CN113787381A - Vehicle convex lens and processing technology thereof - Google Patents

Abstract

The invention provides a vehicle convex lens and a processing technology thereof, wherein the vehicle convex lens comprises a convex lens main body and is characterized in that: the convex lens main body comprises an optical spherical body and an optical bottom plate, one end of the optical spherical body is planar and is connected with one end face of the optical bottom plate into a whole, the other end face of the optical bottom plate is also planar, one end, away from the optical bottom plate, of the optical spherical body is spherical, eight optical protrusions are sequentially arranged on the spherical surface of the optical spherical body from left to right, the eight optical protrusions are arranged in a linear shape, and clamping parts used for positioning and fixing are further arranged on the periphery of the optical bottom plate. The circle of clamping parts for positioning and fixing are arranged on the periphery of the optical bottom plate, and the convex lens is quickly clamped through the clamping parts in the processes of optical testing, polishing and mounting, so that the practicability is greatly improved.

Description

Vehicle convex lens and processing technology thereof

Technical Field

The invention relates to the technical field of convex lenses, in particular to a vehicle convex lens and a processing technology thereof.

Background

With the continuous progress of science and technology, the LED light source has more advantages and becomes the preferred scheme of novel vehicle lamp light source.

The related countries and industries have mandatory light distribution requirements of cut-off lines for near and far lights in vehicle headlamps, and the vehicle lamp with the projection type convex lens has been used for more than 20 years, and has unique superiority and is widely adopted in the design and application of the low beam of the vehicle lamp. However, the convex lens for the car lamp needs to be specially designed to clamp the tool in order not to damage the optical surface in the machining process, so that the cost is increased, the machining time can be greatly increased by clamping the convex lens through the clamping tool, and the production efficiency is reduced.

Disclosure of Invention

The invention provides a convex lens for a vehicle and a processing technology thereof.A circle of clamping parts for positioning and fixing are arranged around an optical bottom plate, and the convex lens is quickly clamped in the processes of optical test, polishing and installation through the clamping parts, so that the practicability is greatly improved.

In order to solve the technical problem, the invention provides a convex lens for a vehicle, which comprises a convex lens main body and is characterized in that: the convex lens main body is composed of an optical spherical body and an optical bottom plate, one end of the optical spherical body is planar and is connected with one end face of the optical bottom plate into a whole, the other end face of the optical bottom plate is also planar, one end of the optical spherical body, far away from the optical bottom plate, is spherical, eight optical protrusions are sequentially arranged on the spherical surface of the optical spherical body from left to right, the eight optical protrusions are arranged in a shape like a Chinese character 'yi', clamping parts for positioning and fixing are further arranged around the optical bottom plate, the optical bottom plate is circular, the clamping parts surround the optical bottom plate for a circle, each clamping part is composed of a first clamping part, a second clamping part and a third clamping part, the second clamping part is provided with two clamping parts, and the two second clamping parts, the first clamping part and the third clamping part are connected with the optical bottom plate into a whole, the two ends of the first clamping part are respectively connected with the two ends of the third clamping part into a whole through a second clamping part, the eight optical protrusions on the spherical surface of the optical spherical body are symmetrical left and right in pairs, and the protrusion angles of the four optical protrusions on the left side from left to right are sequentially 2 degrees, 3 degrees, 4 degrees and 5 degrees.

Further: the processing technology of the vehicular convex lens comprises the following steps:

s1: preparing materials: selecting a cylindrical glass body with corresponding length according to the size of the manufactured convex lens, and then dividing the cylindrical glass body into a plurality of equal parts according to the material consumption of the convex lens;

s2: and (4) observation and detection: manually observing the cylindrical glass body divided into a plurality of equal parts to see whether fingerprints and dust exist on the surface of the cylindrical glass body and whether impurities exist in the cylindrical glass body, if no problem exists, putting the cylindrical glass body into a feeding area, if impurities exist, selecting the cylindrical glass body and putting the cylindrical glass body into a recovery area, and if fingerprints and dust exist, wiping the cylindrical glass body completely and then putting the cylindrical glass body into the feeding area;

s3: heating: pouring the columnar glass bodies placed in the feeding area in the step S2 into an automatic feeding mechanism, and placing the columnar glass bodies into a glass softening furnace one by one through the automatic feeding mechanism so as to soften the columnar glass bodies through heating;

s4: and (3) pressing and forming: taking the softened columnar glass body in the step S3 out of the glass softening furnace, placing the columnar glass body into a hot press, and pressing the columnar glass body through a die to form a convex lens rough blank;

s5: annealing: demolding the convex lens rough blank pressed in the step S4, then placing the convex lens rough blank into an annealing furnace, annealing to remove stress, demolding the convex lens rough blank by blowing after pressing, and then sending the demolded convex lens rough blank into the annealing furnace by a mechanical arm;

s6: removing waste edges: removing the waste edges of the annealed convex lens rough blank, scribing the redundant part of the convex lens rough blank by a glass cutter, and then removing the blank by knocking;

s7: polishing: placing the convex lens rough blank subjected to the edge trimming removal in the step S6 into a grinding machine, grinding the surface of the convex lens rough blank through the grinding machine to prepare a convex lens, and performing coarse grinding, fine grinding, polishing and cleaning on the convex lens rough blank in the grinding machine in sequence;

s8: and (3) appearance detection: firstly, observing and detecting the whole convex lens through manual visual inspection, picking out waste products with defects in the processing process, and then detecting the size of the convex lens through a size inspection instrument;

s9: optical detection: and carrying out optical detection on the convex lens subjected to appearance detection by using a matching machine, wherein the convex lens without problems after the optical detection is a convex lens finished product.

And further: the automatic feeding mechanism in the step S3 comprises a top plate, a left support, a right support, a middle support, a distribution mechanism, a cylindrical glass body conveying mechanism, a turntable, a first servo motor, a lifting electric cylinder and a clamp, wherein the top plate is horizontally fixed at the tops of the left support, the right support and the middle support, the middle support is positioned between the left support and the right support, the distribution mechanism is arranged between the left support and the middle support, a material storage and discharge mechanism is further arranged right above the distribution mechanism, the cylindrical glass body conveying mechanism is arranged below the distribution mechanism and the turntable, the distribution mechanism comprises a distribution plate, a driving shaft, a second servo motor, an arc-shaped baffle and an arc-shaped baffle mounting seat, the two arc-shaped baffles and the two arc-shaped baffle mounting seats are respectively arranged, the distribution plate is sleeved on the driving shaft, and two arc-shaped baffles are respectively arranged at two sides of the distribution plate, the side of the arc baffle facing the distribution plate is provided with an arc groove matched with the excircle of the distribution plate, the outer wall of the distribution plate is uniformly provided with a plurality of grooves for storing glass columnar bodies, the driving shaft is connected with a second servo motor, two arc baffle installation seats are respectively fixed on a left bracket and a middle bracket, the arc baffle installation seats are provided with guide grooves for connecting the arc baffles, one side of the arc baffle, which is far away from the arc groove, is movably connected in the guide grooves, the arc baffle installation seats are also provided with threaded through holes matched with the guide grooves, the threaded through holes are internally connected with adjusting bolts, one ends of the adjusting bolts penetrate through the threaded through holes and extend into the guide grooves to be connected with the arc baffles, a feed inlet is formed between the upper ends of the two arc baffle installation seats, and a discharge outlet is formed between the lower ends of the two arc baffle installation seats, the tops of the two arc baffle mounting seats are provided with glass cylindrical body rolling guide seats, the glass cylindrical bodies falling through the material storage mechanism roll into the feed inlet along the glass cylindrical body rolling guide seats, the left end of the columnar glass body conveying mechanism is positioned right below the discharge hole, the turntable is horizontally and rotatably connected to the bottom of the right end of the top plate, the center of the top of the turntable is connected with a vertically arranged rotating shaft, the upper end of the rotating shaft is connected with a first servo motor fixed on the top plate, the right end of the columnar glass body conveying mechanism is positioned right below the left end of the turntable, the right end of the turntable is positioned right above the feed inlet of the glass softening furnace, the bottom of carousel is provided with four or more than four anchor clamps, and four or more than four anchor clamps are circular and arrange in the bottom of carousel and every anchor clamps all is connected with a lift electronic cylinder, the electronic cylinder of lift install on the carousel.

And further: the material storage mechanism comprises a material storage plate, the material storage plate is obliquely arranged, the right end of the material storage plate is fixed on a middle support, the left end of the material storage plate is lower than the right end of the material storage plate, the left end of the material storage plate extends to a position right above a glass columnar body rolling guide seat fixed on a left support, the distance between the left end of the material storage plate and the glass columnar body rolling guide seat fixed on the left support is smaller than the diameter of 1.5 glass columnar bodies and larger than the diameter of 1.3 glass columnar bodies, a material discharge electric cylinder is further arranged at the bottom of the left end of the material storage plate and is connected with a baffle plate, the baffle plate penetrates through the material storage plate to a position above the left end of the material storage plate through the driving of the material discharge electric cylinder, a limiting plate parallel to the material storage plate is further arranged right above the material storage plate, the limiting plate is connected with a lifting electric cylinder fixed on the top, and a limiting electric cylinder is mounted at the top of the left end of the limiting plate, the limiting plate is located on the right side of the baffle and penetrates through the limiting plate to extend to a position between the limiting plate and the baffle through the driving of the limiting electric cylinder, a glass cylindrical body feeding port is formed between the right end of the limiting plate and the middle support, and the distance between the right end of the limiting plate and the top plate is smaller than the diameter of 1 glass cylindrical body.

And further: the cylindrical glass body conveying mechanism comprises two chain wheels, a conveying belt, storage seats and a third servo motor, wherein the two chain wheels are respectively fixed on two rotating shafts, the rotating shafts are rotatably connected between two supporting seats horizontally arranged in the front and at the back, one rotating shaft is connected with the third servo motor, supporting legs are vertically arranged at the bottoms of the supporting seats, the conveying belt is wound on the outer sides of the two chain wheels and is conveyed along with the rotation of the chain wheels, the conveying belt is composed of a plurality of conveying pieces which are connected end to end, the two adjacent conveying pieces are movably connected through a hinge, the bottoms of the conveying pieces are arc-shaped, the tops of the conveying pieces are planar, two storage seats are fixed on one surface of each conveying piece, connecting grooves matched with the chain wheels are further formed in the arc-shaped surface of each conveying piece, when each conveying piece is conveyed to the position under a discharge port, the cylindrical glass body falls into two storage seats on the conveying sheet along the discharge port to be stored.

And further: the fixture comprises a U-shaped seat, clamping electric cylinders, a guide rod and clamping pieces, wherein the U-shaped seat is connected with the lifting electric cylinders, the guide rod is horizontally fixed between two side walls of the U-shaped seat, the guide rod is movably connected with the two clamping pieces, and the two clamping pieces are oppositely arranged and are respectively connected with the two clamping electric cylinders fixed on the two side walls of the U-shaped seat.

And further: in the step S3, the glass softening furnace is divided into five heating zones, the glass column sequentially passes through the five heating zones for heating, the heating temperatures of the five heating zones are 700 ℃, 770 ℃, 910 ℃, 1030 ℃ and 1050 ℃, the temperature control is arranged in the five heating zones, different areas of the heating furnace can be heated and reduced by the power regulator before the required temperature is not reached, the area temperature can be accurately controlled, and the heating time of the glass column in the five heating zones in the glass softening furnace is 8 minutes in total.

And further: the pressing process of the hot press in the step S3 is sequentially divided into three sections, which are a fast-falling process, a slow-falling process and a pressure maintaining process, wherein the fast-falling process includes: the speed is 1000r/min, the pressure is 15Mpa and the time is 1.2 s; the slow process comprises the following steps: the speed is 120r/min, the pressure is 15Mpa, and the time is 1.1 s; the pressure maintaining process comprises the following steps: the pressure is 18Mpa and the time is 6-10 s.

And further: the mold in the step S4 includes a mold main body, the mold main body is cylindrical, a pressing groove matched with the convex lens main body is formed in the top of the mold main body, 8 grooves matched with eight optical protrusions on the spherical surface of the optical spherical body are further formed in the arc-shaped inner wall of the pressing groove, the 8 grooves in the arc-shaped inner wall of the pouring groove are bilaterally symmetrical, a fixing portion connected with the bottom of the mold main body is further formed in the bottom of the mold main body, and one end, far away from the mold main body, of the fixing portion is provided with a fixing hole for installation.

And further: the annealing furnace in the step S4 is sequentially divided into three annealing temperature zones, the convex lens rough blank is sequentially annealed through the three annealing temperature zones, the temperatures of the three annealing temperature zones are 550 ℃, 480 ℃ and 450 ℃, and the annealing time of the convex lens rough blank in the three annealing temperature zones is not less than 4 hours in total.

After the structure is adopted, a circle of clamping parts for positioning and fixing are arranged on the periphery of the optical bottom plate, and the convex lens is quickly clamped in the processes of optical test, polishing and installation through the clamping parts, so that the practicability is greatly improved; in addition, the surface of the columnar glass body is observed before the columnar glass body is heated, so that the columnar glass body with problems is removed and treated, and the rejection rate of the convex lens is greatly reduced.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a front view structural view of a vehicular convex lens.

Fig. 2 is a plan view of the convex lens for a vehicle.

Fig. 3 is a perspective view of a convex lens for a vehicle.

Fig. 4 is a structural view of a casting mold for a vehicle convex lens.

Fig. 5 is an internal structure view of a casting mold for a vehicle convex lens.

Fig. 6 is a schematic structural diagram of the automatic feeding mechanism.

Fig. 7 is a structural view of a material storing and discharging mechanism in the automatic feeding mechanism.

Fig. 8 is a structural view of a dispensing mechanism in the automatic feeding mechanism.

Fig. 9 is a structural view of a columnar glass body conveying mechanism in the automatic feeding mechanism.

Fig. 10 is a structural view of a jig in the automatic feeding mechanism.

Detailed Description

The vehicular convex lens shown in fig. 1, fig. 2 and fig. 3 comprises a convex lens body, wherein the convex lens body is composed of an optical spherical body 1 and an optical bottom plate, one end of the optical spherical body is planar and is connected with one end face of the optical bottom plate into a whole, the other end face of the optical bottom plate is also planar, one end, away from the optical bottom plate, of the optical spherical body is spherical, eight optical protrusions 3 are sequentially arranged on the spherical surface of the optical spherical body from left to right, the eight optical protrusions are arranged in a shape like a Chinese character 'yi', and clamping parts 4 for positioning and fixing are further arranged on the periphery of the optical bottom plate. The circle of clamping parts for positioning and fixing are arranged on the periphery of the optical bottom plate, and the convex lens is quickly clamped through the clamping parts in the processes of optical testing, polishing and mounting, so that the practicability is greatly improved.

The optical backplane shown in fig. 2 and 3 is circular, the clamping portion surrounds the optical backplane by one circle, the clamping portion is composed of a first clamping portion 4-1, a second clamping portion 4-2 and a third clamping portion 4-3, the second clamping portion is provided with two blocks, the two second clamping portions, the first clamping portion and the third clamping portion are connected with the optical backplane into a whole, and two ends of the first clamping portion are respectively connected with two ends of the third clamping portion into a whole through the second clamping portion.

Eight optical protrusions on the spherical surface of the optical spherical body are symmetrical left and right pairwise, wherein the protrusion angles of the four optical protrusions on the left side from left to right are sequentially 2 degrees, 3 degrees, 4 degrees and 5 degrees.

The processing technology of the convex lens for the vehicle comprises the following steps:

s1: preparing materials: selecting a cylindrical glass body with corresponding length according to the size of the manufactured convex lens, and then dividing the cylindrical glass body into a plurality of equal parts according to the material consumption of the convex lens;

s2: and (4) observation and detection: manually observing the cylindrical glass body divided into a plurality of equal parts to see whether fingerprints and dust exist on the surface of the cylindrical glass body and whether impurities exist in the cylindrical glass body, if no problem exists, putting the cylindrical glass body into a feeding area, if impurities exist, selecting the cylindrical glass body and putting the cylindrical glass body into a recovery area, and if fingerprints and dust exist, wiping the cylindrical glass body completely and then putting the cylindrical glass body into the feeding area;

s3: heating: pouring the columnar glass bodies placed in the feeding area in the step S2 into an automatic feeding mechanism, and placing the columnar glass bodies into a glass softening furnace one by one through the automatic feeding mechanism so as to soften the columnar glass bodies through heating;

s4: and (3) pressing and forming: taking the softened columnar glass body in the step S3 out of the glass softening furnace, placing the columnar glass body into a hot press, and pressing the columnar glass body through a die to form a convex lens rough blank;

s5: annealing: demolding the convex lens rough blank pressed in the step S4, then placing the convex lens rough blank into an annealing furnace, annealing to remove stress, demolding the convex lens rough blank by blowing after pressing, and then sending the demolded convex lens rough blank into the annealing furnace by a mechanical arm;

s6: removing waste edges: removing the waste edges of the annealed convex lens rough blank, scribing the redundant part of the convex lens rough blank by a glass cutter, and then removing the blank by knocking;

s7: polishing: placing the convex lens rough blank subjected to the edge trimming removal in the step S6 into a grinding machine, grinding the surface of the convex lens rough blank through the grinding machine to prepare a convex lens, and performing coarse grinding, fine grinding, polishing and cleaning on the convex lens rough blank in the grinding machine in sequence;

s8: and (3) appearance detection: firstly, observing and detecting the whole convex lens through manual visual inspection, picking out waste products with defects in the processing process, and then detecting the size of the convex lens through a size inspection instrument;

s9: optical detection: and carrying out optical detection on the convex lens subjected to appearance detection by using a matching machine, wherein the convex lens without problems after the optical detection is a convex lens finished product.

The invention can observe the surface of the columnar glass body before heating the columnar glass body, thereby removing and treating the columnar glass body with problems and greatly reducing the rejection rate of the convex lens.

As shown in fig. 6 and 8, the automatic feeding mechanism in step S3 includes a top plate 2, a left support 1, a right support 8, a middle support 3, a distribution mechanism 9, a cylindrical vitreous body conveying mechanism 10, a turntable 4, a first servo motor 5, a lifting electric cylinder 6 and a clamp 7, the top plate is horizontally fixed on the top of the left support, the right support and the middle support, the middle support is located between the left support and the right support, the distribution mechanism is installed between the left support and the middle support, a material storage and discharge mechanism is further provided right above the distribution mechanism, the cylindrical vitreous body conveying mechanism is provided below the distribution mechanism and the turntable, the distribution mechanism includes a distribution plate 9-2, a driving shaft, a second servo motor, an arc baffle 9-3 and an arc baffle mounting seat 9-1, two arc baffles and two arc baffle mounting seats are respectively provided, the distribution plate is sleeved on the driving shaft, two arc-shaped baffles are respectively arranged on two sides of the distribution plate, an arc-shaped groove matched with the excircle of the distribution plate is formed in one side, facing the distribution plate, of each arc-shaped baffle, a plurality of grooves 9-2-1 used for storing glass cylindrical bodies are uniformly formed in the outer wall of the distribution plate, the driving shaft is connected with the second servo motor, two arc-shaped baffle mounting seats are respectively fixed on the left support and the middle support, guide grooves used for connecting the arc-shaped baffles are formed in the arc-shaped baffle mounting seats, one sides, far away from the arc-shaped grooves, of the arc-shaped baffles are movably connected in the guide grooves, threaded through holes matched with the guide grooves are further formed in the arc-shaped baffle mounting seats, adjusting bolts 9-4 are connected in the threaded through holes, and one ends of the adjusting bolts penetrate through the threaded through holes to extend into the guide grooves to be connected with the arc-shaped baffles, a feed inlet is formed between the upper ends of the two arc baffle mounting seats, a discharge outlet is formed between the lower ends of the two arc baffle mounting seats, glass cylindrical body rolling guide seats 11 are arranged at the tops of the two arc baffle mounting seats, a glass cylindrical body dropped by the material storage mechanism rolls into the feed inlet along the glass cylindrical body rolling guide seats, the left end of the cylindrical glass body conveying mechanism is positioned under the discharge outlet, the turntable is horizontally and rotatably connected to the bottom of the right end of the top plate, a vertically arranged rotating shaft is connected to the center of the top of the turntable, the upper end of the rotating shaft is connected with a first servo motor fixed on the top plate, the right end of the cylindrical glass body conveying mechanism is positioned under the left end of the turntable, the right end of the turntable is positioned over the feed inlet of the glass softening furnace, and four or more than four clamps are arranged at the bottom of the turntable, four or more than four clamps are circularly arranged at the bottom of the turntable, each clamp is connected with an electric lifting cylinder, and the electric lifting cylinders are arranged on the turntable.

The material storage mechanism shown in fig. 7 comprises a material storage plate 13, the material storage plate is obliquely arranged, the right end of the material storage plate is fixed on a middle support, the left end of the material storage plate is lower than the right end of the material storage plate, the left end of the material storage plate extends to the position right above a glass cylindrical body rolling guide seat fixed on a left support, the distance between the left end of the material storage plate and the glass cylindrical body rolling guide seat fixed on the left support is smaller than the diameter of 1.5 glass cylindrical bodies and larger than the diameter of 1.3 glass cylindrical bodies, a material discharge electric cylinder 17 is further arranged at the bottom of the left end of the material storage plate, the material discharge electric cylinder is connected with a baffle 18, the baffle passes through the material storage plate to the position above the left end of the material storage plate through the driving of the material discharge electric cylinder, a limiting plate 12 parallel to the material storage plate is further arranged right above the material storage plate, the limiting plate is connected with a lifting electric cylinder 14 fixed on the top, a limiting electric cylinder 15 is mounted at the top of the left end of the limiting plate, the spacing electronic jar link to each other with limiting plate 16, the limiting plate be located the right side of baffle and its drive through spacing electronic jar passes the limiting plate and extends between limiting plate and the baffle, the right-hand member of limiting plate and intermediate strut between form glass column feed inlet, the interval between the right-hand member of limiting plate and the roof is less than 1 glass column's diameter.

The cylindrical glass body conveying mechanism shown in fig. 9 comprises two chain wheels 10-1, a conveying belt, storage seats 10-4 and a third servo motor, wherein the two chain wheels are respectively fixed on two rotating shafts, the rotating shafts are rotatably connected between two supporting seats 10-2 horizontally arranged at the front and the back, one rotating shaft is connected with the third servo motor, supporting feet 10-3 are vertically arranged at the bottom of the supporting seats, the conveying belt is wound around the outer sides of the two chain wheels and is conveyed along with the rotation of the chain wheels, the conveying belt is composed of a plurality of conveying sheets 10-5 which are connected end to end, two adjacent conveying sheets are movably connected through hinges, the bottom of each conveying sheet is arc-shaped, the top of each conveying sheet is planar, two storage seats are fixed on one planar surface of each conveying sheet, and a connecting groove matched with the chain wheels is further formed on one arc-shaped surface of each conveying sheet, when every carries the piece to carry to the discharge gate under, the column vitreous body drops to two on carrying the piece along the discharge gate and holds in holding the seat and deposit.

The clamp shown in fig. 10 comprises a U-shaped seat 7-1, a clamping electric cylinder 7-3, a guide rod 7-2 and clamping pieces 7-4, wherein the U-shaped seat is connected with the lifting electric cylinder, the guide rod is horizontally fixed between two side walls of the U-shaped seat, the guide rod is movably connected with the two clamping pieces, and the two clamping pieces are oppositely arranged and respectively connected with the two clamping electric cylinders fixed on the two side walls of the U-shaped seat.

When in work, the cylindrical glass body which is observed on the surface is inverted on the right end of the material storage plate through the material inlet, the distance between the limiting plate and the material storage plate is adjusted by the lifting electric cylinder, so that the glass can only pass through one columnar glass body at the same time, then the materials are loaded one by one through the design of the baffle plates and the limiting plates, the columnar glass bodies roll along the guide seats and fall into the grooves on the distribution, then the glass body falls into the storage seat through the discharge port for storage, the columnar glass body is transported from the left end to the right end through the columnar glass body conveying mechanism, the height of the clamp is adjusted to clamp the columnar glass body transported to the right end, then a first servo motor is started, the turntable drives the clamp to rotate, the columnar glass body is conveyed to the position right above the feed inlet of the glass softening furnace, then the height of the clamp is adjusted and the clamp is loosened, so that the columnar glass body automatically falls into the glass softening furnace for heating. By adopting the design, the automatic feeding can be realized one by one, so that manual feeding is replaced, the working efficiency is improved, the safety performance is improved, and the manual operation is prevented from being scalded by the softening furnace in the conveying process.

In the step S3, the glass softening furnace is divided into five heating zones, the glass column sequentially passes through the five heating zones for heating, the heating temperatures of the five heating zones are 700 ℃, 770 ℃, 910 ℃, 1030 ℃ and 1050 ℃, the temperature control devices are installed in the five heating zones, different areas of the heating furnace can be heated and cooled by the power regulator before the required temperature is not reached, the area temperature can be accurately controlled, and the total heating time of the glass column in the five heating zones in the glass softening furnace is 8 minutes.

The pressing process of the hot press in the step S3 is sequentially divided into three sections, which are a fast-falling process, a slow-falling process and a pressure maintaining process, wherein the fast-falling process includes: the speed is 1000r/min, the pressure is 15Mpa and the time is 1.2 s; the slow process comprises the following steps: the speed is 120r/min, the pressure is 15Mpa, and the time is 1.1 s; the pressure maintaining process comprises the following steps: the pressure is 18Mpa and the time is 6-10 s.

The mold in the step S4 includes a mold main body 2, the mold main body is cylindrical, a pressing groove 2-1 matched with the convex lens main body is formed in the top of the mold main body, 8 grooves matched with the eight optical protrusions on the spherical surface of the optical spherical surface are further formed in the arc-shaped inner wall of the pressing groove, the 8 grooves in the arc-shaped inner wall of the pouring groove are bilaterally symmetrical, a fixing portion 5 connected with the bottom of the mold main body is further provided, and one end of the fixing portion, far away from the mold main body, is provided with a fixing hole 5-1 for installation.

The annealing furnace in the step S4 is sequentially divided into three annealing temperature zones, the convex lens rough blank is sequentially annealed through the three annealing temperature zones, the temperatures of the three annealing temperature zones are 550 ℃, 480 ℃ and 450 ℃, and the annealing time of the convex lens rough blank in the three annealing temperature zones is not less than 4 hours in total.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides an automobile-used convex lens, includes convex lens main part, its characterized in that: the convex lens main body consists of an optical spherical body (1) and an optical bottom plate, one end of the optical spherical body is planar and is connected with one end face of the optical bottom plate into a whole, the other end face of the optical bottom plate is also planar, one end of the optical spherical body, which is far away from the optical bottom plate, is spherical, eight optical protrusions (3) are sequentially arranged on the spherical surface of the optical spherical body from left to right, the eight optical protrusions are arranged in a shape like a Chinese character 'yi', clamping parts (4) for positioning and fixing are further arranged around the optical bottom plate, the optical bottom plate is circular, the clamping parts encircle the optical bottom plate for one circle, each clamping part consists of a first clamping part (4-1), a second clamping part (4-2) and a third clamping part (4-3), and the second clamping part is provided with two clamping parts, two second clamping parts and a first clamping part and a third clamping part all link integratively with optical bottom plate, the both ends of first clamping part respectively link integratively through the both ends of a second clamping part with third clamping part, optical spherical body spherical surface on eight optical protrusions be about two bisymmetry forms, wherein four left optical protrusions turn right protruding angle from a left side is 2 degrees, 3 degrees, 4 degrees and 5 degrees in proper order.

2. The vehicular convex lens according to claim 1, wherein: the processing technology of the vehicular convex lens comprises the following steps:

s1: preparing materials: selecting a cylindrical glass body with corresponding length according to the size of the manufactured convex lens, and then dividing the cylindrical glass body into a plurality of equal parts according to the material consumption of the convex lens;

s2: and (4) observation and detection: manually observing the cylindrical glass body divided into a plurality of equal parts to see whether fingerprints and dust exist on the surface of the cylindrical glass body and whether impurities exist in the cylindrical glass body, if no problem exists, putting the cylindrical glass body into a feeding area, if impurities exist, selecting the cylindrical glass body and putting the cylindrical glass body into a recovery area, and if fingerprints and dust exist, wiping the cylindrical glass body completely and then putting the cylindrical glass body into the feeding area;

s3: heating: pouring the columnar glass bodies placed in the feeding area in the step S2 into an automatic feeding mechanism, and placing the columnar glass bodies into a glass softening furnace one by one through the automatic feeding mechanism so as to soften the columnar glass bodies through heating;

s4: and (3) pressing and forming: taking the softened columnar glass body in the step S3 out of the glass softening furnace, placing the columnar glass body into a hot press, and pressing the columnar glass body through a die to form a convex lens rough blank;

s5: annealing: demolding the convex lens rough blank pressed in the step S4, then placing the convex lens rough blank into an annealing furnace, annealing to remove stress, demolding the convex lens rough blank by blowing after pressing, and then sending the demolded convex lens rough blank into the annealing furnace by a mechanical arm;

s6: removing waste edges: removing the waste edges of the annealed convex lens rough blank, scribing the redundant part of the convex lens rough blank by a glass cutter, and then removing the blank by knocking;

s7: polishing: placing the convex lens rough blank subjected to the edge trimming removal in the step S6 into a grinding machine, grinding the surface of the convex lens rough blank through the grinding machine to prepare a convex lens, and performing coarse grinding, fine grinding, polishing and cleaning on the convex lens rough blank in the grinding machine in sequence;

s8: and (3) appearance detection: firstly, observing and detecting the whole convex lens through manual visual inspection, picking out waste products with defects in the processing process, and then detecting the size of the convex lens through a size inspection instrument;

s9: optical detection: and carrying out optical detection on the convex lens subjected to appearance detection by using a matching machine, wherein the convex lens without problems after the optical detection is a convex lens finished product.

3. The vehicular convex lens according to claim 2, wherein: the automatic feeding mechanism in the step S3 comprises a top plate (2), a left support (1), a right support (8), a middle support (3), a distribution mechanism (9), a cylindrical glass body conveying mechanism (10), a turntable (4), a first servo motor (5), a lifting electric cylinder (6) and a clamp (7), wherein the top plate is horizontally fixed at the tops of the left support, the right support and the middle support, the middle support is positioned between the left support and the right support, the distribution mechanism is arranged between the left support and the middle support, a material storage and discharge mechanism is further arranged right above the distribution mechanism, the cylindrical glass body conveying mechanism is arranged below the distribution mechanism and the turntable, the distribution mechanism comprises a distribution disc (9-2), a driving shaft, a second servo motor, an arc-shaped baffle (9-3) and an arc-shaped baffle mounting seat (9-1), the two arc-shaped baffles and the two arc-shaped baffle mounting seats are respectively arranged, the distribution disc is sleeved on the driving shaft, the two sides of the distribution disc are respectively provided with one arc-shaped baffle, one side of the arc-shaped baffle, facing the distribution disc, is provided with an arc-shaped groove matched with the excircle of the distribution disc, the outer wall of the distribution disc is uniformly provided with a plurality of grooves (9-2-1) for storing glass columnar bodies, the driving shaft is connected with a second servo motor, the two arc-shaped baffle mounting seats are respectively fixed on the left bracket and the middle bracket, the arc-shaped baffle mounting seats are provided with guide grooves used for connecting the arc-shaped baffles, one sides of the arc-shaped baffles, far away from the arc-shaped grooves, are movably connected in the guide grooves, the arc-shaped baffle mounting seats are also provided with threaded through holes matched with the guide grooves, and the threaded through holes are internally connected with adjusting bolts (9-4), one end of the adjusting bolt penetrates through the threaded through hole and extends into the guide groove to be connected with the arc baffle plates, a feed inlet is formed between the upper ends of the two arc baffle plate installation seats, a discharge outlet is formed between the lower ends of the two arc baffle plate installation seats, glass cylindrical body rolling guide seats (11) are arranged at the tops of the two arc baffle plate installation seats, a glass cylindrical body falling off through the material storing and discharging mechanism rolls into the feed inlet along the glass cylindrical body rolling guide seats, the left end of the cylindrical glass body conveying mechanism is positioned under the discharge outlet, the rotary disc is horizontally and rotatably connected to the bottom of the right end of the top plate, a vertically arranged rotary shaft is connected to the center of the top of the rotary disc, the upper end of the rotary shaft is connected with a first servo motor fixed on the top plate, the right end of the cylindrical glass body conveying mechanism is positioned under the left end of the rotary disc, and the right end of the rotary disc is positioned right above the feed inlet of the glass softening furnace, the bottom of carousel is provided with four or more than four anchor clamps, and four or more than four anchor clamps are circular and arrange in the bottom of carousel and every anchor clamps all is connected with a lift electronic cylinder, the electronic cylinder of lift install on the carousel.

4. The vehicular convex lens according to claim 3, wherein: the material storage mechanism comprises a material storage plate (13), the material storage plate is obliquely arranged, the right end of the material storage plate is fixed on a middle support, the left end of the material storage plate is lower than the right end of the material storage plate, the left end of the material storage plate extends to a position right above a glass columnar body rolling guide seat fixed on a left support, the distance between the left end of the material storage plate and the glass columnar body rolling guide seat fixed on the left support is smaller than the diameter of 1.5 glass columnar bodies and larger than the diameter of 1.3 glass columnar bodies, a material discharge electric cylinder (17) is further arranged at the bottom of the left end of the material storage plate, the material discharge electric cylinder is a baffle plate (18) connected with each other, the baffle plate penetrates through the material storage plate to a position above the left end of the material storage plate through the driving of the material discharge electric cylinder, a limiting plate (12) parallel to the material storage plate is further arranged right above the material storage plate, and the limiting plate is connected with a lifting electric cylinder (14) fixed on the top, spacing electronic jar (15) are installed at the top of spacing board left end, spacing electronic jar link to each other with limiting plate (16), the limiting plate be located the right side of baffle and its drive through spacing electronic jar passes the limiting plate and extends between limiting plate and the baffle, the right-hand member of limiting plate and middle support between form glass column body feed inlet, the interval between the right-hand member of limiting plate and the roof is less than the diameter of 1 glass column body.

5. The vehicular convex lens according to claim 3, wherein: the cylindrical glass body conveying mechanism comprises two chain wheels (10-1), a conveying belt, storage seats (10-4) and a third servo motor, wherein the two chain wheels are respectively fixed on two rotating shafts, the rotating shafts are rotatably connected between two supporting seats (10-2) horizontally arranged at the front and the back, one rotating shaft is connected with the third servo motor, supporting feet (10-3) are vertically arranged at the bottoms of the supporting seats, the conveying belt is wound on the outer sides of the two chain wheels and is conveyed along with the rotation of the chain wheels, the conveying belt is formed by connecting a plurality of conveying sheets (10-5) end to end, two adjacent conveying sheets are movably connected through hinges, the bottoms of the conveying sheets are arc-shaped, the tops of the conveying sheets are planar, and two storage seats are fixed on one planar surface of the conveying sheets, carry the piece to be still seted up on the curved one side with sprocket assorted spread groove, when every carries the piece to carry under the discharge gate, the column vitreous body drops to two on carrying the piece along the discharge gate and holds in the seat and deposit.

6. The vehicular convex lens according to claim 3, wherein: the clamp comprises a U-shaped seat (7-1), a clamping electric cylinder (7-3), a guide rod (7-2) and clamping pieces (7-4), wherein the U-shaped seat is connected with the lifting electric cylinder, the guide rod is horizontally fixed between two side walls of the U-shaped seat, the guide rod is movably connected with the two clamping pieces, and the two clamping pieces are oppositely arranged and are respectively connected with the two clamping electric cylinders fixed on two side walls of the U-shaped seat.

7. The vehicular convex lens according to claim 2, wherein: in the step S3, the glass softening furnace is divided into five heating zones, the glass column sequentially passes through the five heating zones for heating, the heating temperatures of the five heating zones are 700 ℃, 770 ℃, 910 ℃, 1030 ℃ and 1050 ℃, the temperature control is arranged in the five heating zones, different areas of the heating furnace can be heated and reduced by the power regulator before the required temperature is not reached, the area temperature can be accurately controlled, and the heating time of the glass column in the five heating zones in the glass softening furnace is 8 minutes in total.

8. The vehicular convex lens according to claim 2, wherein: the pressing process of the hot press in the step S3 is sequentially divided into three sections, which are a fast-falling process, a slow-falling process and a pressure maintaining process, wherein the fast-falling process includes: the speed is 1000r/min, the pressure is 15Mpa and the time is 1.2 s; the slow process comprises the following steps: the speed is 120r/min, the pressure is 15Mpa, and the time is 1.1 s; the pressure maintaining process comprises the following steps: the pressure is 18Mpa and the time is 6-10 s.

9. The vehicular convex lens according to claim 2, wherein: the mold in the step S4 comprises a mold main body (2), wherein the mold main body is cylindrical, a pressing groove (2-1) matched with the convex lens main body is formed in the top of the mold main body, 8 grooves matched with eight optical protrusions on the spherical surface of the optical spherical body are further formed in the arc-shaped inner wall of the pressing groove, the 8 grooves in the arc-shaped inner wall of the pouring groove are bilaterally symmetrical, a fixing part (5) connected with the bottom of the mold main body into a whole is further arranged at the bottom of the mold main body, and one end, far away from the mold main body, of the fixing part is provided with a fixing hole (5-1) used for installation.

10. The vehicular convex lens according to claim 2, wherein: the annealing furnace in the step S4 is sequentially divided into three annealing temperature zones, the convex lens rough blank is sequentially annealed through the three annealing temperature zones, the temperatures of the three annealing temperature zones are 550 ℃, 480 ℃ and 450 ℃, and the annealing time of the convex lens rough blank in the three annealing temperature zones is not less than 4 hours in total.

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