CN204964312U - Plate wheel platen screw fastening pin bearing plate glass inspection machine - Google Patents

Abstract

The utility model relates to a toughened glass tests verifying attachment, a plate wheel platen screw fastening pin bearing plate glass inspection machine, as the improvement: there is a platen pivot test platen both sides, and the platen pivot of both sides is rotatable fixing in bearing respectively, and bearing fixes plane in board -like frame, it has a support limit stop to go up the position after the board -like frame, and plane is down held behind the test platen to the support limit stop, still be fixed with manual plate wheel in the platen pivot of one side, have between platen pivot and the manual plate wheel and also have the plate wheel crank handle on the manual plate wheel lateral surface of plate wheel parallel key, double -screw bolt lockpin external screw thread closes with lock dowel support hole thread to match, and lock dowel support fixes plane in board -like frame, and the cylinder bulb of the double -screw bolt lockpin end of both sides can get into locking positioning in the spiral shell awl post lockhole of test platen both sides, but manual plate wheel drives test platen flip structure and sets up, is convenient for drive garrulous glass piece and drives, is equipped with garrulous glass recovery container, guarantees that garrulous glass piece does not spill.

Description

A kind of plate wheel platen screw fastening pin bearing clamping plate glass check equipment

Technical field

The utility model 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 a kind of plate wheel platen screw fastening pin bearing clamping plate glass check equipment 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 utility model adopts plate wheel Turnover testing platen, be equipped with cullet returnable, in conjunction with the isoplanar bearing slideway cleat assembly in surrounding, the right clamp plate portion 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:

A kind of plate wheel platen screw fastening pin bearing clamping plate glass check equipment, 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, the platen rotating shaft of both sides is rotatable to be respectively fixed in bearing spider, bearing spider is fixed on plane on plate frame, there is support limit stop described position, plate frame upper back, support limit stop hold test platen after lower plane,

The platen rotating shaft of side is also fixed with manual plate wheel, has between platen rotating shaft and manual plate wheel on the manual plate wheel lateral surface of plate wheel flat key and also have plate wheel crank handle;

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 bearing cleat assembly 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.

As further improvement: described test platen has Boards wall screw, in described isoplanar bearing cleat assembly at least one clamp plate portion clamping plate on plane has clamping plate step through-hole, sunk screw passes through described clamping plate step through-hole and matches with described Boards wall screw.

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 bearing cleat assembly is made up of the bearing isoplanar clamping plate that four physical dimensions are identical, be respectively: on the right of clamping plate deckle, the clamping plate left side, clamping plate opposite side and clamping plate, every bearing isoplanar clamping plate comprise clamp plate portion and slippage part, clamping plate deckle comprises deckle clamp plate portion and deckle slippage part, the clamping plate left side comprises left side clamp plate portion and left side slippage part, clamping plate opposite side comprises opposite side clamp plate portion and opposite side slippage part, comprises the right clamp plate portion and the right slippage part on the right of clamping plate;

Described slippage part is positioned at described clamp plate portion one end and is overlapped on plane on clamp plate portion; The lower surface of described slippage part is slippage lower plane, slippage lower plane there is rolling bearing, and have bearing bearing pin between rolling bearing 541 and slippage lower plane, the upper surface of described clamp plate portion is plane on clamping plate, plane there is bearing slideway with clamping plate, and bearing slideway and clamping plate have transition to slot between plane, there is blind slot space bottom bearing slideway, and the single-ended opening of described bearing slideway;

Described bearing bearing pin outer end has axle jump ring to block described rolling bearing, and axle jump ring is positioned among described blind slot space, has the space of 0.5 to 0.7 millimeter between axle jump ring and blind slot space;

On described slippage lower plane and described clamping plate, plane is in sustained height; There is clamping plate slope inside clamp plate portion, clamping plate slope is also attached with rubber compressing tablet;

For being slidably matched between rolling bearing in bearing slideway on described deckle clamp plate portion and the right slippage part, between the bearing bearing pin in the transition fluting on described deckle clamp plate portion and the right slippage part, there are 1.2 to 1.4 millimeters of gaps;

For being slidably matched between rolling bearing in bearing slideway on described the right clamp plate portion and opposite side slippage part, between the bearing bearing pin in the transition fluting on described the right clamp plate portion and opposite side slippage part, there are 1.2 to 1.4 millimeters of gaps;

For being slidably matched between rolling bearing in bearing slideway on described left side clamp plate portion and deckle slippage part, between the bearing bearing pin in the transition fluting on described left side clamp plate portion and deckle slippage part, there are 1.2 to 1.4 millimeters of gaps;

For being slidably matched between rolling bearing in bearing slideway on described opposite side clamp plate portion and left side slippage part, between the bearing bearing pin in the transition fluting on described opposite side clamp plate portion and left side slippage part, there are 1.2 to 1.4 millimeters of gaps.

the utility model beneficial effect is:

(1), manual plate wheel drives the turning vibrational power flow of test platen, be convenient to remove chunk glass remove, be equipped with cullet returnable, guarantee that chunk glass does not scatter, manual plate wheel combined support block 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.

(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 bearing cleat assembly is adopted, particularly slippage part is positioned at clamp plate portion one end and is overlapped on plane on clamp plate portion, and plane is in sustained height on described slippage lower plane and described clamping plate, guarantee that tested armourplate glass surrounding is in same plane and is fixed, discontinuity.

(4), between the rolling bearing of every limit clamping plate and adjacent bearing slideway for being slidably matched, realize can regulating arbitrarily continuously the armourplate glass of different specification size.

(5) angle on, described clamping plate slope and clamping plate between plane is 51-53 to spend, and described clamping 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 is the utility model stereoscopic appearance figure, unloads except isoplanar bearing cleat assembly 500 in figure.

Fig. 2 be manual plate wheel 161 position in Fig. 1 along manual plate wheel 161 axial line vertical cross section.

Fig. 3 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. 4 is that the cylinder bulb 199 of stud lock pin 189 termination in Fig. 3 bores column lockhole 198 disengaged condition with spiral shell.

Fig. 5 is the plate frame 200 stereoscopic appearance figure separately in Fig. 1.

Fig. 6 is the test platen 190 stereoscopic appearance figure separately in Fig. 1.

Fig. 7 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. 8 is cullet returnable in Fig. 1 140 and the stereoscopic appearance figure of container discharge door 146 assembly.

Fig. 9 is that the cullet returnable 140 in Fig. 8 unloads the independent stereoscopic appearance figure after except container discharge door 146.

Isoplanar bearing cleat assembly 500 placed by test platen 190 in Fig. 1 to Figure 10, and is fixed wtih the duty stereoscopic appearance figure of armourplate glass 600.

Duty stereoscopic appearance figure when Figure 11 is removing test platen 190 rotation in Figure 10, in figure, isoplanar bearing cleat assembly 500 unloads except the side of two wherein, also unloads except plate wheel nut 188.

Figure 12 is the vertical view that the isoplanar bearing cleat assembly 500 in Figure 10 is combinationally using.

Figure 13 is the A-A cut-open view in Figure 12.

Figure 14 is the B-B cut-open view in Figure 12, is placed on test platen 190 after armourplate glass 600 is fixed.

Figure 15 is the vertical view of the clamping plate deckle 510 in Figure 12.

Figure 16 is the partial enlarged drawing in Figure 13.

Figure 17 removes rolling bearing 541, the right slippage part 548 and bearing bearing pin 574 in Figure 16.

Figure 18 is the isometric front view of Figure 15.

Figure 19 is the rear isometric view of Figure 15.

Embodiment

The utility model is described in detail below in conjunction with the drawings and specific embodiments:

Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 7, Fig. 8, Fig. 9, Figure 10, with in Figure 12: a kind of plate wheel platen screw fastening pin bearing clamping plate glass check equipment, 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, the platen rotating shaft 196 of both sides is rotatable to be respectively fixed in bearing spider 163, bearing spider 163 is fixed on plane on plate frame 200, there is support limit stop 202 described position, plate frame 200 upper back, and support limit stop 202 holds the rear lower plane of test platen 190,

The platen rotating shaft 196 of side is also fixed with manual plate wheel 161, has between platen rotating shaft 196 and manual plate wheel 161 on plate wheel flat key 168 manual plate wheel 161 lateral surface and also have plate wheel crank handle 155;

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 bearing cleat assembly 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.

As further improvement: described test platen 190 has Boards wall screw 197, in described isoplanar bearing cleat assembly 500 at least one clamp plate portion clamping plate on plane 516 has clamping plate step through-hole 501, sunk screw 195 passes through described clamping plate step through-hole 501 and matches with described Boards wall screw 197.

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. 8, Fig. 9: 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, swash plate 141 highest point of the rear end 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: Figure 10, Figure 11, Figure 12, Figure 13, Figure 14, Figure 15, Figure 16, Figure 17, in Figure 18 with Figure 19: described isoplanar bearing cleat assembly 500 is made up of the bearing isoplanar clamping plate that four physical dimensions are identical, be respectively: clamping plate deckle 510, the clamping plate left side 520, on the right of clamping plate opposite side 530 and clamping plate 540, every bearing isoplanar clamping plate comprise clamp plate portion and slippage part, clamping plate deckle 510 comprises deckle clamp plate portion 519 and deckle slippage part 518, the clamping plate left side 520 comprises left side clamp plate portion 529 and left side slippage part 528, clamping plate opposite side 530 comprises opposite side clamp plate portion 539 and opposite side slippage part 538, on the right of clamping plate, 540 comprise the right clamp plate portion 549 and the right slippage part 548,

Described slippage part is positioned at described clamp plate portion one end and is overlapped on plane on clamp plate portion; The lower surface of described slippage part is slippage lower plane 561, slippage lower plane 561 there is rolling bearing 541, and have bearing bearing pin 574 between rolling bearing 541 and slippage lower plane 561, the upper surface of described clamp plate portion is plane 516 on clamping plate, plane 516 there is bearing slideway 514 with clamping plate, and bearing slideway 514 and clamping plate have transition to slot 571 between plane 516, there is blind slot space 517 bottom bearing slideway 514, and the described single-ended opening of bearing slideway 514;

Described bearing bearing pin 574 outer end has axle jump ring 511 to block described rolling bearing 541, and axle jump ring 511 is positioned among described blind slot space 517, has the space of 0.5 to 0.7 millimeter between axle jump ring 511 and blind slot space 517;

Described slippage lower plane 561 is in sustained height with plane 516 on described clamping plate; Have clamping plate slope 515 inside clamp plate portion, the angle on clamping plate slope 515 and clamping plate between plane 516 is 44-46 to spend, and described described clamping plate slope 515 is bonded with the rubber compressing tablet 551 of one deck 2.7-2.9 millimeters thick.

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

For being slidably matched between rolling bearing 541 in bearing slideway 514 on described the right clamp plate portion 549 and opposite side slippage part 538, between the transition fluting 571 on described the right clamp plate portion 549 and the bearing bearing pin 574 in opposite side slippage part 538, there are 1.2 to 1.4 millimeters of gaps;

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

For being slidably matched between rolling bearing 541 in bearing slideway 514 on described opposite side clamp plate portion 539 and left side slippage part 528, between the transition fluting 571 on described opposite side clamp plate portion 539 and the bearing bearing 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, platen rotating shaft 196 outer end of side also have rotating shaft plate wheel section 192 and shaft thread 193, rotating shaft plate wheel section 192 there is rotating shaft keyway 194, plate wheel flat key 168 is furnished with in rotating shaft keyway 194, the effect of plate wheel flat key 168 allows transmission plate wheel 161 drive platen rotating shaft 196 to rotate, and then drives the rotation of test platen 190.

Described test platen 190 there are 4 Boards wall screws 197, in described isoplanar bearing cleat assembly 500 at least deckle clamp plate portion 519 clamping plate on plane 516 has 4 clamping plate step through-holes 501,4 sunk screws 195 pass through described clamping plate step through-hole 501 successively and match with described Boards wall screw 197, are fixed on described test platen 190 by described isoplanar bearing cleat assembly 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.

Angle on clamping plate slope 515 and clamping plate between plane 516 is 52 degree, clamping plate slope 515 is bonded with the rubber compressing tablet 551 of one deck 2.2 millimeters thick.

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.

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), counterclockwise rocking-turn plate wheel crank handle 155, manual plate wheel 161 is also rotated counterclockwise, then drives test platen 190 to rotate through plate wheel flat key 168, test platen 190 rear end lower plane pushes down support limit stop 202; Stud lock pin 189 on the lock pin crank handle 187 of the hand both sides of difference, make stud lock pin 189 enter locking positioning in the spiral shell cone column lockhole 198 of test platen 190 both sides, test platen 190 presents horizontality.

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

(3), above-mentioned surrounding ambient size is 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 clamping plate deckle 510 that mobile four physical dimensions are identical successively, the clamping plate left side 520, clamping plate opposite side 530 and clamping plate 540, the rubber compressing tablet 551 on every clamping plate is made to touch four limit outer rims of the armourplate glass 600 wanting tested;

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

(5), remove the bearing isoplanar clamping 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.

Clockwise rocking-turn plate wheel crank handle 155, manual plate wheel 161 is also turned clockwise, then test platen 190 is driven to rotate through plate wheel flat key 168, make test platen 190 rear end lower plane away from support limit stop 202, after being spent by inclination 10 to 20 by test platen 190, dispose tempered glass fragment and call among cullet returnable 140.

(6), counterclockwise rocking-turn plate wheel crank handle 155 again, make test platen 190 rear end lower plane push down support limit stop 202; 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, car will be raftinged and be 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 substantive distinguishing features of the utility model, guarantees to bring following progressive effect:

(1), manual plate wheel 161 drives the turning vibrational power flow of test platen 190, be convenient to remove chunk glass remove, be equipped with cullet returnable 140, guarantee that chunk glass does not scatter, manual plate wheel 161 combined support block 202 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, overcome transmission gear 161 and coordinate with manual gear 151 defect not having self-locking, make to keep firmly solid in armourplate glass 600 process of whole test.

(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 bearing cleat assembly 500 is adopted, particularly slippage part is positioned at clamp plate portion one end and is overlapped on plane on clamp plate portion, and described slippage lower plane 561 is in sustained height with plane 516 on described clamping plate, guarantee that tested armourplate glass 600 surrounding is in same plane and is fixed, discontinuity.

(4), between the rolling bearing 541 of every limit clamping plate and adjacent bearing slideway 514 for being slidably matched, realize can regulating arbitrarily continuously the armourplate glass 600 of different specification size.

(5) angle on, described clamping plate slope 515 and clamping plate between plane 516 is 51-53 to spend, and described clamping 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.

Claims (4)

1. a plate wheel platen screw fastening pin bearing clamping plate glass check equipment, 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), bearing spider (163) is fixed on the upper plane of plate frame (200), there is support limit stop (202) described plate frame (200) position, upper back, and support limit stop (202) holds test platen (190) lower plane afterwards,

The platen rotating shaft (196) of side is also fixed with manual plate wheel (161), has between platen rotating shaft (196) and manual plate wheel (161) on plate wheel flat key (168) manual plate wheel (161) lateral surface and also have plate wheel crank handle (155);

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 bearing cleat assembly (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.

2. a kind of plate wheel platen screw fastening pin bearing clamping plate glass check equipment according to claim 1, it is characterized in that: described test platen (190) has Boards wall screw (197), in described isoplanar bearing cleat assembly (500) at least one clamp plate portion clamping plate on plane (516) has clamping plate step through-hole (501), sunk screw (195) passes through described clamping plate step through-hole (501) and matches with described Boards wall screw (197).

3. a kind of plate wheel platen screw fastening pin bearing clamping plate glass check equipment 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).

4. a kind of plate wheel platen screw fastening pin bearing clamping plate glass check equipment according to claim 1, it is characterized in that: described isoplanar bearing cleat assembly (500) is made up of the bearing isoplanar clamping plate that four physical dimensions are identical, be respectively: clamping plate deckle (510), the clamping plate left side (520), on the right of clamping plate opposite side (530) and clamping plate (540), every bearing isoplanar clamping plate comprise clamp plate portion and slippage part, clamping plate deckle (510) comprises deckle clamp plate portion (519) and deckle slippage part (518), the clamping plate left side (520) comprises left side clamp plate portion (529) and left side slippage part (528), clamping plate opposite side (530) comprises opposite side clamp plate portion (539) and opposite side slippage part (538), on the right of clamping plate, (540) comprise the right clamp plate portion (549) and the right slippage part (548),

Described slippage part is positioned at described clamp plate portion one end and is overlapped on plane on clamp plate portion, the lower surface of described slippage part is slippage lower plane (561), slippage lower plane (561) there is rolling bearing (541), and have bearing bearing pin (574) between rolling bearing (541) and slippage lower plane (561), the upper surface of described clamp plate portion is plane (516) on clamping plate, plane (516) there is bearing slideway (514) with clamping plate, and bearing slideway (514) and clamping plate have transition to slot (571) between plane (516), blind slot space (517) is arranged at bearing slideway (514) bottom, and described bearing slideway (514) single-ended opening,

Described bearing bearing pin (574) outer end has axle jump ring (511) to block described rolling bearing (541), axle jump ring (511) is positioned among described blind slot space (517), has the space of 0.5 to 0.7 millimeter between axle jump ring (511) and blind slot space (517);

Described slippage lower plane (561) is in sustained height with plane (516) on described clamping plate; There is clamping plate slope (515) inside clamp plate portion, clamping plate slope (515) are also attached with rubber compressing tablet (551);

Bearing slideway (514) on described deckle clamp plate portion (519) and between the rolling bearing (541) in the right slippage part (548) for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the bearing bearing pin (574) in transition on described deckle clamp plate portion (519) fluting (571) and the right slippage part (548);

Bearing slideway (514) on described the right clamp plate portion (549) and between the rolling bearing (541) in opposite side slippage part (538) for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the bearing bearing pin (574) in transition on described the right clamp plate portion (549) fluting (571) and opposite side slippage part (538);

Bearing slideway (514) on described left side clamp plate portion (529) and between the rolling bearing (541) in deckle slippage part (518) for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the bearing bearing pin (574) in transition on described left side clamp plate portion (529) fluting (571) and deckle slippage part (518);

Bearing slideway (514) on described opposite side clamp plate portion (539) and between the rolling bearing (541) in left side slippage part (528) for being slidably matched, have 1.2 to 1.4 millimeters of gaps between the bearing bearing pin (574) in transition on described opposite side clamp plate portion (539) fluting (571) and left side slippage part (528).