CN105115811A - Glass testing system adopting hydraulic platen, threaded lock pins and styrene butadiene rubber wheel pressure plates - Google Patents

Abstract

The invention relates to a tempered glass testing and inspecting device, particularly to a glass testing system adopting a hydraulic platen, threaded lock pins and styrene butadiene rubber wheel pressure plates, and the improvement lies in that: a hydraulic stretching cylinder adopting the structure cooperates with a T-shaped guide rail to drive the testing platen to be overturned, so that chunk glass can be removed conveniently; through the threaded fit of stud lock pins and inner holes of lock pin supports, cylindrical bulbs at the end parts of the stud lock pins enter the spiral taper lock holes in the two sides of the testing platen, so as to be locked and located, and the defect that self-locking is unavailable for cooperation of a traditional transmission gear and a manual gear, as a result, the entire tempered glass plate is kept stable and solid during testing. According to the invention, two parts, namely an upper short pulley and a lower long pulley both arranged on the hydraulic stretching cylinder together control the T-shaped guide rail to swing by taking the platen rotating shaft as a center, and together control a T-shaped rail cross plate on the T-shaped guide rail to roll in a sliding manner; besides, the device adopting the structure avoids the error generated between rectilinear motion by a hydraulic piston rod and swing motion by the testing platen.

Description

Hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system

Technical field

The present invention relates to a kind of tempered glass test verification device, classification number: G01N3/32, particularly relate to so a kind of pressing plate surrounding can zoom in or out, and utilize turning worktable to carry out the hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system of tested glass intensity.

Background technology

Along with expanding economy, glass is more and more extensive in the application of all trades and professions.At present, much important glass component, such as large glass curtain wall and glass zenith, the windshield of aerospace vehicle is all adopt the special glasss such as tempered glass, requires very strict, therefore check the performance of glass just to seem more and more important to glass properties.From 1 day May in 2003, China implements mandatory inspection system to automobile, train, architectural safety glass used, and the safety glass product not obtaining Compulsory Certification of Products certificate and do not apply China Compulsory Product Certification mark must not dispatch from the factory, import and sale.

Fragmentation test is a kind of major way detecting tempered glass quality, according to national standard requirement, fragment after the fragmentation of the tempered glass that 3mm is thick in any 50*50mm should be greater than 30, fragment after the fragmentation of the tempered glass that 4mm ~ 12mm is thick in any 50*50mm should be greater than 40, allowed a small amount of strip fragment, its length is no more than 75mm.The trend of strip fragment and glass edge should be almost parallel, and as not parallel, angle can not more than 45 degree, if having one not up to standard, be substandard product.

Existing tempered glass fragmentation test method is freely lain on testing table by tempered glass sample, and retrain glass periphery by adhesive tape or other modes, or cover thin film on tempered glass, splashes to prevent glass fragment.The position of distance periphery about 20mm on the longest edge center line of sample, be that the pane hammer of 0.2mm scholar 0.05mm or drift impact with tip curvature radius, making sample broken, is that the fragment number in center of circle radius 75mm circle does not conduct a survey within the scope of product edges 20mm and with shock point.The measure retaining fragment pattern should start after 10s after the blow and terminate in 3min after the blow.This method not only operates inconvenience, spended time is longer, and adhesive tape is disposable product, easily cause waste and pollute, and the tape residue on test platen must be removed clean after each test, could remove clean cullet, otherwise residual chopped glass will affect experiment test operation next time.

Simultaneously adhesive tape also has and is burst by tempered glass the possibility that strength collapses out, and causing operating personnel injured, therefore, is very necessary to the improvement of tempered glass fragmentation test device.

Chinese Patent Application No.: 2009203050079, toughened glass falling sphere test bed, for solving tempered glass when testing, glass fragment can be caused everywhere to splash, adopt the way of carriage case, although can effective mobile phone glass fragment, the reading of inconvenient glass fragment, and also the installation effectiveness doing multi-disc tempered glass is continuously lower.

Another number of patent application: the 201420595067.X of China, tempered glass fragmentation status test unit, propose the pressing plate that some brand-new method and measures deal with brittle glass, but cannot accomplish that arbitrary dimension regulates, also cannot accomplish to allow four limit pressing plates all at grade.At least to have in this patent while be cannot contact with experiment work table top.Simultaneously the unsettled barricade 5 that is referred to as in embodiment cannot contact with base 1 together with other three side bumpers wall, has to use catch 4 to make up the space between unsettled barricade 5 and base 1, cause surrounding discontinuity.In addition, catch 4 local width is fixing, polylith can only be adopted to splice, cannot accomplish the consecutive variations of different in width.

Summary of the invention

For above prior art Problems existing, the present invention adopts hydraulic cylinder Turnover testing platen, being equipped with screw fastening locks solid, in conjunction with surrounding isoplanar slippage wheel Anchor plate kit, the right slipping part divides and carries out the adjustable design in isoplanar, achieve the tempered glass for sizes different size, a kind of verification test device can be shared to do tempered glass fragmentation test, specific as follows:

Hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system, comprise test platen and plate frame, upper connecting rod after lower link and frame after lower link and frame before upper connecting rod and frame before organic frame between two plate frames, before frame before upper connecting rod and frame after lower link and frame after lower link and frame upper connecting rod two ends be combined with pull-rod nut two plate frames fixed, as improvement:

There is platen rotating shaft described test platen both sides, and the platen rotating shaft of both sides is rotatable to be respectively fixed in bearing spider, and bearing spider is fixed on plane on plate frame; There is supporting traverse described position, plate frame upper back, and supporting traverse holds test lower plane both sides, platen rear end;

Web joint is turned under supporting traverse gap described in both sides has, turn web joint lower end under both sides and be jointly fixed wtih support baseboard, on support baseboard, plane lays hydraulic tensioning cylinder, there is hydraulic cylinder jaw liquid presses piston pole upper end, both sides, hydraulic cylinder jaw top fix a short pulley in top respectively, and both sides, hydraulic cylinder jaw top are fixed wtih lower minister's pulley jointly;

There are T-shaped guide rail in test platen rear end lower plane central authorities, and the short pulley in top of described both sides, hydraulic cylinder jaw top slidably coordinates with T-shaped guide rail together with described lower minister's pulley;

T-shaped rail upright plate on T-shaped guide 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 the rail upright plate both sides described in T-shaped and 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;

Stud lock pin external thread matches with lock pin bearing inner hole thread, and lock pin bearing is fixed on plane on plate frame, and the cylinder bulb of the stud lock pin termination of both sides can enter locking positioning in the spiral shell cone column lockhole of test platen both sides;

Plane is fixed wtih isoplanar wheel Anchor plate kit to described test platen, go back pull bar in before organic frame before frame before upper connecting rod and frame between lower link, in before frame, before pull bar and described frame, after upper connecting rod and described frame, upper connecting rod is fixed wtih cullet returnable jointly;

On described test platen, plane has the acieral wearing layer of one deck 1.1 to 1.3 millimeters thick, the material composition of described acieral wearing layer is made up of the element of following percentage by weight: Al:33-34, Ni:12-13, Cr:17-18, Mo:6-7, Cu:22-23, Sn:1-2, and surplus is Co and inevitable impurity; The weight percent content of described impurity is: O.05 C is less than, Si is less than 0.20, Mn is less than 0.25, S is less than O.Ol0, P and is less than O.015, and the rockwell superficial hardness number of this acieral wearing layer is HRC54.

As further improvement: described test platen has pressing plate fixing threaded hole, in described isoplanar wheel Anchor plate kit at least one clamp portion pressing plate on plane has pressing plate step through-hole, sunk screw passes through described pressing plate step through-hole and matches with described pressing plate fixing threaded hole.

As further improvement: have lower sheave major axis pin between described lower minister's pulley and described hydraulic cylinder jaw, lower sheave major axis pin two ends and described hydraulic cylinder jaw secure fit, lower sheave major axis pin coordinates with described lower minister's pulley is rotatable; Have top sheave stub axle pin between the short pulley in described top and described hydraulic cylinder jaw, top sheave stub axle pin one end and described hydraulic cylinder jaw fix, and top sheave stub axle pin coordinates with the short pulley in described top is rotatable.

As further improvement: on every only described plate frame, plane is respectively arranged with two bearing seat screws and two locking pin seat screws, plated frame plate face there is in before lower through-hole after lower through-hole before the front upper through hole of horizontally disposed frame, frame, frame, frame upper through hole after through hole and frame.

As further improvement: described isoplanar wheel Anchor plate kit is made up of the wheel wheel isoplanar pressing plate that four physical dimensions are identical, be respectively: on the right of pressing plate deckle, the pressing plate left side, pressing plate opposite side and pressing plate, every comprises clamp portion and slippage part with wheel isoplanar pressing plate, pressing plate deckle comprises deckle clamp portion and deckle slippage part, the pressing plate left side comprises left side clamp portion and left side slippage part, pressing plate opposite side comprises front clamp portion and front slippage part, comprises opposite side clamp portion and opposite side slippage part on the right of pressing plate;

Described slippage part is positioned at described clamp portion one end and is overlapped on plane on clamp portion; The lower surface of described slippage part is slippage lower plane, the upper surface of described clamp portion is plane on pressing plate, and pressing plate plane has wheel chute, and wheel chute and pressing plate have transition to slot between plane, have living space bottom wheel chute groove, and the described single-ended opening of wheel chute;

Described slippage lower plane there is slippage wheel, and having step pivot pin between slippage wheel and slippage 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; Rotatablely on the outer section cylindrical of described pivot pin be combined with slippage wheel endoporus, slippage wheel inner side plane againsts described pivot pin step; Described pivot pin screw is combined with wheel screw, wheel screw spiral shell brain againsts described pivot pin outer end, wheel screw spiral shell brain blocks slippage wheel inner side plane, and wheel screw exposes spiral shell brain and can be positioned among described space groove, and wheel screw exposes between spiral shell brain and space groove space; For being slidably matched between described slippage wheel and described wheel chute;

On described slippage lower plane and described pressing plate, plane is in sustained height; On pressing plate, planar inner has pressing plate slope, and the angle on pressing plate slope and pressing plate between plane is 57-59 to spend; Pressing plate slope is also attached with rubber compressing tablet;

Described rubber compressing tablet adopts synthesizing butadiene styrene rubber, its material composition is: styrene-butadiene rubber 33-35%, sulphur 1.3-1.5%, zinc paste 2-4%, stearic acid 1.3-1.5%, medium accelerator 1-3%, dag: 5.4-5.6%, aging resister 1.2-1.4%, antistatic agent SP:4.5-5.5%, softening oil 5-7%, rubber powder 15-17%, coupling agent 1.3-1.5%, all the other are inserts.

As further improvement: for being slidably matched between the slippage wheel in the wheel chute on described deckle clamp portion and the right slippage part, between the step pivot pin in the transition fluting on described deckle clamp portion and the right slippage part, there are 1.2 to 1.4 millimeters of gaps;

Wheel chute in described the right slippage part and between the slippage wheel in opposite side slippage part for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the transition fluting in described the right slippage part and the step pivot pin in opposite side slippage part;

For being slidably matched between slippage wheel in wheel chute on described left side clamp portion and deckle slippage part, between the step pivot pin in the transition fluting on described left side clamp portion and deckle slippage part, there are 1.2 to 1.4 millimeters of gaps;

For being slidably matched between slippage wheel in wheel chute on described opposite side clamp portion and left side slippage part, between the step pivot pin in the transition fluting on described opposite side clamp portion and left side slippage part, there are 1.2 to 1.4 millimeters of gaps.

Beneficial effect of the present invention is:

(1), hydraulic tensioning cylinder drives the turning vibrational power flow of test platen in conjunction with T-shaped guide rail, be convenient to remove chunk glass remove, be equipped with cullet returnable, guarantee that chunk glass does not scatter, hydraulic tensioning cylinder combined support crossbeam hold test platen after lower plane, in conjunction with the lock pin crank handle of both sides, match with lock pin bearing inner hole thread by means of stud lock pin, the cylinder bulb of stud lock pin termination is made to enter locking positioning in the spiral shell cone column lockhole of test platen both sides, overcome transmission gear and coordinate the defect not having self-locking with manual gear, make to keep firmly solid in the armourplate glass process of whole test.

Hydraulic tensioning cylinder is arranged two short pulleys in top controls while T-shaped guide rail does swinging motion centered by platen rotating shaft together with lower minister's pulley, and the T-shaped rail transverse slat that two short pulleys in top control on T-shaped guide rail together with lower minister's pulley does slippage rolling movement.Said structure also solve liquid presses piston pole do rectilinear motion and test platen do the error produced between swinging motion.

(2), container bin gate spring is set respectively between lower draw-bar before the container of bin gate hook and both sides, guarantees that container discharge door can touch container discharge mouth tightly, do not allow chunk glass scatter.

(3), isoplanar wheel Anchor plate kit is adopted, particularly slippage part is positioned at clamp portion one end and is overlapped on plane on clamp portion, and plane is in sustained height on described slippage lower plane and described pressing plate, guarantee that tested armourplate glass surrounding is in same plane and is fixed, discontinuity.

(4), between the slippage wheel of every limit pressing plate and adjacent wheel chute for being slidably matched, realize can regulating arbitrarily continuously the armourplate glass of different specification size.

(5) angle on, described pressing plate slope and pressing plate between plane is 57-59 to spend, and described pressing plate slope is bonded with one deck rubber compressing tablet, adjustment width armourplate glass carried out plane spacing while, a downward component can be produced, make tested armourplate glass touch test platen, avoid the uneven generation explosion of armourplate glass local pressure.

(6), achieve detection experiment overall process and save disposable product adhesive tape, not only save test consumables cost, avoid contaminated environment; Also shorten the activity duration, the tape residue on test platen need not be removed clean after each test, only need to remove clean cullet, just can implement experiment test operation next time, make work efficiency improve twice.Priorly thoroughly avoid because adhesive tape is burst by tempered glass the possibility that strength collapses out, the personal safety of operating personnel is more secure.

Accompanying drawing explanation

Fig. 1 unloads in stereoscopic appearance figure, figure of the present invention except isoplanar wheel Anchor plate kit 500.

Fig. 2 be cylinder bulb 199 and the spiral shell of stud lock pin 189 termination in Fig. 1 bore column lockhole 198 binding site along stud lock pin 189 axial line vertical cross section.

Fig. 3 is that the cylinder bulb 199 of stud lock pin 189 termination in Fig. 2 bores column lockhole 198 disengaged condition with spiral shell.

Fig. 4 is the plate frame 200 stereoscopic appearance figure separately in Fig. 1.

Fig. 5 is the test platen 190 stereoscopic appearance figure separately in Fig. 1.

Fig. 6 is the independent stereoscopic appearance figure of upper connecting rod 179 after lower link 176 after lower link 175 before upper connecting rod 174 before the frame in Fig. 1, frame, frame, the front middle pull bar 177 of frame and frame.

Fig. 7 is cullet returnable in Fig. 1 140 and the stereoscopic appearance figure of container discharge door 146 assembly.

Fig. 8 is that the cullet returnable 140 in Fig. 7 unloads the independent stereoscopic appearance figure after except container discharge door 146.

Isoplanar wheel Anchor plate kit 500 placed by test platen 190 in Fig. 1 to Fig. 9, and is fixed wtih the duty stereoscopic appearance figure of armourplate glass 600.

Back side stereoscopic appearance figure when Figure 10 is test platen 190 rotation in Fig. 9.

Figure 11 is supporting traverse 717 stereographic map separately in Figure 10.

Figure 12 is the partial enlarged drawing support baseboard 711 on the supporting traverse 717 in Figure 10 being fixed wtih hydraulic tensioning cylinder 712 position.

Figure 13 be hydraulic tensioning cylinder in Figure 12 712 with test platen 190 after back side connecting portion partial enlarged drawing.

Working state figure when Figure 14 is hydraulic tensioning cylinder 712 drop-down test platen 190.

Figure 15 is working state figure when hydraulic tensioning cylinder 712 being inferred test stand plate 190.

Figure 16 is the vertical view that the isoplanar wheel Anchor plate kit 500 in Fig. 9 is combinationally using.

Figure 17 is the A-A cut-open view in Figure 16.

Figure 18 is the B-B cut-open view in Figure 16, is placed on test platen 190 after armourplate glass 600 is fixed.

Figure 19 is the vertical view of the pressing plate deckle 510 in Figure 16.

Figure 20 is the partial enlarged drawing in Figure 17.

Figure 21 is the right slippage part 548 partial enlarged drawing in Figure 20.

Figure 22 is deckle clamp portion 519 partial enlarged drawing in Figure 20.

Figure 23 is the isometric front view of Figure 19.

Figure 24 is the rear isometric view of Figure 19.

Embodiment

The present invention is described in detail below in conjunction with the drawings and specific embodiments:

Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 9, Figure 10, Figure 11, Figure 12, Figure 13, Figure 14, in Figure 15 and Figure 16: hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system, comprise test platen 190 and plate frame 200, upper connecting rod 179 after lower link 176 and frame after lower link 175 and frame before upper connecting rod 174 and frame before organic frame between two plate frames 200, before frame before upper connecting rod 174 and frame after lower link 175 and frame after lower link 176 and frame upper connecting rod 179 two ends be combined with pull-rod nut 178 two plate frames 200 fixed, as improvement:

There is platen rotating shaft 196 described test platen 190 both sides, and the platen rotating shaft 196 of both sides is rotatable to be respectively fixed in bearing spider 163, and bearing spider 163 is fixed on plane on plate frame 200; There is supporting traverse 717 described position, plate frame 200 upper back, and supporting traverse 717 holds test lower plane both sides, platen 190 rear end;

Web joint 777 is turned under supporting traverse 717 gap described in both sides has, turn web joint 777 lower end under both sides and be jointly fixed wtih support baseboard 711, on support baseboard 711, plane lays hydraulic tensioning cylinder 712, there is hydraulic cylinder jaw 714 liquid presses piston pole 722 upper end, both sides, hydraulic cylinder jaw 714 top fix a short pulley 716 in top respectively, and both sides, hydraulic cylinder jaw 714 top are fixed wtih lower minister's pulley 715 jointly;

There are T-shaped guide rail 730 in test platen 190 rear end lower plane central authorities, and the short pulley in top 716 of described both sides, hydraulic cylinder jaw 714 top slidably coordinates with T-shaped guide rail 730 together with described lower minister's pulley 715;

T-shaped rail upright plate 731 on T-shaped guide 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 T-shaped rail upright plate 731 both sides described in T-shaped and is positioned at above described T-shaped rail transverse slat 732, and described lower minister's pulley 715 is positioned at below described T-shaped rail transverse slat 732;

Stud lock pin 189 external thread matches with lock pin bearing 180 inner hole thread, lock pin bearing 180 is fixed on plane on plate frame 200, and the cylinder bulb 199 of stud lock pin 189 termination of both sides can enter locking positioning in the spiral shell cone column lockhole 198 of test platen 190 both sides;

Plane is fixed wtih isoplanar wheel Anchor plate kit 500 to described test platen 190, go back pull bar 177 in before organic frame before frame before upper connecting rod 174 and frame between lower link 175, in before frame, before pull bar 177 and described frame, after upper connecting rod 174 and described frame, upper connecting rod 179 is fixed wtih cullet returnable 140 jointly;

On described test platen 190, plane adopts the acieral wearing layer of laser spraying one deck 1.1 to 1.3 millimeters thick, the material composition of described acieral wearing layer is made up of the element of following percentage by weight: Al:33-34, Ni:12-13, Cr:17-18, Mo:6-7, Cu:22-23, Sn:1-2, and surplus is Co and inevitable impurity; The weight percent content of described impurity is: O.05 C is less than, Si is less than 0.20, Mn is less than 0.25, S is less than O.Ol0, P and is less than O.015, and the rockwell superficial hardness number of this acieral wearing layer is HRC54.

As further improvement: described test platen 190 has pressing plate fixing threaded hole 197, in described isoplanar wheel Anchor plate kit 500 at least one clamp portion pressing plate on plane 516 has pressing plate step through-hole 501, sunk screw 195 passes through described pressing plate step through-hole 501 and matches with described pressing plate fixing threaded hole 197.

As further improvement: have lower sheave major axis pin 719 between described lower minister's pulley 715 and described hydraulic cylinder jaw 714, lower sheave major axis pin 719 two ends and described hydraulic cylinder jaw 714 secure fit, lower sheave major axis pin 719 coordinates with described lower minister's pulley 715 is rotatable; Have top sheave stub axle pin 720 between the short pulley in described top 716 and described hydraulic cylinder jaw 714, top sheave stub axle pin 720 one end and described hydraulic cylinder jaw 714 fix, and top sheave stub axle pin 720 coordinates with the short pulley in described top 716 is rotatable.

As further improvement: on every only described plate frame 200, plane is respectively arranged with two bearing seat screws 160 and two locking pin seat screws 186, plate frame 200 plate face there is in before lower through-hole 276 after lower through-hole 275 before the front upper through hole 274 of horizontally disposed frame, frame, frame, frame upper through hole 279 after through hole 277 and frame.

As further improvement: in Fig. 1, Fig. 7, Fig. 8: described cullet returnable 140 comprises end swash plate 141, container header board 143, container biside plate 142 after container, and after container, end swash plate 141 has container discharge mouth 147 between being connected with container header board 143, after container, end swash plate 141 highest point has upper hook 184 after container, and after container, upper hook 184 fixedly hangs over casing tube of tension rod 171 position after frame on upper connecting rod 179, container header board 143 highest point has the front upper hook 148 of container, and the front upper hook 148 of container fixedly hangs over casing tube of tension rod 171 position before frame on upper connecting rod 174, container header board 143 is lower draw-bar 149 before there is container the both sides being positioned at container discharge mouth 147 coboundary position, container discharge door 146 is had between lower draw-bar 149 before the container of both sides, container discharge door 146 there is bin gate link up with 245, before the container of bin gate hook 245 and both sides, lower draw-bar 149 is on coaxial cable, container bin gate spring 145 is had respectively between lower draw-bar 149 before the container of bin gate hook 245 and both sides, casing tube of tension rod 171 in before frame on pull bar 177 runs through lower draw-bar 149 and container bin gate spring 145 and bin gate hook 245 before described container, before the frame that in before frame, on pull bar 177, the pull rod stud 172 at two ends passes through on biside plate open frame 200 respectively after mesopore 277, it is fastening that pull rod stud 172 is furnished with pull-rod nut 178.

As further improvement: Fig. 9, Figure 10, Figure 16, Figure 17, Figure 18, Figure 19, Figure 20, Figure 21, Figure 22, in Figure 23 with Figure 24: described isoplanar wheel Anchor plate kit 500 is made up of the wheel wheel isoplanar pressing plate that four physical dimensions are identical, be respectively: pressing plate deckle 510, the pressing plate left side 520, on the right of pressing plate opposite side 530 and pressing plate 540, every comprises clamp portion and slippage part with wheel isoplanar pressing plate, pressing plate deckle 510 comprises deckle clamp portion 519 and deckle slippage part 518, the pressing plate left side 520 comprises left side clamp portion 529 and left side slippage part 528, pressing plate opposite side 530 comprises opposite side clamp portion 539 and opposite side slippage part 538, on the right of pressing plate, 540 comprise the right slippage part 549 and the right slippage part 548,

Described slippage part is positioned at described clamp portion one end and is overlapped on plane on clamp portion; The lower surface of described slippage part is slippage lower plane 561, the upper surface of described clamp portion is plane 516 on pressing plate, plane 516 there is wheel chute 514 with pressing plate, wheel chute 514 and pressing plate there is transition to slot 571 between plane 516, have living space bottom wheel chute 514 groove 517, and the described single-ended opening of wheel chute 514;

Described slippage lower plane 561 there is slippage wheel 541, and have step pivot pin 574 between slippage wheel 541 and slippage lower plane 561, step pivot pin 574 there is the outer section 578 of pivot pin, 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; Rotatablely on outer section 578 cylindrical of described pivot pin be combined with slippage wheel 541 endoporus, slippage wheel 541 inner side plane againsts described pivot pin step 576; Described pivot pin screw 579 is combined with wheel screw 511, wheel screw 511 spiral shell brain againsts described pivot pin outer end 575, wheel screw 511 spiral shell brain blocks slippage wheel 541 inner side plane, wheel screw 511 exposes spiral shell brain and can be positioned among described space groove 517, and wheel screw 511 exposes between spiral shell brain and space groove 517 space; For being slidably matched between described slippage wheel 541 and described wheel chute 514;

Described slippage lower plane 561 is in sustained height with plane 516 on described pressing plate; Pressing plate has pressing plate slope 515 inside plane 516, and the angle on pressing plate slope 515 and pressing plate between plane 516 is 57-59 to spend; Pressing plate slope 515 is also attached with rubber compressing tablet 551;

Described rubber compressing tablet 551 adopts synthesizing butadiene styrene rubber, its material composition is: styrene-butadiene rubber 33-35%, sulphur 1.3-1.5%, zinc paste 2-4%, stearic acid 1.3-1.5%, medium accelerator 1-3%, dag: 5.4-5.6%, aging resister 1.2-1.4%, antistatic agent SP:4.5-5.5%, softening oil 5-7%, rubber powder 15-17%, coupling agent 1.3-1.5%, all the other are inserts.

Described medium accelerator is sulfenamide medium accelerator, and described aging resister is p phenylenediamine type antioxidant, and described coupling agent is silane coupling agent, and described softening oil is petroleum softening oil.Described inserts is for being not less than 1280 object talcum powder.

As further improvement: for being slidably matched between the slippage wheel 541 in the wheel chute 514 on described deckle clamp portion 519 and the right slippage part 548, between the transition fluting 571 on described deckle clamp portion 519 and the step pivot pin 574 in the right slippage part 548, there are 1.2 to 1.4 millimeters of gaps;

Wheel chute 514 in described the right slippage part 549 and between the slippage wheel 541 in opposite side slippage part 538 for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the step pivot pin 574 in transition in described the right slippage part 549 fluting 571 and opposite side slippage part 538;

For being slidably matched between slippage wheel 541 in wheel chute 514 on described left side clamp portion 529 and deckle slippage part 518, between the transition fluting 571 on described left side clamp portion 529 and the step pivot pin 574 in deckle slippage part 518, there are 1.2 to 1.4 millimeters of gaps;

For being slidably matched between slippage wheel 541 in wheel chute 514 on described opposite side clamp portion 539 and left side slippage part 528, between the transition fluting 571 on described opposite side clamp portion 539 and the step pivot pin 574 in left side slippage part 528, there are 1.2 to 1.4 millimeters of gaps.

As further improvement: have return pulley forked standard 124 respectively before and after bottom described plate frame 200, mobile return pulley 400 is had in the middle of return pulley forked standard 124, being rotatable clearance fit between mobile return pulley 400 center pit and return pulley pivot pin 122 cylindrical, is interference fit between the through hole on return pulley pivot pin 122 two ends and return pulley forked standard 124.

In embodiment, described test platen 190 there are 4 pressing plate fixing threaded holes 197, in described isoplanar wheel Anchor plate kit 500 at least deckle clamp portion 519 pressing plate on plane 516 has 4 pressing plate step through-holes 501,4 sunk screws 195 pass through described pressing plate step through-hole 501 successively and match with described pressing plate fixing threaded hole 197, are fixed on described test platen 190 by described isoplanar wheel Anchor plate kit 500.

Before frame before upper connecting rod 174, frame after lower link 175, frame after lower link 176, frame before upper connecting rod 179 and frame in pull bar 177 geomery all the same, be all made up of the pull rod stud 172 at casing tube of tension rod 171 and two ends.

Device assembling process:

The pull rod stud 172 at the two ends before frame before upper connecting rod 174, frame after lower link 175, frame after lower link 176 and frame on upper connecting rod 179 to pass through after lower through-hole 275 before the front upper through hole 274 of frame of both sides, frame, frame upper through hole 279 after lower through-hole 276 and frame respectively, and each pull rod stud 172 outer end has pull-rod nut 178 immovable fitting fastening.

Hydraulic cylinder base plate 713 on hydraulic tensioning cylinder 712 is fixed on plane on support baseboard 711, the short pulley 716 in two tops above liquid presses piston pole 722 is 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.The beneficial effect of said structure is: solve liquid presses piston pole 722 do rectilinear motion and test platen 190 do the error produced between swinging motion, two short pulleys 716 in top control while T-shaped guide 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 716 in top control on T-shaped guide rail 730 together with lower minister's pulley 715 does slippage rolling movement.

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

The platen rotating shaft 196 of described test platen 190 both sides coordinates with bearing spider 163 endoporus is rotatable, and the bearing spider 163 of both sides is fixed on bearing seat screw 160 by four bearing seat screws respectively.

Stud lock pin 189 external thread matches with lock pin bearing 180 inner hole thread, the lock pin bearing 180 of both sides is fixed on locking pin seat screw 186 by four locking pin seat screws respectively, and the cylinder bulb 199 of stud lock pin 189 termination of both sides can enter locking positioning in the spiral shell cone column lockhole 198 of test platen 190 both sides.

When one, will do fragmentation test to tempered glass, 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 the oil return of hydraulic cylinder oil supply system under hydraulic cylinder, liquid presses piston pole 722 moves downward, Figure 13, Tu14Zhong, two short pulleys in top 716 control while T-shaped guide rail 730 drives test platen 190 to do clockwise swinging motion centered by platen rotating shaft 196, and two short pulleys 716 in top do slippage rolling movement along plane on T-shaped rail transverse slat 732.Test platen 190 rear end lower plane pushes down supporting traverse 717, and test platen 190 presents horizontality.

Stud lock pin 189 on the lock pin crank handle 187 of the hand both sides of difference, makes stud lock pin 189 enter locking positioning in the spiral shell cone column lockhole 198 of test platen 190 both sides.

(2), by pressing plate deckle 510 identical for four physical dimensions, the pressing plate left side 520, on the right of pressing plate opposite side 530 and pressing plate, 540 are placed on above test platen 190, for being slidably matched between slippage wheel 541 in wheel chute 514 on deckle clamp portion 519 and the right slippage part 548, wheel chute 514 in the right slippage part 549 and between the slippage wheel 541 in opposite side slippage part 538 for being slidably matched, for being slidably matched between slippage wheel 541 in wheel chute 514 on left side clamp portion 529 and deckle slippage part 518, for being slidably matched between slippage wheel 541 in wheel chute 514 on opposite side clamp portion 539 and left side slippage part 528, make the pressing plate deckle 510 that four physical dimensions are identical, the pressing plate left side 520, the surrounding ambient in besieged city between 540 on the right of pressing plate opposite side 530 and pressing plate,

(3), above-mentioned surrounding ambient size is greater than the physical dimension of the armourplate glass 600 wanting tested, armourplate glass 600 that will be tested is placed on above the test platen 190 in above-mentioned surrounding ambient, on the right of the pressing plate deckle 510 that mobile four physical dimensions are identical successively, the pressing plate left side 520, pressing plate opposite side 530 and pressing plate 540, the rubber compressing tablet 551 on every pressing plate is made to touch four limit outer rims of the armourplate glass 600 wanting tested;

(4) after, wanting tested armourplate glass 600 to be fixed, exert a force on assigned address according to testing standard pane hammer, tested armourplate glass 600 is destroyed, requires to detect according to national standard, complete the fragmentation status test of tempered glass;

(5), remove the same wheel isoplanar pressing plate on 1 to 2 limit, the stud lock pin 189 on the lock pin crank handle 187 of hand both sides in the other direction, makes stud lock pin 189 exit the spiral shell cone column lockhole 198 of test platen 190 both sides, removes locking positioning.

Hydraulic cylinder oil supply system passes in and out oil pipe 718 fuel feeding under hydraulic cylinder, the enterprising flowline 728 of hydraulic cylinder is to the oil return of hydraulic cylinder oil supply system, liquid presses piston pole 722 moves upward, Figure 13, Tu15Zhong, two short pulleys in top 716 control while T-shaped guide rail 730 drives test platen 190 to do counterclockwise swinging motion centered by platen rotating shaft 196, and two short pulleys 716 in top do slippage rolling movement along plane on T-shaped rail transverse slat 732.Test platen 190 rear end lower plane is away from supporting traverse 717.After being spent by inclination 10 to 20 by test platen 190, dispose tempered glass fragment and call among cullet returnable 140.

(6), hydraulic cylinder oil supply system again to hydraulic cylinder enterprising flowline 728 fuel feeding, pass in and out oil pipe 718 under hydraulic cylinder to the oil return of hydraulic cylinder oil supply system, liquid presses piston pole 722 moves downward, test platen 190 again present horizontality.Stud lock pin 189 on the lock pin crank handle 187 of respectively hand both sides again, makes stud lock pin 189 enter locking positioning in the spiral shell cone column lockhole 198 of test platen 190 both sides, as long as prepare for next tested armourplate glass 600;

(7), when the chunk glass in cullet returnable 140 is many to when will rafting, to rafting car is placed on below container discharge mouth 147, with the bin gate handle 246 pulled out on container discharge door 146, rafting the chunk glass in cullet returnable 140.Unclamp bin gate handle 246, under the accumulation of energy counter-force effect of container bin gate spring 145, container discharge door 146 can touch container discharge mouth 147 tightly, does not allow chunk glass scatter.

Two, the above-mentioned outstanding substantive distinguishing features of the present invention, guarantees to bring following significant progressive effect:

(1), hydraulic tensioning cylinder 712 drives the turning vibrational power flow of test platen 190 in conjunction with T-shaped guide rail 730, be convenient to remove chunk glass remove, be equipped with cullet returnable 140, guarantee that chunk glass does not scatter, hydraulic tensioning cylinder 712 combined support crossbeam 717 holds the rear lower plane of test platen 190, in conjunction with the lock pin crank handle 187 of both sides, match with lock pin bearing 180 inner hole thread by means of stud lock pin 189, the cylinder bulb 199 of stud lock pin 189 termination is made to enter locking positioning in the spiral shell cone column lockhole 198 of test platen 190 both sides, whole hydraulic system is without the need to pressurize, make to keep firmly solid in armourplate glass 600 process of whole test.

Hydraulic tensioning cylinder 712 is arranged two short pulleys 716 in top controls while T-shaped guide 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 716 in top control on T-shaped guide rail 730 together with lower minister's pulley 715 does slippage rolling movement.Said structure also solve liquid presses piston pole 722 do rectilinear motion and test platen 190 do the error produced between swinging motion.

(2), container bin gate spring 145 is set respectively between lower draw-bar 149 before the container of bin gate hook 245 and both sides, guarantees that container discharge door 146 can touch container discharge mouth 147 tightly, do not allow chunk glass scatter.

(3), isoplanar wheel Anchor plate kit 500 is adopted, particularly slippage part is positioned at clamp portion one end and is overlapped on plane on clamp portion, and described slippage lower plane 561 is in sustained height with plane 516 on described pressing plate, guarantee that tested armourplate glass 600 surrounding is in same plane and is fixed, discontinuity.

(4), between the slippage wheel 541 of every limit pressing plate and adjacent wheel chute 514 for being slidably matched, realize can regulating arbitrarily continuously the armourplate glass 600 of different specification size.

(5) angle on, described pressing plate slope 515 and pressing plate between plane 516 is 57-59 to spend, and described pressing plate slope 515 is bonded with the rubber compressing tablet 551 of one deck 2.1-2.3 millimeters thick, adjustment width armourplate glass 600 carried out plane spacing while, a downward component can be produced, make tested armourplate glass 600 touch test platen 190, avoid the uneven generation explosion of armourplate glass 600 local pressure.

(6), achieve detection experiment overall process and save disposable product adhesive tape, not only save test consumables cost, avoid contaminated environment; Also shorten the activity duration, the tape residue on test platen 190 need not be removed clean after each test, only need to remove clean cullet, just can implement experiment test operation next time, make work efficiency improve twice.Priorly thoroughly avoid because adhesive tape is burst by tempered glass the possibility that strength collapses out, the personal safety of operating personnel is more secure.

Three, table 1 present invention employs isoplanar wheel Anchor plate kit to compare with the data using disposable product adhesive tape conventionally test to do.

The data of (table 1) operating efficiency operating efficiency compare

As can be drawn from Table 1: the rubber compressing tablet 551 adopting synthesizing butadiene styrene rubber, its specific material composition physical characteristics that formula has, guarantees to go through hundred experiment test operations without breakage, and test platen 190 surface aluminium based alloy wear-resisting layer is intact.

Claims (6)

1. hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system, comprise test platen (190) and plate frame (200), upper connecting rod (179) after lower link (176) and frame after lower link (175) and frame before upper connecting rod (174) and frame before organic frame between two plate frames (200), before frame before upper connecting rod (174) and frame after lower link (175) and frame after lower link (176) and frame upper connecting rod (179) two ends be combined with pull-rod nut (178) two plate frames (200) fixed, it is characterized in that:

There is platen rotating shaft (196) described test platen (190) both sides, the platen rotating shaft (196) of both sides is rotatable to be respectively fixed in bearing spider (163), and bearing spider (163) is fixed on the upper plane of plate frame (200); There is supporting traverse (717) described plate frame (200) position, upper back, and supporting traverse (717) holds test lower plane both sides, platen (190) rear end;

Web joint (777) is turned under supporting traverse (717) gap described in both sides has, turn web joint (777) lower end under both sides and be jointly fixed wtih support baseboard (711), the upper plane of support baseboard (711) lays hydraulic tensioning cylinder (712), there is hydraulic cylinder jaw (714) liquid presses piston pole (202) upper end, hydraulic cylinder jaw (714) both sides, top fix the short pulley in a top (716) respectively, and hydraulic cylinder jaw (714) both sides, top are fixed wtih lower minister's pulley (715) jointly;

There are T-shaped guide rail (730) in test platen (190) rear end lower plane central authorities, and the short pulley in the top (716) of described hydraulic cylinder jaw (714) both sides, top slidably coordinates with T-shaped guide rail (730) together with described lower minister's pulley (715);

T-shaped rail upright plate (731) on T-shaped guide 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 rail upright plate (731) both sides described in T-shaped and is positioned at above described T-shaped rail transverse slat (732), and described lower minister's pulley (715) is positioned at below described T-shaped rail transverse slat (732);

Stud lock pin (189) external thread matches with lock pin bearing (180) inner hole thread, lock pin bearing (180) is fixed on the upper plane of plate frame (200), and the cylinder bulb (199) of stud lock pin (189) termination of both sides can enter locking positioning in spiral shell cone column lockhole (198) of test platen (190) both sides;

The upper plane of described test platen (190) is fixed wtih isoplanar wheel Anchor plate kit (500), go back pull bar (177) in before organic frame before frame before upper connecting rod (174) and frame between lower link (175), in before frame, before pull bar (177) and described frame, after upper connecting rod (174) and described frame, upper connecting rod (179) is fixed wtih cullet returnable (140) jointly;

The upper plane of described test platen (190) has the acieral wearing layer of one deck 1.1 to 1.3 millimeters thick, the material composition of described acieral wearing layer is made up of the element of following percentage by weight: Al:33-34, Ni:12-13, Cr:17-18, Mo:6-7, Cu:22-23, Sn:1-2, and surplus is Co and inevitable impurity; The weight percent content of described impurity is: O.05 C is less than, Si is less than 0.20, Mn is less than 0.25, S is less than O.Ol0, P and is less than O.015, and the rockwell superficial hardness number of this acieral wearing layer is HRC54.

2. hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system according to claim 1, it is characterized in that: described test platen (190) has pressing plate fixing threaded hole (197), in described isoplanar wheel Anchor plate kit (500) at least one clamp portion pressing plate on plane (516) has pressing plate step through-hole (501), sunk screw (195) passes through described pressing plate step through-hole (501) and matches with described pressing plate fixing threaded hole (197).

3. hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system according to claim 1, it is characterized in that: between described lower minister's pulley (715) and described hydraulic cylinder jaw (714), have lower sheave major axis pin (719), lower sheave major axis pin (719) two ends and described hydraulic cylinder jaw (714) secure fit, lower sheave major axis pin (719) coordinates with described lower minister's pulley (715) is rotatable; Top sheave stub axle pin (720) is had between the short pulley in described top (716) and described hydraulic cylinder jaw (714), top sheave stub axle pin (720) one end and described hydraulic cylinder jaw (714) fix, and top sheave stub axle pin (720) coordinates with the short pulley in described top (716) is rotatable.

4. hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system according to claim 1, it is characterized in that: the upper plane of every only described plate frame (200) is respectively arranged with two bearing seat screws (160) and two locking pin seat screws (186) plate frame (200) plate face having in before lower through-hole (276) after lower through-hole (275) before the front upper through hole of horizontally disposed frame (274), frame, frame, frame after through hole (277) and frame above through hole (279).

5. hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system according to claim 1, it is characterized in that: described isoplanar wheel Anchor plate kit (500) is made up of the wheel wheel isoplanar pressing plate that four physical dimensions are identical, be respectively: pressing plate deckle (510), the pressing plate left side (520), on the right of pressing plate opposite side (530) and pressing plate (540), every comprises clamp portion and slippage part with wheel isoplanar pressing plate, pressing plate deckle (510) comprises deckle clamp portion (519) and deckle slippage part (518), the pressing plate left side (520) comprises left side clamp portion (529) and left side slippage part (528), pressing plate opposite side (530) comprises front clamp portion (539) and front slippage part (538), on the right of pressing plate, (540) comprise opposite side clamp portion (549) and opposite side slippage part (548),

Described slippage part is positioned at described clamp portion one end and is overlapped on plane on clamp portion; The lower surface of described slippage part is slippage lower plane (561), the upper surface of described clamp portion is plane (516) on pressing plate, plane (516) there is wheel chute (514) with pressing plate, wheel chute (514) and pressing plate there is transition to slot (571) between plane (516), have living space bottom wheel chute (514) groove (517), and described wheel chute (514) single-ended opening;

Described slippage lower plane (561) there is slippage wheel (541), and have step pivot pin (574) between slippage wheel (541) and slippage lower plane (561), step pivot pin (574) there is the outer section (578) of pivot pin, 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; Rotatablely on outer section (578) cylindrical of described pivot pin be combined with slippage wheel (541) endoporus, slippage wheel (541) inner side plane againsts described pivot pin step (576); Described pivot pin screw (579) is combined with wheel screw (511), wheel screw (511) spiral shell brain againsts described pivot pin outer end (575), wheel screw (511) spiral shell brain blocks slippage wheel (541) inner side plane, wheel screw (511) exposes spiral shell brain and can be positioned among described space groove (517), and wheel screw (511) exposes between spiral shell brain and space groove (517) space; For being slidably matched between described slippage wheel (541) and described wheel chute (514);

Described slippage lower plane (561) is in sustained height with plane (516) on described pressing plate; On pressing plate, there is pressing plate slope (515) plane (516) inner side, and the angle on pressing plate slope (515) and pressing plate between plane (516) is 57-59 to spend; Pressing plate slope (515) is also attached with rubber compressing tablet (551);

Described rubber compressing tablet (551) adopts synthesizing butadiene styrene rubber, its material composition is: styrene-butadiene rubber 33-35%, sulphur 1.3-1.5%, zinc paste 2-4%, stearic acid 1.3-1.5%, medium accelerator 1-3%, dag: 5.4-5.6%, aging resister 1.2-1.4%, antistatic agent SP:4.5-5.5%, softening oil 5-7%, rubber powder 15-17%, coupling agent 1.3-1.5%, all the other are inserts.

6. hydraulic pressure platen screw thread lock pin styrene-butadiene rubber wheel pressuring plate glass pilot system according to claim 5, it is characterized in that: the wheel chute (514) on described deckle clamp portion (519) and between the slippage wheel (541) in the right slippage part (548) for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the step pivot pin (574) in transition on described deckle clamp portion (519) fluting (571) and the right slippage part (548);

Wheel chute (514) in described the right slippage part (549) and between the slippage wheel (541) in opposite side slippage part (538) for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the step pivot pin (574) in transition in described the right slippage part (549) fluting (571) and opposite side slippage part (538);

Wheel chute (514) on described left side clamp portion (529) and between the slippage wheel (541) in deckle slippage part (518) for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the step pivot pin (574) in transition on described left side clamp portion (529) fluting (571) and deckle slippage part (518);

Wheel chute (514) on described opposite side clamp portion (539) and between the slippage wheel (541) in left side slippage part (528) for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the step pivot pin (574) in transition on described opposite side clamp portion (539) fluting (571) and left side slippage part (528).