2013), a second rotating limiting hole (2014), a second rotating shaft (2015), a second limiting gear (2016), a third limiting bolt (2017), a fourth limiting bolt (2018), a second fixing base (2019), a second silica gel pad (2020), a second fastening steel wire rope (2021), a second pressing cover plate (2022), A second locking handle (2023), a second limit spring (2024), a second limit slider (2025), a first electric push rod (2026), a first bevel gear (2027), a second bevel gear (2028), a second cylindrical gear (2029), a second electric push rod (2030), a third bevel gear (2031), a fourth bevel gear (2032), a first transmission wheel (2033), a fourth transmission wheel (2034) and a special-shaped line concentration wheel groove (2035), wherein the top of the right end of the rotating bracket (201) is welded with the first rotation limit hole (202), the top of the right end of the rotating bracket (201) is rotatably connected with the first rotating shaft (203), the right side of the outer surface of the first rotating shaft (203) is connected with the first rotation limit hole (202), the top of the left end of the rotating bracket (201) is welded with the second rotation limit hole (2014), and the top of the left end of the rotating bracket (201) is rotatably connected with the second rotating shaft (201), and the left side of the outer surface of a second rotating shaft (2015) is connected with a second rotating limiting hole (2014), the bottom end of the rotating bracket (201) is provided with a special-shaped wire collecting wheel groove (2035), the middle part of the top end of the first rotating limiting hole (202) is spliced with a first limiting bolt (205), the top part of the right end of the first rotating limiting hole (202) is spliced with a second limiting bolt (206), a first limiting gear (204) is arranged on the right side in the first rotating shaft (203), the left end of the first rotating shaft (203) is welded with a first fixed base (207), the left side of the top end of the first fixed base (207) is spliced with a first silica gel pad (208), a first fastening steel wire rope (209) is arranged in the middle part of the right end of the first fixed base (207), a first pressing cover plate (2010) is arranged on the right side of the top end of the first fixed base (207), the right part rotates with first locking handle (2011) and is connected in first compress tightly apron (2010), first locking handle (2011) surface bottom cup joints with first spacing spring (2012), first locking handle (2011) surface middle part carries out sliding connection with first spacing slider (2013), and first spacing slider (2013) bottom welds with first spacing spring (2012), spacing hole (2014) top middle part is pegged graft with third spacing bolt (2017) is rotated to the second, spacing hole (2014) left end top is rotated to the second and fourth spacing bolt (2018) are pegged graft, left side is provided with second spacing gear (2016) in second axis of rotation (2015), second axis of rotation (2015) right-hand member welds with second unable adjustment base (2019), second axis of rotation (2015) left end welds with first electric putter (2026), the right side of the top end of the second fixed base (2019) is bonded with a second silica gel pad (2020), the middle of the left end of the second fixed base (2019) is provided with a second fastening steel wire rope (2021), the left side of the top end of the second fixed base (2019) is provided with a second pressing cover plate (2022), the inner left part of the second pressing cover plate (2022) is rotatably connected with a second locking handle (2023), the bottom of the outer surface of the second locking handle (2023) is sleeved with a second limiting spring (2024), the middle of the outer surface of the second locking handle (2023) is slidably connected with a second limiting slider (2025), the bottom end of the second limiting slider (2025) is welded with the second limiting spring (2024), the left end of the first electric push rod (2026) is inserted into the first bevel gear (2027), the lower part of the right end of the first bevel gear (2027) is engaged with a second bevel gear (2028), the top end of the second bevel gear (2028) is spliced with a second cylindrical gear (2029), the bottom end of the second bevel gear (2028) is spliced with a second electric push rod (2030), the bottom of the outer surface of the second electric push rod (2030) is spliced with a third bevel gear (2031), the rear part of the bottom end of the third bevel gear (2031) is meshed with a fourth bevel gear (2032), the front end of the fourth bevel gear (2032) is spliced with a first transmission wheel (2033), the right side of the first transmission wheel (2033) is in transmission connection with a fourth transmission wheel (2034), the front end of the fourth transmission wheel (2034) is connected with a special-shaped wire collecting groove (2035), the left side and the right side of the bottom end of the rotating bracket (201) are connected with the test workbench (1), the left end of the second cylindrical gear (2029) is connected with a first cylindrical gear (6), and the top end of the second cylindrical gear (2029) is connected with a pressure simulation device (9), the right end of the fourth bevel gear (2032) is connected with a first electric braking device (4).

3. The anti-violence test equipment for automobile glass according to claim 2, wherein the horizontal moving device (7) comprises a third electric push rod (701), a fifth bevel gear (702), a sixth bevel gear (703), a first screw rod (704), a toothed bar (705), a third cylindrical gear (706), a linear guide rail (707), a seventh bevel gear (708), an eighth bevel gear (709), a second electric braking device (7010), a first polish rod (7011), a second polish rod (7012), a second screw rod (7013) and a feeding slider (7014), the top end of the third electric push rod (701) is inserted into the fifth bevel gear (702), the right side of the top end of the fifth bevel gear (702) is engaged with the sixth bevel gear (703), the inner surface of the sixth bevel gear is inserted into the first screw rod (704), the front end of the first screw rod (704) is provided with the toothed bar (705), the middle part of the front end of the rack bar (705) is meshed with a third cylindrical gear (706), the bottom end of the third cylindrical gear (706) is rotatably connected with a linear guide rail (707), the top end of the third cylindrical gear (706) is inserted with a seventh bevel gear (708), the rear part of the right end of the linear guide rail (707) is in bolt connection with a second electric braking device (7010), the inner rear bottom part of the linear guide rail (707) is in sliding connection with a first polished rod (7011), the inner front bottom part of the linear guide rail (707) is in sliding connection with a second polished rod (7012), the inner front top part of the linear guide rail (707) is in rotating connection with a second lead screw (7013), the middle part of the outer surface of the linear guide rail (707) is in sliding connection with a feeding sliding block (7014), the front part of the top end of the seventh bevel gear (708) is meshed with an eighth bevel gear (709), and the middle part of the front end of the eighth bevel gear (709) is welded with the second lead screw (7013, and second lead screw (7013) surface middle part cup joints with feeding slider (7014), third electric putter (701) bottom is connected with pressure analogue means (9), first lead screw (704) right-hand member is connected with test table (1), first polished rod (7011) left end and right-hand member all are connected with test table (1), second polished rod (7012) left end and right-hand member all are connected with test table (1), it is connected with pressure analogue means (9) to feed slider (7014) bottom.

4. The device for testing the anti-violence of the automobile glass according to claim 3, wherein the pressure simulator (9) comprises a ninth bevel gear (901), a tenth bevel gear (902), a third driving wheel (903), a wire winding barrel (904), a fourth electric push rod (905), a mounting support frame (906), a fifth electric push rod (907), a fifth driving wheel (908), a first friction turntable (909), a second friction turntable (9010), a third screw (9011), a top hammer (9012), a pressure sensor (9013), a first infrared emitter (9014) and a second infrared emitter (9015), the front portion of the top end of the ninth bevel gear (901) is meshed with the tenth bevel gear (902), the middle portion of the front end of the tenth bevel gear (902) is inserted into the third driving wheel (903), the wire winding barrel (904) is arranged below the right portion of the third driving wheel (903), a mounting support frame (906) is arranged on the right of the third driving wheel (903), the rear end of the wire winding tube (904) is rotatably connected with a fourth electric push rod (905), a fifth electric push rod (907) is arranged in the middle of the upper part in the mounting support frame (906), the left side of the bottom end of the mounting support frame (906) is spliced with a first infrared emitter (9014), a second infrared emitter (9015) on the right side of the bottom end of the mounting support frame (906) is spliced, the bottom of the rear end of the fifth electric push rod (907) is rotatably connected with a fifth driving wheel (908), the middle of the rear end of the fifth driving wheel (908) is spliced with a first friction turntable (909), the middle lower part of the rear end of the first friction turntable (909) is in transmission connection with a second friction turntable (9010), and the middle part of the bottom end of the second friction turntable (9010) is welded with a third screw rod (9011), the middle of the outer surface of a third screw rod (9011) is sleeved with an installation support frame (906), the bottom end of the third screw rod (9011) is connected with a top hammer (9012) in an inserting mode, a pressure sensor (9013) is arranged in the middle of the inside of the top hammer (9012), the top end of a ninth bevel gear (901) is connected with a horizontal moving device (7), the bottom end of the ninth bevel gear (901) is connected with a single-shaft indexing mechanism (2), the front end of a tenth bevel gear (902) is connected with a test workbench (1), the right end of a fourth electric push rod (905) is connected with the test workbench (1), the top end of the installation support frame (906) is connected with the horizontal moving device (7), and the top end of the fifth electric push rod (907) is connected with the horizontal moving device (7).

5. The device for testing the violence of an automobile glass according to claim 4, wherein the first fixing base (207) and the second fixing base (2019) are provided with grooves on the outer sides thereof, and downward protrusions are provided at the openings of the top ends of the grooves.

6. The device for testing the violence prevention of the automobile glass according to claim 5, wherein the first limiting bolt (205) and the third limiting bolt (2017) are provided with transverse through holes at the inner middle parts, and the inner diameters of the through holes are matched with the outer diameters of the second limiting bolt (206) and the fourth limiting bolt (2018).

7. The apparatus for testing the anti-violence of the automobile glass according to claim 6, wherein the linear guide rail (707) is provided at the inner front lower portion and the inner rear portion with through holes, and the inner diameter of the pupil is fitted with the outer diameters of the first and second polish rods (7011, 7012), and the linear guide rail (707) is provided at the inner front upper portion with a rotation groove, and the inner diameter of the rotation groove is fitted with the outer diameter of the second lead screw (7013).

8. The apparatus for testing the anti-violence of the glass of the automobile according to claim 7, wherein the first fastening steel wire rope (209) and the second fastening steel wire rope (2021) are wound in a single turn in the grooves on the outer sides of the first fixing base (207) and the second fixing base (2019), and are connected with the specially-shaped line concentrating wheel groove (2035) only from the middle of the front ends of the first fixing base (207) and the second fixing base (2019).