CN205483859U - Hydraulic pressure revolving stage rack wheel plate glass test rack of making a video recording - Google Patents

Abstract

The utility model relates to a toughened glass test checking machine frame, a hydraulic pressure revolving stage rack wheel plate glass test rack of making a video recording, as the improvement: there is hydraulic lift mechanism between T shape guide rail and the supporting baseplate, it has the mobile video camera subassembly on the square bar to make a video recording, assaults fixed the gyration impacter that can slide on the horizontal pole, fixing with plane wheel splint subassembly on the plane on the test platen, table plate support and lock dowel support together and support fixing between the plane on the curb plate and break to pieces the glass director, the port drops on garrulous glass collection vehicle upward within the port under the bits of broken glass glass director, make a video recording and take a picture and with piece picture transmission to computer processing center, but the hydraulic stretching jar in the body frame combines T shape guide rail to drive test platen flip structure sets up, be convenient for drive chunk glass, be equipped with garrulous glass director and garrulous glass collection vehicle, guarantee that chunk glass does not spill, use the gyration impacter and realize at every turn that the drive hammer weight is unanimous, ensure that breaking test is unified and standard.

Description

A kind of hydraulic swivel tooth bar shooting wheel clamping plate glass test frame

Technical field

This utility model relates to a kind of safety glass test verification frame, and the test verification frame particularly relating to wear industrial camera substitutes manually-operated a kind of hydraulic swivel tooth bar shooting wheel clamping plate glass test frame.

Background technology

Fragmentation status test is a content of mechanical properties test, and test objective is to cause the probability of injury to evaluate fragment when safety glass crushes.China and Japan and the European Community are identical in the criterion of safety glass detection method and result, are both needed to record the number of tiles in the broken satisfactory 50mm × 50mm square afterwards of mother glass and shape, size in fragmentation status checkout procedure.Chip shape owing to producing after glass breaking is irregular, quantity is many, takes at present to carry out the observation of fragment by artificial means, identify and read, and workload is big, mistake easily occurs.Therefore, people's examination is asked and is automatically identified glass fragment by image processing techniques.

Gordon Gaile G once published an article in 1996 " Automated Glass Fragmentation Analysis ", the detection algorithm of glass fragment to be inquired into, the document relates to two key technologies: (1) image capture technology.Below the sensitive paper of a glass fragment imaging, apply light source respectively from two different angles, respectively collect the original digital image of a width fragment slot line shadow.So, owing to employing the light source of different angles, the two width images the most difference collected.Wherein piece image produces the position of inconspicuous slot line due to illumination reason, the most obvious in other piece image.Therefore, in due course two width images being combined, the discontinuous phenomenon of slot line can be improved.(2) image segmentation algorithm.Cutting procedure includes the following steps: pretreatment is removed in two width original images by the reflective the brightest or the darkest noise caused of the dust in glass or slot line edge；Carrying out independent slot line detection, two width images are merged into the image of the complete slot line of a width, extract slot line, finally carry out fragment identification.J. Haywood, J. W. V. Miller et al. develops a glass fragment automatic recognition system, and published an article " Automated Counting System in 1998 For the ECE Fragmagmentation Test》.Its recognition methods can be described as: the debris field of to be counted piece of number is marked on sensitive paper artificially, and scanner scanning obtains digital picture.Subsequent treatment is carried out based on scanogram, and image processing step includes: compensate uneven illumination, reduces noise, determines slot line.Before statistics block number, employ a kind of special recovery algorithms and fill the slot line of " loss ".This system can identify and count the quantity of the fragment in tab area.

Existing safety glass fragmentation test method is freely to be lain on testing stand by safety glass sample, and retrains glass periphery by adhesive tape or other modes, or covers thin film on safety glass, to prevent glass fragment from splashing.The position of distance periphery 20 about mm on the longest edge centrage of sample, pane hammer or drift with tip curvature radius is 0. 2 mm scholar 0.05 mm impact, making sample crush, the fragment number in the range of product edges 20mm and justifying with shock point for center of circle radius 75mm does not conducts a survey.Retain the measure of fragment pattern to start after 10 s after the blow and terminate in 3 min after the blow.This method not only operates inconvenience, the cost time is longer, and adhesive tape is disposable product, easily cause waste and pollute, and must the tape residue on test platen be removed clean after testing every time, clean cullet, otherwise, an experiment test operation under the influence of the chopped glass general of residual could be removed.Adhesive tape also has and is burst, by safety glass, the probability that strength collapses out simultaneously, causes operator injured, and therefore, the improvement to safety glass fragmentation test device is the most necessary.

Chinese Patent Application No.: 2009203050079, toughened glass falling sphere test bed, for solving safety glass when testing, glass fragment can be caused to splash everywhere, use the way of carriage case, although glass fragment can effectively be collected, but the reading of inconvenient glass fragment, and the installation effectiveness doing multi-disc safety glass continuously is relatively low.

Another number of patent application: the 201420595067.X of China, safety glass fragmentation status assay device, propose some brand-new method and measures to tackle the clamping plate of brittle glass, but cannot accomplish that arbitrary dimension regulates, also cannot accomplish to allow four limit clamping plate the most at grade.This patent at least to have while being cannot to contact with experiment work table top.The unsettled barricade 5 that is referred to as in embodiment is cannot to contact with base 1 together with other three side bumpers wall simultaneously, it has to uses catch 4 to make up the space between unsettled barricade 5 and base 1, causes surrounding discontinuity.Additionally, catch 4 local width is fixing, polylith can only be used to splice, it is impossible to accomplish the consecutive variations of different in width.

Summary of the invention

The problem existed for above prior art, this utility model installs gear rack elevating industrial camera on integral-rack, in conjunction with hydraulic control Turnover testing platen, it is equipped with the fastening of plug lock pin, particularly it is provided with isoplanar wheel cleat assembly and revolution impacter, clamping plate part is carried out the adjustable design in isoplanar, it is achieved that for the safety glass of sizes different size, a kind of verification test device can be shared to do safety glass fragmentation test, specific as follows:

A kind of hydraulic swivel tooth bar shooting wheel clamping plate glass test frame, integral-rack includes support side plate, rear shear plate, bottom narrow boards and four circular abutments, the most fixed two described circular abutments in the support side plate of both sides, four circular abutment upper ends are all fixed with column termination, and four column terminations are respectively fixed with two transverse horizontal bars and two vertical equity bars；In support side plate described in both sides, plane is the most all fixed with platen support and lock pin bearing；There is platen rotating shaft test platen both sides, and the platen rotating shaft of both sides is the most rotatable to be fixed in platen support, and described rear shear plate upper bit has plane in back plate, lower plane after plane holds testboard plate in back plate；

Plug lockhole is had, for being slidably matched between described lock pin bearing endoporus and light beam lock pin cylindrical on described test platen both sides vertical；The light beam lock pin of both sides can enter in described plug lockhole, by described test platen and the fixing restriction rotation of the support side plate described in both sides；Described light beam lock pin outer end has outside lock pin, outside lock pin on have a long hole slot of lock pin, operation stock passes through the long hole slot of described lock pin；There is operation lever operation stock upper end, operation pivot pin is had between operation stock lower end and operation bearing, operation pivot pin two ends are fixed on operation bearing, coordinate for rotatable between the endoporus of operation stock lower end with operation pivot pin cylindrical, and the operation rest base of both sides is fixed on operation seat screw；As improvement:

Having disconnection breach in described back plate in plane, disconnect the fixed support baseboard of whose lower end, there are T-rail in described test platen rear end lower plane central authorities, have hydraulicefficiency elevation structure between T-rail and described support baseboard；Described hydraulicefficiency elevation structure includes: on support baseboard, plane lays hydraulic tensioning cylinder, there is hydraulic cylinder jaw liquid presses piston pole upper end, two sides, hydraulic cylinder jaw top are the most static fixes a top stub axle pin, two top stub axle pin all extend to inner side, the most rotatable on two top stub axle pin cylindricals are combined with top short pulley endoporus；Long pivot pin two ends, common static fixed bottom, both sides, hydraulic cylinder jaw bottom, rotatable on the long pivot pin interlude cylindrical of bottom are combined with lower minister's pulley endoporus；

The short pulley in top of described both sides, hydraulic cylinder jaw top slidably coordinates with T-rail together with described lower minister's pulley；T-shaped rail upright plate on T-rail is connected to test platen, and T-shaped rail transverse slat is arranged at T-shaped rail upright plate bottom；The short pulley in top of described both sides, hydraulic cylinder jaw top is positioned at described T-shaped rail upright plate both sides, and the described short pulley in top is positioned at above described T-shaped rail transverse slat, and described lower minister's pulley is positioned at below described T-shaped rail transverse slat；

Having the long pivot pin in bottom, long pivot pin two ends, bottom and described hydraulic cylinder jaw secure fit between described lower minister's pulley and described hydraulic cylinder jaw, the long pivot pin in bottom is rotatable with described lower minister's pulley to be coordinated；Having top stub axle pin, stub axle pin one end, top to fix with described hydraulic cylinder jaw between the short pulley in described top and described hydraulic cylinder jaw, stub axle pin pulley short with described top in top is rotatable to be coordinated；

Two described transverse horizontal bars are all sliding combined with shooting cross slider, fixed shooting square bar between two shooting cross sliders, dollying thermomechanical components, dollying thermomechanical components is had to include imaging vertical slide block, shooting motor, motor gear, lifter rack, industrial camera on shooting square bar；Having between slide block square hole and described shooting square bar gabarit for being slidably matched on the vertical slide block of shooting, there is vertical slide block lateral sulcus the vertical slide block side of shooting；Vertical slide block lateral sulcus is backed with threading circle, and there is tooth bar groove in vertical slide block lateral sulcus front, and lifter rack is backed with tooth bar protruding rail, for being slidably matched between tooth bar protruding rail and described tooth bar groove；Described shooting is indulged plane on slide block and is fixed with shooting motor, and shooting motor output end axle is fixed with motor gear, and motor gear is meshed with described lifter rack；The described fixed camera pedestal in lifter rack lower end, video camera termination is had on camera pedestal, under video camera termination, front is industrial camera, being backed with shooting power supply signal combination cable on video camera termination, shooting power supply signal combination cable is external to distribution box and computer disposal center after passing through described threading circle respectively；

Impact cross bar one end has cross bar becket, the impact cross bar other end to have impact slide block, and the circular abutment cylindrical rotary sliding impacting slide block circular hole described with wherein coordinates；Liftable fixed altitude location circle on circular abutment, altitude location circle has holding screw, altitude location circle torr described impact slide block, and altitude location circle is for regulating the height of impact cross bar；

Slip fixed revolution impacter on described impact cross bar, revolution impacter includes impacter frame, impact motor and quadrangular guide rail；

Have in described impacter frame the impact vertical square hole of frame and, impact between four faceted pebbles on the horizontal square hole of frame, the impact horizontal square hole of frame and described impact cross bar for being slidably matched；

Described impact motor bottom bore is fixed in the upper plane of impacter frame, and impact motor output end mouth is fixed with rotating disk；Revolution pivot pin is had on rotating disk；

Being slidably matched for liftable between described quadrangular guide rail and the described vertical square hole of impact frame, described quadrangular guide rail lower end is jump bit cone, and quadrangular guide rail upper end is horizontal concrete chute, for being slidably matched between horizontal concrete chute inwall and described revolution pivot pin；

Fixed isoplanar wheel cleat assembly in plane on described test platen, described platen support fixed cullet guider between plane together with described lock pin bearing and in support side plate, cullet guider lower port falls within cullet collecting cart upper port.

As improving further: having Boards wall screw on described test platen, in every described support side plate, plane is respectively arranged with two platen seat screws and two locking pin seat screws.

As improving further: described isoplanar wheel cleat assembly is made up of the wheel isoplanar clamping plate that four physical dimensions are identical, it is respectively as follows: clamping plate deckle, the clamping plate left side, on the right of clamping plate opposite side and clamping plate, every wheel isoplanar clamping plate are made up of clamping plate part and slide plate part, clamping plate deckle is made up of deckle clamping plate part and deckle slide plate part, the clamping plate left side is made up of left side clamping plate part and left side slide plate part, clamping plate opposite side is made up of opposite side clamping plate part and opposite side slide plate part, it is made up of the right clamping plate part and the right slide plate part on the right of clamping plate；Described slide plate part is positioned at described clamping plate part one end and is overlapped on plane in clamping plate part；

The step lower surface of described slide plate part is slide plate lower plane, having step pivot pin on slide plate lower plane, step pivot pin has the outer section of pivot pin, pivot pin is outer is pivot pin step between section and described step pivot pin, the outer section outer end of described pivot pin is pivot pin outer end, and there is pivot pin screw at center, pivot pin outer end；The rotatable sliding wheel endoporus that is combined with on the outer section cylindrical of described pivot pin, sliding wheel inner side plane againsts described pivot pin step；It is combined with wheel screw on described pivot pin screw, wheel screw spiral shell brain againsts described pivot pin outer end, wheel screw spiral shell brain blocks sliding wheel medial plane, and wheel screw exposes spiral shell brain and can be located among blind slot space, and wheel screw exposes has space between spiral shell brain and blind slot space；Described sliding wheel and wheel chute between for being slidably matched；

The upper surface of described clamping plate part is plane on clamping plate, and clamping plate have in plane wheel chute, and has centrosymmetric transition to slot between plane on wheel chute and clamping plate, has blind slot space bottom wheel chute, and the described single-ended opening of wheel chute；Described slide plate lower plane is in sustained height with plane on described clamping plate；

There are pearl seat stepped hole, pearl seat stepped hole to be arranged symmetrically in described wheel chute both sides on described slide plate lower plane, in pearl seat stepped hole, on step, have stepped hole plane, stepped hole planar central to have pearl seat blind hole；In sliding pearl seat, half is identical with sliding pearl seat outer half plate shape physical dimension, all include sliding pearl seat cylindrical, sliding pearl seat faying face, sliding pearl seat lateral surface, circular hole in sliding pearl seat is had on sliding pearl seat faying face, in sliding pearl seat, circular hole bottom is connected to sliding pearl seat internal taper hole stub end, and the sliding pearl little head end of seat internal taper hole intersects with described sliding pearl seat lateral surface；

Sliding pearl seat cylindrical in half and the sliding pearl seat cylindrical in the outer half of sliding pearl seat in the described the most fixed sliding pearl seat of pearl seat stepped hole inner circle, the sliding pearl seat internal taper hole in half and the fixed sliding ball that is slidably matched between the sliding pearl seat internal taper hole in the outer half of sliding pearl seat in sliding pearl seat；On sliding ball, in prominent described sliding pearl seat, in the sliding pearl seat lateral surface in half, prominent sphere is accommodated among described pearl seat blind hole；The outer prominent sphere of the sliding pearl seat lateral surface in the outer half of prominent described sliding pearl seat and plane contact on described clamping plate on sliding ball.

Beneficial effect on this utility model:

(1), current glass fragment detect all by being accomplished manually, not only elapsed time is many, be also easy to generation mistake, affect the present situation of the accuracy of assay.This utility model changes fragment detection present situation the most manually, and shooting is taken pictures and fragmentation pattern picture is sent to computer disposal center, is particularly suitable for high-volume glass detection and processes, can be applicable in associated production enterprise and detection technique mechanism；

Integral-rack uses overall construction intensity high, and the hydraulic tensioning cylinder on integral-rack combines T-rail and drives the test turning structure of platen to arrange, it is simple to removes chunk glass, is equipped with cullet guider and cullet collecting cart, it is ensured that chunk glass does not scatters；In hydraulic tensioning cylinder combination back plate, plane holds lower plane after testboard plate, and in conjunction with light beam lock pin by locking positioning in the plug lockhole of test platen both sides so that in whole test process, whole hydraulic system keeps firm without pressurize, test platen；Particularly go back slip fixed revolution impacter；Impact motor on revolution impacter can realize remotely controlling to smash the dangerous step of armorplate glass, it is to avoid site operation personnel suffers that glass breaking moment surprisingly splashes injury.It is consistent that application revolution impacter realizes each hammer weight, it is ensured that crushing test is unified and standard.

(2), specific cullet guider lower port falls the design within described cullet collecting cart upper port, particularly the back incline upper surface on cullet collecting cart is less than the particular design of three described contour end faces, can ensure that sheet glass can be all in cullet guider falls into cullet collecting cart；Easily cullet collecting cart can be separated with cullet guider again.

(3), using isoplanar wheel cleat assembly, sliding part is positioned at clamping plate part one end and is overlapped on plane in clamping plate part, and described slide plate lower plane is in sustained height with plane on described clamping plate；Particularly fixed sliding ball in the pearl seat stepped hole on slide plate lower plane；The outer prominent sphere of sliding ball and plane contact on clamping plate, make slide plate lower plane in each wheel isoplanar clamping plate relative on the clamping plate in the clamping plate of another wheel isoplanar between plane sliding the most smooth easily, it is ensured that be test for armorplate glass surrounding uniform force.

Accompanying drawing explanation

Fig. 1 is this utility model stereoscopic appearance figure, unloads except isoplanar wheel cleat assembly 500 in figure.

Fig. 2 is the independent enlarged drawing of dollying thermomechanical components 900 in Fig. 1.

Fig. 3 is that the independent enlarged drawing of slide block 609 is indulged in the shooting in Fig. 2.

Fig. 4 is the top view of Fig. 3.

Fig. 5 is the stereoscopic appearance figure of the cullet guider 140 in Fig. 1 and cullet collecting cart 300 bonding state.

Fig. 6 is the profile along the axis of symmetry in Fig. 5.

Fig. 7 is the independent stereoscopic appearance figure of cullet guider 140 part in Fig. 5.

Fig. 8 is the profile along the axis of symmetry in Fig. 7.

Fig. 9 is the independent stereoscopic appearance figure of cullet collecting cart 300 part in Fig. 5.

Figure 10 is the profile along the axis of symmetry in Fig. 9.

Figure 11 be light beam lock pin in Fig. 1 189 with plug lockhole 198 binding site along light beam lock pin 189 axial line vertical cross section.

Figure 12 is the light beam lock pin 189 in Figure 11 and plug lockhole 198 disengaged condition.

Figure 13 is the integral-rack independent stereoscopic appearance figure being made up of the support side plate 200 of both sides and rear shear plate 176 and bottom narrow boards 175 in Fig. 1.

Figure 14 is the independent stereoscopic appearance figure of test platen 190 in Fig. 1.

Figure 15 is to place isoplanar wheel cleat assembly 500, and fixed armorplate glass 600 on the test platen 190 in Fig. 1, and dollying thermomechanical components 900 declines in running order duty stereoscopic appearance figure.

Figure 16 is Figure 15 back side stereoscopic appearance figure, isoplanar wheel cleat assembly 500 unloads except two sides therein, test platen 190 is in rotation heeling condition, and above revolution impacter 590 removal test platen 190, dollying thermomechanical components 900 promotes and is in off working state.

Figure 17 is the support baseboard 711 position enlarged drawing on the rear shear plate 176 in Figure 16.

Figure 18 is the partial enlarged drawing at fixed hydraulic tensioning cylinder 712 position on the support baseboard 711 on the rear shear plate 176 in Figure 16.

Figure 19 be hydraulic tensioning cylinder in Figure 18 712 with test platen 190 after back side connecting portion partial enlarged drawing.

Figure 20 is working state figure during hydraulic tensioning cylinder 712 drop-down test platen 190.

Working state figure when Figure 21 is to speculate test stand plate 190 on hydraulic tensioning cylinder 712.

Figure 22 is the partial enlarged drawing of the revolution impacter 590 in Figure 16.

Figure 23 is the independent axonometric chart of impacter frame 567 in Figure 22.

Figure 24 is that the isoplanar wheel cleat assembly 500 in Figure 15 is at the top view being applied in combination.

Figure 25 is the A-A sectional view in Figure 24.

Figure 26 is the top view of 540 on the right of the clamping plate in Figure 24.

Figure 27 is the isometric front view of Figure 26.

Figure 28 is the rear isometric view of Figure 26.

Figure 29 is the B-B sectional view in Figure 24, is test for armorplate glass 600 and is fixed on test platen 190.

Figure 30 is the partial enlarged drawing of the tested armorplate glass 600 in Figure 29 and rubber tabletting 551 contact site.

Figure 31 is the C-C sectional view in Figure 26.

Figure 32 is the partial enlarged drawing in Figure 25.

Figure 33 is deckle clamping plate part 519 partial enlarged drawing in Figure 32.

Figure 34 is the right slide plate part 548 partial enlarged drawing in Figure 32.

Figure 35 is the partial enlarged drawing of the sliding ball 580 in Figure 32.

Figure 36 is to unload in addition to sliding pearl seat the state diagram after half 582 in the pearl seat stepped hole 558 in Figure 35.

Figure 37 is the partial enlarged drawing of the outer half 582 of the sliding pearl seat in Figure 35.

Figure 38 is to unload in addition to half 581 and sliding pearl seat in sliding pearl seat the state diagram after half 582 in the pearl seat stepped hole 558 in Figure 35.

Detailed description of the invention

This utility model is described below in conjunction with the accompanying drawings in detail with detailed description of the invention:

In Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Figure 13, Figure 15, Figure 16, Figure 22, Figure 22 and Figure 24, a kind of hydraulic swivel tooth bar shooting wheel clamping plate glass test frame, integral-rack includes support side plate 200, rear shear plate 176, bottom narrow boards 175 and four circular abutments 566, the most fixed two described circular abutments 566 in the support side plate 200 of both sides, four circular abutment 566 upper ends are all fixed with column termination 604, and four column terminations 604 are respectively fixed with two transverse horizontal bars 602 and two vertical equity bars 603；

In support side plate 200 described in both sides, plane is the most all fixed with platen support 163 and lock pin bearing 180；There is platen rotating shaft 196 test platen 190 both sides, the platen rotating shaft 196 of both sides is the most rotatable to be fixed in platen support 163, described rear shear plate 176 upper bit has plane 717 in back plate, in back plate, plane 717 exceeds 11 to 13 millimeters of plane in described support side plate 200, lower plane after plane 717 holds test platen 190 in back plate；

In Fig. 1, Figure 11, Figure 12, Figure 13, Figure 15 and Figure 16, described test platen 190 both sides vertical there is plug lockhole 198, for being slidably matched between described lock pin bearing 180 endoporus and light beam lock pin 189 cylindrical；The light beam lock pin 189 of both sides can enter in described plug lockhole 198, limits rotation by fixing with the support side plate 200 described in both sides for described test platen 190；Described light beam lock pin 189 outer end has outside lock pin 135, has the long hole slot of lock pin 134, operation stock 133 to pass through the long hole slot of described lock pin 134 on 135 outside lock pin；There is operation lever 136 operation stock 133 upper end, operation pivot pin 132 is had between operation stock 133 lower end and operation bearing 131, operation pivot pin 132 two ends are fixed on operation bearing 131, coordinate for rotatable between the endoporus of operation stock lower end with operation pivot pin 132 cylindrical, be fixed on bottom the operation bearing 131 of both sides on operation seat screw 232；

As improvement: Figure 13, Figure 15, Figure 16, Figure 17, Figure 18, Figure 19, Figure 20 and Figure 21, disconnection breach 777 is had in plane 717 in described back plate, disconnect the fixed support baseboard in breach 777 lower end 711, there are T-rail 730 in described test platen 190 rear end lower plane central authorities, have hydraulicefficiency elevation structure between T-rail 730 and described support baseboard 711；

Described hydraulicefficiency elevation structure includes: on support baseboard 711, plane lays hydraulic tensioning cylinder 712, there is hydraulic cylinder jaw 714 liquid presses piston pole 722 upper end, two sides, hydraulic cylinder jaw 714 top are the most static fixes a top stub axle pin 720, two top stub axle pin 720 all extend to inner side, the most rotatable on two top stub axle pin 720 cylindricals are combined with top short pulley 716 endoporus；Long pivot pin 719 two ends, common static fixed bottom, both sides, hydraulic cylinder jaw 714 bottom, rotatable on the long pivot pin 719 interlude cylindrical of bottom are combined with lower minister's pulley 715 endoporus；

The short pulley in top 716 of described both sides, hydraulic cylinder jaw 714 top slidably coordinates with T-rail 730 together with described lower minister's pulley 715；T-shaped rail upright plate 731 on T-rail 730 is connected to test platen 190, and T-shaped rail transverse slat 732 is arranged at T-shaped rail upright plate 731 bottom；The short pulley in top 716 of described both sides, hydraulic cylinder jaw 714 top is positioned at described T-shaped rail upright plate 731 both sides, and the described short pulley in top 716 is positioned at above described T-shaped rail transverse slat 732, described lower minister's pulley 715 is positioned at below described T-shaped rail transverse slat 732；

Having the long pivot pin in bottom 719, long pivot pin 719 two ends, bottom and described hydraulic cylinder jaw 714 secure fit between described lower minister's pulley 715 and described hydraulic cylinder jaw 714, the long pivot pin in bottom 719 is rotatable with described lower minister's pulley 715 to be coordinated；Having top stub axle pin 720, top stub axle pin 720 one end to fix with described hydraulic cylinder jaw 714 between the short pulley in described top 716 and described hydraulic cylinder jaw 714, top stub axle pin 720 pulley short with described top 716 is rotatable to be coordinated；

In Fig. 1, Fig. 2, Fig. 3, Fig. 4, Figure 13, Figure 15 and Figure 16, two described transverse horizontal bars 602 are all sliding combined with shooting cross slider 608, fixed shooting square bar 601 between two shooting cross sliders 608, dollying thermomechanical components 900, dollying thermomechanical components 900 is had to include imaging vertical slide block 609, shooting motor 910, motor gear 912, lifter rack 921, industrial camera 950 on shooting square bar 601；Having between slide block square hole 906 and described shooting square bar 601 gabarit for being slidably matched on the vertical slide block 609 of shooting, there is vertical slide block lateral sulcus 930 vertical slide block 609 side of shooting；Vertical slide block lateral sulcus 930 is backed with threading circle 934, and vertical slide block lateral sulcus 930 front has tooth bar groove 932, lifter rack 921 to be backed with tooth bar protruding rail 923, for being slidably matched between tooth bar protruding rail 923 and described tooth bar groove 932；Described shooting is indulged plane on slide block 609 and is fixed with shooting motor 910, and shooting motor 910 outfan axle is fixed with motor gear 912, and motor gear 912 is meshed with described lifter rack 921；The described fixed camera pedestal in lifter rack 921 lower end 925, video camera termination 945 is had on camera pedestal 925, front, 945 times, video camera termination is industrial camera 950, being backed with shooting power supply signal combination cable 940 on video camera termination 945, shooting power supply signal combination cable 940 is external to distribution box and computer disposal center after passing through described threading circle 934 respectively；

In Fig. 1, Figure 15, Figure 16, Figure 22 and Figure 23, impact cross bar 562 one end has cross bar becket 599, impact cross bar 562 other end to have impact slide block 666, impact slide block 666 circular hole to coordinate with wherein described circular abutment 566 cylindrical rotary sliding；Liftable fixed altitude location circle 565 on circular abutment 566, altitude location circle 565 has holding screw 594, altitude location circle 565 torr described impact slide block 666, and altitude location circle 565 is for regulating the height of impact cross bar 562；

Slip fixed revolution impacter 590 on described impact cross bar 562, revolution impacter 590 includes impacter frame 567, impact motor 521 and quadrangular guide rail 595；

There is impact frame vertical square hole 535 He in described impacter frame 567, impact between four faceted pebbles on the horizontal square hole of frame 564, the impact horizontal square hole of frame 564 and described impact cross bar 562 for being slidably matched；

Described impact motor 521 base holes is fixed in the upper plane of impacter frame 567, and impact motor 521 output port is fixed with rotating disk 572；Revolution pivot pin 573 is had on rotating disk 572；

It is slidably matched for liftable between described quadrangular guide rail 595 and the described vertical square hole of impact frame 535, described quadrangular guide rail 595 lower end is jump bit cone 596, quadrangular guide rail 595 upper end is horizontal concrete chute 524, for being slidably matched between horizontal concrete chute 524 inwall and described revolution pivot pin 573；

Fixed isoplanar wheel cleat assembly 500 in plane on described test platen 190, described platen support 163 fixed cullet guider 140 between plane together with described lock pin bearing 180 and in support side plate 200, cullet guider 140 lower port falls within cullet collecting cart 300 upper port；The pointed cone angle of described jump bit cone 596 is 45 degree.

As improving further: described support side plate 200 thickness is 43 millimeters, and described rear shear plate 176 thickness is 33 millimeters, and described bottom narrow boards 175 thickness is 33 millimeters.

As improving further: having Boards wall screw 197 on described test platen 190, in every described support side plate 200, plane is respectively arranged with two platen seat screws 160 and two locking pin seat screws 186.

As improving further: in Fig. 1, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 15 and Figure 16, described cullet guider 140 is surrounded together with end swash plate 141 after guider and guider front vertical plate 143 by guider biside plate 142, described guider biside plate 142 upper end has the guider flange 184 turned up respectively, and guider flange 184 has fixed via 148；Cullet guider 140 lower ending opening four limit constitutes a guider lower ending opening 166；

Collecting cart vertical plates on both sides 612 and collecting cart back incline 619 and collecting cart front vertical plate 610, collecting cart vertical plates on both sides 612 front end is had to also have collecting cart handle 622 on described cullet collecting cart 300 flat board respectively；Described collecting cart vertical plates on both sides 612 and collecting cart front vertical plate 610 surround three contour end faces 616, and the back incline upper surface 661 on described collecting cart back incline 619 is 48 millimeters less than the distance of three described contour end faces 616；The floor projection size that back incline upper surface 661 and three contour end faces 616 are surrounded is more than described guider lower ending opening 166 floor projection size, it is 23 millimeters that guider lower ending opening 166 position exceeds the distance of described back incline upper surface 661, and guider lower ending opening 166 position is 25 millimeters less than the distance of three described contour end faces 616；Around bottom described cullet collecting cart 300, one has four go-cart forked standards 641, go-cart return pulley 640 is had in the middle of go-cart forked standard 641, it is rotatable matched in clearance between go-cart return pulley 640 centre bore and go-cart pivot pin 642 cylindrical, is interference fit between the through hole on go-cart pivot pin 642 two ends and go-cart forked standard 641.

nullAs improving further: Fig. 1、Figure 15、Figure 16、Figure 24、Figure 25、Figure 27、Figure 28、Figure 29、Figure 30、Figure 31、Figure 32、Figure 33、In Figure 34 and Figure 35，Described isoplanar wheel cleat assembly 500 is made up of the wheel isoplanar clamping plate that four physical dimensions are identical，It is respectively as follows: clamping plate deckle 510、The clamping plate left side 520、On the right of clamping plate opposite side 530 and clamping plate 540，Every wheel isoplanar clamping plate are made up of clamping plate part and slide plate part，Clamping plate deckle 510 is made up of deckle clamping plate part 519 and deckle slide plate part 518，The clamping plate left side 520 is made up of left side clamping plate part 529 and left side slide plate part 528，Clamping plate opposite side 530 is made up of opposite side clamping plate part 539 and opposite side slide plate part 538，On the right of clamping plate, 540 are made up of the right clamping plate part 549 and the right slide plate part 548；Described slide plate part is positioned at described clamping plate part one end and is overlapped on plane in clamping plate part；

The step lower surface of described slide plate part is slide plate lower plane 561, step pivot pin 574 is had on slide plate lower plane 561, the outer section 578 of pivot pin is had on step pivot pin 574, pivot pin is outer is pivot pin step 576 between section 578 and described step pivot pin 574, outer section 578 outer end of described pivot pin is pivot pin outer end 575, and there is pivot pin screw 579 at center, pivot pin outer end 575；Rotatable sliding wheel 541 endoporus that is combined with on outer section 578 cylindrical of described pivot pin, sliding wheel 541 inner side plane againsts described pivot pin step 576；It is combined with wheel screw 511 on described pivot pin screw 579, wheel screw 511 spiral shell brain againsts described pivot pin outer end 575, wheel screw 511 spiral shell brain blocks sliding wheel 541 medial plane, wheel screw 511 exposes spiral shell brain and can be located among blind slot space 517, and wheel screw 511 exposes has space between spiral shell brain and blind slot space 517；Described sliding wheel 541 and wheel chute 514 between for being slidably matched；

The upper surface of described clamping plate part is plane 516 on clamping plate, wheel chute 514 is had in plane 516 on clamping plate, and on wheel chute 514 and clamping plate, between plane 516, have centrosymmetric transition fluting 571, a blind slot space 517 is had bottom wheel chute 514, and the described single-ended opening of wheel chute 514；Described slide plate lower plane 561 is in sustained height with plane 516 on described clamping plate；

In Figure 25, Figure 28, Figure 32, Figure 35, Figure 36, Figure 37 and Figure 38: have pearl seat stepped hole 558 on described slide plate lower plane 561, pearl seat stepped hole 558 is arranged symmetrically in described wheel chute 514 both sides, having stepped hole plane 557 in pearl seat stepped hole 558 on step, there is pearl seat blind hole 559 at stepped hole plane 557 center；In sliding pearl seat, half 581 and outer half 582 shape and structure of sliding pearl seat are equivalently-sized, all include sliding pearl seat cylindrical 586, sliding pearl seat faying face 584, sliding pearl seat lateral surface 585, circular hole 588 in sliding pearl seat is had on sliding pearl seat faying face 584, in sliding pearl seat, circular hole 588 bottom is connected to sliding pearl seat internal taper hole 583 stub end, and the sliding little head end of pearl seat internal taper hole 583 intersects with described sliding pearl seat lateral surface 585；

Sliding pearl seat cylindrical 586 in half 581 and the sliding pearl seat cylindrical 586 in the outer half 582 of sliding pearl seat in the described the most fixed sliding pearl seat of pearl seat stepped hole 558 inner circle, the sliding pearl seat internal taper hole 583 in half 581 and the fixed sliding ball 580 that is slidably matched between the sliding pearl seat internal taper hole 583 in the outer half 582 of sliding pearl seat in sliding pearl seat；On sliding ball 580, in prominent described sliding pearl seat, in the sliding pearl seat lateral surface 585 in half 581, prominent sphere 598 is accommodated among described pearl seat blind hole 559；On sliding ball 580, the outer prominent sphere 589 of the sliding pearl seat lateral surface 585 in the outer half 582 of prominent described sliding pearl seat contacts with plane 516 on described clamping plate.

As improving further: on described clamping plate slope 515 and clamping plate, the angle between plane 516 is 52 degree, and described clamping plate slope 515 is bonded with the rubber tabletting 551 of one layer of 2.8 millimeters thick.

As improving further: the described wheel chute 514 in deckle clamping plate part 519 and between sliding wheel 541 cylindrical in the right slide plate part 548 for being slidably matched, the transition in described deckle clamping plate part 519 slot 571 and the right slide plate part 548 on wheel chute 514 between have 0.5 to 0.7 millimeter of gap；

The described wheel chute 514 in the right clamping plate part 549 and between sliding wheel 541 cylindrical in opposite side slide plate part 538 for being slidably matched, have 0.5 to 0.7 millimeter of gap between the wheel chute 514 on transition in described the right clamping plate part 549 fluting 571 and opposite side slide plate part 538；

The described wheel chute 514 in left side clamping plate part 529 and between sliding wheel 541 cylindrical in deckle slide plate part 518 for being slidably matched, have 0.5 to 0.7 millimeter of gap between the wheel chute 514 on transition in described left side clamping plate part 529 fluting 571 and deckle slide plate part 518；

The described wheel chute 514 in opposite side clamping plate part 539 and between sliding wheel 541 cylindrical in left side slide plate part 528 for being slidably matched, have 0.5 to 0.7 millimeter of gap between the wheel chute 514 on transition in described opposite side clamping plate part 539 fluting 571 and left side slide plate part 528.

In Figure 25, Figure 28, Figure 32, Figure 35, Figure 36, Figure 37 and Figure 38: mounting slip ball 580 in ten pearl seat stepped holes 558 on slide plate lower plane 561, employing following steps:

One, it is placed in the low temperature chest of subzero 125 degree of Celsius temperature together with outer with sliding pearl seat for half 581 in sliding pearl seat half 582, lasting 55 minutes so that size reduction after half 581 and the outer half 582 of sliding pearl seat cool down in sliding pearl seat；

Two, first by slide plate lower plane 561 upward, the most successively by during in cunning pearl seat, half 581 is arranged on pearl seat stepped hole 558, the sliding pearl seat lateral surface 585 made in the sliding pearl seat in each pearl seat stepped hole 558 in half 581 touch stepped hole plane 557, when half 581 returns to room temperature state in sliding pearl seat, in sliding pearl seat, between sliding pearl seat cylindrical 586 and the pearl seat stepped hole 558 in half 581, there is the interference fit of 0.04 to 0.06；

Three, in the sliding pearl seat successively sliding ball 580 being placed in each sliding pearl seat in half 581 among circular hole 588；

Four, successively outer for cunning pearl seat half 582 is arranged in pearl seat stepped hole 558, making the sliding pearl seat faying face 584 that the sliding pearl seat faying face 584 in the outer half 582 of sliding pearl seat touch in sliding pearl seat in half 581, sliding pearl seat internal taper hole 583 and the outer half 582 of sliding pearl seat that sliding ball 580 rides in sliding pearl seat in half 581 make spacing rolling between sliding pearl seat internal taper hole 583；When the outer half 582 of sliding pearl seat returns to room temperature state, the interference fit of 0.04 to 0.06, the sliding pearl seat lateral surface 585 in the outer half 582 of sliding pearl seat is had to maintain an equal level with described slide plate lower plane 561 between sliding pearl seat cylindrical 586 and pearl seat stepped hole 558 in the outer half 582 of sliding pearl seat.

In embodiment, in described back plate, plane 717 exceeds 12 millimeters of plane in described support side plate 200, and described support side plate 200 thickness is 49 millimeters, and described rear shear plate 176 thickness is 40 millimeters, and described bottom narrow boards 175 thickness is 40 millimeters.Using the disposable integral casting forming of grey cast-iron between described support side plate 200 and rear shear plate 176 and bottom narrow boards 175 is integral-rack, and bulk strength is high, and shock-absorbing effect is good.Four Boards wall screws 197 are had on described test platen 190, five clamping plate step through-holes 501 are had in plane 516 on the clamping plate of the described deckle clamping plate part 519 in isoplanar wheel cleat assembly 500, five sunk screws 195 pass through described clamping plate step through-hole 501 successively and match with described Boards wall screw 197, described deckle clamping plate part 519 is fixed on described test platen 190, using the immobilizing foundation of deckle clamping plate part 519, isoplanar wheel cleat assembly 500 entirety is all fixed on described test platen 190.

Complete machine assembling process:

Cullet guider 140 entirety is placed down from above so that described guider flange 184 is taken and is placed on plane in described support side plate 200, and four fixed vias 148 of every side are directed at two platen seat screws 160 and two locking pin seat screws 186 simultaneously；

The platen rotating shaft 196 of described test platen 190 both sides is rotatable with platen support 163 endoporus to be coordinated, and four platen seat screws pass through the installing hole on platen support 163 and fixed via 148 respectively, are fixed on platen seat screw 160 by the platen support 163 of both sides；Four locking pin seat screws pass through the installing hole on lock pin bearing 180 and fixed via 148 respectively, are fixed on locking pin seat screw 186 by the lock pin bearing 180 of both sides, and cullet guider 140 is fixed generally in both sides bilinear, particularly stable firmly.

The light beam lock pin 189 of both sides can enter in the plug lockhole 198 of test platen 190 both sides, will test platen 190 locking positioning.

Hydraulic cylinder base plate 713 on hydraulic tensioning cylinder 712 is fixed on plane on support baseboard 711, and two short pulleys in top 716 above liquid presses piston pole 722 are positioned at above the T-shaped rail transverse slat 732 of T-shaped rail upright plate 731 both sides, controls test platen 190 rear end and moves downward；Lower minister's pulley 715 above liquid presses piston pole 722 is positioned at below the T-shaped rail transverse slat 732 of T-shaped rail upright plate 731 lower end, controls test platen 190 rear end and moves upward.Said structure provides the benefit that: solves liquid presses piston pole 722 and moves along a straight line and test platen 190 and do between swinging motion produced error, two short pulleys in top 716 control while T-rail 730 does swinging motion centered by platen rotating shaft 196 together with lower minister's pulley 715, and the T-shaped rail transverse slat 732 that two short pulleys in top 716 control on T-rail 730 together with lower minister's pulley 715 does sliding rolling movement.

Have respectively on hydraulic tensioning cylinder 712 under hydraulic cylinder and pass in and out oil pipe 718 and the enterprising flowline of hydraulic cylinder 728, pass in and out oil pipe 718 under hydraulic cylinder and the enterprising flowline of hydraulic cylinder 728 is connected respectively to hydraulic cylinder oil supply system.

Described isoplanar wheel cleat assembly 500 there is clamping plate step through-hole 501 in plane 516 on the clamping plate of at least one clamping plate part, sunk screw 195 passes through described clamping plate step through-hole 501 and matches with described Boards wall screw 197, and isoplanar wheel cleat assembly 500 is fixed on plane on described test platen 190.

Being inserted on circular abutment 566 external cylindrical surface by impact slide block 666 through hole of impact cross bar 562 one end, altitude location circle 565 has holding screw 594 be fixed on circular abutment 566, altitude location circle 565 torr described impact slide block 666；The impact horizontal square hole of frame 564 in impacter frame 567 is inserted on the rectangle straight-bar on described impact cross bar 562, and fixes；Being placed and secured on the described impact motor installed surface 544 by impacter frame 567 by impact motor 521, rotating disk 572 is fixed on the output shaft end on impact motor 521；Quadrangular guide rail 595 is inserted among the vertical square hole of impact frame 535 in impacter frame 567, allow the revolution pivot pin 573 on described rotating disk 572 insert among the horizontal concrete chute 524 of described quadrangular guide rail 595 upper end simultaneously.

It is slidably installed between through hole and two described transverse horizontal bar 602 cylindricals on two shooting cross sliders 608 at shooting square bar 601 two ends, have between slide block square hole 906 and the described square gabarit of shooting square bar 601 for being slidably matched on the vertical slide block 609 of shooting, plane on slide block 609 is indulged in described shooting screw platform 961, shooting motor 910 is fixed on screw platform 961, the tooth bar protruding rail 923 at lifter rack 921 back side is inserted in tooth bar groove 932 so that motor gear 912 is meshed with described lifter rack 921；Camera pedestal 925 is fixed in lifter rack 921 lower end；Power supply control combination cable (not display in figure) on shooting motor 910 is external to distribution box and computer disposal center respectively, after the shooting power supply signal combination cable 940 at the back side, video camera termination 945 is passed through described threading circle 934, is external to distribution box and computer disposal center respectively.

When one, safety glass being done fragmentation test, step is as follows:

(1), hydraulic cylinder oil supply system is to hydraulic cylinder enterprising flowline 728 fuel feeding, oil pipe 718 is passed in and out to hydraulic cylinder oil supply system oil return under hydraulic cylinder, liquid presses piston pole 722 moves downward, Figure 19, Tu20Zhong, two short pulleys in top 716 control while T-rail 730 drives test platen 190 to do swinging motion clockwise centered by platen rotating shaft 196, and two short pulleys in top 716 do sliding rolling movement along plane on T-shaped rail transverse slat 732.Test platen 190 rear end lower plane pushes down plane 717 in back plate, and test platen 190 presents level；The operation lever 136 holding both sides the most respectively is drawn close to intermediate pressure so that light beam lock pin 189 enters locking positioning in the plug lockhole 198 testing platen 190 both sides, and test platen 190 is fixed by horizontal level.

null(2)、By clamping plate deckle 510 identical for four physical dimensions、The clamping plate left side 520、On the right of clamping plate opposite side 530 and clamping plate, 540 are placed on above test platen 190，For being slidably matched between wheel chute 514 in deckle clamping plate part 519 and the sliding wheel 541 in the right slide plate part 548，For being slidably matched between wheel chute 514 and the sliding wheel 541 in opposite side slide plate part 538 in the clamping plate part 549 of the right，For being slidably matched between wheel chute 514 in left side clamping plate part 529 and the sliding wheel 541 in deckle slide plate part 518，For being slidably matched between wheel chute 514 in opposite side clamping plate part 539 and the sliding wheel 541 in left side slide plate part 528，Make the clamping plate deckle 510 that four physical dimensions are identical、The clamping plate left side 520、One the surrounding ambient in besieged city between 540 on the right of clamping plate opposite side 530 and clamping plate；

(3), above-mentioned surrounding ambient size is more than the physical dimension of armorplate glass 600 to be test for, will be test for above the test platen 190 that armorplate glass 600 is placed in above-mentioned surrounding ambient, move on the right of four identical clamping plate deckles 510 of physical dimension, the clamping plate left side 520, clamping plate opposite side 530 and clamping plate 540 successively so that the rubber tabletting 551 on every clamping plate touch four limit outer rims of armorplate glass 600 to be test for.The produced elastic indenture 105 of rubber tabletting 551 natural resiliency deformation gives armorplate glass 600 4 limit outer rim flexibility and fixes, it is to avoid rigidity clamping plate by unexpected for armorplate glass 600 broken, see Figure 30；

(4) after, armorplate glass 600 to be test for is fixed, regulate impact cross bar 562 height on circular abutment 566, hold cross bar becket 599, impacter 590 will be turned round along with impact cross bar 562 together, and rotate above armorplate glass 600 around circular abutment 566 cylindrical；

Start impact motor 521, rotating disk 572 is driven to rotate, when the revolution pivot pin 573 on rotating disk 572 is while rotating, revolution pivot pin 573 sliding in the horizontal concrete chute 524 of quadrangular guide rail 595 upper end again, quadrangular guide rail 595 is driven to move up and down so that the jump bit cone 596 of quadrangular guide rail 595 lower end also moves up and down；When jump bit cone 596 is displaced downwardly to extreme lower position, armorplate glass 600 can just be touched, and armorplate glass 600 is smashed；Can realize remotely controlling to smash the dangerous step of armorplate glass 600, it is to avoid glass breaking moment surprisingly splashes and injures site operation personnel；

(5), again hold cross bar becket 599, impacter 590 will be turned round along with impact cross bar 562 together, and be rotated away from above armorplate glass 600 around circular abutment 566 cylindrical；Transverse shifting shooting square bar 601 indulges slide block 609 with vertically moving shooting respectively, industrial camera 950 alignment is made to image the position taken pictures, start shooting motor 910, control lifter rack 921 by motor gear 912 to move up and down, industrial camera 950 is adjusted to proper height, and shooting is taken pictures and fragmentation pattern picture is sent to computer disposal center, requires to judge according to national standard, the armorplate glass 600 crushed is the most qualified, completes the fragmentation status test of safety glass；

(6), removing the wheel isoplanar clamping plate on 1 to 2 limit, the operation lever 136 holding both sides the most respectively is broken into two with one's hands to both sides so that light beam lock pin 189 exits locking positioning in the plug lockhole 198 of test platen 190 both sides, releases locking positioning；Hydraulic cylinder oil supply system passes in and out oil pipe 718 fuel feeding under hydraulic cylinder, the enterprising flowline of hydraulic cylinder 728 is to hydraulic cylinder oil supply system oil return, liquid presses piston pole 722 moves upward, Figure 13, Tu15Zhong, two short pulleys in top 716 control while T-rail 730 drives test platen 190 to do swinging motion counterclockwise centered by platen rotating shaft 196, and two short pulleys in top 716 do sliding rolling movement along plane on T-shaped rail transverse slat 732.Test platen 190 rear end lower plane is away from plane 717 in back plate；When after test platen 190 run-off the straight 10 to 20 degree, safety glass fragment can be disposed easily through cullet guider 140, fall among cullet collecting cart 300；

(7), hydraulic cylinder oil supply system again to hydraulic cylinder enterprising flowline 728 fuel feeding, under hydraulic cylinder pass in and out oil pipe 718 move downward to hydraulic cylinder oil supply system oil return, liquid presses piston pole 722, test platen 190 again present level；The operation lever 136 holding both sides the most respectively is drawn close to intermediate pressure so that light beam lock pin 189 enters locking positioning in the plug lockhole 198 testing platen 190 both sides, prepares as long as being test for armorplate glass 600 for next；

(8), specific cullet guider 140 lower port falls within described cullet collecting cart 300 upper port, its effect is: can be more than described guider lower ending opening 166 floor projection size by means of the floor projection size that the contour end face 616 in back incline upper surface 661 and three is surrounded, it is 27 millimeters that guider lower ending opening 166 position exceeds the distance of described back incline upper surface 661, it is ensured that sheet glass can be all in cullet guider 140 falls into cullet collecting cart 300；It can be 28 millimeters less than the distance of described three contour end faces 616 by means of guider lower ending opening 166 position again, easily cullet collecting cart 300 is separated with cullet guider 140, when the chunk glass in cullet collecting cart 300 is to be raftinged, cullet collecting cart 300 is moved away.

Two, the above-mentioned substantive distinguishing features of this utility model, it is ensured that can bring following progressive effect:

(1), current glass fragment detect all by being accomplished manually, not only elapsed time is many, be also easy to generation mistake, affect the present situation of the accuracy of assay.This utility model improves the labor intensity of fragment detection, and shooting is taken pictures and fragmentation pattern picture is sent to computer disposal center, is particularly suitable for high-volume glass detection and processes, can be applicable in associated production enterprise and detection technique mechanism；

Integral-rack uses overall construction intensity high, hydraulic tensioning cylinder 712 on integral-rack combines T-rail 730 and drives the test turning structure of platen 190 to arrange, it is easy to remove chunk glass, is equipped with cullet guider 140 and cullet collecting cart 300, it is ensured that chunk glass does not scatters；Hydraulic tensioning cylinder 712 combines plane 717 in back plate and holds lower plane after test platen 190, in conjunction with light beam lock pin 189 by locking positioning in the plug lockhole 198 of test platen 190 both sides, making in whole test process, whole hydraulic system keeps firm without pressurize, test platen 190；Particularly go back slip fixed revolution impacter 590；Impact motor 521 on revolution impacter 590 can realize remotely controlling to smash the dangerous step of armorplate glass 600, it is to avoid site operation personnel suffers that glass breaking moment surprisingly splashes injury.It is consistent that application revolution impacter 590 realizes each hammer weight, it is ensured that crushing test is unified and standard.

(2), specific cullet guider 140 lower port falls the design within described cullet collecting cart 300 upper port, particularly the back incline upper surface 661 on cullet collecting cart 300 is less than the particular design of three described contour end faces 616, can ensure that sheet glass can be all in cullet guider 140 falls into cullet collecting cart 300；Easily cullet collecting cart 300 can be separated with cullet guider 140 again.

(3), using isoplanar wheel cleat assembly 500, sliding part is positioned at clamping plate part one end and is overlapped on plane in clamping plate part, and described slide plate lower plane 561 is in sustained height with plane 516 on described clamping plate；Particularly fixed sliding ball 580 in the pearl seat stepped hole 558 on slide plate lower plane 561；The outer prominent sphere 589 of sliding ball 580 contacts with plane on clamping plate 516, make slide plate lower plane 561 in each wheel isoplanar clamping plate relative on the clamping plate in the clamping plate of another wheel isoplanar between plane 516 sliding the most smooth easily, it is ensured that be test for armorplate glass 600 surrounding uniform force.

(4), for being slidably matched between sliding wheel 541 and the adjacent wheel chute 514 on the wheel isoplanar clamping plate on every limit, it is achieved the armorplate glass 600 of different specification size can the most arbitrarily be regulated.

(5) on, described clamping plate slope 515 and clamping plate, the angle between plane 516 is 54 to 56 degree, and on described clamping plate slope 515, it is bonded with one layer of rubber tabletting 551, adjustment width armorplate glass 600 carried out plane spacing while, a downward component can be produced, make to be test for armorplate glass 600 and touch test platen 190, it is to avoid armorplate glass 600 local pressure is uneven produces explosion.

(6), achieve detection test overall process save disposable product adhesive tape, not only save test consumables cost, it is to avoid pollute environment；Also shorten the activity duration, need not the tape residue on test platen 190 be removed clean after test, it is only necessary to remove clean cullet, so that it may implement experiment test operation next time so that work efficiency improves twice every time.Prior thoroughly avoiding because adhesive tape is burst, by safety glass, the probability that strength collapses out, the personal safety of operator is more secure.

Claims (3)

1. a hydraulic swivel tooth bar shooting wheel clamping plate glass test frame, integral-rack includes support side plate (200), rear shear plate (176), bottom narrow boards (175) and four circular abutments (566), the support side plate (200) of both sides the most fixed upper two described circular abutments (566), four circular abutment (566) upper ends are all fixed with column termination (604), and four column terminations (604) are respectively fixed with two transverse horizontal bars (602) and two vertical equity bars (603)；The upper plane of support side plate (200) described in both sides is the most all fixed with platen support (163) and lock pin bearing (180)；There is platen rotating shaft (196) test platen (190) both sides, the platen rotating shaft (196) of both sides is the most rotatable to be fixed in platen support (163), described rear shear plate (176) upper bit has plane in back plate (717), and in back plate, plane (717) holds test platen (190) lower plane afterwards；

Plug lockhole (198) is had, for being slidably matched between described lock pin bearing (180) endoporus and light beam lock pin (189) cylindrical on described test platen (190) both sides vertical；The light beam lock pin (189) of both sides can enter in described plug lockhole (198), limits rotation by fixing to described test platen (190) and the support side plate (200) described in both sides；Described light beam lock pin (189) outer end has (135) outside lock pin, the long hole slot of lock pin (134), operation stock (133) is had to pass through the long hole slot of described lock pin (134) outside lock pin on (135)；There is operation lever (136) operation stock (133) upper end, operation pivot pin (132) is had between operation stock (133) lower end and operation bearing (131), operation pivot pin (132) two ends are fixed in operation bearing (131), coordinating for rotatable between the endoporus of operation stock lower end with operation pivot pin (132) cylindrical, operation bearing (131) bottom of both sides is fixed in operation seat screw (232)；It is characterized in that:

Disconnection breach (777) is had in plane (717) in described back plate, disconnect the fixed support baseboard in breach (777) lower end (711), there are T-rail (730) in described test platen (190) rear end lower plane central authorities, have hydraulicefficiency elevation structure between T-rail (730) and described support baseboard (711)；Described hydraulicefficiency elevation structure includes: the upper plane of support baseboard (711) lays hydraulic tensioning cylinder (712), there is hydraulic cylinder jaw (714) liquid presses piston pole (722) upper end, hydraulic cylinder jaw (714) two sides, top are the most static fixes a top stub axle pin (720), two top stub axle pin (720) all extend to inner side, the most rotatable on two top stub axle pin (720) cylindricals are combined with top short pulley (716) endoporus；Long pivot pin (719) two ends, common static fixed bottom, hydraulic cylinder jaw (714) both sides, bottom, rotatable on long pivot pin (719) the interlude cylindrical of bottom are combined with lower minister's pulley (715) endoporus；

The short pulley in the top (716) of described hydraulic cylinder jaw (714) both sides, top slidably coordinates with T-rail (730) together with described lower minister's pulley (715)；T-shaped rail upright plate (731) on T-rail (730) is connected to test platen (190), and T-shaped rail transverse slat (732) is arranged at T-shaped rail upright plate (731) bottom；The short pulley in the top (716) of described hydraulic cylinder jaw (714) both sides, top is positioned at described T-shaped rail upright plate (731) both sides, and the described short pulley in top (716) is positioned at described T-shaped rail transverse slat (732) above, described lower minister's pulley (715) is positioned at described T-shaped rail transverse slat (732) below；

The long pivot pin in bottom (719) is had between described lower minister's pulley (715) and described hydraulic cylinder jaw (714), long pivot pin (719) two ends, bottom and described hydraulic cylinder jaw (714) secure fit, the long pivot pin in bottom (719) is rotatable with described lower minister's pulley (715) to be coordinated；Top stub axle pin (720) is had between the short pulley in described top (716) and described hydraulic cylinder jaw (714), top stub axle pin (720) one end fixes with described hydraulic cylinder jaw (714), and top stub axle pin (720) pulley short with described top (716) is rotatable to be coordinated；

Two described transverse horizontal bars (602) are all sliding combined with shooting cross slider (608), fixed shooting square bar (601) between two shootings cross slider (608), dollying thermomechanical components (900), dollying thermomechanical components (900) is had to include imaging vertical slide block (609), shooting motor (910), motor gear (912), lifter rack (921), industrial camera (950) in shooting square bar (601)；Having between slide block square hole (906) and described shooting square bar (601) gabarit for being slidably matched on the vertical slide block (609) of shooting, there is vertical slide block lateral sulcus (930) vertical slide block (609) side of shooting；Vertical slide block lateral sulcus (930) is backed with threading circle (934), there is tooth bar groove (932) in vertical slide block lateral sulcus (930) front, lifter rack (921) is backed with tooth bar protruding rail (923), for being slidably matched between tooth bar protruding rail (923) and described tooth bar groove (932)；Described shooting is indulged the upper plane of slide block (609) and is fixed with shooting motor (910), being fixed with motor gear (912) on shooting motor (910) outfan axle, motor gear (912) is meshed with described lifter rack (921)；The described fixed camera pedestal in lifter rack (921) lower end (925), video camera termination (945) is had on camera pedestal (925), under video camera termination (945), front is industrial camera (950), being backed with shooting power supply signal combination cable (940) on video camera termination (945), shooting power supply signal combination cable (940) is external to distribution box and computer disposal center after passing through described threading circle (934) respectively；

There is cross bar becket (599) impact cross bar (562) one end, impact cross bar (562) other end has impact slide block (666), impact slide block (666) circular hole to coordinate with wherein described circular abutment (566) cylindrical rotary sliding；The upper liftable fixed altitude location circle (565) of circular abutment (566), holding screw (594) is had on altitude location circle (565), altitude location circle (565) holds in the palm described impact slide block (666), and altitude location circle (565) is used for regulating the height of impact cross bar (562)；

The upper slip fixed revolution impacter (590) of described impact cross bar (562), revolution impacter (590) includes impacter frame (567), impact motor (521) and quadrangular guide rail (595)；

Have in described impacter frame (567) impact the vertical square hole of frame (535) and, the impact horizontal square hole of frame (564), for being slidably matched between four faceted pebbles in the impact horizontal square hole of frame (564) and described impact cross bar (562)；

Described impact motor (521) base holes is fixed in the upper plane of impacter frame (567), and impact motor (521) output port is fixed with rotating disk (572)；Revolution pivot pin (573) is had on rotating disk (572)；

It is slidably matched for liftable between described quadrangular guide rail (595) and the described vertical square hole of impact frame (535), described quadrangular guide rail (595) lower end is jump bit cone (596), quadrangular guide rail (595) upper end is horizontal concrete chute (524), for being slidably matched between horizontal concrete chute (524) inwall and described revolution pivot pin (573)；

Fixed isoplanar wheel cleat assembly (500) in the upper plane of described test platen (190), described platen support (163) is fixed cullet guider (140) together with described lock pin bearing (180) and between the upper plane of support side plate (200), and cullet guider (140) lower port falls within cullet collecting cart (300) upper port.

A kind of hydraulic swivel tooth bar shooting wheel clamping plate glass test frame the most according to claim 1, feature is: have Boards wall screw (197), every upper plane of described support side plate (200) to be respectively arranged with two platens seat screw (160) and two locking pin seat screws (186) on described test platen (190).

nullA kind of hydraulic swivel tooth bar shooting wheel clamping plate glass test frame the most according to claim 1，Feature is: described isoplanar wheel cleat assembly (500) is made up of the wheel isoplanar clamping plate that four physical dimensions are identical，It is respectively as follows: clamping plate deckle (510)、The clamping plate left side (520)、On the right of clamping plate opposite side (530) and clamping plate (540)，Every wheel isoplanar clamping plate are made up of clamping plate part and slide plate part，Clamping plate deckle (510) is made up of deckle clamping plate part (519) and deckle slide plate part (518)，The clamping plate left side (520) is made up of left side clamping plate part (529) and left side slide plate part (528)，Clamping plate opposite side (530) is made up of opposite side clamping plate part (539) and opposite side slide plate part (538)，On the right of clamping plate, (540) are made up of the right clamping plate part (549) and the right slide plate part (548)；Described slide plate part is positioned at described clamping plate part one end and is overlapped on plane in clamping plate part；

The step lower surface of described slide plate part is slide plate lower plane (561), step pivot pin (574) is had on slide plate lower plane (561), the outer section (578) of pivot pin is had on step pivot pin (574), pivot pin is outer is pivot pin step (576) between section (578) and described step pivot pin (574), outer section (578) outer end of described pivot pin is pivot pin outer end (575), and there is pivot pin screw (579) at pivot pin outer end (575) center；Rotatable sliding wheel (541) endoporus that is combined with on outer section (578) cylindrical of described pivot pin, sliding wheel (541) inner side plane againsts described pivot pin step (576)；It is combined with wheel screw (511) on described pivot pin screw (579), wheel screw (511) spiral shell brain againsts described pivot pin outer end (575), wheel screw (511) spiral shell brain blocks sliding wheel (541) medial plane, wheel screw (511) exposes spiral shell brain and can be located among blind slot space (517), and wheel screw (511) exposes has space between spiral shell brain and blind slot space (517)；For being slidably matched between described sliding wheel (541) and wheel chute (514)；

The upper surface of described clamping plate part is plane (516) on clamping plate, wheel chute (514) is had in plane (516) on clamping plate, and on wheel chute (514) and clamping plate, between plane (516), have centrosymmetric transition to slot (571), blind slot space (517) arranged at wheel chute (514) bottom, and described wheel chute (514) single-ended opening；Described slide plate lower plane (561) is in sustained height with plane (516) on described clamping plate；

Pearl seat stepped hole (558) is had on described slide plate lower plane (561), pearl seat stepped hole (558) is arranged symmetrically in described wheel chute (514) both sides, stepped hole plane (557), stepped hole plane (557) center is had to have pearl seat blind hole (559) on pearl seat stepped hole (558) interior step；In sliding pearl seat, half (581) and outer half (582) shape and structure of sliding pearl seat are equivalently-sized, all include sliding pearl seat cylindrical (586), sliding pearl seat faying face (584), sliding pearl seat lateral surface (585), circular hole (588) in sliding pearl seat is had on sliding pearl seat faying face (584), in sliding pearl seat, circular hole (588) bottom is connected to sliding pearl seat internal taper hole (583) stub end, and sliding pearl seat internal taper hole (583) little head end intersects with described sliding pearl seat lateral surface (585)；

Sliding pearl seat cylindrical (586) in half (581) and sliding pearl seat cylindrical (586) in the outer half (582) of sliding pearl seat in the described the most fixed sliding pearl seat of pearl seat stepped hole (558) inner circle, sliding pearl seat internal taper hole (583) in half (581) and the fixed sliding ball (580) that is slidably matched between sliding pearl seat internal taper hole (583) in the outer half (582) of sliding pearl seat in sliding pearl seat；In the upper prominent described sliding pearl seat of sliding ball (580), the inner prominent sphere (598) of sliding pearl seat lateral surface (585) in half (581) is accommodated among described pearl seat blind hole (559)；The outer prominent sphere (589) of sliding pearl seat lateral surface (585) in sliding ball (580) the outer half (582) of upper prominent described sliding pearl seat contacts with plane (516) on described clamping plate.