CN111847850A - Glass hot bending processing device - Google Patents

Abstract

The invention relates to the field of glass hot bending, in particular to a glass hot bending processing device. The technical problem to be solved is as follows: provides a glass hot bending processing device. The technical scheme of the invention is as follows: a glass hot bending processing device comprises a hot zone purification device, a controllable hot bending device, a laser generator and the like; the controllable hot bending device is in transmission connection with the correcting device; the correcting device is in transmission connection with the hot zone purifying device. The automatic turnover cleaning device achieves the purpose of automatically turning over the area to be bent of the clean glass plate, ensures that the area can uniformly transfer heat during hot bending, and prevents the glass plate from being broken due to nonuniform heat transfer; the self-weight is used for replacing mechanical external force, and the defects that the soft and hard joint area of the glass plates at two sides is lengthened and thinned due to the fact that the glass plates slide downwards under the action of gravity can be overcome; the glass plate bending device can avoid the effects that the bending areas of the left side and the right side of the glass plate are different and the stress is different when the glass plate is not placed correctly due to human eye errors.

Description

Glass hot bending processing device

Technical Field

The invention relates to the field of glass hot bending, in particular to a glass hot bending processing device.

Background

The hot bending glass is curved glass which is made by heating, bending and softening high-quality glass and then annealing in order to meet the high-quality requirements of modern buildings. The style is beautiful, and the lines are smooth. The glass breaks through the singleness of the plate glass, and is more flexible and diverse in use.

The central heating area needs to be cleaned before the glass plate is bent, so that the glass plate is prevented from being broken due to uneven heat transfer, the glass plate is wiped and cleaned manually in the prior art, the efficiency is low, the glass plate is easy to damage, and workers have the possibility of being scratched by the glass; after a worker places a glass plate on the heating mechanism, the heated area of the glass plate is not the central area due to the error of naked eyes, so that the bending areas of the left side and the right side are different in size and stress is different, and the probability of breakage of the glass plate is greatly improved; in the process of hot bending of glass, a factory often bends the glass by using mechanical external force, and the glass is easily broken directly by over-force; when the glass reaches a preset bending angle, due to the influence of self gravity, the un-softened part of the glass plate slides downwards along the supporting mechanism, so that the joint of the softened area and the un-softened area of the glass plate is elongated and thinned, the stress bearing capacity at the position is weakened, and the glass plate is easy to break during annealing.

Therefore, at present, the glass to be heated can be automatically cleaned, the glass plate placing position can be corrected, the use of mechanical external force complete glass can be avoided, the device for reducing the thickness and the stress bearing capacity caused by the natural sliding of the glass plate can be repaired, and the defects that in the prior art, the glass plate to be heated needs to be manually cleaned, the glass plate placing position cannot be accurately corrected, the glass plate must be bent by using mechanical external force, and the stress bearing capacity is weakened caused by the thickness reduction caused by the natural sliding of the glass plate cannot be repaired are overcome.

Disclosure of Invention

In order to overcome the defects that the glass plate needs to be manually cleaned to be heated, the position for placing the glass plate cannot be accurately corrected, the glass plate must be bent by using mechanical external force, and the glass plate cannot be repaired to naturally slide down to cause the thickness thinning of the glass plate to cause the weakening of the stress bearing capacity, the technical problem to be solved is as follows: provides a glass hot bending processing device.

The technical scheme of the invention is as follows: a glass hot bending processing device comprises a bottom foot, a bottom plate, a control screen, a hot area purifying device, a controllable hot bending device, a laser generator, a correcting device and a water spraying head; the upper part of the bottom foot is welded with the bottom plate; a hot area purifying device, a controllable hot bending device and a control screen are sequentially arranged above the bottom plate; the upper part of the hot area purification device is sleeved with the water spray head; the hot area purifying device is in transmission connection with the controllable hot bending device; a laser generator is arranged in the controllable hot bending device; the controllable hot bending device is in transmission connection with the correcting device; the correcting device is in transmission connection with the hot zone purifying device.

Furthermore, the hot-zone purification device comprises an inner toothed ring, a first transmission wheel, a second transmission wheel, a first straight gear, a second straight gear, a transmission rod, a first screw rod, a first transmission plate, a wiping block, a first auxiliary rod, a glass plate fixing clamp, a connecting ring block, a third straight gear, a third transmission wheel, a fourth straight gear, a fourth transmission wheel, a first bevel gear, a second bevel gear, a toothed rod, a first raised block, a second raised block, a sliding chute, a first fixed connecting plate, a four-wheel lifting platform, a second fixed connecting plate, a limiting sleeve block and a telescopic control wheel; the inner gear ring is sequentially connected with the first driving wheel and the second bevel gear; the outer ring of the first driving wheel is in transmission connection with a second driving wheel through a belt; the axle center of the second transmission wheel is in transmission connection with the first straight gear; the first straight gear is meshed with the second straight gear; the axle center of the second straight gear is sleeved with the transmission rod; the outer surface of the transmission rod is rotatably connected with the first fixed connecting plate, and one side of the transmission rod is in transmission connection with the first screw rod; the outer surface of the first screw rod is in transmission connection with the first transmission plate; the first screw rod is rotationally connected with the second fixed connection plate; the lower part of the first transmission plate is connected with the wiping block; the first transmission plate is connected with the first auxiliary rod in a sliding mode; one side of the first auxiliary rod is welded with the first fixed connection plate, and the other side of the first auxiliary rod is welded with the second fixed connection plate; the second bevel gear is meshed with the first bevel gear; the axle center of the first bevel gear is in transmission connection with the fourth transmission wheel; the axle center of the first bevel gear is in transmission connection with the telescopic control wheel; the outer ring of the telescopic control wheel is in transmission connection with a fourth transmission wheel; the axle center of the fourth transmission wheel is in transmission connection with a fourth straight gear; one side of the fourth straight gear is meshed with the rack bar, and the other side of the fourth straight gear is meshed with the third straight gear; one side of the third straight gear is in transmission connection with the third transmission wheel, and the other side of the third straight gear is welded with the connecting ring block; the connecting ring block is welded with the glass plate fixing clamp; one side of the toothed bar is welded with the first raised blocks, and the other side of the toothed bar is welded with the second raised blocks; the lower part of the toothed bar is in sliding connection with the sliding chute; the lower part of the first raised block is in sliding connection with the sliding chute; the lower part of the second raised block is in sliding connection with the sliding chute; the first fixed connecting plate is welded with the four-wheel lifting platform; the second fixed connecting plate is welded with the four-wheel lifting platform; the lower part of the four-wheel lifting platform is in sliding connection with the first convex lifting block; the lower part of the four-wheel lifting platform is in sliding connection with the second convex lifting block; the four-wheel lifting platform leg rod is sleeved with the limiting sleeve block; the limiting sleeve block is connected with the sliding groove through a bolt; the inner gear ring is connected with the controllable hot bending device; the lower part of the sliding chute is connected with the bottom plate; the upper part of the four-wheel lifting platform is connected with a water spray head.

Furthermore, the controllable hot bending device comprises a motor, a fifth driving wheel, a sixth driving wheel, a first telescopic rod, a first control plate, a fifth straight gear, a first electric push rod, a seventh driving wheel, a second telescopic rod, a second control plate, a second electric push rod, a third bevel gear, a fourth bevel gear, an eighth driving wheel, a second screw rod, a first angle control repairing mechanism, a second auxiliary rod, a furnace chamber, an electric heater, a ninth driving wheel, a third screw rod, a second angle control repairing mechanism and a third auxiliary rod; an output shaft of the motor is sequentially connected with a fifth driving wheel, a sixth driving wheel and the first telescopic rod; the outer ring of the sixth driving wheel is in transmission connection with the seventh driving wheel through a transmission belt; the outer surface of the first telescopic rod is sleeved with the first control plate; the first telescopic rod and the fifth straight gear are mutually inserted; the first control plate is connected with the first electric push rod through a bolt; the axle center of the seventh driving wheel is in transmission connection with the second telescopic rod; the outer surface of the second telescopic rod is sleeved with the second control plate; the second telescopic rod and the third bevel gear are mutually inserted; the second control plate is connected with the second electric push rod through a bolt; the upper part of the third bevel gear is meshed with the fourth bevel gear; the upper part of the fourth bevel gear is sequentially connected with an eighth driving wheel and a second screw rod; the outer ring of the eighth driving wheel is in transmission connection with the ninth driving wheel through a transmission belt; the upper part of the outer surface of the second screw rod is in transmission connection with the first angle control repairing mechanism; the first angle control repairing mechanism is connected with the second auxiliary rod in a sliding mode; the lower part of the second auxiliary rod is connected with the furnace chamber through bolts; an electric heater is arranged in the furnace chamber; the upper part of the ninth driving wheel is in transmission connection with a third screw rod; the upper part of the outer surface of the third screw rod is in transmission connection with a second angle control repairing mechanism; the second angle control repairing mechanism is connected with the third auxiliary rod in a sliding mode; the lower part of the third auxiliary rod is connected with the furnace chamber through bolts; the lower part of the motor is connected with the bottom plate; the fifth straight gear is connected with the inner gear ring; the lower part of the furnace chamber is connected with the bottom plate.

Furthermore, the correcting device comprises a tenth driving wheel, a fifth bevel gear, a sixth bevel gear, a seventh bevel gear, an eighth bevel gear, a fourth screw rod, a first electric clamp, a fifth screw rod, a second electric clamp, a suspended top plate, a first hydraulic rod, a second hydraulic rod, a first electric supporting plate and a second electric supporting plate; the axle center of the tenth driving wheel is in transmission connection with the fifth bevel gear; the lower part of the fifth bevel gear is meshed with the sixth bevel gear; the lower part of the sixth bevel gear is in transmission connection with a seventh bevel gear; the seventh bevel gear and the eighth bevel gear are mutually meshed; the axis of the eighth bevel gear is in transmission connection with the fourth screw rod; the outer surface of the fourth screw rod is in transmission connection with the first electric clamp; welding the fourth screw rod and the fifth screw rod; the fourth screw rod is connected with the suspension top plate; the outer surface of the fifth screw rod is in transmission connection with the second electric clamp; the fifth screw rod is connected with the suspension top plate; a first hydraulic rod and a second hydraulic rod are sequentially arranged above the suspension top plate; a first electric supporting plate and a second electric supporting plate are arranged below the suspension top plate at one time; the lower part of the outer ring of the tenth transmission wheel is connected with a fifth transmission wheel; the outer surface of the first hydraulic rod is connected with the furnace chamber; the outer surface of the second hydraulic rod is connected with the furnace chamber.

Furthermore, the second angle control repairing mechanism comprises a first L-shaped transmission connecting plate, a bottom block, an annular sleeve plate, a first balance push rod, a second balance push rod and a glass plate surface repairing mechanism; the upper part of the first L-shaped transmission connecting plate is rotationally connected with the bottom block; the outer surface of the first L-shaped transmission connecting plate is sleeved with the annular sleeve plate; welding the upper part of the bottom block with a glass plate surface repairing mechanism; a first balance push rod and a second balance push rod are sequentially arranged above the annular sleeve plate; the first L-shaped transmission connecting plate is connected with the second screw rod; the first L-shaped transmission connecting plate is connected with the second auxiliary rod.

Furthermore, the glass plate surface repairing mechanism comprises three layers of main placing plates, an electromagnet belt, a side magnet positioning piece, a first inverted T-shaped sliding block, an auxiliary fixing plate, a repairing push rod, a pressure sensor and a second inverted T-shaped sliding block; the three layers of main plates are connected with the electromagnet belt; the inner part of the three layers of main placing plates is in sliding connection with the first inverted T-shaped sliding block; the inner part of the three layers of main placing plates is in sliding connection with the second inverted T-shaped sliding block; the electromagnet belt is connected with the side magnet positioning sheet; the side magnet positioning piece is connected with the first inverted T-shaped sliding block through a bolt; the first inverted T-shaped sliding block is sequentially connected with the auxiliary fixing plate, the repairing push rod and the pressure sensor; the auxiliary fixing plate is sequentially connected with the repairing push rod and the pressure sensor; the repairing push rod is in transmission connection with the second inverted T-shaped slide block; the pressure sensor is connected with the second inverted T-shaped sliding block.

Furthermore, two groups of mechanisms which are composed of the glass plate fixing clamp, the connecting ring block, the third straight gear, the third transmission wheel, the fourth straight gear, the fourth transmission wheel, the first bevel gear, the rack bar, the first raised block, the second raised block, the sliding groove and the telescopic control wheel are symmetrically arranged on the front side and the rear side of the four-wheel lifting platform.

Furthermore, the four limiting sleeve blocks are arranged at the same horizontal height position of the four wheel support legs of the four-wheel lifting platform respectively and are connected in pairs.

Furthermore, the electromagnet belt and the side magnet positioning pieces are arranged on two sides and are symmetrically arranged on the front side and the rear side of the three layers of main plates.

Furthermore, the bottom of the first driving plate is provided with a telescopic spring rod connected with the wiping block.

Compared with the prior art, the invention has the following advantages: in order to solve the problems that in the prior art, the glass plate to be heated needs to be manually cleaned, the placement position of the glass plate cannot be accurately corrected, the glass plate must be bent by using mechanical external force, and the stress bearing capacity is weakened due to the fact that the glass plate naturally slides down to cause the thickness of the glass plate to be thinned, a hot area purifying device, a controllable hot bending device and a correcting device are designed.

Through hot area purifier, the clean glass board of automatic turn-over treats the bending region, guarantees this region ability even heat transfer when the heat is bent, prevents to lead to the glass board fracture because of the heat transfer inequality, improves the heat and bends the success rate, reduces the loss and reduces extravagantly.

Through the curved device of controllable heat, can utilize the dead weight of the hard glass board of both sides to carry out slow hot bending after glass board central authorities soften, utilize the dead weight to replace mechanical external force, can protect the glass board to prevent its fracture in the at utmost, and can pass through mechanical transmission, repair the area that both sides glass board leads to the soft or hard handing-over of glass board because of gravity gliding and is elongated, the attenuation defect, obtain a surperficial level crooked glass board after annealing, greatly reduced because of the uneven cracked possibility that leads to the fact in surface, the curved success rate of glass board hot and finished product quality have been improved.

Through correcting unit, can push away the glass board through the standard device relative motion that the complete symmetry set up, push away the glass board to well central position, reach the effect of normal position, carry out normal position before the hot bending, can avoid making the glass board place just because of people's eye error, the crooked area difference in glass board left and right sides when leading to hot bending, the atress is different, finally leads to the cracked problem of glass board, has improved the hot bending success probability of glass board, has improved output.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the hot zone purification apparatus of the present invention;

FIG. 3 is a schematic structural diagram of a controllable hot bending apparatus according to the present invention;

FIG. 4 is a schematic structural diagram of a calibration device according to the present invention;

FIG. 5 is a schematic structural view of a second corner control repairing mechanism according to the present invention;

FIG. 6 is a schematic structural view of a glass panel repair mechanism according to the present invention;

FIG. 7 is a perspective view of the rear view of the glass plate retaining clip of the present invention;

FIG. 8 is a schematic structural view of a first electric pallet according to the present invention;

FIG. 9 is a schematic structural view of a three-layer main board, a first inverted T-shaped sliding block and a second inverted T-shaped sliding block combined mechanism according to the present invention;

FIG. 10 is a right side view structural diagram of a first lead screw, a first auxiliary rod, a four-wheel lifting platform, a second fixed connecting plate and a limiting sleeve block combined mechanism of the present invention.

In the figure: 1. footing, 2, a bottom plate, 3, a control screen, 4, a hot zone purifying device, 5, a controllable hot bending device, 6, a laser generator, 7, a correcting device, 8, a water spray head, 401, an inner gear ring, 402, a first driving wheel, 403, a second driving wheel, 404, a first straight gear, 405, a second straight gear, 406, a driving rod, 407, a first screw rod, 408, a first driving plate, 409, a rubbing block, 4010, a first auxiliary rod, 4011, a glass plate fixing clamp, 4012, a connecting ring block, 4013, a third straight gear, 4014, a third driving wheel, 4015, a fourth straight gear, 4016, a fourth driving wheel, 4017, a first bevel gear, 4018, a second bevel gear, 4019, a toothed bar, 4020, a first raised block, 4021, a second raised block, 4022, a chute, 4023, a first fixed connecting plate, 4024, a four-wheel lifting platform, 4025, a second fixed connecting plate, 4026, 4027, a control limit telescopic wheel, 501, a control ring, a second raised block, a third raised block, a motor 502, a fifth driving wheel 503, a sixth driving wheel 504, a first telescopic rod 505, a first control board 506, a fifth spur gear 507, a first electric push rod 508, a seventh driving wheel 509, a second telescopic rod 5010, a second control board 5011, a second electric push rod 5012, a third bevel gear 5013, a fourth bevel gear 5014, an eighth driving wheel 5015, a second lead screw 5016, a first angle control restoration mechanism 5017, a second auxiliary rod 5018, a furnace chamber 5019, an electric heater, 5020, a ninth driving wheel 5021, a third lead screw 5022, a second angle control restoration mechanism 5023, a third auxiliary rod 701, a tenth driving wheel 702, a fifth bevel gear, 703, a sixth bevel gear 704, a seventh bevel gear 705, an eighth bevel gear 706, a fourth lead screw 707, 708, a first electric clamp, a fifth electric clamp 709, a second electric clamp top plate 7010, 7011. the device comprises a first hydraulic rod, 7012, a second hydraulic rod, 7013, a first electric supporting plate, 7014, a second electric supporting plate, 502201, a first L-shaped transmission connecting plate, 502202, a bottom block, 502203, an annular sleeve plate, 502204, a first balance push rod, 502205, a second balance push rod, 502206, a glass plate surface repairing mechanism, 50220601, a three-layer main placing plate, 50220602, an electromagnet belt, 50220603, a side magnet positioning piece, 50220604, a first inverted T-shaped sliding block, 50220605, an auxiliary fixing plate, 50220606, a repairing push rod, 50220607, a pressure sensor, 50220608 and a second inverted T-shaped sliding block.

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, and the like are used to describe the accompanying drawings and are not meant to limit the scope of the invention, which is defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

A glass hot bending processing device is shown in figures 1-10 and comprises a footing 1, a bottom plate 2, a control screen 3, a hot zone purifying device 4, a controllable hot bending device 5, a laser generator 6, a correcting device 7 and a water spraying head 8; the upper part of the bottom foot 1 is welded with the bottom plate 2; a hot area purifying device 4, a controllable hot bending device 5 and a control screen 3 are sequentially arranged above the bottom plate 2; the upper part of the hot area purification device 4 is sleeved with a water spraying head 8; the hot area purification device 4 is in transmission connection with the controllable hot bending device 5; a laser generator 6 is arranged in the controllable hot bending device 5; the controllable hot bending device 5 is in transmission connection with the correcting device 7; the calibration device 7 is in driving connection with the hot zone cleaning device 4.

The working principle is as follows: when the device is used, the glass hot bending processing device is firstly installed at a place needing to be used, a power supply and a water pipe are externally connected, a container containing water is placed below the hot area purifying device 4, flat glass needing to be processed is transversely placed, the flat glass is placed into the hot area purifying device 4 from the left side of the hot area purifying device 4 and then is fixed, then the device is started through the control screen 3, the water spraying head 8 starts to spray water to an area, to be bent, of the glass, dirt and dust on the surface of the area, to be bent, are wiped clean through the hot area purifying device 4, and the dirt is flushed into the container arranged below the hot area purifying device 4 through the water sprayed by the water spraying head 8. After one side of the plate glass is cleaned, the glass plate is turned over in a rotating mode through the hot area purifying device 4, then the cleaning of the second plane is started, the area to be bent of the glass plate is scrubbed, the surface is kept clean, impurities can be prevented from interfering the heat transfer of the glass in the subsequent hot bending process, and the probability that the glass is broken due to uneven heat transfer can be reduced. After the cleaning operation is finished, the glass plate is turned over, then the glass plate is taken out from the original path on the left side of the hot area purification device 4 and is transferred to the correction device 7, the position of the glass plate is corrected through the correction device 7, the middle part of the glass plate is opposite to the heater below, and the phenomenon that the bending areas of the left side and the right side are different in size in the hot bending process, so that the glass plate is stressed unevenly and is broken is avoided. After the correction is finished, the direct control correcting device 7 descends, the glass plate is placed on the controllable hot bending device 5, the laser generator 6 can be used for detecting whether the bottom of the glass plate is really in reliable contact with the controllable hot bending device 5 or not, the misjudgment of human eyes is prevented, the correcting device 7 is directly withdrawn under the condition that the glass plate is not really in contact with the controllable hot bending device 5, and the glass plate is directly smashed on the controllable hot bending device 5. After the glass plate is stably placed, the correcting device 7 is retracted, the furnace chamber 5018 is closed, then the controllable hot bending device 5 is started to start hot bending, the height of the mechanism is continuously reduced in the hot bending process through the controllable hot bending device 5, the glass plate is bent by utilizing the self-weight falling effect of the non-softened area of the glass plate, after the required bending angle is reached, the falling is stopped, the control device pushes the non-softened glass plate to move upwards along the inclined plane of the mechanism to be close to the softened area, the problem that the length of the soft and hard connection area of the glass plate is elongated and the thickness of the glass plate is thinned due to the fact that the non-softened glass plate slides downwards due to gravity is corrected, after the correcting mechanism of the controllable hot bending device 5 determines that the correction is finished, the stopping device operates, and the glass plate. The device is simple to use, can automatically clean the area to be bent, prevents impurities from interfering the heat transfer of the glass in the subsequent hot bending process, and can reduce the probability of breakage of the glass caused by uneven heat transfer; the position of the glass plate can be corrected, and the phenomenon that the glass plate is stressed unevenly and broken due to the fact that the bending areas of the left side and the right side are different in size in the hot bending process is avoided; and finally, correcting the problem that the softened glass plate slides downwards due to gravity after the target bending angle is reached, so that the length of a soft and hard joint area of the glass plate is lengthened and the thickness of the glass plate is thinned. The device can eliminate various factors that easily lead to glass fracture to the at utmost, improves the success rate and the qualification rate of hot bending glass, is worth using widely.

The hot zone purification device 4 comprises an internal gear ring 401, a first driving wheel 402, a second driving wheel 403, a first straight gear 404, a second straight gear 405, a driving rod 406, a first screw rod 407, a first driving plate 408, a wiping block 409, a first auxiliary rod 4010, a glass plate fixing clamp 4011, a connecting ring block 4012, a third straight gear 4013, a third driving wheel 4014, a fourth straight gear 4015, a fourth driving wheel 4016, a first bevel gear 4017, a second bevel gear 4018, a toothed rod 4019, a first raised block 4020, a second raised block 4021, a chute 4022, a first fixed connecting plate 4023, a four-wheel lifting platform 4024, a second fixed connecting plate 4025, a limit sleeve block 4026 and a telescopic control wheel 4027; the inner gear ring 401 is sequentially connected with a first driving wheel 402 and a second bevel gear 4018; the outer ring of the first driving wheel 402 is in transmission connection with a second driving wheel 403 through a belt; the axle center of the second transmission wheel 403 is in transmission connection with the first straight gear 404; the first spur gear 404 and the second spur gear 405 are meshed with each other; the axle center of the second spur gear 405 is sleeved with the transmission rod 406; the outer surface of the transmission rod 406 is rotatably connected with the first fixedly connecting plate 4023, and one side of the transmission rod 406 is in transmission connection with the first screw rod 407; the outer surface of the first screw rod 407 is in transmission connection with the first transmission plate 408; the first screw rod 407 is rotatably connected with the second fixed connecting plate 4025; the lower part of the first transmission plate 408 is connected with a wiping block 409; the first transmission plate 408 is slidably connected to the first auxiliary rod 4010; one side of the first auxiliary rod 4010 is welded with the first fixed connecting plate 4023, and the other side of the first auxiliary rod 4010 is welded with the second fixed connecting plate 4025; the second bevel gear 4018 is meshed with the first bevel gear 4017; the axle center of the first bevel gear 4017 is in transmission connection with a fourth transmission wheel 4016; the axle center of the first bevel gear 4017 is in transmission connection with the telescopic control wheel 4027; the outer ring of the telescopic control wheel 4027 is in transmission connection with a fourth transmission wheel 4016; the axle center of a fourth driving wheel 4016 is in transmission connection with a fourth straight gear 4015; one side of a fourth spur gear 4015 is engaged with the rack bar 4019, and the other side of the fourth spur gear 4015 is engaged with the third spur gear 4013; one side of a third straight gear 4013 is in transmission connection with a third transmission wheel 4014, and the other side of the third straight gear 4013 is welded with a connecting ring block 4012; the connecting ring block 4012 is welded with a glass plate fixing clamp 4011; one side of the toothed bar 4019 is welded with the first raised block 4020, and the other side of the toothed bar 4019 is welded with the second raised block 4021; the lower part of the toothed bar 4019 is in sliding connection with the sliding groove 4022; the lower part of the first raised block 4020 is in sliding connection with the sliding groove 4022; the lower part of the second raised block 4021 is in sliding connection with the sliding groove 4022; the first fixed connecting plate 4023 is welded with the four-wheel lifting table 4024; the second fixed connecting plate 4025 is welded with the four-wheel lifting table 4024; the lower part of the four-wheel lifting platform 4024 is in sliding connection with a first convex lifting block 4020; the lower part of the four-wheel lifting platform 4024 is in sliding connection with a second convex lifting block 4021; the four-wheel lifting platform 4024 and the foot rod of the wheel are mutually sleeved with a limit sleeve block 4026; the limiting sleeve block 4026 is in bolted connection with the sliding groove 4022; the inner gear ring 401 is connected with the controllable hot bending device 5; the lower part of the sliding groove 4022 is connected with the bottom plate 2; the upper part of the four-wheel lifting platform 4024 is connected with a water spraying head 8.

When the glass plate fixing clamp 4011 is used, a glass plate which is not processed is placed into the glass plate fixing clamp 4011 from the left side of the glass plate fixing clamp 4011, and then the glass plate fixing clamp 4011 is closed to fix the glass plate. Then the telescopic control wheel 4027 is controlled to ascend, so that a transmission belt between the fourth transmission wheel 4016 and the second bevel gear 4018 enters a loose state incapable of transmission, then external power drives the inner toothed ring 401, the inner toothed ring 401 transmits the first transmission wheel 402, the first transmission wheel 402 further drives the second transmission wheel 403, the second transmission wheel 403 transmits the first straight gear 404, the first straight gear 404 is meshed with and transmits the second straight gear 405, the second straight gear 405 drives the first screw rod 407 fixed on the first fixed connecting plate 4023 and the second fixed connecting plate 4025 to rotate, the first screw rod 407 transmits the first transmission plate 408 which is fixed and limited by the aid of the first auxiliary rod 4010 to move leftwards, the first transmission plate 408 drives the rubbing block 409 to move leftwards together, and the surface of a region to be softened in the center of the glass plate is wiped clean. Then the telescopic control wheel 4027 is controlled to stretch and contract to tighten the transmission belt, the inner toothed ring 401 starts to transmit a second bevel gear 4018, the second bevel gear 4018 is meshed with and transmits a first bevel gear 4017, the first bevel gear 4017 further drives a fourth transmission wheel 4016 to rotate, the fourth transmission wheel 4016 can drive a fourth spur gear 4015 to rotate, then a third transmission wheel 4014 is used, the fourth spur gear 4015 is meshed with and transmits a third spur gear 4013 and a toothed bar 4019 at the same time, the third spur gear 4013 rotates clockwise, the toothed bar 4019 slides rightwards in the chute 4022, the third spur gear 4013 rotates clockwise to drive a connecting ring block 4012 and the third transmission wheel 4014 to rotate clockwise, the connecting ring block 4012 rotates to drive a glass plate fixing clamp 4011 to rotate, and finally the fixed glass plate is turned over. On the other hand, after moving to the right, the rack 4019 can drive the first raised block 4020 and the second raised block 4021 to slide to the right, when moving to the right, the first raised block 4020 and the second raised block 4021 can push the four-wheel lifting platform 4024 to vertically lift under the limit of the limit sleeve block 4026, then the four-wheel lifting platform 4024 drives the first straight gear 404 to be disengaged from the second straight gear 405, the first lead screw 407 stops rotating, the wiping block 409 stops moving and rises along with the four-wheel lifting platform 4024 to leave the surface of the glass plate, and the turnover of the glass plate is not hindered. When the four-wheel lifting platform 4024 passes through the protrusions at the tops of the first raised block 4020 and the second raised block 4021, the telescopic control wheel 4027 is controlled to stretch and contract to enable the transmission belt to return to a loose state, transmission is stopped, then the inner gear ring 401 rotates reversely, finally the wiping block 409 moves rightwards through multi-stage transmission, and the area to be bent of the turned glass plate is cleaned. After the second surface of the glass plate is cleaned, the rotation direction of the inner gear ring 401 is kept unchanged, the telescopic control wheel 4027 is controlled to stretch and tighten the transmission belt again, the glass plate fixing clamp 4011 rotates anticlockwise, the gear rod 4019 moves leftwards, the four-wheel lifting platform 4024 goes over the first raised block 4020 and the second raised block 4021 again to ascend, the whole device returns to the original glass plate placing state, and the surface cleaning work of the glass plate in the region to be bent is completed. The device is simple to use, can wait to bend the region by automatic turn-over clean glass board, guarantees this region ability uniform heat transfer when the heat is bent, prevents to lead to the glass board fracture because of the heat transfer inequality, improves the hot bending success rate, reduces the loss and reduces extravagantly to the device can form the linkage with controllable hot bending device 5 and correcting unit 7, is worth using widely.

The controllable hot bending device 5 comprises a motor 501, a fifth transmission wheel 502, a sixth transmission wheel 503, a first telescopic rod 504, a first control plate 505, a fifth straight gear 506, a first electric push rod 507, a seventh transmission wheel 508, a second telescopic rod 509, a second control plate 5010, a second electric push rod 5011, a third bevel gear 5012, a fourth bevel gear 5013, an eighth transmission wheel 5014, a second lead screw 5015, a first angle control repairing mechanism 5016, a second auxiliary rod 5017, a furnace chamber 5018, an electric heater 5019, a ninth transmission wheel 5020, a third lead screw 5021, a second angle control repairing mechanism 5022 and a third auxiliary rod 5023; an output shaft of the motor 501 is sequentially connected with a fifth driving wheel 502, a sixth driving wheel 503 and a first telescopic rod 504; the outer ring of the sixth driving wheel 503 is in driving connection with a seventh driving wheel 508 through a driving belt; the outer surface of the first telescopic rod 504 is sleeved with the first control plate 505; the first telescopic rod 504 and the fifth straight gear 506 are inserted into each other; the first control plate 505 is bolted to the first electric putter 507; the axle center of the seventh driving wheel 508 is in driving connection with the second telescopic rod 509; the outer surface of the second telescopic rod 509 is sleeved with the second control plate 5010; the second telescopic rod 509 and the third bevel gear 5012 are inserted into each other; the second control plate 5010 is in bolted connection with a second electric push rod 5011; the upper part of the third bevel gear 5012 is meshed with a fourth bevel gear 5013; the upper part of the fourth bevel gear 5013 is sequentially connected with an eighth driving wheel 5014 and a second lead screw 5015; the outer ring of the eighth transmission wheel 5014 is in transmission connection with a ninth transmission wheel 5020 through a transmission belt; the upper part of the outer surface of the second lead screw 5015 is in transmission connection with a first angle control repairing mechanism 5016; the first angle control repair mechanism 5016 is in sliding connection with the second auxiliary rod 5017; the lower part of the second auxiliary rod 5017 is connected with the furnace chamber 5018 through bolts; an electric heater 5019 is arranged in the furnace chamber 5018; the upper part of the ninth driving wheel 5020 is in driving connection with a third screw rod 5021; the upper part of the outer surface of the third screw rod 5021 is in transmission connection with a second angle control repairing mechanism 5022; the second angle control restoration mechanism 5022 is slidably connected with the third auxiliary rod 5023; the lower part of the third auxiliary rod 5023 is in bolted connection with the furnace chamber 5018; the lower part of the motor 501 is connected with the bottom plate 2; the fifth spur gear 506 is connected with the inner toothed ring 401; the bottom plate 2 is connected to the lower side of the furnace chamber 5018.

When in use, the center of the glass plate is placed on an electric heater 5019 in a furnace chamber 5018, the same areas of the left and right sides of the glass plate are respectively lapped on the tops of a first angle control repairing mechanism 5016 and a second angle control repairing mechanism 5022, the whole glass plate is jointly supported by the first angle control repairing mechanism 5016, an electric heater 5019 ring and the second angle control repairing mechanism 5022, then the electric heater 5019 is started to heat until the heating area is softened, then the motor 501 drives the fifth driving wheel 502, the sixth driving wheel 503, the first telescopic rod 504 and the fifth straight gear 506 at the same time, the fifth driving wheel 502 will be the power source of the correcting device 7, the fifth straight gear 506 will be the power source of the hot zone cleaning device 4, and the first electric push rod 507 controls the expansion and contraction of the first telescopic rod 504 by controlling the left and right movement of the first control plate 505, and finally controls whether the fifth spur gear 506 is engaged with the inner toothed ring 401, thereby controlling the operation of the whole hot zone purification apparatus 4. The sixth transmission wheel 503 then transmits the seventh transmission wheel 508, the seventh transmission wheel 508 then drives the third bevel gear 5012 to rotate, then the third bevel gear 5012 will engage and drive the fourth bevel gear 5013, the second electric push rod 5011 can control the left and right movement of the second control board 5010 by telescoping, further controlling the extension and retraction of the second telescopic rod 509, and finally controlling whether the third bevel gear 5012 is meshed with the fourth bevel gear 5013 or not, thereby controlling whether meshing transmission can be carried out between the third bevel gear 5012 and the fourth bevel gear 5013 or not, then, the eighth transmission wheel 5014 is driven to rotate, the eighth transmission wheel 5014 further transmits a ninth transmission wheel 5020 and a second lead screw 5015, the ninth transmission wheel 5020 then drives a third lead screw 5021, the second lead screw 5015 and the third lead screw 5021 rotate simultaneously, the second lead screw 5015 cooperates with a second auxiliary rod 5017 to enable a first angle control restoration mechanism 5016 to descend stably, and the third lead screw 5021 cooperates with a third auxiliary rod 5023 to enable a second angle control restoration mechanism 5022 and the first angle control restoration mechanism 5016 to descend synchronously. After the first angle control repairing mechanism 5016 and the second angle control repairing mechanism 5022 synchronously descend, the middle of the glass plate begins to bend, the first angle control repairing mechanism 5016 and the second angle control repairing mechanism 5022 are responsible for supporting the glass plate and bending along the glass plate, preventing the glass plate from breaking too fast and controlling the glass plate to be bent to a target angle, in the bending process, because of the dead weight of the glass plates on two sides, the glass plates on two sides can respectively slide downwards along the first angle control repairing mechanism 5016 and the second angle control repairing mechanism 5022, so that the soft and hard connection area of the glass plate can be lengthened and thinned, if direct annealing is not processed, although the thinning change is very small, the probability of glass breaking can also be improved, therefore, the glass plate needs to be pushed back along the downwards sliding direction through the first angle control repairing mechanism 5016 and the second angle control repairing mechanism 5022, the glass surface is kept completely flat, and heating is stopped after recovery, and (5) waiting for annealing, and finishing the hot bending work of the glass. The device is simple to use, can utilize the dead weight of the hard glass board of both sides to carry out slow hot bending after glass board central authorities soften, utilize the dead weight to replace mechanical external force, can protect the glass board to prevent its fracture in the at utmost, and can pass through mechanical transmission, repair the area that both sides glass board leads to the soft or hard handing-over of glass board because of gravity gliding and is lengthened, the thin defect, obtain a surperficial level and smooth crooked glass board after annealing, greatly reduced because of the uneven cracked possibility that causes in surface, the success rate and the off-the-shelf quality of glass board hot bending have been improved, and the device can form the linkage with hot area purifier 4 and correcting unit 7, be worth using widely.

The correcting device 7 comprises a tenth driving wheel 701, a fifth bevel gear 702, a sixth bevel gear 703, a seventh bevel gear 704, an eighth bevel gear 705, a fourth screw rod 706, a first electric clamp 707, a fifth screw rod 708, a second electric clamp 709, a suspended top plate 7010, a first hydraulic rod 7011, a second hydraulic rod 7012, a first electric supporting plate 7013 and a second electric supporting plate 7014; the axle center of the tenth transmission wheel 701 is in transmission connection with a fifth bevel gear 702; the lower part of the fifth bevel gear 702 is meshed with a sixth bevel gear 703; the lower part of the sixth bevel gear 703 is in transmission connection with a seventh bevel gear 704; the seventh bevel gear 704 is intermeshed with the eighth bevel gear 705; the axle center of the eighth bevel gear 705 is in transmission connection with a fourth screw rod 706; the outer surface of the fourth screw rod 706 is in transmission connection with a first electric clamp 707; the fourth lead screw 706 is welded with the fifth lead screw 708; the fourth lead screw 706 is connected with the suspended top plate 7010; the outer surface of the fifth screw rod 708 is in transmission connection with a second electric clamp 709; the fifth lead screw 708 is connected with the suspended ceiling 7010; a first hydraulic rod 7011 and a second hydraulic rod 7012 are sequentially arranged above the suspended top plate 7010; a first electric supporting plate 7013 and a second electric supporting plate 7014 are arranged below the suspended top plate 7010 at one time; the lower part of the outer ring of the tenth driving wheel 701 is connected with a fifth driving wheel 502; the outer surface of the first hydraulic rod 7011 is connected with the furnace chamber 5018; the outer surface of the second hydraulic ram 7012 is connected to the furnace chamber 5018.

When the glass plate pushing device is used, the first electric supporting plate 7013 and the second electric supporting plate 7014 are controlled to rotate and expand, then a glass plate is placed on the first electric supporting plate 7013 and the second electric supporting plate 7014 to be supported, then the tenth driving wheel 701 drives the fifth bevel gear 702, the fifth bevel gear 702 is meshed with and drives the sixth bevel gear 703, the sixth bevel gear 703 drives the seventh bevel gear 704, the seventh bevel gear 704 is meshed with and drives the eighth bevel gear 705, then the eighth bevel gear 705 simultaneously drives the fourth screw 706 and the fifth screw 708 to rotate, the fourth screw 706 drives the first electric clamp 707 to move right, the fifth screw 708 drives the second electric clamp 709 to move left, the first electric clamp and the second electric clamp simultaneously approach to the center until the glass plate contacts with the two sides of the glass plate, then the glass plate is pushed, and the first electric clamp 707 and the second electric clamp 709 which are symmetrical to the center are finally pushed to the center together no matter whether the glass plate is on the left or on the right when the glass plate is placed, and then the tenth driving wheel 701 is controlled to rotate reversely, after multi-stage driving, finally the first electric clamp 707 and the second electric clamp 709 are far away from each other until the leftmost side of the fourth screw rod 706 and the rightmost side of the fifth screw rod 708, the correction work is completed, then the first hydraulic rod 7011 and the second hydraulic rod 7012 are controlled to simultaneously stretch and push the suspended top plate 7010 to move downwards, the suspended top plate 7010 descends the conveyed glass plate, the seventh bevel gear 704 is separated from the eighth bevel gear 705, the driving is stopped, the first electric clamp 707 and the second electric clamp 709 move to the leftmost side and the rightmost side respectively, the glass plate is descended and placed on the controlled hot bending device 5, and the first electric clamp 707 and the second electric clamp 709 are not extruded to the controlled hot bending device 5. After the glass plate is stably placed, the first electric supporting plate 7013 and the second electric supporting plate 7014 are controlled to rotate, the glass plate is given up to be supported, and the glass plate is completely transferred to the controllable hot bending device 5 to be subjected to hot bending. The device is simple to use, can push away the glass board through the standard device relative motion that the symmetry set up completely, push away the glass board to the centre position, reach the effect of normal position, carry out normal position before the hot bending, can avoid making the glass board place just because of people's eye error, the crooked area in the left and right both sides of glass board is different when leading to hot bending, the atress is different, finally lead to the cracked problem of glass board, the hot bending success probability of glass board has been improved, the output has been improved, and the device can form the linkage with hot area purifier 4 and controllable hot bending device 5, be worth using widely.

The second angle-control restoring mechanism 5022 comprises a first L-shaped transmission connecting plate 502201, a bottom block 502202, an annular sleeve plate 502203, a first balance push rod 502204, a second balance push rod 502205 and a glass plate face restoring mechanism 502206; the upper part of the first L-shaped transmission connecting plate 502201 is rotationally connected with the bottom block 502202; the outer surface of the first L-shaped transmission connecting plate 502201 is sleeved with the annular sleeve plate 502203; the upper part of the bottom block 502202 is welded with a glass plate surface repairing mechanism 502206; a first balance push rod 502204 and a second balance push rod 502205 are sequentially arranged above the annular sleeve plate 502203; the first L-shaped transmission connecting plate 502201 is connected with the second lead screw 5015; the first L-shaped drive connection plate 502201 is connected to the second auxiliary lever 5017.

When the glass plate pressing device is used, the first balance push rod 502204 and the second balance push rod 502205 are controlled to ascend simultaneously, the glass plate surface repairing mechanism 502206 is pushed to be corrected to be in a horizontal state, then a glass plate is put on the glass plate surface repairing mechanism 502206, after the balance is stable, the first balance push rod 502204 and the second balance push rod 502205 are controlled to contract, then the first L-shaped transmission connecting plate 502201 is driven to descend, the right side of the glass plate starts to bend, and the bent glass plate presses the glass plate surface repairing mechanism 502206 to drive the bottom block 502202 to rotate clockwise around a connecting rotating shaft of the bottom block and the first L-shaped transmission connecting plate 502201. The greater the downward movement distance of the first L-shaped transmission connection plate 502201, the greater the angle of rotation of the glass sheet repair mechanism 502206, and the greater the bending angle of the glass sheet, until the target within the allowable bending range is reached. The second counterbalance push bar 502205 is spaced from the glass sheet repair mechanism 502206 sufficient to allow the glass sheet to be bent. After the glass plate reaches the target bending angle, the first L-shaped transmission connecting plate 502201 stops moving downwards, and the glass plate surface repairing mechanism 502206 is used for repairing the problem that the thickness of the soft and hard junction area of the glass plate becomes thin.

The glass panel repairing mechanism 502206 comprises a three-layer main board 50220601, an electromagnet belt 50220602, a side magnet positioning piece 50220603, a first inverted-T-shaped sliding block 50220604, an auxiliary fixing board 50220605, a repairing push rod 50220606, a pressure sensor 50220607 and a second inverted-T-shaped sliding block 50220608; the three-layer main board 50220601 is connected with the electromagnet belt 50220602; the interior of the three-layer main placing plate 50220601 is in sliding connection with a first inverted T-shaped sliding block 50220604; the interior of the three-layer main placing plate 50220601 is in sliding connection with a second inverted T-shaped sliding block 50220608; the electromagnet belt 50220602 is connected with the side magnet positioning piece 50220603; the side magnet positioning piece 50220603 is in bolt connection with the first inverted T-shaped slide block 50220604; the first inverted T-shaped sliding block 50220604 is sequentially connected with an auxiliary fixing plate 50220605, a repairing push rod 50220606 and a pressure sensor 50220607; the auxiliary fixing plate 50220605 is sequentially connected with a repair push rod 50220606 and a pressure sensor 50220607; the repairing push rod 50220606 is in transmission connection with the second inverted T-shaped slide block 50220608; the pressure sensor 50220607 is connected to a second inverted-T slider 50220608.

When the glass plate correcting device is used, the glass plate after being corrected is placed in the groove in the topmost layer of the three layers of main placing plates 50220601, then an operator manually adjusts the glass plate correcting device, firstly pushes the second inverted T-shaped sliding block 50220608 to move left to be tightly attached to the side edge of the glass plate without pushing the glass plate, then pushes the first inverted T-shaped sliding block 50220604 to move left until the pressure sensor 50220607 contacts with the second inverted T-shaped sliding block 50220608, the indication number of the pressure sensor 50220607 is kept to be zero, and then the electromagnet belt 50220602 and the side magnet positioning piece 50220603 generate magnetic force to be tightly attracted with each other, so that the first inverted T-shaped sliding block 50220604 is fixed by using the friction force between the two. After the hot bending starts, the glass plate can slide down along the inclined plane under the action of gravity, then the second inverted T-shaped sliding block 50220608 is pushed to press the pressure sensor 50220607, the pressure sensor 50220607 generates a reading number on an external display screen, then the repair push rod 50220606 is controlled to extend to push the second inverted T-shaped sliding block 50220608 to slide up along the inclined plane, further the glass plate is pushed to slide up until the reading number of the pressure sensor 50220607 on the display screen becomes zero, at the moment, the glass plate is restored to a normal state that the soft and hard junction is not elongated and thinned, and the surface repair work of the glass plate is completed. The secondary securing plate 50220605 functions to secure the repair push rod 50220606 and the pressure sensor 50220607 throughout the process.

Glass board fixation clamp 4011, land circle piece 4012, third straight-tooth gear 4013, third drive wheel 4014, fourth straight-tooth gear 4015, fourth drive wheel 4016, first bevel gear 4017, ratch 4019, first protruding piece 4020, second protruding piece 4021, the mechanism that spout 4022 and flexible control wheel 4027 constitute is provided with two sets ofly altogether, and the symmetry is installed in four-wheel elevating platform 4024's front and back both sides.

The edge of the glass plate is fixed from the front side and the back side, the middle position is left, the glass plate can be stably fixed, and on the basis of stable rotation, the central area to be cleaned is reserved.

The number of the limiting sleeve blocks 4026 is four, and the limiting sleeve blocks are respectively installed at the same horizontal height position of four wheel support legs of the four-wheel lifting platform 4024 and connected in pairs.

The two of the four blocks are connected to form a ring, so that the four-wheel lifting platform 4024 is limited to lift only up and down, horizontal position deviation cannot occur, and the structural stability of the device is guaranteed.

The electromagnet belts 50220602 and the side magnet positioning pieces 50220603 are arranged on two sides, and are symmetrically arranged on the front side and the rear side of the three-layer main plate 50220601.

The two sides are mutually tightly sucked at the same time, the friction fixing effect is strengthened, and the first inverted T-shaped sliding block 50220604 is prevented from sliding to cause the device to lose the repairing function.

The bottom of the first drive plate 408 is provided with a telescopic spring rod connected to the wiper block 409.

If the glass plate accidentally touches the wiping block 409 in the process of turning over the glass plate, the wiping block 409 can be directly pushed to be contracted into the first transmission plate 408, so that the wiping block 409 and the glass plate are not mutually clamped, the glass plate cannot be normally turned over, and the flexibility of the device is improved.

Although the present disclosure has been described in detail with reference to the exemplary embodiments, the present disclosure is not limited thereto, and it will be apparent to those skilled in the art that various modifications and changes can be made thereto without departing from the scope of the present disclosure.

Claims (10)

1. The utility model provides a curved processingequipment of glass heat which characterized in that: comprises a footing (1), a bottom plate (2), a control screen (3), a hot zone purifying device (4), a controllable hot bending device (5), a laser generator (6), a correcting device (7) and a water spraying head (8); the upper part of the bottom foot (1) is welded with the bottom plate (2); a hot area purifying device (4), a controllable hot bending device (5) and a control screen (3) are sequentially arranged above the bottom plate (2); the upper part of the hot area purification device (4) is sleeved with a water spraying head (8); the hot zone purification device (4) is in transmission connection with the controllable hot bending device (5); a laser generator (6) is arranged in the controllable hot bending device (5); the controllable hot bending device (5) is in transmission connection with the correcting device (7); the correction device (7) is in transmission connection with the hot zone purification device (4).

2. A glass hot-bending apparatus according to claim 1, wherein: the hot zone purification device (4) comprises an inner toothed ring (401), a first transmission wheel (402), a second transmission wheel (403), a first straight gear (404), a second straight gear (405), a transmission rod (406), a first screw rod (407), a first transmission plate (408), a wiping block (409), a first auxiliary rod (4010), a glass plate fixing clamp (4011), a connecting ring block (4012), a third straight gear (4013), a third transmission wheel (4014), a fourth straight gear (4015), a fourth transmission wheel (4016), a first bevel gear (4017), a second bevel gear (4018), a toothed bar (4019), a first convex block (4020), a second convex block (4021), a sliding groove (4022), a first fixed connecting plate (4023), a four-wheel lifting platform (4024), a second fixed connecting plate (4025), a limit sleeve block (4026) and a telescopic control wheel (4027); the inner gear ring (401) is sequentially connected with the first transmission wheel (402) and the second bevel gear (4018); the outer ring of the first driving wheel (402) is in transmission connection with a second driving wheel (403) through a belt; the axle center of the second transmission wheel (403) is in transmission connection with the first straight gear (404); the first straight gear (404) and the second straight gear (405) are meshed with each other; the axle center of the second straight gear (405) is sleeved with the transmission rod (406); the outer surface of the transmission rod (406) is rotatably connected with the first fixed connecting plate (4023), and one side of the transmission rod (406) is in transmission connection with the first screw rod (407); the outer surface of the first screw rod (407) is in transmission connection with a first transmission plate (408); the first screw rod (407) is rotatably connected with the second fixed connecting plate (4025); the lower part of the first transmission plate (408) is connected with the wiping block (409); the first transmission plate (408) is connected with the first auxiliary rod (4010) in a sliding way; one side of the first auxiliary rod (4010) is welded with the first fixed connecting plate (4023), and the other side of the first auxiliary rod (4010) is welded with the second fixed connecting plate (4025); the second bevel gear (4018) is meshed with the first bevel gear (4017); the axle center of the first bevel gear (4017) is in transmission connection with a fourth transmission wheel (4016); the axle center of the first bevel gear (4017) is in transmission connection with the telescopic control wheel (4027); the outer ring of the telescopic control wheel (4027) is in transmission connection with a fourth transmission wheel (4016); the axle center of the fourth driving wheel (4016) is in transmission connection with a fourth straight gear (4015); one side of a fourth straight gear (4015) is meshed with the rack bar (4019), and the other side of the fourth straight gear (4015) is meshed with the third straight gear (4013); one side of a third straight gear (4013) is in transmission connection with a third transmission wheel (4014), and the other side of the third straight gear (4013) is welded with a connecting ring block (4012); the connecting ring block (4012) is welded with the glass plate fixing clamp (4011); one side of the toothed bar (4019) is welded with the first raised block (4020), and the other side of the toothed bar (4019) is welded with the second raised block (4021); the lower part of the rack bar (4019) is in sliding connection with the sliding groove (4022); the lower part of the first raised block (4020) is in sliding connection with the sliding groove (4022); the lower part of the second lifting block (4021) is in sliding connection with the sliding groove (4022); the first fixed connecting plate (4023) is welded with the four-wheel lifting table (4024); the second fixed connecting plate (4025) is welded with the four-wheel lifting table (4024); the lower part of the four-wheel lifting platform (4024) is in sliding connection with the first protruding block (4020); the lower part of the four-wheel lifting platform (4024) is in sliding connection with the second convex lifting block (4021); the foot rod of the four-wheel lifting platform (4024) is sleeved with a limit sleeve block (4026); the limiting sleeve block (4026) is connected with the sliding groove (4022) through a bolt; the inner gear ring (401) is connected with the controllable hot bending device (5); the lower part of the chute (4022) is connected with the bottom plate (2); the upper part of the four-wheel lifting platform (4024) is connected with a water spray head (8).

3. A glass hot-bending apparatus according to claim 2, wherein: the controllable hot bending device (5) comprises a motor (501), a fifth transmission wheel (502), a sixth transmission wheel (503), a first telescopic rod (504), a first control panel (505), a fifth straight gear (506), a first electric push rod (507), a seventh transmission wheel (508), a second telescopic rod (509), a second control panel (5010), a second electric push rod (5011), a third bevel gear (5012), a fourth bevel gear (5013), an eighth transmission wheel (5014), a second lead screw (5015), a first angle control repairing mechanism (5016), a second auxiliary rod (5017), a furnace chamber (5018), an electric heater (5019), a ninth transmission wheel (5020), a third lead screw (5021), a second angle control repairing mechanism (5022) and a third auxiliary rod (5023); an output shaft of the motor (501) is sequentially connected with a fifth driving wheel (502), a sixth driving wheel (503) and a first telescopic rod (504); the outer ring of the sixth driving wheel (503) is in transmission connection with a seventh driving wheel (508) through a transmission belt; the outer surface of the first telescopic rod (504) is sleeved with the first control plate (505); the first telescopic rod (504) and the fifth straight gear (506) are mutually spliced; the first control plate (505) is connected with the first electric push rod (507) through bolts; the axle center of the seventh driving wheel (508) is in transmission connection with the second telescopic rod (509); the outer surface of the second telescopic rod (509) is sleeved with the second control plate (5010); the second telescopic rod (509) is inserted with the third bevel gear (5012); the second control plate (5010) is in bolted connection with the second electric push rod (5011); the upper part of the third bevel gear (5012) is meshed with the fourth bevel gear (5013); the upper part of the fourth bevel gear (5013) is sequentially connected with an eighth transmission wheel (5014) and a second screw rod (5015); the outer ring of the eighth transmission wheel (5014) is in transmission connection with the ninth transmission wheel (5020) through a transmission belt; the upper part of the outer surface of the second screw rod (5015) is in transmission connection with a first angle control repairing mechanism (5016); the first angle control repairing mechanism (5016) is in sliding connection with the second auxiliary rod (5017); the lower part of the second auxiliary rod (5017) is connected with the furnace chamber (5018) through bolts; an electric heater (5019) is arranged in the furnace chamber (5018); the upper part of the ninth transmission wheel (5020) is in transmission connection with a third screw rod (5021); the upper part of the outer surface of the third screw rod (5021) is in transmission connection with a second angle control repairing mechanism (5022); the second angle control restoration mechanism (5022) is in sliding connection with the third auxiliary rod (5023); the lower part of the third auxiliary rod (5023) is connected with the furnace chamber (5018) through a bolt; the lower part of the motor (501) is connected with the bottom plate (2); the fifth straight gear (506) is connected with the inner gear ring (401); the lower part of the furnace chamber (5018) is connected with the bottom plate (2).

4. A glass hot-bending apparatus according to claim 3, wherein: the correcting device (7) comprises a tenth driving wheel (701), a fifth bevel gear (702), a sixth bevel gear (703), a seventh bevel gear (704), an eighth bevel gear (705), a fourth screw rod (706), a first electric clamp (707), a fifth screw rod (708), a second electric clamp (709), a suspended top plate (7010), a first hydraulic rod (7011), a second hydraulic rod (7012), a first electric supporting plate (7013) and a second electric supporting plate (7014); the axle center of the tenth transmission wheel (701) is in transmission connection with a fifth bevel gear (702); the lower part of the fifth bevel gear (702) is meshed with the sixth bevel gear (703); the lower part of the sixth bevel gear (703) is in transmission connection with a seventh bevel gear (704); the seventh bevel gear (704) and the eighth bevel gear (705) are meshed with each other; the axle center of the eighth bevel gear (705) is in transmission connection with a fourth screw rod (706); the outer surface of the fourth screw rod (706) is in transmission connection with a first electric clamp (707); the fourth screw rod (706) is welded with the fifth screw rod (708); the fourth screw rod (706) is connected with the suspended top plate (7010); the outer surface of the fifth screw rod (708) is in transmission connection with a second electric clamp (709); the fifth screw rod (708) is connected with the suspended top plate (7010); a first hydraulic rod (7011) and a second hydraulic rod (7012) are sequentially arranged above the suspended top plate (7010); a first electric supporting plate (7013) and a second electric supporting plate (7014) are arranged below the suspended top plate (7010) at one time; the lower part of the outer ring of the tenth transmission wheel (701) is connected with a fifth transmission wheel (502); the outer surface of the first hydraulic rod (7011) is connected with the furnace chamber (5018); the outer surface of the second hydraulic rod (7012) is connected with the furnace chamber (5018).

5. The glass hot-bending apparatus according to claim 4, wherein: the second angle control repairing mechanism (5022) comprises a first L-shaped transmission connecting plate (502201), a bottom block (502202), an annular sleeve plate (502203), a first balance push rod (502204), a second balance push rod (502205) and a glass plate surface repairing mechanism (502206); the upper part of the first L-shaped transmission connecting plate (502201) is rotationally connected with the bottom block (502202); the outer surface of the first L-shaped transmission connecting plate (502201) is sleeved with the annular sleeve plate (502203); the upper part of the bottom block (502202) is welded with a glass plate surface repairing mechanism (502206); a first balance push rod (502204) and a second balance push rod (502205) are sequentially arranged above the annular sleeve plate (502203); the first L-shaped transmission connecting plate (502201) is connected with the second screw rod (5015); the first L-shaped transmission connecting plate (502201) is connected with the second auxiliary rod (5017).

6. The glass hot-bending apparatus according to claim 5, wherein: the glass plate surface repairing mechanism (502206) comprises three layers of main placing plates (50220601), an electromagnet belt (50220602), a side magnet positioning sheet (50220603), a first inverted T-shaped sliding block (50220604), an auxiliary fixing plate (50220605), a repairing push rod (50220606), a pressure sensor (50220607) and a second inverted T-shaped sliding block (50220608); the three-layer main board (50220601) is connected with the electromagnet belt (50220602); the interior of the three-layer main placing plate (50220601) is connected with a first inverted T-shaped sliding block (50220604) in a sliding way; the interior of the three-layer main placing plate (50220601) is in sliding connection with a second inverted T-shaped sliding block (50220608); the electromagnet belt (50220602) is connected with the side magnet positioning piece (50220603); the side magnet positioning piece (50220603) is connected with the first inverted T-shaped sliding block (50220604) through a bolt; the first inverted T-shaped sliding block (50220604) is sequentially connected with the auxiliary fixing plate (50220605), the repairing push rod (50220606) and the pressure sensor (50220607); the auxiliary fixing plate (50220605) is sequentially connected with the repair push rod (50220606) and the pressure sensor (50220607); the repairing push rod (50220606) is in transmission connection with the second inverted T-shaped slide block (50220608); the pressure sensor (50220607) is connected with the second inverted T-shaped slider (50220608).

7. The glass hot-bending apparatus according to claim 6, wherein: glass board fixation clamp (4011), land circle piece (4012), third straight gear (4013), third drive wheel (4014), fourth straight gear (4015), fourth drive wheel (4016), first bevel gear (4017), ratch (4019), first protruding liter piece (4020), protruding liter piece (4021) of second, the mechanism that spout (4022) and flexible control wheel (4027) are constituteed is provided with two sets ofly altogether, the symmetry is installed in the front and back both sides of four-wheel elevating platform (4024).

8. A glass hot-bending apparatus according to claim 7, wherein: the number of the limiting sleeve blocks (4026) is four, and the four limiting sleeve blocks are respectively arranged at the same horizontal height position of four wheel support legs of the four-wheel lifting platform (4024) and connected in pairs.

9. A glass hot-bending apparatus according to claim 8, wherein: the electromagnet belt (50220602) and the side magnet positioning piece (50220603) are arranged on two sides and symmetrically arranged on the front side and the rear side of the three-layer main plate (50220601).

10. A glass hot-bending apparatus according to claim 9, wherein: the bottom of the first transmission plate (408) is provided with a telescopic spring rod connected with the wiping block (409).

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