CN105910922A - Glass detection apparatus with hydraulic platen, aperture shooting assembly and titanium-alloy inclined-plane corner leaning clamp assembly - Google Patents

Abstract

The invention relates to a toughened glass testing and examination apparatus, especially to a glass detection apparatus with a hydraulic platen, an aperture shooting assembly and a titanium-alloy inclined-plane corner leaning clamp assembly. The upper plane of a testing rotary table is fixedly provided with an inclined-plane slideway corner leaning clamp assembly, and an impact cross bar may be slidably fixed with a rotary impacter. According to an improved embodiment in the invention, the upper plane of a rear plate is provided with a broken gap, the lower end of the broken gap is fixedly provided with a supporting base plate, a T-shaped guide rail is arranged on the center of a lower plane of the rear end of the testing rotary table, and a hydraulic lifting mechanism is arranged between the T-shaped guide rail and the supporting base plate; and an aperture shooting rotating disc on the aperture shooting assembly is provided with an oblique long aperture shooting handle, the exterior lower end of the oblique long aperture shooting handle is provided with a horizontal aperture rack and a vertical transverse-arm shooting rack, an exterior end on the vertical transverse-arm shooting rack is provided with a camera end tip, and an industrial camera is located just under the camera end tip. Since the aperture shooting assembly is additionally installed on the integral frame of the apparatus, the boundary discrimination accuracy of glass fragments is improved by 30%; and the inclined-plane corner leaning clamp assembly is employed, and a layer of compressed rubber sheet is arranged on a clamping slope.

Description

Hydraulic pressure platen aperture shooting inclined-plane corner is by pincers titanium alloy glass detector tool

Technical field

The present invention relates to a kind of safety glass test verification apparatus, the test verification frame particularly relating to wear aperture camera assembly substitutes manually-operated hydraulic pressure platen aperture shooting inclined-plane corner by pincers titanium alloy glass detector tool.

Background technology

Since Gordon Gaile G is in 1996 Year once published an article " Automated Glass Fragmentation Analysis ", the detection algorithm of glass fragment is 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 algorithms: 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. developed a glass fragment automatic recognition system, at " the Automated that publishes an article in 1998 Counting System 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 in theory, due to the transparency of glass, up to the present, directly unsatisfactory by image digitization precision obtained by shooting, often must rely on artificial counting as supplementing.

In the glass applications of the special dimensions such as automobile, one is designed perfect cubing is to determine the stay-in-grade important factor of a glass product.Multiformity due to present Automobile Design, glass on corresponding car is the most increasingly sophisticated, square or rectangle it is frequently not in glass profile, present parallelogram or trapezoidal glass can be found everywhere, in the past for the detection of this kind of irregular quadrilateral glass, there is no unified fixed frame, glass periphery can only be retrained by adhesive tape or other modes, or on safety glass, cover thin film, to prevent glass fragment from splashing.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 frame is the most necessary.

Summary of the invention

The problem existed for above prior art, the present invention installs aperture camera assembly on integral-rack, in conjunction with hydraulicefficiency elevation structure Turnover testing turntable, it is equipped with screw fastening and locks solid, particularly be provided with inclined-plane slideway corner by pincers assembly and revolution impacter, to by pincers part carry out isoplanar can corner regulation design, it is achieved that the safety glass to difformity size tetragon, a kind of verification test frame can be shared to do safety glass fragmentation test, specific as follows:

Hydraulic pressure platen aperture shooting inclined-plane corner is by pincers titanium alloy glass detector tool, and in the support side plate of integral-rack both sides, plane is the most all fixed with turntable bearing and lock pin bearing；There is platen rotating shaft test table both sides, and the platen rotating shaft of both sides is the most rotatable to be fixed in turntable bearing, the rear shear plate on integral-rack has plane in back plate, lower plane after plane holds test table in back plate；Lock pin is had to position hole on described test table both sides vertical, described lock pin bearing inner hole thread matches with stud lock pin external screw thread, there is cylinder bulb the stud lock pin termination of both sides, cylinder bulb can enter in described hole, lock pin location, is fixed with the support side plate described in both sides by described test table；On described test table in plane fixed inclined-plane slideway corner by pincers assembly, described turntable bearing 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；Impact cross bar one end has cross bar becket, the impact cross bar other end to have impact slide block, impact slide block circular hole to coordinate with a front row wherein circular abutment cylindrical rotary sliding；Slip fixed revolution impacter on described impact cross bar, revolution impacter has jump bit cone；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 table rear end lower plane central authorities, have hydraulicefficiency elevation structure between T-rail and described support baseboard；

Having aperture to image plagioclase handle in aperture shooting rotating disk on aperture camera assembly, aperture shooting plagioclase handle outer lower end has horizon light coil and upright transverse arm camera stand, and on upright transverse arm camera stand, there is video camera termination outer end, and under video camera termination, front is industrial camera；There is a circular fluorescent pipe in described horizon light coil, aperture shooting rotating disk has rotating disk endoporus and rotating disk lower surface；Light is had to take the photograph support endoporus and bracing ring upper surface and bracing ring trip bolt on aperture camera support circle, described light is taken the photograph support one circular abutment of endoporus and heel row and is slidably matched, and aperture camera support circle is fixed on this described circular abutment of heel row by described bracing ring trip bolt；Described rotating disk lower surface is held in the palm in described bracing ring upper surface, described rotating disk endoporus also coordinates for rotary sliding with between this described circular abutment of heel row, make described horizon light coil together with industrial camera, set height position is made synchronous rotary motion；The material of described jump bit cone is titanium-base alloy, described titanium-base alloy is elementary composition by following percentage by weight: Ti:19 21%, W:5.2 5.4%, Cr:3.2 3.4%, Ni:2.2 2.4%, Mo:1.2 1.4%, Zn:2.2 2.4%, Al:1.1 1.3%, C:1.0 1.2%, and surplus is Fe and inevitable impurity；The weight percent content of described impurity is: Si less than 0.23%, S less than 0.012%, P less than 0.016%, the rockwell superficial hardness number of this titanium-base alloy is HRC65 67.

As improving further: 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 table, 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.

As improving further: described inclined-plane slideway corner by pincers assembly include four physical dimensions identical first by pincers, second by clamping, the 3rd by clamping and the 4th by clamping, every is made up of retained part and sliding corner by pincers, is rotatably connected fixing by pivot pin rivet between every retained part and sliding corner by pincers；The upper surface of described retained part is for by the upper plane of pincers, and the one end by the upper plane of pincers has inclined plane groove, inclined plane groove bottom surface to be groove-bottom plane, and the cross section of inclined plane groove is isosceles trapezoid, and the single-ended opening of inclined plane groove；Described has step through-hole, step through-hole both sides to have through hole angle face by the other end of plane on pincers, and going up by pincers between two side through hole angle faces has corner scale in plane；

The lower surface of described sliding corner is the lower plane that trackslips, trackslip and have rotation through hole on lower plane, rotating through hole side has rotating disk chamfering cambered surface, rotating disk chamfering cambered surface to be positioned on the back flat of the lower plane that trackslips, and rotating disk chamfering cambered surface has corner cambered surface protrude pointer；Described rotation through hole opposite side has inclined-plane protruding rail, inclined-plane protruding rail is positioned at and trackslips on lower plane, the cross section of inclined-plane protruding rail is also isosceles trapezoid, protruding rail faying face is had on inclined-plane protruding rail, the opposite face of protruding rail faying face is protruding rail top plane, there is the protruding rail stepped hole of two in the plane of protruding rail top, between protruding rail top plane and protruding rail two sides, inclined-plane, have transition arc；

Described trackslipping is separable between lower plane and inclined-plane protruding rail；Trackslip and have two plane screws on lower plane, inclined-plane protruding rail also has the protruding rail stepped hole of two；Protruding rail screw passes through described protruding rail stepped hole, and protruding rail screw coordinates with described plane screw screw-tightened, described protruding rail faying face is fixed on described trackslipping on lower plane；Described inclined-plane protruding rail uses self-lubricating material, and this self-lubricating material is ptfe composite, and the weight percentages of components of ptfe composite is: politef 77 79%, graphite powder 13 15%, polybenzoate 7 9%；Described pivot pin rivet passes through rotation through hole and step through-hole successively, and the pivot pin rivet rotatable overlap joint of lower plane that will trackslip is fixed on and goes up in plane by clamping；The rigid titanium alloy layer having a layer thickness to be 0.21 0.23 millimeters on described inclined plane groove surface, elementary composition by following percentage by weight of this rigid titanium alloy layer material: Ti:31 33%, Mo:3.2 3.4%, Cr:2.6 2.8%, Cu:1.2 1.4%, W:2.2 2.4%, Ni:1.1 1.3%, C:1.0 1.2%, surplus is Fe and inevitable impurity；The weight percent content of described impurity is: Si less than 0.21%, S less than 0.012%, P is less than 0.016%, and the rockwell superficial hardness number of this rigid titanium alloy layer is HRC55 57.

As improving further: described have a clamping slope by the upper planar inner of pincers, clamping slope and described be 51 53 degree by clamping the angle between upper plane；Having slip-off preventing groove, slip-off preventing depth of groove on clamping slope is 2.3 2.5 millimeters, and slip-off preventing bottom portion of groove width is 4.6 4.8 millimeters, and slip-off preventing slot opening width is 4.3 4.5 millimeters；On clamping slope, also extruding is fixed with rubber tabletting, and it is 2.1 2.3 millimeters that rubber tabletting has slip-off preventing raised line, slip-off preventing raised line height, and slip-off preventing raised line width suitable for reading is 4.7 4.9 millimeters, and slip-off preventing raised line root width is 4.3 4.5 millimeters；

Described rubber tabletting uses synthesis rubber industry, its material composition is: ethylene propylene diene rubber 52 54%, zinc oxide 10 12%, accelerator 2.2 2.4%, stearic acid 2.1 2.3%, paraffin 1.3 1.5%, carbon black 14 16%, paraffin oil 11 13%, age resistor 3.5 3.7%, nano antibacterial agent 6.2 6.4%, sulfur 1.1 1.3%, and remaining is inserts.

Two, beneficial effects of the present invention:

(1), the present invention is additionally arranged aperture camera assembly on integral-rack, the second camera utilizing circular fluorescent pipe to produce ring light is taken pictures, imaging, with not having circular fluorescent pipe to produce the independent of four chow ring light, comparison of taking pictures, the boundary discrimination degree of accuracy of glass fragment improves 30%；Shooting is taken pictures and fragmentation pattern picture is sent to computer disposal center, and can produce by batch completely, can be applicable in associated production enterprise and detection technique mechanism；

Integral-rack uses overall construction intensity high, and hydraulic mechanism 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 mechanism associating back plate, plane holds lower plane after testboard plate, lock pin crank handle in conjunction with both sides, match with lock pin bearing inner hole thread by means of stud lock pin so that whole hydraulic system, without pressurize, accomplishes that trapezoidal glass plate keeps firm during whole test；Particularly in the support side plate of side, plane has circular abutment, liftable fixed impact cross bar on circular abutment, slip fixed revolution impacter on impact cross bar；Revolution impacter can be remotely connected to computer disposal center easily, realize remotely controlling to smash the dangerous step of trapezoidal glass plate, glass breaking moment surprisingly splashes injury to avoid site operation personnel to suffer, 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), use inclined-plane slideway corner by pincers assembly, every is made up of retained part and sliding corner by pincers, sliding corner is relative to the rotatable design of retained part, it is achieved that can continuously adjust the tetragon glass of different specification size and different angle and fix；

Interference fit is had to produce extruding expansive force between inclined-plane, slip-off preventing raised line both sides and inclined-plane, slip-off preventing groove both sides, it is not necessary to gluing is prevented also from coming off, it is to avoid by the aging produced case accident of bonding glue；Matched in clearance is had, it is simple to install and combine between slip-off preventing raised line height and slip-off preventing depth of groove；

And on described clamping slope, have one layer of rubber tabletting, adjustment width trapezoidal glass plate carried out plane spacing while, a downward component can be produced so that be test for trapezoidal glass plate and touch test table, it is to avoid trapezoidal glass plate local pressure is uneven produces explosion.

Accompanying drawing explanation

Fig. 1 is the stereoscopic appearance figure of the present invention.

Fig. 2 is the stereoscopic appearance figure that the aperture camera assembly 900 in Fig. 1 is in running order.

Fig. 3 is that the present invention in Fig. 1 is in the stereoscopic appearance figure removing glass fragment duty.

Fig. 4 is the enlarged drawing of the aperture camera assembly 900 in Fig. 2.

Fig. 5 is aperture camera support circle 820 enlarged drawing in Fig. 2.

Fig. 6 is revolution impacter 590 enlarged drawing in Fig. 3.

Fig. 7 is impacter frame 567 enlarged drawing in Fig. 6.

Fig. 8 is the stereoscopic appearance figure of the cullet guider 140 in Fig. 1 and cullet collecting cart 300 bonding state.

Fig. 9 is the profile along the axis of symmetry in Fig. 8.

Figure 10 is the independent stereoscopic appearance figure of cullet guider 140 part in Fig. 8.

Figure 11 is the profile along the axis of symmetry in Figure 10.

Figure 12 is the independent stereoscopic appearance figure of cullet collecting cart 300 part in Fig. 9.

Figure 13 is the profile along the axis of symmetry in Figure 12.

Figure 14 be cylinder bulb 199 and hole 198, the lock pin location binding site of stud lock pin 189 termination in Fig. 1 along stud lock pin 189 axial line vertical cross section.

Figure 15 is cylinder bulb 199 and hole 198, the lock pin location disengaged condition of stud lock pin 189 termination in Figure 14.

Figure 16 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 17 is the independent stereoscopic appearance figure of test table 190 in Fig. 1

Figure 18 is the support baseboard 711 position enlarged drawing on the rear shear plate 176 in Fig. 3.

Figure 19 is the partial enlarged drawing at fixed hydraulic tensioning cylinder 712 position on the support baseboard 711 on the rear shear plate 176 in Fig. 3.

Figure 20 be hydraulic tensioning cylinder in Figure 19 712 with test table 190 after back side connecting portion partial enlarged drawing.

Figure 21 is working state figure during hydraulic tensioning cylinder 712 drop-down test table 190.

Working state figure when Figure 22 is to push away test table 190 on hydraulic tensioning cylinder 712.

Figure 23 is that the inclined-plane slideway corner in Fig. 1 is by clamping assembly 500 at the top view being applied in combination.

Figure 24 is that the inclined-plane slideway corner in Figure 23 presents parallelogram state figure by pincers assembly 500.

Figure 25 is the A A profile in Figure 23.

Figure 26 is the partial enlarged drawing in Figure 25.

Figure 27 is the B B profile in Figure 24.

Figure 28 is the first sliding corner 518 profile in Figure 27.

Figure 29 is inclined-plane protruding rail 541 enlarged drawing unloaded in Figure 28.

Figure 30 is the isometric front view of Figure 28.

Figure 31 is the rear isometric view of Figure 28.

Figure 32 is the outline drawing of the first retained part 519 in Figure 24.

Figure 33 is the C C profile in Figure 32.

Figure 34 is slip-off preventing groove 585 part in Figure 33.

Figure 35 is slip-off preventing raised line 558 part in Figure 33.

Figure 36 is that sampling standard is taken pictures shooting figure.

Figure 37 is to set up shooting effect figure after circular fluorescent pipe 888 assists the glass of shooting to be crashed to pieces.

Detailed description of the invention

The present invention is described below in conjunction with the accompanying drawings in detail with detailed description of the invention:

In Fig. 1, on test table 190, placement inclined-plane slideway corner is by pincers assembly 500, and fixed trapezoidal glass plate 600, and the outer shifting of aperture camera assembly 900 does not works, and revolution impacter 590 is positioned at directly over trapezoidal glass plate 600, and revolution impacter 590 is in running order.

In Fig. 2, inclined-plane slideway corner is placed by pincers assembly 500 on test table 190, and fixed trapezoidal glass plate 600, revolution impacter 590 is transferred out test table 190 and is in off working state, and aperture camera assembly 900 is positioned at directly over trapezoidal glass plate 600 in running order.

In Fig. 3, inclined-plane slideway corner unloads except two sides therein by pincers assembly 500, and test table 190 is in rotation heeling condition, and revolution impacter 590 removes and do not works above test table 190, and aperture camera assembly 900 also removes above test table 190.

In Figure 36, the sampling standard of shooting figure of taking pictures a size of: the length of side be number of tiles in the square-shaped frame of 50 millimeters more than 40 for qualified.

In Figure 37, after setting up circular fluorescent pipe 888, after trapezoidal glass plate 600 is crashed to pieces, demarcation line between fragment becomes apparent from distinguishing.

Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 14, Figure 15, Figure 16, Figure 17, in Figure 19 and Figure 23, hydraulic pressure platen aperture shooting inclined-plane corner is by pincers titanium alloy glass detector tool, 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, four column terminations 604 are respectively fixed with two transverse horizontal bars 602 and two vertical equity bars 603；

In the support side plate 200 of integral-rack both sides, plane is the most all fixed with turntable bearing 163 and lock pin bearing 180；There is platen rotating shaft 196 test table 190 both sides, the platen rotating shaft 196 of both sides is the most rotatable to be fixed in turntable bearing 163, plane 717 in back plate are had on rear shear plate 176 on integral-rack, in back plate, plane 717 exceeds 8 to 10 millimeters of plane in described support side plate 200, lower plane after plane 717 holds test table 190 in back plate；

Lock pin is had to position hole 198 on described test table 190 both sides vertical, described lock pin bearing 180 inner hole thread matches with stud lock pin 189 external screw thread, there is cylinder bulb 199 stud lock pin 189 termination of both sides, cylinder bulb 199 can enter in described hole 198, lock pin location, is fixed with the support side plate 200 described in both sides by described test table 190；As improvement:

In Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 6, Figure 16, Figure 18 and Figure 19, 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 table 190 rear end lower plane central authorities, have hydraulicefficiency elevation structure between T-rail 730 and described support baseboard 711；

In Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and Fig. 6, aperture is had to image plagioclase handle 810 in aperture shooting rotating disk 830 on aperture camera assembly 900, aperture shooting plagioclase handle 810 outer lower end has horizon light coil 800 and upright transverse arm camera stand 925, on upright transverse arm camera stand 925, there is video camera termination 945 outer end, front, 945 times, video camera termination is industrial camera 950, and the power supply signal combination cable that video camera termination 945 arranges concealed wire layout is external to distribution box and computer disposal center respectively；

There is a circular fluorescent pipe 888 in described horizon light coil 800, aperture shooting rotating disk 830 has rotating disk endoporus 836 and rotating disk lower surface 832；Light is had to take the photograph support endoporus 826 and bracing ring upper surface 823 and bracing ring trip bolt 894 on aperture camera support circle 820, described light is taken the photograph support one circular abutment 566 of endoporus 826 and heel row and is slidably matched, and aperture camera support circle 820 is fixed on this described circular abutment 566 of heel row by described bracing ring trip bolt 894；Described bracing ring upper surface 823 torr described rotating disk lower surface 832, described rotating disk endoporus 836 also coordinates for rotary sliding with between this described circular abutment 566 of heel row, make described horizon light coil 800 together with industrial camera 950, set height position is made synchronous rotary motion；

On described test table 190 in plane fixed inclined-plane slideway corner by pincers assembly 500, described turntable bearing 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；

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 a front row wherein circular abutment 566 cylindrical rotary sliding；Slip fixed revolution impacter 590 on described impact cross bar 562；Jump bit cone 596 is had on revolution impacter 590, the material of jump bit cone 596 is titanium-base alloy, described titanium-base alloy is elementary composition by following percentage by weight: Ti:20%, W:5.3%, Cr:3.3%, Ni:2.3%, Mo:1.3%, Zn:2.3%, Al:1.2%, C:1.1%, and surplus is Fe and inevitable impurity；The weight percent content of described impurity is: Si is 0.18%, S is 0.008%, P is 0.013%, and the rockwell superficial hardness number of this titanium-base alloy is HRC66.

As improving further: in Fig. 1, Figure 16, Figure 18, Figure 19, Figure 20, Figure 21, Figure 22 and Figure 23, 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 table 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.

As improving further: in Fig. 1, Fig. 2, Fig. 3, Fig. 6 and Tu, liftable fixed altitude location circle 565 on described circular abutment 566, holding screw 594 is had on altitude location circle 565, 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；Described revolution impacter 590 includes impacter frame 567, impact motor 521 and quadrangular guide rail 595；

Have in described impacter frame 567 between four faceted pebbles on the impact vertical square hole of frame 535 and impact frame square hole 564, impact frame square hole 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 described jump bit cone 596, the pointed cone angle of jump bit cone 596 is 65 degree, 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.

As improving further: having on described test table 190 by pincers fixing threaded hole 197, 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. 2, Fig. 3, Fig. 8, Fig. 9, Figure 10, Figure 11, Figure 12 and Figure 13, 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.

As improving further: in Fig. 1, Fig. 2, Fig. 3, Figure 23, Figure 24, Figure 25, Figure 26, Figure 27, Figure 28, Figure 29, Figure 30, Figure 31, Figure 32, Figure 33, Figure 34 and Figure 35, described inclined-plane slideway corner by pincers assembly 500 include four physical dimensions identical first lean on pincers 540 by pincers the 520, the 3rd by pincers 530 and the 4th by pincers 510, second, every is made up of retained part and sliding corner by pincers, is rotatably connected fixing by pivot pin rivet 100 between every retained part and sliding corner by pincers；The upper surface of described retained part is for by the upper plane 516 of pincers, and the one end by the upper plane 516 of pincers has inclined plane groove 514, inclined plane groove 514 bottom surface to be groove-bottom plane 571, and the cross section of inclined plane groove 514 is isosceles trapezoid, and the single-ended opening of inclined plane groove 514；Described has step through-hole 109, step through-hole 109 both sides to have through hole angle face 102 by the other end of plane 516 on pincers, and going up by pincers between two side through hole angle faces 102 has corner scale 513 in plane 516；

The lower surface of described sliding corner is the lower plane 561 that trackslips, trackslip and have rotation through hole 108 on lower plane 561, rotate through hole 108 side and have rotating disk chamfering cambered surface 103, rotating disk chamfering cambered surface 103 is positioned on the back flat of the lower plane 561 that trackslips, and rotating disk chamfering cambered surface 103 has corner cambered surface protrude pointer 531；Described rotation through hole 108 opposite side has inclined-plane protruding rail 541, inclined-plane protruding rail 541 is positioned at and trackslips on lower plane 561, the cross section of inclined-plane protruding rail 541 is also isosceles trapezoid, protruding rail faying face 697 is had on inclined-plane protruding rail 541, the opposite face of protruding rail faying face 697 is protruding rail top plane 574, there is the protruding rail stepped hole 692 of two in protruding rail top plane 574, between protruding rail top plane 574 and inclined-plane protruding rail 541 two sides, have transition arc 694；The effect of transition arc 694 is the processing dead angle avoiding described inclined plane groove 514, it is ensured that precisely coordinate between inclined-plane protruding rail 541 with inclined plane groove 514；

Described trackslipping is separable between lower plane 561 and inclined-plane protruding rail 541；Trackslip and have two plane screws 691 on lower plane 561, inclined-plane protruding rail 541 also has the protruding rail stepped hole 692 of two；Protruding rail screw 693 passes through described protruding rail stepped hole 692, and protruding rail screw 693 coordinates with described plane screw 691 screw-tightened, described protruding rail faying face 697 is fixed on described trackslipping on lower plane 561；Described inclined-plane protruding rail 541 uses self-lubricating material, and this self-lubricating material is ptfe composite, and the weight percentages of components of ptfe composite is: politef 78%, graphite powder 14%, polybenzoate 8%；Above-mentioned self-lubricating material achieves oil-free lubrication, reduces frictional resistance, thoroughly avoids glass fragment by lubricating oil viscosity on test table 190, convenient removing glass fragment.

The rigid titanium alloy layer having a layer thickness to be 0.22 millimeter on described inclined plane groove 514 surface, elementary composition by following percentage by weight of this rigid titanium alloy layer material: Ti:32%, Mo:3.3%, Cr:2.7%, Cu:1.3%, W:2.3%, Ni:1.2%, C:1.1%, surplus is Fe and inevitable impurity；The weight percent content of described impurity is: Si in 0.18%, S be 0.008%, P is 0.013%, and the rockwell superficial hardness number of this rigid titanium alloy layer is HRC56.

As improving further: described by there being clamping slope 515 inside the upper plane 516 of pincers, clamping slope 515 and described be 52 degree by clamping the angle between upper plane 516；Having slip-off preventing groove 585, slip-off preventing groove 585 degree of depth on clamping slope 515 is 2.4 millimeters, and slip-off preventing groove 585 bottom width is 4.7 millimeters, and slip-off preventing groove 585 A/F is 4.4 millimeters；On clamping slope 515, also extruding is fixed with rubber tabletting 551, and rubber tabletting 551 has slip-off preventing raised line 558, and slip-off preventing raised line 558 height is 2.2 millimeters, and slip-off preventing raised line 558 width suitable for reading is 4.8 millimeters, and slip-off preventing raised line 558 root width is 4.4 millimeters；

Described rubber tabletting 551 uses synthesis rubber industry, its material composition is: ethylene propylene diene rubber 53%, zinc oxide 11%, accelerator 2.3%, stearic acid 2.2%, paraffin 1.4%, carbon black 15%, paraffin oil 12%, age resistor 3.6%, nano antibacterial agent 6.3%, sulfur 1.2%, remaining is inserts, and described inserts is the Pulvis Talci being not less than 1280 mesh；Described synthesis rubber industry has following physical technique index: hot strength is 15.2MPa, and elongation at break is 585%, and hardness is 56 shore A.

The benefit of above-mentioned design is: have interference fit produce extruding expansive force between inclined-plane, slip-off preventing raised line 558 both sides and inclined-plane, slip-off preventing groove 585 both sides, it is not necessary to gluing is prevented also from coming off, it is to avoid by the aging produced case accident of bonding glue；Matched in clearance is had, it is simple to install and combine between slip-off preventing raised line 558 height and slip-off preventing groove 585 degree of depth.

As improving further: the radius of described circular fluorescent pipe 888 is 530 to 532 millimeters.

In embodiment, in described back plate, plane 717 exceeds 9 millimeters of plane in described support side plate 200, and described support side plate 200 thickness is 46 millimeters, and described rear shear plate 176 thickness is 37 millimeters, and described bottom narrow boards 175 thickness is 37 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.

In Figure 27, described pivot pin rivet 100 passes through rotation through hole 108 and step through-hole 109 successively, and the pivot pin rivet 100 rotatable overlap joint of lower plane 561 that will trackslip is fixed on by the upper plane 516 of pincers, it is ensured that trackslips lower plane 561 and is in sustained height by clamping above plane 516.

In Figure 32, Figure 33, Figure 34 and Figure 35, clamping slope 515 and be 58 degree by the angle between the upper plane 516 of pincers, clamping slope 515 extrudes and is fixed with rubber tabletting 551.

Have on described test table 190 more than five by pincers fixing threaded hole 197, described inclined-plane slideway corner has five by pincers step through-hole 501 by going up by pincers of the first retained part 519 in pincers assembly 500 in plane 516, five backup plates are fixed screw 195 and are passed through described matching by pincers fixing threaded hole 197 with described by pincers step through-hole 501 successively, the first described retained part 519 is fixed on described test table 190, use the immobilizing foundation of the first retained part 519, inclined-plane slideway corner is all fixed on described test table 190 by pincers assembly 500 entirety.

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 table 190 both sides is rotatable with turntable bearing 163 endoporus to be coordinated, and four platen seat screws pass through the installing hole on turntable bearing 163 and fixed via 148 respectively, are fixed on platen seat screw 160 by the turntable bearing 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 cylinder bulb 199 of stud lock pin 189 termination of both sides can come in and go out test table 190 both sides hole 198, lock pin location in, by test table 190 locking positioning or separately.

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 table 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 table 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 table 190 does between swinging motion produced error, two short pulleys in top 716 control while T-rail 730 does swinging motion centered by turntable 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.

Have by pincers fixing threaded hole 197 on described test table 190, described inclined-plane slideway corner by pincers assembly 500 at least one by pincers part by having by clamping step through-hole 501 in the upper plane 516 of pincers, backup plate is fixed screw 195 and is passed through matching by pincers fixing threaded hole 197 with described by pincers step through-hole 501 on first retained part 519, and by pincers assembly 500, inclined-plane slideway corner is fixed on plane on described test table 190；

Inclined-plane slideway corner can also be utilized by pincers assembly 500 own wt, trapezoidal glass plate 600 is fixed on described test table 190；Extenal fixation part can also be used remaining second retained part 529 and the 3rd retained part 539 and the 4th retained part 549 are fixed on test table 190 successively；

For being slidably matched between inclined plane groove 514 on first retained part 519 and the inclined-plane protruding rail 541 on the 4th sliding corner 548, for being slidably matched between inclined plane groove 514 on 4th retained part 549 and the inclined-plane protruding rail 541 on the 3rd sliding corner 538, for being slidably matched between inclined plane groove 514 on second retained part 529 and the inclined-plane protruding rail 541 on the first sliding corner 518, for being slidably matched between the inclined plane groove 514 on the 3rd retained part 539 and the inclined-plane protruding rail 541 on the second sliding corner 528.

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 the another kind of circular abutment 566 at front row, altitude location circle 565 torr described impact slide block 666；Impact frame square hole 564 in impacter frame 567 is inserted on the rectangle straight-bar on described impact cross bar 562, and fixes；There is impact motor installed surface 544 in described impacter frame 567, impact motor 521 be placed and secured on described impact motor installed surface 544, 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.

Adjust altitude location circle 565 height so that when quadrangular guide rail 595 runs to extreme lower position, jump bit cone 596 can just touch the trapezoidal glass plate 600 being fixed on test table 190, and is smashed by trapezoidal glass plate 600；For being slidably matched between impact frame square hole 564 and described impact cross bar 562 in impacter frame 567, the power supply signal combination cable that impact motor 521 arranges concealed wire layout 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 20, Tu21Zhong, two short pulleys in top 716 control while T-rail 730 drives test table 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 table 190 rear end lower plane pushes down plane 717 in back plate, and test table 190 presents level；Rotate the lock pin crank handle 187 of both sides respectively, match with lock pin bearing 180 inner hole thread by means of stud lock pin 189, the cylinder bulb 199 making stud lock pin 189 termination enters the lock pin of test table 190 both sides and positions locking positioning in hole 198, and test table 190 is fastened in level；

(2), by be placed on test table 190 four physical dimensions above identical first surround a surrounding ambient by pincers 530 and the 4th by clamping 540 by pincers the 520, the 3rd by pincers 510, second；Above-mentioned surrounding ambient size is more than the physical dimension of trapezoidal glass plate 600 to be detected, the trapezoidal glass plate 600 that will be detected is placed on above the test table 190 in above-mentioned surrounding ambient, use the immobilizing foundation of the first retained part 519, after a wherein side of trapezoidal glass plate 600 clings to the first retained part 519, second retained part 529 and the 3rd retained part 539 and the 4th retained part 549 are clinged to trapezoidal glass plate 600 one by one, make every four limit outer rims tightly touching trapezoidal glass plate 600 to be detected by the rubber tabletting 551 on pincers；Trapezoidal glass plate 600 is fixed on described test table 190；The produced elastic indenture 105 of rubber tabletting 551 natural resiliency deformation gives trapezoidal glass plate 600 4 limit outer rim flexibility and fixes, it is to avoid rigidity crushes unexpected for trapezoidal glass plate 600 by pincers；

(3), the impact cross bar 562 that regulates on circular abutment 566 height, hold cross bar becket 599, will revolution impacter 590 along with impact cross bar 562 together, rotate above trapezoidal glass plate 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, trapezoidal glass plate 600 can just be touched, and trapezoidal glass plate 600 is smashed；The dangerous step remotely controlling to smash trapezoidal glass plate 600 can be realized, it is to avoid glass breaking moment surprisingly splashes and injures site operation personnel；

(4), 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 trapezoidal glass plate 600 around circular abutment 566 cylindrical；By circular fluorescent pipe 888 together with industrial camera 950, along with aperture shooting plagioclase handle 810 is centered by rotating disk endoporus 836, rotates and move to image, above trapezoidal glass plate 600, the position taken pictures；Circular fluorescent pipe 888 energising produces annular beam, shooting is taken pictures and fragmentation pattern picture is sent to computer disposal center, produce computer-readable picture clearly, Figure 36 and Figure 37, require that the trapezoidal glass plate 600 carrying out judging to destroy is the most qualified according to national standard, complete the fragmentation status test of safety glass；

(5) remove glass fragment work: closed by circular fluorescent pipe 888, and along with aperture shooting plagioclase handle 810 is centered by rotating disk endoporus 836, reversely rotate removal test table 190；Remove the stud lock pin 189 by clamping, on the lock pin crank handle 187 of opposite direction rotation both sides on adjacent both sides so that stud lock pin 189 exits the hole 198, lock pin location of test table 190 both sides, releases locking positioning simultaneously.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 20, Tu22Zhong, two short pulleys in top 716 control while T-rail 730 drives test table 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 table 190 rear end lower plane is away from plane 717 in back plate, after test table 190 run-off the straight 10 to 20 is spent, can dispose safety glass fragment easily through cullet guider 140, fall among cullet collecting cart 300；

(6), cylinder pressure 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；Rotate the stud lock pin 189 on the lock pin crank handle 187 of both sides the most respectively, stud lock pin 189 is made to enter locking positioning in the hole 198, lock pin location of test platen 190 both sides, test platen 190 is again at level, prepares as long as being test for trapezoidal glass plate 600 for next；

(7), 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 prominent substantive distinguishing features of the present invention, it is ensured that can bring the most progressive following effect:

Achieve detection test overall process and save disposable product adhesive tape, not only save test consumables cost, it is to avoid pollute environment；Also shorten the activity duration, the tape residue on test table 190 need not 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；By comparing with the use test data done of disposable product adhesive tape conventionally test by pincers assembly 500 present invention employs inclined-plane slideway corner.It is appreciated that: use the rubber tabletting 551 of synthesis rubber industry, its specific had physical characteristic of material composition formula, guarantee to go through hundred experiment test operations without breakage, and intact by clamping the rigid titanium alloy layer of upper plane 516, conclusion is to have employed inclined-plane slideway corner to be better than using disposable product adhesive tape conventionally test by pincers assembly 500.

Claims (4)

1. hydraulic pressure platen aperture shooting inclined-plane corner is by pincers titanium alloy glass detector tool, and the upper plane of the support side plate (200) of integral-rack both sides is the most all fixed with turntable bearing (163) and lock pin bearing (180)；There is platen rotating shaft (196) test table (190) both sides, the platen rotating shaft (196) of both sides is the most rotatable to be fixed in turntable bearing (163), having plane in back plate (717) on rear shear plate (176) on integral-rack, in back plate, plane (717) holds test table (190) lower plane afterwards；Lock pin hole, location (198) is had on described test table (190) both sides vertical, described lock pin bearing (180) inner hole thread matches with stud lock pin (189) external screw thread, there is cylinder bulb (199) stud lock pin (189) termination of both sides, cylinder bulb (199) can enter in described lock pin hole, location (198), is fixed with the support side plate (200) described in both sides by described test table (190)；In the upper plane of described test table (190), fixed inclined-plane slideway corner is by pincers assembly (500), described turntable bearing (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；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 front row wherein circular abutment (566) cylindrical rotary sliding；The upper slip fixed revolution impacter (590) of described impact cross bar (562), revolution impacter (590) has jump bit cone (596)；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 table (190) rear end lower plane central authorities, have hydraulicefficiency elevation structure between T-rail (730) and described support baseboard (711)；

Aperture shooting plagioclase handle (810) is had on aperture shooting rotating disk (830) on aperture camera assembly (900), aperture shooting plagioclase handle (810) outer lower end has horizon light coil (800) and upright transverse arm camera stand (925), there is video camera termination (945) the upper outer end of upright transverse arm camera stand (925), and under video camera termination (945), front is industrial camera (95)；

There is a circular fluorescent pipe (888) in described horizon light coil (800), aperture shooting rotating disk (830) has rotating disk endoporus (836) and rotating disk lower surface (832)；Light is had to take the photograph support endoporus (826) and bracing ring upper surface (823) and bracing ring trip bolt (894) on aperture camera support circle (820), described light is taken the photograph support endoporus (826) and is slidably matched with one circular abutment (566) of heel row, and aperture camera support circle (820) is fixed on this described circular abutment (566) of heel row by described bracing ring trip bolt (894)；Described rotating disk lower surface (832) is held in the palm in described bracing ring upper surface (823), described rotating disk endoporus (836) also coordinates for rotary sliding with between this described circular abutment (566) of heel row, make described horizon light coil (800) together with industrial camera (950), set height position is made synchronous rotary motion；The material of described jump bit cone (596) is titanium-base alloy, described titanium-base alloy is elementary composition by following percentage by weight: Ti:19 21%, W:5.2 5.4%, Cr:3.2 3.4%, Ni:2.2 2.4%, Mo:1.2 1.4%, Zn:2.2 2.4%, Al:1.1 1.3%, C:1.0 1.2%, and surplus is Fe and inevitable impurity；The weight percent content of described impurity is: Si less than 0.23%, S less than 0.012%, P less than 0.016%, the rockwell superficial hardness number of this titanium-base alloy is HRC65 67.

Hydraulic pressure platen aperture the most according to claim 1 shooting inclined-plane corner is by pincers titanium alloy glass detector tool, it is characterized in that: 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 it is 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 table (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.

Hydraulic pressure platen aperture the most according to claim 1 shooting inclined-plane corner is by pincers titanium alloy glass detector tool, it is characterized in that: described inclined-plane slideway corner by pincers assembly (500) include four physical dimensions identical first by pincers (510), second by pincers (520), the 3rd by clamping (530) and the 4th by clamping (540), every is made up of retained part and sliding corner by pincers, is rotatably connected fixing by pivot pin rivet (100) between every retained part and sliding corner by pincers；The upper surface of described retained part is for by the upper plane (516) of pincers, there is inclined plane groove (514) one end by the upper plane (516) of pincers, inclined plane groove (514) bottom surface is groove-bottom plane (571), the cross section of inclined plane groove (514) is isosceles trapezoid, and inclined plane groove (514) single-ended opening；The described other end by the upper plane (516) of pincers has step through-hole (109), there is through hole angle face (102) step through-hole (109) both sides, and going up by pincers between two side through hole angle faces (102) has corner scale (513) in plane (516)；

The lower surface of described sliding corner is the lower plane that trackslips (561), trackslip and have rotation through hole (108) on lower plane (561), rotate through hole (108) side and have rotating disk chamfering cambered surface (103), rotating disk chamfering cambered surface (103) is positioned on the back flat of the lower plane that trackslips (561), rotating disk chamfering cambered surface (103) has corner cambered surface protrude pointer (531)；Described rotation through hole (108) opposite side has inclined-plane protruding rail (541), inclined-plane protruding rail (541) is positioned on the lower plane that trackslips (561), the cross section of inclined-plane protruding rail (541) is also isosceles trapezoid, protruding rail faying face (697) is had on inclined-plane protruding rail (541), the opposite face of protruding rail faying face (697) is protruding rail top plane (574), there is the protruding rail stepped hole (692) of two on protruding rail top plane (574), between protruding rail top plane (574) and inclined-plane protruding rail (541) two sides, have transition arc (694)；

Between the described lower plane that trackslips (561) and inclined-plane protruding rail (541) separable；Trackslip and have two plane screws (691) on lower plane (561), inclined-plane protruding rail (541) also has the protruding rail stepped hole (692) of two；Protruding rail screw (693) passes through described protruding rail stepped hole (692), protruding rail screw (693) coordinates with described plane screw (691) screw-tightened, is fixed on the described lower plane that trackslips (561) by described protruding rail faying face (697)；Described inclined-plane protruding rail (541) uses self-lubricating material, and this self-lubricating material is ptfe composite, and the weight percentages of components of ptfe composite is: politef 77 79%, graphite powder 13 15%, polybenzoate 7 9%；Described pivot pin rivet (100) passes through rotation through hole (108) and step through-hole (109) successively, and pivot pin rivet (100) lower plane (561) the rotatable overlap joint that will trackslip is fixed on and goes up in plane (516) by clamping；

The rigid titanium alloy layer having a layer thickness to be 0.21 0.23 millimeters on described inclined plane groove (514) surface, elementary composition by following percentage by weight of this rigid titanium alloy layer material: Ti:31 33%, Mo:3.2 3.4%, Cr:2.6 2.8%, Cu:1.2 1.4%, W:2.2 2.4%, Ni:1.1 1.3%, C:1.0 1.2%, surplus is Fe and inevitable impurity；The weight percent content of described impurity is: Si less than 0.21%, S less than 0.012%, P less than 0.016%, the rockwell superficial hardness number of this rigid titanium alloy layer is HRC55 57.

Hydraulic pressure platen aperture the most according to claim 3 shooting inclined-plane corner is by pincers titanium alloy glass detector tool, it is characterized in that: described have a clamping slope (515) by pincers upper plane (516) inner side, clamping slope (515) with described be 51 53 degree by clamping the angle between upper plane (516)；Slip-off preventing groove (585) is had in clamping slope (515), slip-off preventing groove (585) degree of depth is 2.3 2.5 millimeters, slip-off preventing groove (585) bottom width is 4.6 4.8 millimeters, and slip-off preventing groove (585) A/F is 4.3 4.5 millimeters；In clamping slope (515), also extruding is fixed with rubber tabletting (551), slip-off preventing raised line (558) is had on rubber tabletting (551), slip-off preventing raised line (558) height is 2.1 2.3 millimeters, slip-off preventing raised line (558) width suitable for reading is 4.7 4.9 millimeters, and slip-off preventing raised line (558) root width is 4.3 4.5 millimeters；Described rubber tabletting (551) uses synthesis rubber industry, its material composition is: ethylene propylene diene rubber 52 54%, zinc oxide 10 12%, accelerator 2.2 2.4%, stearic acid 2.1 2.3%, paraffin 1.3 1.5%, carbon black 14 16%, paraffin oil 11 13%, age resistor 3.5 3.7%, nano antibacterial agent 6.2 6.4%, sulfur 1.1 1.3%, and remaining is inserts.