CN1305793C - Double curved toughened glass cooling forming device - Google Patents

Abstract

The present invention discloses a device for cooling and shaping hyperbolical toughened glass, which comprises a frame, an upper shaping device, a lower shaping device and a conveying mechanism, wherein the upper shaping device is positioned at the upper part of the present invention and is capable of moving up and down; the glass shaping curved surfaces of the upper shaping device and the lower shaping device are respectively distributed according to certain density and are composed of point-shaped supporters of which the height is adjustable; the conveying mechanism is arranged on a vertical guide rail arranged on the frame and is capable of moving up and down; the conveying mechanism comprises a support rack, conveying belts and a driving mechanism; a plurality of conveying belts are wound on two driving shafts; the conveying mechanism is arranged on the vertical guide rail arranged on the frame by the support rack and is capable of moving up and down along the guide rail under the drive of the driving mechanism. The present invention uses the point-shaped supporters to form the desired hyperboloid and can form hyperboloids with any shape by regulating the height of the point-shaped supporters. Thus, the present invention overcomes the defects that in the prior art, one die corresponds to one hyperbolical product; the present invention reduces equipment investment, enhances equipment utilization rate and satisfies the requirements of flow line production.

Description

Double curved toughened glass cooling forming device

Technical field

The present invention relates to a kind of toughened glass cooling forming device, especially a kind of double curved toughened glass cooling forming device.

Background technology

The double curved toughened glass product is because it is complex-shaped, adopt the molding mode of existing crooked toughened glass, promptly make the glass automatic moulding by the shape that changes roller-way aborning, on equipment, be difficult to realize, thereby, usually adopt fixed mould to produce the product of the corresponding a kind of shape of each mould in the prior art.Because mold shape fixes, product is single, and therefore, there is the defective that facility investment is big, utilization ratio is low in this processing mode, and along with being on the increase of double curved toughened glass product category, also far away can not practical requirement.

Summary of the invention

At the deficiencies in the prior art, the purpose of this invention is to provide the adjustable double curved toughened glass cooling forming device of a kind of curved surface.

For achieving the above object, double curved toughened glass cooling forming device of the present invention comprises frame, compacted under device, gas quench system, transfer mechanism; The compacted under device is installed on the frame, and the glass ware forming curved surface of compacted under device constitutes by supporting by certain density distribution and adjustable for height point-like; Gas quench system cools off the high temp glass on the compacted under device by its gas vent, and transfer mechanism is sent into high temp glass, and the formed glass product is sent.

Further, also comprise shaped device, shaped device is positioned at the top of described compacted under device on this, and its structure is identical with the structure of compacted under device, the direction that its point-like supports is relative with the point-like support on the compacted under device, and last shaped device can move up and down under its drive mechanism.

Further, the position that each point-like supports on the position of the gas vent on the described gas quench system and the described upper and lower shaped device is complementary, and supports servo-actuated with each point-like.

Further, described transfer mechanism comprises bracing frame, conveying belt, driving mechanism, bracing frame is provided with the drive shaft of two suitable distances in interval, some conveying belt is wrapped on two drive shafts, the width of each conveying belt and face gap between the conveying belt mutually and cross dimensions and gap thereof that the point-like on the compacted under device supports suitable, transfer mechanism is installed on the vertical guideway that is provided with on the frame by its bracing frame, and can move up and down at its drive mechanism lower edge guide rail.

Further, described go up shaped device by chain or rope hanging on the hoisting mechanism that is provided with on the frame, and under the manipulation of hoisting mechanism, move up and down.

Further, the described shaped device of going up is installed on the vertical guideway that is provided with on the frame, and moves up and down under the driving of its driving mechanism.

Further, the point-like on the described upper and lower shaped device is supported for shaft-like, and its end is provided with running roller.

Further, be provided with the support bar that width and the conveying belt width above it are complementary below each conveying belt of described transfer mechanism, this support bar has suitable rigidity, and support bar is fixed on the support frame as described above.

Further, described conveying belt is to be with synchronously, and described associated drive shaft is provided with synchronous pulley.

Further, described upper and lower shaped device includes supporting seat, and described each point-like supports and is inserted into separately in the hole that is provided with on the supporting seat, and it is provided with return spring, and supporting seat is provided with corresponding locking mechanism; Described point-like supports and is made out of tubes, the pipe upper end has shrouding, the lower end has the cooling gas input aperture, be distributed with the cooling gas ejiction opening on the shrouding, described running roller is installed on the shrouding by spiro rod support, the height and the turning direction thereof of the relative shrouding of running roller are adjustable, and the screw rod of spiro rod support is provided with set nut; The supporting seat of compacted under device is fixed on the described frame, last shaped device also comprises support, its supporting seat is fixed on its support, and last shaped device is suspended on the hoisting mechanism that is provided with on the described frame by its support, or is installed on the vertical guideway that is provided with on the frame.

Further, the axis of rotation of the running roller on the described spiro rod support and screw axis are eccentric is provided with.

Further, described return spring is sleeved on the shaft of described point-like support, and spring one end leans on point-like supporting base end portion shrouding, and the other end leans on described supporting seat.

Further, described supporting seat is made of the tubular cross bearer of arranging at regular intervals, and described point-like supports and sets in a row with each crossbeam, and each point-like on every crossbeam supports at interval suitably distance; Described point-like supports locking mechanism and is separately positioned in its crossbeam of installing in the hole.

Further, described locking mechanism is the axle locking mechanism, this supports with locking mechanism and each point-like and matches one by one, comprise overcoat, lock core, stage clip, the arm-tie of unblanking, on the shaft that the described point-like that is sleeved on lock core supports, coat suit fixes in the lock core outside and with described crossbeam, compression spring sleeve is contained between overcoat and the lock core, several inclined-planes that are processed with conical surface section in the overcoat in the hole or arrange in the form of a ring, be provided with the lock pearl of matching in the hole that processes on the lock core wall with the conical surface in the hole or inclined-plane in the overcoat, be provided with the arm-tie of unblanking in the described every crossbeam, the arm-tie of unblanking is installed in the crossbeam and is provided with on the liner in the hole, it is provided with and the corresponding inclined-plane of each lock core, each lock core is pressed against respectively on the inclined-plane corresponding with it, and can under the manipulation of the arm-tie of unblanking, move up and down, to match with the conical surface that puts outward or inclined-plane and finish the locking of point-like support shaft and loosen thereupon described lock pearl, the arm-tie two ends of unblanking link to each other with operating mechanism.

Further, the described arm-tie operating mechanism of unblanking comprises driving cylinder, chain, sprocket wheel, back shaft, two back shafts be arranged on the crossbeam two ends and with the crossbeam relative fixed, be fixed with several and crossbeam quantity and position sprocket wheel one to one in the every support respectively, each arm-tie two ends of unblanking is continuous with relative separately sprocket wheel by chain respectively, driving cylinder and crossbeam fixes, its two ends piston rod rotates by the back shaft at chain or rope control crossbeam two ends respectively, and makes the arm-tie of unblanking produce axial displacement.

Further, described locking mechanism comprises two groups of overcoats, lock core, stage clip, and these two groups of overcoats, lock core, stage clips are symmetricly set on the described arm-tie both sides up and down of unblanking, and corresponding with it, the arm-tie top and bottom of unblanking are provided with the inclined-plane that matches with lock core.

Further, described transfer mechanism moves up and down at oil cylinder or its guide rail of cylinder driving lower edge.

The present invention's employing is supported by certain density distribution and adjustable for height point-like and is constituted required hyperboloid, adjust the height that each point-like supports, can constitute the hyperboloid of arbitrary shape, thereby changed the existing defective of the corresponding a kind of hyperboloid product of mould of prior art, reduced facility investment, improved plant factor, transfer mechanism moving up and down is set simultaneously after, satisfy the requirement that streamline is produced, guaranteed production efficiency.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Fig. 2 is a structure vertical view shown in Figure 1;

Fig. 3 is an A-A view among Fig. 1;

Fig. 4 is a B-B view among Fig. 1;

Fig. 5 is a D portion enlarged view among Fig. 1;

Fig. 6 is a C-C view among Fig. 5.

Embodiment

As Fig. 1～shown in Figure 4, double curved toughened glass cooling forming device of the present invention comprises frame, goes up shaped device, compacted under device, transfer mechanism.

Frame 1 is made of four root posts and some connection crossbeams 45, and wherein the frame top middle part also is provided with a crossbeam 11, is respectively arranged with a vertically-guided post 8 by bearing 2 on every root post.

Last shaped device comprises that crossbeam 9, point-like support 7, point-like support locking mechanism; Crossbeam 9 is made by square tube, and some crossbeams 9 are arranged in parallel at regular intervals, and crossbeam 9 ends interfix by connecting rod 47 respectively in twos, and together constitute a skeleton construction with both sides crossbeam 46, and every crossbeam 46 two ends are respectively arranged with an orienting sleeve 19; Several point-like all are installed on the every crossbeam 9 at regular intervals support 7, each point-like support 7 is inserted into downwards in the through hole that is provided with on the crossbeam 9 end respectively, and can move up and down and be locked, and each point-like supports 7 ends and all has running roller 38 (see figure 5)s; Point-like support locking mechanism by control lever shaft 23, handle cylinder 10, chain 15, sprocket wheel 24, unblank arm-tie 28 and chain 29 constitute, two control lever shafts 23 are separately positioned on crossbeam 9 two ends, its both ends are supported and fixed on the orienting sleeve 19, corresponding with the position of each crossbeam 9, all be fixed with a sprocket wheel 24 on the every control lever shaft 23, chain 29 is with the sprocket wheel 24 and the arm-tie 28 of unblanking in the every crossbeam 9 link to each other one by one (seeing Fig. 5, Fig. 6), chain 29 1 ends are fixed on the sprocket wheel 24, and the other end fixes with the arm-tie 28 of unblanking; Cylinder 10 is fixed on the crossbeam 9 that is positioned at the middle part by two bearings 18, corresponding with the position of cylinder 10, two control lever shafts 23 respectively are provided with a sprocket wheel 24, cylinder 10 two-piston bars 14 link to each other with its corresponding sprocket wheel 24 together by chain 15 respectively, equally, chain 15 1 ends link to each other with piston rod 14 ends, and the other end and sprocket wheel 24 fix, and also are fixed with a connecting plate 13 on two bearings 18; The crossbeam 11 that frame 1 top is provided with is provided with shaped device and handles cylinder 12, this cylinder 12 fixes by clamping plate 22 and crossbeam 11, its piston rod end links to each other with connecting plate 13, the orienting sleeve 19 at crossbeam 46 two ends is sleeved on the guidepost 8, the whole shaped device of going up can move up and down along guidepost 8 under the guiding of the manipulation of cylinder 12 and guidepost 8.

Compare with last shaped device, the two ends that the compacted under device removes both sides crossbeam 46 directly are fixed on the column of frame 1, and be not provided with the orienting sleeve 19 that matches with guidepost 8, and two outside control lever shaft 23 directly is supported on the column of frame 1, other structures are identical, each point-like in the compacted under device supports 7 upwards setting of end, and whole compacted under device and frame 1 fix.

Transfer mechanism is arranged between the upper and lower shaped device, transfer mechanism comprises bracing frame, conveying belt, driving mechanism, bracing frame is made of crossbeam 26, three support bars 17, crossbeam 26 two ends respectively are provided with an orienting sleeve 20, bracing frame is sleeved on the guidepost 8 by orienting sleeve 20, also be provided with four lever operation cylinders 6 between four root posts of bracing frame and frame 1, cylinder 6 one ends are fixed on the permanent seat 25 that is provided with on the column, the connecting plate 27 that is provided with on its piston rod and the crossbeam 26 links to each other, bracing frame can move up and down along guidepost 8 under the manipulation of cylinder 6; The bracing frame two ends are equipped with two drive shafts 4, two drive shafts 4 are provided with some the conveying belt 3 with appropriate intervals, conveying belt 3 is to be with synchronously, corresponding with every conveying belt 3, two drive shafts 4 are provided with synchronous pulley 5, and every conveying belt 3 belows also are provided with a back up pad 16 simultaneously, and the width of this back up pad 16 is corresponding with the width of the conveying belt 3 of its top, driving mechanism 21 is fixed on crossbeam 26 outsides, and drive shaft 4 is by driving mechanism 21 driving work; Each conveying belt 3 width and face gap between the conveying belt 3 mutually and the point-like on the compacted under device supports 7 cross dimensions and the distance that supports between 7 of point-like is suitable in twos, simultaneously same and each point-like of the position of three support bars 17 and cross dimensions thereof supports 7 suitable, when guaranteeing that whole transfer mechanism moves down under the manipulation of cylinder 6, conveying belt 3 on it and back up pad 16 thereof, support bar 17 can enter each point-like smoothly and support between 7, and make conveying belt 3 upper surfaces be lower than the working face of the end running roller of each point-like support 7.

As Fig. 5, shown in Figure 6, point-like supports 7 and is made of pipe 34, shrouding 36, spiro rod support 39, running roller 38, is processed with cooling gas squit hole 37 on the shrouding 36, and running roller 38 is installed on the spiro rod support 39, spiro rod support 39 is installed in the threaded hole on the shrouding 36, and it is provided with lock nut 40; Pipe 34 is inserted in the through hole of processing on the crossbeam 9 by two symmetrically arranged overcoats 33, is provided with stage clip 35 between shrouding 36 and the overcoat 33; Corresponding with each overcoat 33, also be set with two groups of lock cores 32, stage clip 43 on the pipe 34, every group of overcoat 33, lock core 32, stage clip 43 constitute a cover locking mechanism, be processed with several along the hole that circumferentially distributes on the sidewall of lock core 32 insertion overcoats 33 ends, be provided with a lock pearl 42 in each hole, corresponding with the position of lock pearl 42, overcoat 33 is provided with a ring-type bevel phase 41; Be provided with two arm-ties 28 of unblanking between the two cover locking mechanisms on the pipe 34, the arm-tie 28 of unblanking is provided with the corresponding work inclined-plane, and an end of two lock cores 32 leans respectively on the inclined working on the arm-tie 28 of unblanking; The other end that pipe 34 is relative with shrouding 36 has the but input terminus 44 that links to each other of gas pipeline of cooling; The arm-tie of unblanking in every crossbeam 9 is two complete arm-ties of unblanking, each arm-tie 28 of unblanking be provided with fractions not with each point-like support 7 on the inclined working that is complementary of locking mechanism, the dividing plate 31 of crossbeam 9 ends is provided with arm-tie 28 pilot holes 30 of unblanking, two arm-tie 28 ends of unblanking interfix by connecting plate, and link to each other with corresponding sprocket wheel respectively by chain 29.Lock is made by steel ball by pearl 42.

When shaped device of the present invention is worked, at first set the working curved surface of upper and lower shaped device, handle cylinder 6, each point-like that transfer mechanism is fallen on the compacted under device supports between 7, handle the cylinder 10 in the upper and lower shaped device simultaneously, spur the arm-tie 28 of unblanking to left side shown in Figure 5, every two lock cores 32 of managing on 34 move to overcoat 33 directions respectively under the roof pressure of the inclined working on the arm-tie 28 of unblanking, the radial space of 41 internal lock pearls 42 strengthens on the inclined-plane, and loosen locking state to managing 34, pipe 34 effects at stage clip 35 are issued to its maximum and stretch out state; The model identical with the processed product shape is placed in each point-like support 7 of compacted under device, handling cylinder 12 moves down shaped device, the running roller that each point-like supports on 7 on the upper and lower shaped device is all leaned on model, handle cylinder 10 once more, oppositely spur the arm-tie 28 of unblanking, again each point-like that locks on the upper and lower shaped device supports 7, shaped device in the lifting, take out model, finish the setting of upper and lower shaped device working curved surface, rise transfer mechanism then, enter state to be produced.

High temp glass is transported to transfer mechanism from process furnace by roller-way, driving mechanism 21 drives conveying belt 3 work, make high temp glass enter compacted under device top, handling cylinder 6 makes transfer mechanism descending, the point-like that enters on the compacted under device along with conveying belt 3 supports between 7, each point-like of being placed on high temp glass supports on the running roller 38 on 7, handle cylinder 12, under put shaped device, high temp glass is last, flexural deformation under the clamping of each point-like support 7 on the compacted under device, cooling gas supports ejection the hole 37 on 7 shroudings 36 from each point-like thereupon, in type high temp glass is carried out cooling and shaping, after the glassy product typing, handle cylinder 12,6, shaped device in the lifting, rise transfer mechanism, transfer mechanism holds up glassy product in the process that rises, treat glassy product break away from fully with the compacted under device on point-like support 7 contact condition after, start driving mechanism 21, conveying belt 3 is sent to next station with glassy product.

After below the conveying belt 3 back up pad 16 being set, can avoid conveying belt 3 when the support glassy product, to be out of shape excessive and the damage product.Running roller 38 is fixed on point-like by spiro rod support 39 supports 7 ends, after simultaneously running roller 38 axle center and spiro rod support 39 axle center off-centre being provided with, can easily running roller be adjusted to the direction of being convenient to glass deformation, and can finely tune the height of running roller 38 working faces.

Claims (17)

1. a double curved toughened glass cooling forming device is characterized in that, comprises frame, compacted under device, gas quench system, transfer mechanism; The compacted under device is installed on the frame, and the glass ware forming curved surface of compacted under device constitutes by supporting by density distribution and adjustable for height point-like; Gas quench system cools off the high temp glass on the compacted under device by its gas vent, and transfer mechanism is sent into high temp glass, and the formed glass product is sent.

2. double curved toughened glass cooling forming device as claimed in claim 1, it is characterized in that, also comprise shaped device, should go up the top that shaped device is installed on the described frame and is positioned at described compacted under device, its structure is identical with the structure of compacted under device, the direction that its point-like supports is relative with the point-like support on the compacted under device, and last shaped device can move up and down under its drive mechanism.

3. double curved toughened glass cooling forming device as claimed in claim 2, it is characterized in that, the position of the gas vent on the described gas quench system and described position of going up each point-like support on shaped device and the compacted under device are complementary, and support servo-actuated with each point-like.

4. double curved toughened glass cooling forming device as claimed in claim 3, it is characterized in that, described transfer mechanism comprises bracing frame, conveying belt, driving mechanism, bracing frame is provided with two drive shafts, between two drive shafts spacing is arranged, some conveying belt is wrapped on two drive shafts, the width of each conveying belt and face gap between the conveying belt mutually and cross dimensions and gap thereof that the point-like on the compacted under device supports suitable, transfer mechanism is installed on the vertical guideway that is provided with on the frame by its bracing frame, and can move up and down at its drive mechanism lower edge guide rail.

5. double curved toughened glass cooling forming device as claimed in claim 4 is characterized in that, described go up shaped device by chain or rope hanging on the hoisting mechanism that is provided with on the frame, and under the manipulation of hoisting mechanism, move up and down.

6. double curved toughened glass cold-forming device as claimed in claim 4 is characterized in that, the described shaped device of going up is installed on the vertical guideway that is provided with on the frame, and moves up and down under the driving of its driving mechanism.

7. as claim 4,5,6 arbitrary described double curved toughened glass cold-forming devices, it is characterized in that the described point-like that goes up on shaped device and the compacted under device is supported for shaft-like, its end is provided with running roller.

8. double curved toughened glass cold-forming device as claimed in claim 7, it is characterized in that, be provided with the support bar that width and the conveying belt width above it are complementary below each conveying belt of described transfer mechanism, this support bar has rigidity, and support bar is fixed on the support frame as described above.

9. double curved toughened glass cold-forming device as claimed in claim 8 is characterized in that, described conveying belt is to be with synchronously, and described associated drive shaft is provided with synchronous pulley.

10. double curved toughened glass cold-forming device as claimed in claim 9, it is characterized in that, described upward shaped device and compacted under device include supporting seat, described each point-like supports and is inserted into separately in the hole that is provided with on the supporting seat, it is provided with return spring, and supporting seat is provided with corresponding locking mechanism; Described point-like supports and is made out of tubes, the pipe upper end has shrouding, the lower end has the cooling gas input aperture, be distributed with the cooling gas ejiction opening on the shrouding, described running roller is installed on the shrouding by spiro rod support, the height and the turning direction thereof of the relative shrouding of running roller are adjustable, and the screw rod of spiro rod support is provided with set nut; The supporting seat of compacted under device is fixed on the described frame, last shaped device also comprises support, its supporting seat is fixed on its support, and last shaped device is suspended on the hoisting mechanism that is provided with on the described frame by its support, or is installed on the vertical guideway that is provided with on the frame.

11. double curved toughened glass cold-forming device as claimed in claim 10 is characterized in that, the axis of rotation of the running roller on the described spiro rod support and screw axis are eccentric to be provided with.

12. double curved toughened glass cold-forming device as claimed in claim 11 is characterized in that, described return spring is sleeved on the shaft of described point-like support, and spring one end leans on point-like supporting base end portion shrouding, and the other end leans on described supporting seat.

13. double curved toughened glass cold-forming device as claimed in claim 12, it is characterized in that described supporting seat is arranged by some tubular cross bearers and constituted, and spacing is arranged between the tubular cross bearer in twos, described point-like supports and sets in a row with each crossbeam, and each point-like on every crossbeam supports at interval and is provided with; Described point-like supports locking mechanism and is separately positioned in its crossbeam of installing in the hole.

14. double curved toughened glass cold-forming device as claimed in claim 13, it is characterized in that, described locking mechanism is the axle locking mechanism, this supports with locking mechanism and each point-like and matches one by one, comprise overcoat, lock core, the stage clip and the arm-tie of unblanking, on the shaft that the described point-like that is sleeved on lock core supports, coat suit fixes in the lock core outside and with described crossbeam, compression spring sleeve is contained between overcoat and the lock core, be processed with conical surface section in the overcoat in the hole or be several inclined-planes that go in ring and arrange, be provided with the steel ball that matches with the conical surface in the hole or inclined-plane in the overcoat in the hole that processes on the lock core wall, be provided with the arm-tie of unblanking in the described every crossbeam, the arm-tie of unblanking is installed in the crossbeam and is provided with on the liner in the hole, it is provided with and the corresponding inclined-plane of each lock core, each lock core is pressed against respectively on the inclined-plane corresponding with it, and can under the manipulation of the arm-tie of unblanking, move up and down, match with the conical surface that puts outward or inclined-plane and finish point-like is supported the locking of shaft and loosens thereupon described steel ball, the arm-tie two ends of unblanking link to each other with operating mechanism.

15. double curved toughened glass cold-forming device as claimed in claim 14, it is characterized in that, the described arm-tie operating mechanism of unblanking comprises the driving cylinder, chain, sprocket wheel and back shaft, two back shafts be arranged on the crossbeam two ends and with the crossbeam relative fixed, be fixed with several and crossbeam quantity and position sprocket wheel one to one in the every support respectively, each arm-tie two ends of unblanking is continuous with relative separately sprocket wheel by chain respectively, driving cylinder and crossbeam fixes, its two ends piston rod rotates by the back shaft at chain or rope control crossbeam two ends respectively, and makes the arm-tie of unblanking produce axial displacement.

16. double curved toughened glass cold-forming device as claimed in claim 15, it is characterized in that, described locking mechanism comprises two groups of overcoats, lock core and stage clips, these two groups of overcoats, lock core and stage clips are symmetricly set on the described arm-tie both sides up and down of unblanking, corresponding with it, the arm-tie top and bottom of unblanking are provided with the inclined-plane that matches with lock core.

17. double curved toughened glass cold-forming device as claimed in claim 16 is characterized in that, described transfer mechanism moves up and down at oil cylinder or its guide rail of cylinder driving lower edge.

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