CN204714704U - A kind of module extension mechanism of glass cracker - Google Patents

Abstract

The utility model relates to a kind of module extension mechanism of glass cracker, X-axis plate connects several assemblies along its guide rail successively by connecing arm, each assembly is equipped with a Y-axis plate, each Y-axis plate connects several hinge modules along its guide rail successively by connecing arm, connect arm to move on Y-axis plate or X-axis plate along guide rail, each hinge module upper rail is connected with two hinged slide blocks, and hinged slide block can move on hinge module along guide rail.The array mode of X-axis plate and Y-axis plate can make the hinge module of all rectanglar arrangements move in X-axis and Y direction, forms the matrix structure that length and width size is different; Several assemblies move along X-direction by the arm that connects connecting X-axis plate, and simultaneously hinged Y-axis plate connects arm expansion by screw mandrel cooperation; Hinge module on same Y-axis plate moves along Y direction by the arm that connects be connected between Y-axis plate and hinge module, and hinged slide block connects arm expansion by shaft simultaneously.

Description

A kind of module extension mechanism of glass cracker

Technical field

The utility model relates to the two-dimensional expansion device before and after a kind of glass two dimension cracking process, particularly relates to a kind of module extension mechanism of glass cracker.

Background technology

The screen of electronic product can adopt the glass of various material, glass needs to cut according to the screen shape of corresponding electronic product and size, the process cut is comparatively complicated, need first to adopt glass cutter that predetermined shape and size are installed and block division is carried out to glass, and mark off cut at glass surface, then along cut, glass is broken jackknifing solution to come, the above-mentioned process going out cut by Region dividing comparatively easily realizes mechanize, automated operation, and the operation of itself is also comparatively simple, but the glass after cut is broken to be converted into the process that cracking opens just comparatively complicated, first, the dynamics of breaking jackknifing solution can according to the length of cut, the various factorss such as the length thickness of glass are different and change, machinery equipment is difficult to fixing quantity dynamics, secondly, be folded in journey breaking, need to determine to the force application location of cut both sides glass, 3rd, also to determine the direction of the force of cut both sides glass.Above-mentioned mechanize and the very difficult realization of automatization of breaking jackknifing solution preocess, does not particularly exist in prior art and breaks disposable for monolithic glass the some pieces little glass that folding is cracked into the arrangement in matrix structure.

Summary of the invention

The utility model overcomes the deficiencies in the prior art, and providing a kind of can will carry out the module extension mechanism of the glass cracker of instant adjustment according to the distribution situation of glass before and after glass cracking.

For achieving the above object, the technical solution adopted in the utility model is: a kind of module extension mechanism of glass cracker, it is characterized in that, X-axis plate connects several assemblies along its guide rail successively by connecing arm, each assembly is equipped with a Y-axis plate, each described Y-axis plate connects several hinge modules along its guide rail successively by connecing arm, the described arm that connects can move on Y-axis plate or X-axis plate along guide rail, each described hinge module upper rail is connected with two hinged slide blocks, described hinged slide block can move on hinge module along guide rail, described hinge module is provided with several suckers.

In the utility model preferred embodiment, some blocks of Y-axis plates are hinged successively along the axis of described X-axis plate; Each several hinge modules be connected on same Y-axis plate, the axis all along Y-axis plate is hinged successively.

In the utility model preferred embodiment, each described Y-axis plate is equipped with hinge hole, adjacent two blocks of Y-axis plates are all hinged by the connecting shaft be arranged in hinge hole, and described connecting shaft axis is axially parallel with described Y-axis plate.

In the utility model preferred embodiment, each hinge module is equipped with hinge hole, adjacent two hinge modules be connected on same Y-axis plate are all hinged by the connecting shaft be arranged in hinge hole, and described connecting shaft axis is axially parallel with described Y-axis plate.

In the utility model preferred embodiment, each described Y-axis plate and each described hinge module both sides are equipped with connecting shaft, connect arm described in every root connecting shaft all connects.

In the utility model preferred embodiment, described in connect arm rotating shaft and connect described connecting shaft.

In the utility model preferred embodiment, adjacent two of being connected on same X-axis plate connect between arm or adjacent two of being connected on same Y-axis plate to connect between arm and all mate screw mandrel together by screw thread and silk braid links together, and described screw mandrel axis is with described to connect the rail axis that arm connects parallel.

In the utility model preferred embodiment, all mate screw mandrel together by screw thread between adjacent two Y-axis plates and silk braid links together, the axis being parallel of described screw mandrel axis and described Y-axis plate.

In the utility model preferred embodiment, described hinge module is provided with threaded rod, described threaded rod two ends rotating shaft is fixed on described hinge module, the length of each half of described threaded rod respectively thread bush is connected in the thread bush of two described hinged slide blocks, the hand of spiral of the screw thread on the two halves of described threaded rod is contrary, and described thread bush is arranged on the end plate of described hinged slide block.

In the utility model preferred embodiment, the equal connecting drive device in described screw mandrel one end and described threaded rod one end.

The utility model solves the defect existed in background technology, and the array mode of the utility model X-axis plate and Y-axis plate can make the hinge module of all rectanglar arrangements move in X-axis and Y direction, forms the matrix structure that length and width size is different; Several assemblies move along X-direction by the arm that connects connecting X-axis plate, and simultaneously hinged Y-axis plate connects arm expansion by screw mandrel cooperation; In like manner, the hinge module on same Y-axis plate moves along Y direction by the arm that connects be connected between Y-axis plate and hinge module, and hinged slide block connects arm expansion by shaft simultaneously; The expansion of above-mentioned X-axis and Y-axis both direction all can steadily be realized smoothly by bilevel routing motion, and the matrix array structure of hinge module also can be adjusted flexibly; Adjustment process can be suck before monolithic glass breaks jackknifing solution at hinge module, to adjust the size that each hinge module breaks the transparency area of folding, also can be that monolithic glass is broken after folding is cracked into fritter by hinge module, to adjust the position that every block glass places according to different matrix size.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the three-dimensional structure diagram one of preferred embodiment of the present utility model;

Fig. 2 is the three-dimensional structure diagram two of preferred embodiment of the present utility model;

Fig. 3 is the three-dimensional structure diagram of preferred embodiment Y-axis plate inferior portion of the present utility model;

Fig. 4 is the three-dimensional structure diagram of preferred embodiment Y-axis plate upper section of the present utility model;

Fig. 5 is the stereographic map of the assembly of preferred embodiment of the present utility model;

Fig. 6 is the stereographic map of the hinge module of preferred embodiment of the present utility model;

In figure: 1, X-axis plate, 2, Y-axis plate, 3, assembly, 4, hinge module, 5, connecting shaft, 6, connect arm, 7, hinged slide block, 8, hinge hole, 9, end plate, 10, suction disc, 11, sucker, 12, thread bush, 13, threaded rod, 14, cylinder, 15, retaining plate, 16, drive plate, 17, bearing, 18, guide rail, 19, Z axis plate, 20, motor, 21, belt pulley, 22, glass, 23, screw mandrel, 24, silk braid.

Embodiment

Be described in further detail the utility model in conjunction with the accompanying drawings and embodiments now, these accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.

As shown in figures 1 to 6, a kind of module extension mechanism of glass cracker, X-axis plate 1 connects several assemblies 3 along its guide rail 18 successively by connecing arm 6, each assembly 3 is equipped with a Y-axis plate 2, each Y-axis plate 2 connects several hinge modules 4 along its guide rail 18 successively by connecing arm 6, connect arm 6 to move on Y-axis plate 2 or X-axis plate 1 along guide rail 18, each hinge module 4 upper rail 18 is connected with two hinged slide blocks 7, hinged slide block 7 can move on hinge module 4 along guide rail 18, and hinge module 4 is provided with several suckers 11.What the glass 22 bottom hinge module 4 can unclasp by sucker 11 sucks.

The array mode of X-axis plate 1 and Y-axis plate 2 can make the hinge module 4 of all rectanglar arrangements move in X-axis and Y direction, forms the matrix structure that length and width size is different; Several assemblies 3 move along X-direction by the arm 6 that connects connecting X-axis plate 1, and simultaneously hinged Y-axis plate 2 connects arm 6 by screw mandrel 23 cooperation and expands; In like manner, the hinge module 4 on same Y-axis plate 2 moves along Y direction by the arm 6 that connects be connected between Y-axis plate 2 and hinge module 4, and simultaneously hinged slide block 7 is coordinated by threaded rod 13 and connects arm 6 and expand; The expansion of above-mentioned X-axis and Y-axis both direction all can steadily be realized smoothly by bilevel routing motion, and the matrix array structure of hinge module 4 also can be adjusted flexibly; Adjustment process can be suck before monolithic glass 22 breaks jackknifing solution at hinge module 4, to adjust the size that each hinge module 4 breaks glass 22 area of folding, also can be that monolithic glass 22 is broken after folding is cracked into fritter by hinge module 4, to adjust the position that every block glass 22 places according to different matrix size.

Some blocks of Y-axis plates 2 are hinged successively along the axis of X-axis plate 1, and each Y-axis plate 2 is equipped with hinge hole 8, and adjacent two blocks of Y-axis plates 2 are all hinged by the connecting shaft 5 be arranged in hinge hole 8, and connecting shaft 5 axis is axially parallel with Y-axis plate 2.The hinged relative angle that just can realize between adjacent two Y-axis plates 2 of Y-axis plate 2 rotates, and rotates with the connecting shaft 5 of hinged two Y-axis plates 2 for axis.

Each several hinge modules 4 be connected on same Y-axis plate 2, axis all along Y-axis plate 2 is hinged successively, each hinge module 4 is equipped with hinge hole 8, adjacent two hinge modules 4 be connected on same Y-axis plate 2 are all hinged by the connecting shaft 5 be arranged in hinge hole 8, and connecting shaft 5 axis is axially parallel with Y-axis plate 2.The hinged relative angle that just can realize between adjacent two hinge modules 4 of hinge module 4 rotates, and rotates with the connecting shaft 5 of hinged two hinge modules 4 for axis.

Each Y-axis plate 2 and each hinge module 4 both sides are equipped with connecting shaft 5, and every root connecting shaft 5 all connects arm 6, connect arm 6 rotating shaft and connect connecting shaft 5.

Adjacent two of being connected on same X-axis plate 1 connect between arm 6 or adjacent two of being connected on same Y-axis plate 2 to connect between arm 6 and all mate screw mandrel 23 together by screw thread and silk braid 24 links together, screw mandrel 23 axis and guide rail 18 axis being parallel connecing arm 6 and be connected.

All screw mandrel 23 is together mated by screw thread and silk braid 24 links together, the axis being parallel of screw mandrel 23 axis and Y-axis plate 2 between adjacent two Y-axis plates 2.

Hinge module 4 is provided with threaded rod 13, threaded rod 13 two ends rotating shaft is fixed on hinge module 4, the length of each half of threaded rod 13 respectively thread bush 12 is connected in the thread bush 12 of two hinged slide blocks 7, the hand of spiral of the screw thread on the two halves of threaded rod 13 is contrary, thread bush 12 is arranged on the end plate 9 of hinged slide block 7, the equal connecting drive device in screw mandrel 23 one end and threaded rod 13 one end.

A kind of glass 22 cracking transition assembly 3, comprise: by several hinge modules 4 that connecting shaft 5 is hinged, and connect several of connecting shaft 5 one by one and connect arm 6, connecing arm 6 the other end slide rail is connected on Y-axis plate 2, each hinge module 4 is equipped with several suckers 11, connects on arm 6 and be also provided with retractor device.

The utility model, by connecing the retractor device on arm 6, achieves the displacement that the end of each hinge module 4 is different, and then realizes the rotation between adjacent two hinge module 4 planes; Several hinge modules 4 are arranged on the slide rail of Y-axis plate 2, each hinge module 4 is provided with two slide blocks connected by threaded rod 13 simultaneously, achieve along the movement of Y-axis plate 2 axis and expansion between hinge module 4, the spacing between hinge module 4 is regulated glass 22 area that same hinge module 4 correspondence is drawn simultaneously also to be adjusted.

The sucker 11 that the utility model is arranged can be drawn or suck applying to the glass 22 of hinge module 4 corresponding zone and break folding power, in two coaxial hinge holes 8, connecting shaft 5 is set, such connecting shaft 5 just can connect four hinge holes 8 of adjacent two hinge modules 4, namely a connecting shaft 5 achieves the hinged of two hinge modules 4, respectively there is a connecting shaft 5 at same like this hinge module 4 two ends, can realize hinge module 4 rotation so that realize adjacent two hinge modules 4 pairs of glass 22 break jackknifing solution; Threaded rod 13 can realize the change of spacing between two hinged slide blocks 7, so realize adjacent two hinge modules 4 pairs of different area size glass 22 break jackknifing solution.

Several connect arm 6 and to arrange successively setting along Y-axis plate 2, and adjacent two connect and mate screw mandrel 23 together by screw thread between arm 6 and silk braid 24 links together, and screw mandrel 23 axis is consistent with Y-axis plate 2 axis, screw mandrel 23 one end connecting drive device; Drive unit is motor 20, and screw mandrel 23 one end is fixed on retaining plate 15 together with motor 20, and motor 20 drives screw mandrel 23 by belt pulley 21, and screw mandrel 23 the other end thread bush 12 is connected on drive plate 16, and drive plate 16 is provided with silk braid 24.Screw mandrel 23 and silk braid 24 structure achieve the adjustment of the spacing of adjacent arm 6, ensure and the slide block synchronization control on each hinge module 4, also realize allly connecing axis keeping parallelism between arm 6, connect rotating shaft between arm 6 with connecting shaft 5 to be connected and can to realize connecing arm 6 and temporarily to tilt in moving process certain angle, for the controllability of entirety provides elastic space.

Hinge module 4 upper rail 18 connects two hinged slide blocks 7, threaded rod 13 two ends rotating shaft is fixed on hinge module 4, the length of each half of threaded rod 13 respectively thread bush 12 is connected in the thread bush 12 of two hinged slide blocks 7, the hand of spiral of the screw thread on the two halves of threaded rod 13 is contrary, and thread bush 12 is arranged on the end plate 9 of described hinged slide block 7.This structure can realize threaded rod 13 when rotated, two end plates 9 drive corresponding hinge module 4 to move in the opposite direction, realizing threaded rod 13 rotation is, two hinge modules 4 synchronous near or away from, and then realizing the adjustment regulating length between hinge module 4 two ends, threaded rod 13 one end connects motor 20 by belt pulley 21.

Connect arm 6 and be provided with odd number, be positioned at middle one to connect arm 6 and be not provided with retractor device, the maximal dilation amount connecing the retractor device that arm 6 connects increases from the middle to both ends successively, like this when starting position, sucker 11 bottom all hinge modules 4 is all in the same plane, then after the retractor device connect on arm 6 does maximal dilation, sucker 11 bottom several hinge modules 4 simulates an approximate arcuate structure, certain angle is created between adjacent two hinge modules 4, gone out not break jackknifing and untie by the mid-line of glass 22 between adjacent two hinge modules 4 that sucker 11 sucks in this process.

Retractor device is cylinder 14, connect rotating shaft between arm 6 with connecting shaft 5 to be connected, connect rotating shaft between arm 6 with cylinder 14 to be connected, it is flexible that two above-mentioned place's pivot structures are provided with the bending connecing arm 6 in the regulate process helping hinge module 4 spacing and connect arm 6 spacing, improves overall performance-adjustable.

Two on same hinge module 4 hinged slide blocks 7 in the outer part one end all coaxial be provided with two hinge holes 8, bearing 17 is provided with in hinge hole 8, a connecting shaft 5 is set in two hinge holes 8 jointly, two hinge holes 8 can be firm bearing 17 fix a connecting shaft 5, such connecting shaft 5 is when being subject to the pulling force perpendicular to connecting shaft 5 axis direction, connecting shaft 5 can rotation relatively, thus ensure that the direction of pull that connecting shaft 5 is subject to is consistent all the time, such hinge module 4 also can overallly realize relatively rotating with connecting shaft 5 in the stressed moving process of connecting shaft 5, objectively achieve the rotation that glass 22 breaks jackknifing solution preocess and break folding, make glass 22 cracking comparatively smooth.

The inner side spacing of two hinge holes 8 on a described hinged slide block 7 is more than or equal to the outside spacing of two hinge holes 8 on another hinged slide block 7.The hinge hole 8 that this kind of structure can realize between adjacent two hinge modules 4 can, by coaxial being connected on same connecting shaft 5 simultaneously, just can drive the end of two hinge modules 4 to move as long as drive same connecting shaft 5 to move so simultaneously.

A kind of hinge module for glass cracking, comprise: suction disc 10 and the hinged slide block 7 be connected with suction disc 10 guide rail 18, suction disc 10 one side is placed with several suckers 11, two hinged slide blocks 7 that another side guide rail 18 connects are drawn close together by middle one end, and two hinged slide blocks 7 are equipped with at least one hinge hole 8 in one end in the outer part.Glass 22 and hinge module 4 can be fixed together by negative pressure absorbing by sucker 11, thus when hinge module 4 rotates, drive the glass 22 of corresponding area position to move, and two adjacent hinge modules 4 just realize breaking jackknifing solution to glass 22.Hinge hole 8 is all positioned at two outboard end of hinge module 4, connecting shaft 5 like this by driving hinge hole 8 neck bearing 17 to connect just can drive hinge module 4 to turn an angle, rotation is that two connecting shafts 5 by being separately positioned on hinge module 4 two ends realize, two connecting shafts 5 are driven respectively and move towards different directions, thus drive hinge module 4 unitary rotation.

Several suckers 11 are evenly arranged in sucker 11 one side according to rectangular configuration, such hinge module 4 just evenly can apply suction to the glass 22 of corresponding area position, when hinge module 4 carries out breaking jackknifing solution glass 22, sucker 11 and glass 22 are not easy, because stressedly irregularly cause getting loose of sucker 11, to make glass 22 broken.

The sucker 11 arranged can be drawn or suck applying to the glass 22 of hinge module 4 corresponding zone and break folding power, in two coaxial hinge holes 8, connecting shaft 5 is set, such connecting shaft 5 just can connect four hinge holes 8 of adjacent two hinge modules 4, namely a connecting shaft 5 achieves the hinged of two hinge modules 4, respectively there is a connecting shaft 5 at same like this hinge module 4 two ends, can realize hinge module 4 rotation so that realize adjacent two hinge modules 4 pairs of glass 22 break jackknifing solution; Threaded rod 13 can realize the change of spacing between two hinged slide blocks 7, so realize adjacent two hinge modules 4 pairs of different area size glass 22 break jackknifing solution.

Be provided with bearing 17 in hinge hole 8, in two coaxial hinge holes 8, a connecting shaft 5 is set jointly.Bearing 17 ensures to have between connecting shaft 5 and hinge module 4 to relatively rotate performance preferably.

Module is also provided with transmission mechanism, described transmission mechanism is the structure that threaded rod 13 mates thread bush 12, described threaded rod 13 axis and described guide rail 18 axis being parallel, threaded rod 13 two ends rotating shaft is fixed on described suction disc 10, and the length of each half of described threaded rod 13 respectively thread bush 12 is connected in the thread bush 12 of two described hinged slide blocks 7.Hinged slide block 7 is arranged on the slide rail of suction disc 10, like this when hinged slide block 7 moves, hinge hole 8 also can follow movement, thus the spacing between two connecting shafts 5 realizing same hinge module 4 two ends can adjust at any time, the distance achieved like this between hinge module 4 two ends also follows change, so glass 22 area of hinge module 4 correspondence also can follow change.Threaded hole on end plate 9 can realize mating with the screw thread of threaded rod 13, threaded rod 13 thus two hinged slide blocks 7 can be driven synchronous near can be away from.

Threaded rod 13 one end connects motor 20 by belt pulley 21, and this structure achieves the automatization position adjustments of two hinged slide blocks 7 on same hinge module 4.

Sucker 11 is communicated with negative pressure device, realizes the absorption automatization of hinge module 4 pairs of glass 22, is communicated with negative pressure, draws and suck glass 22, and disconnect negative pressure, hinge module 4 unclamps with glass 22 and is separated.

The utility model in use, all correspondingly on connecting shaft 5 be connected with one and connect arm 6, connecing arm 6 drives connecting shaft 5 to move up and down, each arm 6 that connects connects Y-axis plate 2 apart from slide rail, the connecting shaft 5 at same like this hinge module 4 two ends is driven the displacement realizing different size, and then cause suction disc 10 bottom adjacent two hinge modules 4 mutually at an angle, thus realize glass 22 and broken jackknifing solution.When needing another size glass 22 of cracking or when being distributed in another size position by the every sheet glass 22 after cracking, synchronization control is only needed to connect spacing on the spacing of arm 6 on Y-axis plate 2 and same hinge module 4 between two slide blocks.

X-axis plate 1 is gone back guide rail 18 and be connected with Z axis plate 19, described X-axis plate 1 can move along guide rail 18 on the whole on Z axis plate 19, Z axis plate 19 can be driven by external device and move along Z axis simultaneously, and wherein X, Y, Z represent 3 D stereo system of coordinates respectively, and three is mutually vertical.

Above according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, related personnel in the scope not departing from this utility model technological thought, can carry out various change and amendment completely.The technical scope of this utility model is not limited to the content on specification sheets, must determine technical scope according to right.

Claims (10)

1. the module extension mechanism of a glass cracker, it is characterized in that, X-axis plate connects several assemblies along its guide rail successively by connecing arm, each assembly is equipped with a Y-axis plate, each described Y-axis plate connects several hinge modules along its guide rail successively by connecing arm, the described arm that connects can move on Y-axis plate or X-axis plate along guide rail, each described hinge module upper rail is connected with two hinged slide blocks, described hinged slide block can move on hinge module along guide rail, and described hinge module is provided with several suckers.

2. the module extension mechanism of a kind of glass cracker according to claim 1, is characterized in that: some blocks of Y-axis plates are hinged successively along the axis of described X-axis plate; Each several hinge modules be connected on same Y-axis plate, the axis all along Y-axis plate is hinged successively.

3. the module extension mechanism of a kind of glass cracker according to claim 2, it is characterized in that: each described Y-axis plate is equipped with hinge hole, adjacent two blocks of Y-axis plates are all hinged by the connecting shaft be arranged in hinge hole, and described connecting shaft axis is axially parallel with described Y-axis plate.

4. the module extension mechanism of a kind of glass cracker according to claim 2, it is characterized in that: each hinge module is equipped with hinge hole, adjacent two hinge modules be connected on same Y-axis plate are all hinged by the connecting shaft be arranged in hinge hole, and described connecting shaft axis is axially parallel with described Y-axis plate.

5. the module extension mechanism of a kind of glass cracker according to claim 3 or 4, is characterized in that: each described Y-axis plate and each described hinge module both sides are equipped with connecting shaft, connect arm described in every root connecting shaft all connects.

6. the module extension mechanism of a kind of glass cracker according to claim 5, is characterized in that: described in connect arm rotating shaft and connect described connecting shaft.

7. the module extension mechanism of a kind of glass cracker according to claim 5, it is characterized in that: adjacent two of being connected on same X-axis plate connect between arm or adjacent two of being connected on same Y-axis plate to connect between arm and all mate screw mandrel together by screw thread and silk braid links together, described screw mandrel axis is with described to connect the rail axis that arm connects parallel.

8. the module extension mechanism of a kind of glass cracker according to claim 7, it is characterized in that: all mate screw mandrel together by screw thread between adjacent two Y-axis plates and silk braid links together, the axis being parallel of described screw mandrel axis and described Y-axis plate.

9. the module extension mechanism of a kind of glass cracker according to claim 8, it is characterized in that: described hinge module is provided with threaded rod, described threaded rod two ends rotating shaft is fixed on described hinge module, the length of each half of described threaded rod respectively thread bush is connected in the thread bush of two described hinged slide blocks, the hand of spiral of the screw thread on the two halves of described threaded rod is contrary, and described thread bush is arranged on the end plate of described hinged slide block.

10. the module extension mechanism of a kind of glass cracker according to claim 9, is characterized in that: the equal connecting drive device in described screw mandrel one end and described threaded rod one end.