CN205201238U

CN205201238U - Automatic high -efficient production facility of glasses lens

Info

Publication number: CN205201238U
Application number: CN201520993278.3U
Authority: CN
Inventors: 林国贤
Original assignee: Roring Industries Xiamen Ltd
Current assignee: Roring Industries Xiamen Ltd
Priority date: 2015-12-04
Filing date: 2015-12-04
Publication date: 2016-05-04
Anticipated expiration: 2025-12-04

Abstract

The utility model discloses an automatic high -efficient production facility of glasses lens, including board, carousel, a plurality of lens holder, feed mechanism, first manipulator, second manipulator, tag recognizer, milling machine, dust extraction and charging tray conveying mechanism. The carousel install on the board, a plurality of lens holder encircle the setting of carousel outer fringe, the milling machine is installed on the board, dust extraction installs the one side at the milling machine, first manipulator is installed in one side of board, and the first station of first manipulator is feed mechanism, the second station bistrique department for the milling machine, tag recognizer installs on first manipulator free end arm. Because the utility model discloses on lens holder was placed to the lens of second manipulator on with charging tray conveying mechanism, first manipulator and feed mechanism can realize the transmission of lens between milling machine station and lens holder, but the electronic tags data on the lens are waited to process in the tag recognizer character recognition, realize batch production, had low in labor strength, advantage that production efficiency is high.

Description

Eyeglass automatic high-efficiency production equipment

Technical field

The utility model relates to glasses manufacture field, particularly relates to a kind of eyeglass automatic high-efficiency production equipment.

Background technology

Known glasses comprise the component such as mirror holder, eyeglass.Traditional machining eyeglass process, be all that workman holds lens blank by tool and processes at milling drum, the labour intensity of workman is large, production efficiency is low, is not suitable for large batch of production.

Utility model content

The purpose of this utility model is to provide the eyeglass automatic high-efficiency production equipment that a kind of labour intensity is low, production efficiency is high.

For achieving the above object, technical solution of the present utility model is:

The utility model is a kind of eyeglass automatic high-efficiency production equipment, comprises board, rotating disk, multiple lens hanger, feed mechanism, the first manipulator, the second manipulator, electronic label identification device, milling drum, dust exhaust apparatus and charging tray conveying mechanism; Described rotating disk is arranged on board, and multiple lens hanger is arranged around rotating disk outer rim, and milling drum is arranged on board, and dust exhaust apparatus to be arranged on board and to be positioned at the side of milling drum, and charging tray conveying mechanism is arranged on the side of rotating disk, for giving lens hanger material loading; The second described manipulator is arranged on the side of charging tray conveying mechanism, and the first station of the second manipulator is the product dish on charging tray conveying mechanism, and the first station of the second manipulator is lens hanger; The first described manipulator is arranged on the side of board, and the free end arms of the first manipulator is provided with sucker, and the first station of the first manipulator is feed mechanism, and the second station of the first manipulator is the bistrique place of milling drum; Described electronic label identification device to be arranged in the free end arms of the first manipulator and can be relative with the piece-holder position of feed mechanism;

Described feed mechanism comprises feed frame, straight line module, oscillating cylinder, swing arm, sucker; Described feed frame is fixedly mounted on board, straight line module is arranged on feed frame, the cylinder body of oscillating cylinder is fixedly mounted on the sliding shoe of straight line module, the inner of swing arm is fixed on the piston rod rod end of oscillating cylinder, sucker is arranged on the outer end of swing arm, first station of swing arm outer end is lens hanger, and the second station of swing arm outer end is the first station of the first manipulator;

Described lens hanger comprises base, cover plate, clamping bar and bearing; Described cover plate offers groove, base offers driver slot and relative with the groove on cover plate, the lower end of clamping bar is through to be fixedly nested with after groove on cover plate in bearing and to be slipped in the driver slot of base by bearing.

Described lens hanger comprises base, cover plate, three clamping bars and three bearings; Described cover plate offers three grooves, base offers three driver slots and relative with three grooves on cover plate respectively, the lower end of three clamping bars is each passed through and cover plate is fixedly nested with after groove in three bearings and is slipped respectively in three driver slots of base by bearing.

Described dust exhaust apparatus comprises dust shield and sweep-up pipe; Described dust shield is offered a mesopore allowing the first manipulator penetrate, dust shield is wrapped in the periphery of milling drum, and sweep-up pipe is communicated with one end of dust shield.

Described charging tray conveying mechanism comprises frame, hoisting mechanism, propulsive mechanism, lifting mechanism; Described hoisting mechanism, propulsive mechanism, lifting mechanism are all arranged in frame, and hoisting mechanism is adjacent with lifting mechanism and establish, and propulsive mechanism is arranged on the top of hoisting mechanism and lifting mechanism;

Described hoisting mechanism comprises lift carriage, motor mounting plate, motor, deceleration device, pulley transmission mechanism, screw mandrel, feed screw nut, lifter plate, lifting guide mechanism; Described lift carriage be fixed in frame, motor mounting plate is fixedly mounted on the side of lift carriage, motor top is fixed on deceleration device bottom and motor output shaft and deceleration device are mechanically connected, deceleration device top is fixed on motor mounting plate and the output shaft of deceleration device is connected with the upper end of screw mandrel by pulley transmission mechanism, middle part and the feed screw nut of screw mandrel are spirally connected, and the side of lifter plate is fixed on the upper and lifter plate of feed screw nut and is slipped in lift carriage by lifting guide mechanism and can be lower mobile in the vertical direction;

Described propulsive mechanism comprises propulsive mechanism and comprises propulsion cylinder, push pedal; Described propulsion cylinder is a straight line cylinder, and its cylinder body is fixedly mounted on frame top, and the slide block that push pedal is arranged on propulsion cylinder can move around in the horizontal direction;

Described lifting mechanism comprises lift cylinder, lift cylinder holder, elevating bracket, vertically-guided mechanism; The cylinder body of described lift cylinder is fixed on lift cylinder holder, lift cylinder holder is arranged in frame, the piston rod rod end of lift cylinder can lean with the outside of elevating bracket, sliding and elevating bracket can be lower mobile in the vertical direction by vertically-guided mechanism and lift cylinder holder in the outside of elevating bracket.

Described elevating bracket comprises guide plate, two slide bars, slider block, two sliding sleeves, sliding sleeve connecting plate, seat board, seat board lugs; Described seat board slips on lift cylinder holder by vertically-guided mechanism, and seat board lug is fixed on the outside of seat board and can leans with lift cylinder 41.The two ends of described slide bar to be fixedly mounted on seat board respectively by slider block and two slide bars are parallel to each other, two sliding sleeves slip respectively on two slide bars, the two ends of sliding sleeve connecting plate are fixedly mounted on the top of two sliding sleeves respectively, to be fixed on sliding sleeve connecting plate and guide plate can move around in the horizontal direction for one end of the guide plate of taking product dish.

Described vertically-guided mechanism comprises guide pin bushing and guide pillar; Described guide pin bushing is fixed on the outside of elevating bracket and slips with guide pillar, and the lower end of guide pillar is fixed on lift cylinder holder.

After adopting such scheme, because the utility model comprises board, rotating disk, multiple lens hanger, feed mechanism, first manipulator, second manipulator, electronic label identification device, milling drum, dust exhaust apparatus and charging tray conveying mechanism, eyeglass on charging tray conveying mechanism is placed on lens hanger by the second manipulator, first manipulator and feed mechanism can realize the transmission of eyeglass between milling drum station and lens hanger, electronic label identification device can read the electronic tag data on eyeglass to be processed automatically, realize batch production, there is labour intensity low, the advantage that production efficiency is high.

Below in conjunction with the drawings and specific embodiments, the utility model is further described.

Accompanying drawing explanation

Fig. 1 is forward axonometric drawing of the present utility model;

Fig. 2 is inversion axis mapping of the present utility model;

Fig. 3 is the axonometric drawing of the utility model feed mechanism;

Fig. 4 is the three-dimensional exploded view of the utility model feed mechanism;

Fig. 5 is the axonometric drawing of the utility model lens hanger;

Fig. 6 is the three-dimensional exploded view of the utility model lens hanger;

Fig. 7 is the axonometric drawing of the utility model charging tray conveying mechanism;

Fig. 8 is the axonometric drawing that the utility model charging tray conveying mechanism removes product dish;

Fig. 9 is the axonometric drawing of the utility model hoisting mechanism;

Figure 10 is the three-dimensional exploded view of the utility model hoisting mechanism;

Figure 11 is the axonometric drawing of the utility model lifting mechanism;

Figure 12 is the three-dimensional exploded view of the utility model lifting mechanism;

Figure 13 is the axonometric drawing of the utility model propulsive mechanism;

Figure 14 is the three-dimensional exploded view of the utility model propulsive mechanism.

Detailed description of the invention

As shown in Figure 1 and Figure 2, the utility model is a kind of eyeglass automatic high-efficiency production equipment, comprises board 1, rotating disk 2, multiple lens hanger 3, feed mechanism 4, first manipulator 5, second manipulator 50, electronic label identification device 6, milling drum 7, dust exhaust apparatus 8 and charging tray conveying mechanism 9.

Described rotating disk 2 is arranged on board 1, multiple lens hanger 3 is arranged around rotating disk 2 outer rim, and milling drum 7 is arranged on board 1, and dust exhaust apparatus 8 to be arranged on board 1 and to be positioned at the side of milling drum 7, charging tray conveying mechanism 9 is arranged on the side of rotating disk 2, for giving lens hanger 3 material loading.The second described manipulator 50 is arranged on the side of charging tray conveying mechanism 9, and the first station of the second manipulator 50 is the first station of product dish 910, second manipulator 50 on charging tray conveying mechanism 9 is lens hanger 3.The first described manipulator 5 is arranged on the side of board 1, and the free end arms 51 of the first manipulator 5 is provided with sucker 52, and the first station of the first manipulator 5 is feed mechanism 4, and the second station of the first manipulator 5 is the bistrique place of milling drum 7; Described electronic label identification device 6 to be arranged in the free end arms of the first manipulator 5 51 and can be relative with the piece-holder position of feed mechanism 4, for reading the electronic tag on eyeglass.

As shown in Figure 3, Figure 4, described feed mechanism 4 comprises feed frame 41, straight line module 42, oscillating cylinder 43, swing arm 44, sucker 45.Described feed frame 41 is fixedly mounted on board 1, straight line module 42 is arranged on feed frame 41, the cylinder body of oscillating cylinder 43 is fixedly mounted on the sliding shoe 421 of straight line module 42, the inner of swing arm 44 is fixed on the piston rod rod end of oscillating cylinder 43, sucker 45 is arranged on the outer end of swing arm 44, first station of swing arm 44 outer end is lens hanger 3, the second station of swing arm 44 outer end be the first manipulator 5(as shown in Figure 1) the first station.

As shown in Figure 5, Figure 6, described lens hanger 3 comprises base 31, cover plate 32, three clamping bars 33 and three bearings 34.Described cover plate 32 offers three grooves 321, base 31 offers three driver slots 311 and relative with three grooves 321 on cover plate 32 respectively, the lower end of three clamping bars 33 is each passed through and cover plate 32 is fixedly nested with after groove 321 in three bearings 34 and is slipped respectively in three driver slots 311 of base 31 by bearing 34.

As shown in Figure 1 and Figure 2, described dust exhaust apparatus 8 comprises dust shield 81 and sweep-up pipe 82.Described dust shield 81 is offered a mesopore 811 allowing the first manipulator 5 penetrate, dust shield 81 is wrapped in the periphery of milling drum 7, and one end of sweep-up pipe 81 is communicated with one end of dust shield 82, and the other end of sweep-up pipe 81 connects dust exhaust apparatus.

As shown in Figure 7, Figure 8, described charging tray conveying mechanism 9 comprises frame 91, hoisting mechanism 92, propulsive mechanism 93, lifting mechanism 94.

Described hoisting mechanism 92, propulsive mechanism 93, lifting mechanism 94 are all arranged in frame 91, and hoisting mechanism 92 is adjacent with lifting mechanism 94 and establish, and propulsive mechanism 92 is arranged on the top of hoisting mechanism 92 and lifting mechanism 94.

As Figure 8-Figure 10, described hoisting mechanism 92 comprises lift carriage 921, motor mounting plate 922, motor 923, deceleration device 924, pulley transmission mechanism 925, screw mandrel 926, feed screw nut 927, lifter plate 928, lifting guide mechanism 92.Described lift carriage 921 be fixed in frame 91, motor mounting plate 922 is fixedly mounted on the side of lift carriage 921, motor 923 top is fixed on deceleration device 924 bottom and motor 923 output shaft and deceleration device 924 are mechanically connected, deceleration device 924 top is fixed on motor mounting plate 922 and the output shaft of deceleration device 924 is connected by the upper end of pulley transmission mechanism 925 with screw mandrel 926, middle part and the feed screw nut 927 of screw mandrel 926 are spirally connected, the side of lifter plate 928 is fixed on feed screw nut 927 and lifter plate 928 to be slipped in lift carriage 921 by lifting guide mechanism 92 and can be lower mobile in the vertical direction.Described pulley transmission mechanism 925 is traditional pulley transmission mechanism 925, comprises driving wheel 9251, driven pulley 9252 and belt 9253, and belt 9253 solderless wrapped connection is on driving wheel 9251 and driven pulley 9252.

As shown in Figure 13, Figure 14, described propulsive mechanism 93 comprises propulsive mechanism and comprises propulsion cylinder 931, push pedal 932.Described propulsion cylinder 931 is a straight line cylinder, and its cylinder body is fixedly mounted on frame 91(as shown in Figure 7) top, the slide block 93191 that push pedal 932 is arranged on propulsion cylinder 931 can move around in the horizontal direction.

As shown in Fig. 8, Figure 11, Figure 12, described lifting mechanism 94 comprises lift cylinder 941, lift cylinder holder 942, elevating bracket 943, vertically-guided mechanism 944.

The cylinder body of described lift cylinder 941 is fixed on lift cylinder holder 942, lift cylinder holder 942 is arranged in frame 91, the piston rod rod end of lift cylinder 941 can lean with the outside of elevating bracket 943, sliding and elevating bracket 943 can be lower mobile in the vertical direction with lift cylinder holder 942 by vertically-guided mechanism 944 in the outside of elevating bracket 943.

Described elevating bracket 943 comprises guide plate 9431, two slide bars 9432, slider block 9433, two sliding sleeves 9434, sliding sleeve connecting plate 9435, seat board 9436, seat board lugs 9437.Described seat board 9436 slips on lift cylinder holder 942 by vertically-guided mechanism 944, and seat board lug 9437 is fixed on the outside of seat board 9436 and can leans with lift cylinder 941.The two ends of described slide bar 9432 to be fixedly mounted on seat board 9436 respectively by slider block 9433 and two slide bars 9432 are parallel to each other, two sliding sleeves 9434 slip respectively on two slide bars 9432, the two ends of sliding sleeve connecting plate 9435 are fixedly mounted on the top of two sliding sleeves 9434 respectively, and the one end for the guide plate 9431 of taking product dish 910 is fixed on sliding sleeve connecting plate 9435 and guide plate 9432 can move around in the horizontal direction.

Described vertically-guided mechanism 944 comprises guide pin bushing 9441 and guide pillar 9442.Described guide pin bushing 9441 is fixed on the outside of elevating bracket 943 and slips with guide pillar 9442, and the lower end of guide pillar 9442 is fixed on lift cylinder holder 942.

The operation principle of the utility model charging tray conveying mechanism 9:

Hoisting mechanism 92 motor 923 drives screw mandrel 926 to rotate by deceleration device 924, pulley transmission mechanism 925, the feed screw nut 927 be screwed onto on screw mandrel 926 moves up, lifter plate 928 is driven to promote vertically upward, thus by the below of product dish 910 propulsive mechanism 93; Propulsion cylinder 931 on propulsive mechanism 93 drives push pedal 932 horizontal forward, above ejection product dish 910 to lifting mechanism 94, lift cylinder 941 piston rod of lifting mechanism 94 moves vertically upward, lean elevating bracket 943, make elevating bracket 943 increase, product dish 910 lifting is entered station by elevating bracket 943.

Operation principle of the present utility model:

The eyeglass be placed on charging tray conveying mechanism 9 in product dish 910 is drawn and is delivered in lens hanger 3 by the second described manipulator 50.Electronic label identification device 6 reads the electronic tag on eyeglass, feed mechanism 4 swing arm 44 stretches into lens hanger 3 and draws lens blank 10, after feed mechanism 4 swing arm 44 outwards swings, lens blank 10 is delivered to the first station of the first manipulator 5, lens blank 10 drawn by the sucker 52 of the free end arms 51 of the first manipulator 5 and bistrique place lens blank 10 being delivered to milling drum 7 carries out grinding, meanwhile, dust exhaust apparatus 8 starts absorption grinding material.

The above, be only the utility model preferred embodiment, therefore can not limit with this scope that the utility model implements, the equivalence namely done according to the utility model claim and description change with modify, all should still belong in scope that the utility model patent contains.

Claims

1. an eyeglass automatic high-efficiency production equipment, is characterized in that: comprise board, rotating disk, multiple lens hanger, feed mechanism, the first manipulator, the second manipulator, electronic label identification device, milling drum, dust exhaust apparatus and charging tray conveying mechanism; Described rotating disk is arranged on board, and multiple lens hanger is arranged around rotating disk outer rim, and milling drum is arranged on board, and dust exhaust apparatus to be arranged on board and to be positioned at the side of milling drum, and charging tray conveying mechanism is arranged on the side of rotating disk, for giving lens hanger material loading; The second described manipulator is arranged on the side of charging tray conveying mechanism, and the first station of the second manipulator is the product dish on charging tray conveying mechanism, and the first station of the second manipulator is lens hanger; The first described manipulator is arranged on the side of board, and the free end arms of the first manipulator is provided with sucker, and the first station of the first manipulator is feed mechanism, and the second station of the first manipulator is the bistrique place of milling drum; Described electronic label identification device to be arranged in the free end arms of the first manipulator and can be relative with the piece-holder position of feed mechanism;

2. eyeglass automatic high-efficiency production equipment according to claim 1, is characterized in that: described lens hanger comprises base, cover plate, three clamping bars and three bearings; Described cover plate offers three grooves, base offers three driver slots and relative with three grooves on cover plate respectively, the lower end of three clamping bars is each passed through and cover plate is fixedly nested with after groove in three bearings and is slipped respectively in three driver slots of base by bearing.

3. eyeglass automatic high-efficiency production equipment according to claim 1, is characterized in that: described dust exhaust apparatus comprises dust shield and sweep-up pipe; Described dust shield is offered a mesopore allowing the first manipulator penetrate, dust shield is wrapped in the periphery of milling drum, and sweep-up pipe is communicated with one end of dust shield.

4. eyeglass automatic high-efficiency production equipment according to claim 1, is characterized in that: described charging tray conveying mechanism comprises frame, hoisting mechanism, propulsive mechanism, lifting mechanism; Described hoisting mechanism, propulsive mechanism, lifting mechanism are all arranged in frame, and hoisting mechanism is adjacent with lifting mechanism and establish, and propulsive mechanism is arranged on the top of hoisting mechanism and lifting mechanism;

5. eyeglass automatic high-efficiency production equipment according to claim 4, is characterized in that: described elevating bracket comprises guide plate, two slide bars, slider block, two sliding sleeves, sliding sleeve connecting plate, seat board, seat board lugs; Described seat board slips on lift cylinder holder by vertically-guided mechanism, and seat board lug is fixed on the outside of seat board and can leans with lift cylinder 41; The two ends of described slide bar to be fixedly mounted on seat board respectively by slider block and two slide bars are parallel to each other, two sliding sleeves slip respectively on two slide bars, the two ends of sliding sleeve connecting plate are fixedly mounted on the top of two sliding sleeves respectively, to be fixed on sliding sleeve connecting plate and guide plate can move around in the horizontal direction for one end of the guide plate of taking product dish.

6. eyeglass automatic high-efficiency production equipment according to claim 4, is characterized in that: described vertically-guided mechanism comprises guide pin bushing and guide pillar; Described guide pin bushing is fixed on the outside of elevating bracket and slips with guide pillar, and the lower end of guide pillar is fixed on lift cylinder holder.