CN116119903B - Small strip forming device for optical glass - Google Patents

Abstract

The invention discloses an optical glass small strip forming device, which relates to the technical field of optical glass forming and comprises a frame, wherein a conveying belt is arranged in the frame, a preheating part is arranged at one end of the top of the frame, an annealing part is arranged at the other end of the top of the frame, a forming part is arranged between the preheating part and the annealing part, a plurality of end-to-end forming groove frames are arranged on the conveying belt, grid clamping assemblies are arranged on the conveying belt and positioned on two sides of the forming groove frames, bearing seats are symmetrically arranged on two sides of the bottom surface of the frame, double-end screws are arranged between the two bearing seats, the bottom ends of the grid clamping assemblies extend to the lower part of the frame and are in threaded fit with the two double-end screws, and the end parts of the two double-end screws extend out of the bearing seats to be connected with hand wheels. According to the invention, the forming groove frames with different sizes can be conveniently replaced according to the forming requirement, and the forming groove frames are ensured to be always kept in the middle of the conveying belt after being replaced, so that the blanking of the material leakage pipe is facilitated.

Description

Small strip forming device for optical glass

Technical Field

The invention relates to the technical field of optical glass forming, in particular to an optical glass small strip forming device.

Background

The optical glass product is a main material for manufacturing optical lenses and optical instruments. Glass manufacturers firstly draw glass into plates or square stocks, the plates or square stocks are made into small blocks by cutting, pressing, frying and the like, then the small blocks are processed into lenses with proper sizes by a profiling procedure, and finally, the lenses are assembled into optical lenses or instruments by terminal optical product manufacturers. In the working procedure, the utilization rate is only about 75% due to the surplus materials and loss in the process of manufacturing the small blocks from the plate materials or square materials, so that the cost of the finished lens is high. In order to improve the utilization rate and reduce the cost, some common optical glasses adopt a profiling mode to improve the utilization rate, such as H-K9, F4 and other glasses. However, the lanthanide optical glass has low viscosity and high crystallization temperature, and is easy to be striped and folded during compression molding, so that manufacturers generally do not directly perform primary molding.

The existing optical glass strip forming mode is that glass liquid flows onto a bottom plate of a die, the glass liquid is cooled and solidified through a plug device and a side plate, and glass is pulled out through a traction furnace. In the method, the positions of the bottom plate, the side plate and the plug device of the mould are fixed, the temperature is high during production, if the glass drawing speed is high, the glass liquid can be adhered to the bottom plate, the side plate and the plug device of the mould and the glass liquid when the glass drawing speed is insufficient, therefore, the method can not draw narrower strips, and the optical glass small strip forming device of the authorized bulletin CN107500514B comprises a transmission mechanism, a preheating part, a forming part and an annealing part, wherein the transmission mechanism consists of a frame body, a roller, a conveyor belt and a power device.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, as a forming template needs to be kept in the middle of a conveying belt so as to facilitate the conveying of a material leakage pipe, only an integral device can be replaced, the cost is increased, and meanwhile, the quick adjustment of production is not facilitated.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

The utility model provides an optical glass strip material forming device, includes the frame, install the conveyer belt in the frame, the top one end of frame is equipped with preheating part, the other end is equipped with annealing part, and install shaping portion between preheating part and the annealing part, install a plurality of end to end's shaping cell frame on the conveyer belt, just be located shaping cell frame both sides and all be equipped with check and keep off clamping assembly, the bearing frame is all symmetrically installed to the bottom surface both sides of frame, two install double-end screw between the bearing frame, check keeps off clamping assembly's bottom extends to the frame below and with two double-end screw thread adaptation, two double-end screw's tip all stretches out the bearing frame and is connected with the hand wheel, shaping portion is including being close to preheating part keep off the material subassembly, be close to the lift rolling assembly of annealing part and setting up the drain pipe between keeping off material subassembly and lift rolling assembly.

Preferably, the middle parts of the double-headed screws are symmetrically sleeved with the baffle plates, a first conveying piece is connected between the two double-headed screws, and the first conveying piece is arranged between the two symmetrical baffle plates.

Preferably, slots are symmetrically formed in two ends of the top surface of the frame, and two ends of the preheating part and the annealing part are slidably inserted into the slots.

Preferably, the grid keeps off clamping assembly includes the grid that establishes in the conveyer belt outside keeps off splint and installs the roller support on the grid keeps off splint, the grid keeps off splint and is the L type, and the lower extreme that keeps off the splint is equipped with the end that transversely link up and leads to the groove, and the upper end that keeps off the splint is equipped with the top that transversely link up leads to the groove, roller support installs in the groove that leads to in the top, installs the guide roll of a plurality of group linear array on the roller support.

Preferably, the conveyer belt is located at the bottom through groove, and the lower end of the grid baffle clamping plate below the bottom through groove is provided with a screw hole matched with the double-headed screw.

Preferably, a plurality of grooves are formed in the upper side wall and the lower side wall of the jacking groove, guide posts and buffer springs are arranged in each groove, a plurality of sliding shafts are arranged at the upper end and the lower end of the roller support, the sliding shafts are anastomosed in the grooves, the guide posts transversely slide to penetrate through the sliding shafts, and the ends of the buffer springs are propped against the sliding shafts.

Preferably, the side surface of the guide roller extends out of the jacking groove and abuts against the side surface of the forming frame groove, and the guide roller is rotatably arranged in the roller bracket.

Preferably, the lifting rolling assembly comprises a U-shaped support fixed on two sides of the top surface of the frame and rolling wheels arranged between two ends of the U-shaped support, side grooves are formed in the side surfaces of two support legs of the U-shaped support in a penetrating mode, a sliding rod is arranged in one side groove, a screw rod is arranged in the other side groove, the sliding rod is connected with a first sliding block in a rotating mode with the bottom end of the screw rod, the top end of the screw rod is connected with a rotary table, and the end portions of the rolling wheels are rotatably arranged in the two first sliding blocks.

Preferably, a sliding groove is formed in the top surface of the frame on one side of one supporting leg of the U-shaped support, an adjusting screw is installed in the sliding groove, a tensioning sliding frame sliding on the frame is sleeved on the adjusting screw, a second sliding block capable of lifting is arranged in the tensioning sliding frame, and an adjusting knob for driving the adjusting screw to rotate is further installed on the side surface of the frame.

Preferably, the end part of the rolling wheel passes through the side surfaces of the first sliding block and the second sliding block and the frame, a second conveying part is arranged between the side surfaces of the first sliding block and the second sliding block and the frame, the second conveying part consists of three chain wheels and chains meshed with the three chain wheels, one chain wheel is fixedly arranged at the end part of the rolling wheel, one chain wheel is rotationally connected with the side surface of the second sliding block, and the last chain wheel is coaxially and fixedly connected with a conveying roller in the conveying belt.

Compared with the prior art, the invention has the following advantages:

According to the invention, the two grid clamping assemblies are arranged on the conveying belt in the frame and slide on the conveying belt through the double-headed screw and the hand wheel, so that the clamping of the forming groove frame is realized, when the forming groove frame is used, the forming groove frames with different sizes can be conveniently replaced according to the forming requirement, the forming groove frames are ensured to be always kept in the middle of the conveying belt after replacement, the blanking of the material leakage pipe is convenient, meanwhile, the roller bracket, the guide roller, the guide post and the buffer spring of the grid clamping assembly can ensure the clamping strength and can not influence the sliding of the forming groove frames on the conveying belt when the grid clamping assembly clamps the forming groove frames; in addition, through the U type support, the rolling wheel, the lead screw, the slip, second conveyer, tensioning carriage and adjusting screw's setting of lift roll extrusion subassembly, can also make the rolling wheel follow the conveyer belt and rotate when the glass solidification is in the roll extrusion wheel below when going up and down the roll extrusion subassembly to the glass material separation in the shaping groove, can also avoid the bonding of glass liquid and rolling wheel when realizing leveling glass liquid upper surface purpose, influence the level and smooth work of follow-up glass, improved smooth effect.

Drawings

FIG. 1 is a schematic diagram of the front structure of an optical glass ribbon forming device according to the present invention;

FIG. 2 is a schematic diagram of the bottom structure of an optical glass ribbon forming device according to the present invention;

FIG. 3 is a side view of an optical glass ribbon forming device according to the present invention;

FIG. 4 is a schematic diagram showing the structure of an annealing part and a preheating part of an optical glass ribbon forming device according to the present invention;

FIG. 5 is a schematic diagram of a grid clamping assembly of an optical glass strip forming device according to the present invention;

FIG. 6 is an enlarged view of the structure A in FIG. 5 of an optical glass ribbon forming device according to the present invention;

FIG. 7 is a schematic view of a roller frame of an optical glass ribbon forming device according to the present invention;

FIG. 8 is a schematic view of a lifting rolling assembly of an optical glass strip forming device according to the present invention;

Fig. 9 is an enlarged view of the structure B in fig. 8 of the device for forming small strips of optical glass according to the present invention.

In the figure: 1. a frame; 2. an annealing section; 3. a preheating part; 4. forming a groove frame; 5. a conveyor belt; 6. a grid clamping assembly; 7. a hand wheel; 8. a material leakage pipe; 9. a material blocking component; 10. lifting and rolling the assembly; 11. a bearing seat; 12. a double-ended screw; 13. a first transfer member; 14. a slot; 61. a grid clamping plate; 62. a bottom through groove; 63. a top through groove; 64. a roller support; 65. a guide roller; 66. a guide post; 67. a buffer spring; 101. a U-shaped bracket; 102. a rolling wheel; 103. a screw rod; 104. a slide bar; 105. a slide block; 106. a second transfer member; 107. tensioning the sliding frame; 108. adjusting a screw; 109. and (5) adjusting a knob.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-2, an optical glass small strip forming device comprises a frame 1, wherein a conveying belt 5 is installed in the frame 1, conveying rollers are arranged in the conveying belt 5, and a motor for driving the conveying belt 5 to work is also installed in the frame 1, wherein the motor is in the prior art. The top one end of frame 1 is equipped with preheating part 3, the other end is equipped with annealing part 2 to install shaping portion between preheating part 3 and annealing part 2, install a plurality of end to end's shaping cell frame 4 on the conveyer belt 5, shaping cell frame 4 end to end joint links to each other, conveniently dismantles. The conveyer belt 5 is last and be located shaping cell frame 4 both sides and all be equipped with check and keep off clamping assembly 6, the equal symmetry in bottom surface both sides of frame 1 installs bearing frame 11, install double-end screw rod 12 between two bearing frames 11, double-end screw rod 12 is rotatory in bearing frame 11, the bottom that check kept off clamping assembly 6 extends to frame 1 below and with two double-end screw rod 12 screw thread adaptations, realize that double-end screw rod 12 rotation regulation check keeps off clamping assembly 6 and removes, the tip of two double-end screw rods 12 all stretches out bearing frame 11 and is connected with hand wheel 7, make things convenient for hand wheel 7 to drive double-end screw rod 12 rotation, the shaping portion is including being close to the fender material subassembly 9 of preheating part 3, be close to the lift rolling assembly 10 of annealing part 2 and set up the drain pipe 8 between fender material subassembly 9 and lift rolling assembly 10, keep off material subassembly 9 here the same with prior art, by the fender work or material rest of U-shaped, install the dog in keeping off the work or material rest and connect the threaded rod bottom at the threaded rod, here dog and shaping cell frame 4 inside coincide, hand wheel 7 that is convenient for regulation is also installed at the top of threaded rod simultaneously, can make things convenient for regulation screw line rotation, and then adjust the height of dog 4 and shaping cell frame.

Referring to fig. 2-3, the middle parts of the double-headed screws 12 are symmetrically sleeved with baffles, the grid clamping assembly 6 is limited, unlimited movement of the grid clamping assembly is avoided, a first conveying member 13 is connected between the two double-headed screws 12, the first conveying member 13 is composed of two chain wheels and a chain connecting the two chain wheels, the two chain wheels are respectively and fixedly arranged at the end parts of the two double-headed screws 12, the rotation of one double-headed screw 12 is realized, namely the synchronous rotation of the other double-headed screw 12 is driven, and the first conveying member 13 is arranged between the two symmetrical baffles.

Referring to fig. 4, slots 14 are symmetrically formed at two ends of the top surface of the frame 1, two ends of the preheating part 3 and the annealing part 2 are slidably inserted into the slots 14, the heights of the preheating part 3 and the annealing part 2 can be adjusted as required, the preheating part 3 is a cavity structure made of heat insulation materials, an arc-shaped silicon carbide plate and a resistance wire are electrified to generate heat, the output power is controlled through a thyristor control cabinet, a mold passing through an inner cavity of the preheating part can be heated, the annealing part 2 is an annealing furnace, the annealing part is a cavity structure made of the heat insulation materials, a heating element controlled in a segmented mode is arranged in the annealing part, and the annealing temperature can be reduced for glass annealing.

Referring to fig. 5 to 7, the grid clamping assembly 6 includes a grid clamping plate 61 provided at an outer side of the conveyor belt 5 and a roller support 64 mounted on the grid clamping plate 61, the grid clamping plate 61 is L-shaped, a top portion of the L-shape is located on the conveyor belt 5 to be in contact with the forming groove 4, a bottom through groove 62 transversely penetrating is provided at a lower end of the grid clamping plate 61, a top through groove 63 transversely penetrating is provided at an upper end of the grid clamping plate 61, the roller support 64 is mounted in the top through groove 63, a plurality of guide rollers 65 of linear arrays are mounted on the roller support 64, and the plurality of guide rollers 65 can clamp the forming groove 4 and keep the forming groove 4 moving when contacting the forming groove 4. The conveyer belt 5 is located at the bottom and leads to the inslot 62, makes things convenient for check to keep off splint 61 to remove on the conveyer belt 5, and is located at the bottom and keeps off splint 61 lower extreme of leading to the inslot 62 below and be equipped with the screw with double-end screw 12 adaptation, realizes that double-end screw 12 is rotatory, drives check and keeps off splint 61 rotation, and double-end screw 12 both ends screw thread is opposite, can also make two check keep off splint 61 remove opposite direction. The upper and lower both sides wall of top through groove 63 has all seted up a plurality of recess, all be equipped with guide post 66 and buffer spring 67 in every recess, roller support 64 upper and lower both ends all are equipped with a plurality of slide shaft, and the slide shaft coincide in the recess, guide post 66 transversely slides and runs through the slide shaft, the slide shaft can slide on guide post 66 promptly, the side of guide roller 65 stretches out top through groove 63 and offsets with the side of shaping frame groove, and guide roller 65 rotates the setting in roller support 64, and buffer spring 67's tip offsets with the slide shaft, thereby can make guide roller 65 and roller support 64 remove in top through groove 63, and by buffer spring 67's bounce, make guide roller 65 and shaping frame 4 laminating more closely.

Referring to fig. 8-9, the lifting rolling assembly 10 comprises a U-shaped bracket 101 fixed on two sides of the top surface of the frame 1 and rolling wheels 102 installed between two ends of the U-shaped bracket 101, wherein the size of each rolling wheel 102 is matched with the inside of the forming groove frame 4, two side faces of each leg of the U-shaped bracket 101 are provided with side grooves in a penetrating mode, a sliding rod 104 is installed in one side groove, a screw rod 103 is installed in the other side groove, the sliding rod 104 plays a guiding role, the sliding rod 104 and the bottom end of each screw rod 103 are connected with a first sliding block 105 in a rotating mode, the top end of each screw rod 103 is connected with a rotary disc, the rotary disc is similar to a hand wheel 7 in structure, the rotary disc can drive the screw rods 103 to rotate, the screw rods 103 are lifted on the U-shaped bracket 101, the lifting of the first sliding blocks 105 are driven, and the end portions of the rolling wheels 102 are rotatably installed in the two first sliding blocks 105.

The spout has been seted up to frame 1 top surface of one of them stabilizer blade one side of U type support 101, install adjusting screw 108 in the spout, and the last gliding tensioning carriage 107 in frame 1 that has cup jointed of adjusting screw 108, adjusting screw 108 is rotatory, can drive the left and right sides removal of tensioning carriage 107, be equipped with the second slider of liftable in the tensioning carriage 107, the second slider lift principle is the same with first slider 105 lift principle, adjusting knob 109 that drive adjusting screw 108 is rotatory is still installed to the side of frame 1, be equipped with two intermeshing's bevel gears in frame 1, two bevel gears are installed respectively on adjusting rotation 109 and adjusting screw 108, thereby realize that adjusting knob 109 drives adjusting screw 108 and rotate.

The end of the rolling wheel 102 passes through the first slide block 105, the side surface of the second slide block and the frame 1, a second conveying part 106 is arranged between the side surfaces of the second slide block and the frame 1, the second conveying part 106 is composed of three chain wheels and chains meshed with the three chain wheels, one chain wheel is fixedly arranged at the end of the rolling wheel 102, one chain wheel is rotationally connected with the side surface of the second slide block, the last chain wheel is coaxially and fixedly connected with a conveying roller in the conveying belt 5, and when the conveying roller drives the conveying belt 5 to work, the rolling wheel 102 is driven to rotate simultaneously.

Working principle: before working, firstly connecting a plurality of forming groove frames 4 together end to end, rotating a hand wheel 7, driving a double-headed screw 12 to rotate by the hand wheel 7, driving the other double-headed screw 12 to synchronously rotate by a first conveyor belt, enabling two check clamping plates 61 to move on the double-headed screw 12 until a guide roller 65 above the check clamping plates 61 contacts with the side surface of the forming groove frames 4, compressing a spring to clamp the check clamping plates 61 on the forming groove frames 4, then spraying a boron nitride release agent on the groove wall of the forming groove frames 4 and the outer surface of a rolling wheel 102 to prevent glass liquid from adhering with a mold, simultaneously conveniently taking out glass from the forming groove, then starting to rotate a rotary table to drive a screw 103 to rotate, adjusting the height of the rolling wheel 102 by the lifting of a first sliding block 105, enabling the rolling wheel 102 to be positioned above a solidification position of the glass liquid, and then rotating an adjusting knob 109, driving an adjusting screw 108 to rotate by the adjusting knob 109, further adjusting a tensioning sliding frame 107, and enabling a second conveying member 106 to keep a tensioning state;

At this time, the motor driving the conveyor belt 5 to move is started to work, the conveyor belt 5 starts to move with the forming groove frame 4, the conveyor belt enters the preheating part 3 to be preheated, the conveyor belt moves to the position of the material leakage pipe 8 after the preheating is completed, the stop block of the material blocking assembly 9 contacts with the groove bottom wall of the forming groove frame 4, the material leakage pipe 8 starts to discharge, the glass liquid uniformly flows out of the material leakage pipe 8 and enters the forming groove frame 4, the glass is pulled away along with the forming groove under the action of friction force, the stop block cools the glass behind the material leakage pipe 8, meanwhile, the glass is blocked to flow in the opposite direction, and when the glass flows to the lower part of the rolling wheel 102, the rolling wheel 102 starts to rotate along with the conveying of the conveyor belt 5 at this time, the glass liquid is blocked below the rolling wheel 102, the rotating rolling wheel 102 levels the upper surface of the glass liquid, after the glass liquid is annealed and cooled along with the forming groove frame 4, the formed glass small strip is dismounted at the joint of each section of the forming groove frame 4, and the formed glass small strip is broken down, and the forming groove frame 4 continues to participate in continuous recycling.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims (7)

1. The utility model provides an optical glass strip material forming device, includes frame (1), install conveyer belt (5) in frame (1), the top one end of frame (1) is equipped with preheating part (3), the other end is equipped with annealing part (2), and install forming part between preheating part (3) and annealing part (2), install a plurality of end to end's shaping cell frame (4) on conveyer belt (5), characterized in that, on conveyer belt (5) and be located shaping cell frame (4) both sides all are equipped with check clamping assembly (6), bearing frame (11) are all installed to the bottom surface both sides symmetry of frame (1), two install double-end screw (12) between bearing frame (11), the bottom of check clamping assembly (6) extends to frame (1) below and with two double-end screw (12) screw thread adaptation, and the tip of two double-end screw (12) all stretches out bearing frame (11) and is connected with hand wheel (7), forming part is including being close to fender material subassembly (9) of preheating part (3), be close to annealing part (2) and roll extrusion subassembly (10) between rolling assembly (10);

The middle parts of the double-headed screws (12) are symmetrically sleeved with baffle plates, a first conveying piece (13) is connected between the two double-headed screws (12), and the first conveying piece (13) is arranged between the two symmetrical baffle plates;

The grid clamping assembly (6) comprises a grid clamping plate (61) arranged on the outer side of the conveying belt (5) and a roller bracket (64) arranged on the grid clamping plate (61), the grid clamping plate (61) is L-shaped, a bottom through groove (62) which is transversely penetrated is arranged at the lower end of the grid clamping plate (61), a top through groove (63) which is transversely penetrated is arranged at the upper end of the grid clamping plate (61), the roller bracket (64) is arranged in the top through groove (63), and a plurality of groups of guide rollers (65) of linear arrays are arranged on the roller bracket (64);

The lifting rolling assembly (10) comprises a U-shaped support (101) fixed on two sides of the top surface of a frame (1) and rolling wheels (102) arranged between two ends of the U-shaped support (101), side grooves are formed in the side faces of two support legs of the U-shaped support (101) in a penetrating mode, a sliding rod (104) is arranged in one side groove, a screw rod (103) is arranged in the other side groove, the sliding rod (104) is connected with a first sliding block (105) in a rotating mode with the bottom end of the screw rod (103), the top end of the screw rod (103) is connected with a rotary disc, and the end portions of the rolling wheels (102) are rotatably arranged in the two first sliding blocks (105).

2. The device for forming the small strip of the optical glass according to claim 1, wherein slots (14) are symmetrically formed at two ends of the top surface of the frame (1), and two ends of the preheating part (3) and the annealing part (2) are slidably inserted into the slots (14).

3. The device for forming the small strip of the optical glass according to claim 1, wherein the conveying belt (5) is positioned in the bottom through groove (62), and a screw hole matched with the double-head screw rod (12) is arranged at the lower end of the grid retaining clamping plate (61) positioned below the bottom through groove (62).

4. The device for forming the small strip of the optical glass according to claim 1, wherein a plurality of grooves are formed in the upper side wall and the lower side wall of the jacking groove (63), guide posts (66) and buffer springs (67) are arranged in each groove, a plurality of sliding shafts are arranged at the upper end and the lower end of the roller support (64), the sliding shafts are anastomosed in the grooves, the guide posts (66) transversely slide to penetrate through the sliding shafts, and the ends of the buffer springs (67) are propped against the sliding shafts.

5. The apparatus according to claim 4, wherein the side surface of the guide roller (65) extends out of the through groove (63) and abuts against the side surface of the molding frame groove, and the guide roller (65) is rotatably provided in the roller holder (64).

6. The small optical glass strip forming device according to claim 5, wherein a chute is formed in the top surface of the frame (1) on one side of one leg of the U-shaped bracket (101), an adjusting screw (108) is installed in the chute, a tensioning sliding frame (107) sliding on the frame (1) is sleeved on the adjusting screw (108), a second sliding block capable of lifting is arranged in the tensioning sliding frame (107), and an adjusting knob (109) for driving the adjusting screw (108) to rotate is further installed on the side surface of the frame (1).

7. An optical glass small strip forming device according to claim 6, characterized in that the end of the rolling wheel (102) passes through the first slide block (105) and the second slide block side surface and the frame (1) and is provided with a second conveying member (106), the second conveying member (106) is composed of three chain wheels and a chain meshed with the three chain wheels, one chain wheel is fixedly arranged at the end of the rolling wheel (102), one chain wheel is rotatably connected to the second slide block side surface, and the last chain wheel is coaxially and fixedly connected with a conveying roller in the conveying belt (5).