CN111893281A

CN111893281A - Automatic earpiece annealing equipment for glasses production

Info

Publication number: CN111893281A
Application number: CN202010772880.XA
Authority: CN
Inventors: 何福生
Original assignee: Individual
Current assignee: Anhui Maisi Optical Technology Development Co ltd
Priority date: 2020-08-04
Filing date: 2020-08-04
Publication date: 2020-11-06
Anticipated expiration: 2040-08-04
Also published as: CN111893281B

Abstract

The invention relates to glasses processing equipment, in particular to automatic earpiece annealing equipment for glasses production. The automatic glasses leg annealing equipment for glasses production can improve the safety of glasses leg annealing treatment, is accurate in the heating position of glasses legs, saves time and labor and improves efficiency. The utility model provides an earpiece automatic annealing equipment of glasses production usefulness, includes the chassis, and the chassis both sides all are equipped with the extension frame, are equipped with the conveyer belt between the extension frame, and the equipartition has the rack on the conveyer belt. According to the invention, the conveying belt and the placing rack are adopted to convey the earpieces one by one, and the earpieces are conveyed upwards through the grooved wheels and enter the induction heating assembly, so that the safety of the annealing treatment of the earpieces is realized.

Description

Automatic earpiece annealing equipment for glasses production

Technical Field

The invention relates to glasses processing equipment, in particular to automatic earpiece annealing equipment for glasses production.

Background

In the process of producing the glasses, the metal part of the glasses leg needs to be annealed, so that the metal performance of the metal part of the earpiece reaches the standard, the annealing treatment of the earpiece is generally carried out by adopting an induction heating mode, the local position of the earpiece is inductively heated to lead the metal performance to reach the standard, but the working process of the local inductive heating of the earpiece at present adopts the manual hand-holding of the earpiece to aim the metal part of the earpiece at the induction heating ring, and the adoption of the way wastes time and labor, namely, the spectacle legs are required to be replaced on the heating coil manually and frequently, manual scalding is easy to cause, and the safety is low, in the manual operation process, the position of the earpiece needing to be heated is difficult to align with the heating ring, so that the annealing position has deviation, and the rejection rate is improved.

In view of the above disadvantages, it is urgently needed to design an automatic earpiece annealing device for producing glasses, which can improve safety of earpiece annealing treatment, accurate earpiece heating position, time saving, labor saving and efficiency improvement.

Disclosure of Invention

In order to overcome the defects of low safety, deviation of heating positions, time and labor waste and low efficiency in the annealing treatment of the spectacle legs at present, the invention has the technical problems that: the automatic glasses leg annealing equipment for glasses production can improve the safety of glasses leg annealing treatment, is accurate in the heating position of glasses legs, saves time and labor and improves efficiency.

The technical scheme of the invention is as follows: an automatic earpiece annealing device for glasses production comprises a bottom frame, wherein two sides of the bottom frame are respectively provided with an extension frame, a conveying belt is arranged between the extension frames, and placing frames are uniformly distributed on the conveying belt; the transfer devices are arranged between the underframe, the conveyor belt is positioned between the transfer devices, the distance between the transfer devices and the placing rack is matched, and the transfer devices are used for transferring the glasses legs conveyed by the conveyor belt; the support frame is arranged on one side of the underframe, and is provided with an annealing device which is used for annealing the transferred earpiece; and the transmission device is arranged between the bottom frames, is matched with the transfer device and the annealing device, and is used for driving and controlling the movement and the state of the transfer device and the annealing device.

Preferably, the transfer device comprises connecting seats, the connecting seats are respectively arranged on two sides of the underframe, first rotating shafts are rotatably arranged on the connecting seats, grooved wheels are arranged on the first rotating shafts at positions close to one side of the conveying belt, the grooved wheels are of structures with openings on two sides, and the distance between the opening structures of the grooved wheels corresponds to the distance between the placing racks; and the two sides of the second rotating shaft are respectively provided with a belt transmission assembly between the first rotating shaft, and the second rotating shaft is provided with a first transmission gear which is matched with the transmission device.

Preferably, the annealing device comprises an L-shaped frame, the L-shaped frame is arranged between supporting frames, a moving pair is arranged at the position of the L-shaped frame close to one side of the conveying belt, an elastic part is arranged on the moving pair, a moving rod is arranged on a moving part of the moving pair, a contact frame is arranged at the position of the moving rod close to one side of the bottom frame, the contact frame is matched with the transmission device, and two groups of racks are arranged at the other side of the contact frame; the fixing seat is arranged on one side wall of the L-shaped frame close to the rack, two groups of third rotating shafts are arranged on the fixing seat in a rotating mode, second transmission gears are arranged at positions of the third rotating shafts close to one side of the rack, and the second transmission gears are respectively meshed with the adjacent racks; the induction heating assembly is arranged on the group of third rotating shafts; and the clamping block is arranged on the third rotating shaft on the other side.

Preferably, the transmission device comprises a support, the support is arranged on one side of the underframe, and a fourth rotating shaft is rotatably arranged on the support; the missing gear is arranged on the fourth rotating shaft and matched with the first transmission gear, and the missing gear is of a structure which is provided with two rows of teeth and is distributed at 90 degrees; the cam is arranged on the fourth rotating shaft at a position close to one side of the contact frame and matched with the contact frame; and the driving motor is arranged on the bottom frame, and a gear transmission assembly is arranged between the driving motor and the fourth rotating shaft.

Preferably, the device also comprises a moving device, wherein the moving device comprises a toothed belt, and the toothed belt is arranged on the periphery of the conveying belt; and the sector gear is arranged on the fourth rotating shaft and is matched with the toothed belt.

Preferably, the device further comprises fixed blocks, the fixed blocks are respectively arranged on the group of extension frames, and the fixed blocks are respectively provided with guide frames.

Preferably, the belt drive assembly is a belt drive.

Preferably, the gear assembly is a bevel gear drive.

Preferably, the elastic member is a straight spring.

1. According to the invention, the conveying belt and the placing rack are adopted to convey the earpieces one by one, and the earpieces are transferred upwards through the grooved wheels and enter the induction heating assembly, so that the safety of the annealing treatment of the earpieces can be realized, the earpieces can be prevented from being manually held on the induction heating table to operate, the manual scalding can be avoided, and the manual labor can be liberated.

2. Through adopting the rotatory mode that drives scarce gear, cam and sector gear of fourth pivot, can make the sheave upwards transport, induction heating subassembly heats it and the automatic conveying of conveyer belt to the earpiece, make the annealing work degree of automation of earpiece improve, and reduced the shortcoming that the rejection rate is high that manual operation error leads to.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic partial perspective view of a first embodiment of the present invention.

Fig. 5 is a schematic partial perspective view of a second embodiment of the present invention.

Fig. 6 is a schematic perspective view of the transfer device of the present invention.

FIG. 7 is a schematic perspective view of a first annealing apparatus according to the present invention.

FIG. 8 is a schematic perspective view of a second annealing apparatus according to the present invention.

FIG. 9 is a schematic partial perspective view of an annealing apparatus according to the present invention.

Fig. 10 is a schematic perspective view of a first embodiment of the transmission of the present invention.

Fig. 11 is a schematic perspective view of a second embodiment of the transmission of the present invention.

Fig. 12 is a schematic perspective view of a third embodiment of the transmission of the present invention.

Description of reference numerals: 1-bottom frame, 2-extension frame, 3-conveyor belt, 4-placing frame, 5-transfer device, 6-support frame, 7-annealing device, 8-transmission device, 51-connecting seat, 52-first rotating shaft, 53-grooved wheel, 54-second rotating shaft, 55-belt transmission component, 56-first transmission gear, 71-L-shaped frame, 72-moving pair, 73-elastic component, 74-moving rod, 75-contact frame, 76-rack, 77-fixing seat, 78-third rotating shaft, 79-second transmission gear, 710-induction heating component, 711-clamping block, 81-support, 82-fourth rotating shaft, 83-missing gear, 84-cam, 85-driving motor, 86-gear transmission component, 9-moving device, 91-toothed belt, 92-sector gear, 10-fixed block and 11-guide frame.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Example 1

The utility model provides an earpiece automatic annealing equipment of glasses production usefulness, as shown in fig. 1-5, including chassis 1, extension frame 2, conveyer belt 3, rack 4, transfer device 5, support frame 6, annealing device 7 and transmission 8, specifically do:

all be connected with extension frame 2 about 1 both sides of chassis, be connected with conveyer belt 3 between the extension frame 2 of both sides about, 3 upside equipartitions of conveyer belt have rack 4, be equipped with transfer device 5 between the chassis 1 front and back both sides, conveyer belt 3 is located between the

transfer device

5, 1 rear side of chassis is connected with

support frame

6, 6 upsides of support frame are equipped with annealing device 7, be equipped with transmission 8 between 1 downside of chassis, transmission 8 cooperates with annealing device 7 and transfer device 5, the distance between transfer device 5 and the rack 4 cooperates.

When the earpiece needs to be annealed, the transmission device 8 can be started, the transmission device 8 drives the annealing device 7 and the transfer device 5 to work in a clearance manner, the earpiece can be placed on the placing frame 4 on the right side of the conveyor belt 3 and placed in a right position, the conveyor belt 3 is rotated to drive the placing frame 4 and the earpiece to move leftwards to enter the transfer device 5, the next earpiece is placed on the placing frame 4, when the transmission device 8 runs to be matched with the transfer device 5, the transmission device 8 drives the transfer device 5 to rotate anticlockwise, so that the transfer device 5 drives the earpiece positioned in the transfer device 5 to rotate anticlockwise, the earpiece is driven to move to the annealing device 7, the transmission device 8 is suspended to be matched with the transfer device 5, the transmission device 8 is matched with the annealing device 7, the transmission device 8 drives the annealing device 7 to perform induction heating on the earpiece for annealing, when the transmission device 8 is separated from the matching with the annealing device 7, the annealing device 7 is reset, at the moment, the transmission device 8 is matched with the transfer device 5 again, so that the transfer device 5 is driven to rotate anticlockwise continuously, the earpiece enters the placing frame 4 on the lower left side of the transfer device 5, the annealing treatment of the earpiece is completed, at the moment, the conveyor belt 3 can be rotated anticlockwise, the next placing frame 4 and the earpiece placed in the transfer device 5 are positioned, and the transmission device 8 operates according to the operation rule; after the annealing treatment of the temple is completed, the transmission device 8 can be closed.

Example 2

On the basis of embodiment 1, as shown in fig. 1 to 12, the transfer device 5 includes a connection seat 51, a first rotating shaft 52, a sheave 53, a second rotating shaft 54, a belt transmission assembly 55, and a first transmission gear 56, specifically:

both sides all are connected with connecting seat 51 around chassis 1, the inboard equal rotary type of connecting seat 51 is connected with first pivot 52, first pivot 52 inboard all is connected with sheave 53, sheave 53 is the open structure of both sides opening, and the distance between sheave 53's the open structure department corresponds with the distance between the rack 4, the rotary type is connected with second pivot 54 around chassis 1 middle part between the both sides, second pivot 54 around both sides respectively with around be connected with between the first pivot 52 of both sides and take transmission assembly 55, be connected with first transmission gear 56 on the second pivot 54, first transmission gear 56 and the cooperation of transmission 8.

The transmission belt 3 can be rotated to enable the earpiece to enter the right side opening structure of the grooved wheel 53, at the moment, the other side placing frame 4 is located at the left side opening structure of the grooved wheel 53, when the transmission device 8 runs to be matched with the first transmission gear 56, the transmission device 8 drives the first transmission gear 56 to rotate anticlockwise, so that the first transmission gear 56 drives the grooved wheel 53 to rotate anticlockwise through the second rotating shaft 54 and the belt transmission component 55, the transmission device 8 drives the grooved wheel 53 to rotate 90 degrees anticlockwise at the moment, so that the grooved wheel 53 drives the earpiece entering the opening structure to rotate 90 degrees anticlockwise to the annealing device 7, at the moment, the transmission device 8 drives the annealing device 7 to anneal the earpiece, when the transmission device 8 is separated from being matched with the annealing device 7, the transmission device 8 is matched with the first transmission gear 56 again, so as to drive the first transmission gear 56 to rotate 90 degrees anticlockwise again, the earpiece enters the rack 4 on the left side, and the process is circulated.

The annealing device 7 comprises an L-shaped frame 71, a moving pair 72, an elastic member 73, a moving rod 74, a contact frame 75, a rack 76, a fixed seat 77, a third rotating shaft 78, a second transmission gear 79, an induction heating assembly 710 and a clamping block 711, and specifically comprises:

be equipped with L shape frame 71 between support frame 6, L shape frame 71 front side is connected with the sliding pair 72, be connected with elastic component 73 on the sliding pair 72, the moving member front side of sliding pair 72 is connected with movable rod 74, movable rod 74 downside is connected with contact frame 75, contact frame 75 and transmission 8 cooperation, movable rod 74 upside is connected with two sets of racks 76, L shape frame 71 upside wall downside is connected with two sets of fixing bases 77, the last rotation type of fixing base 77 is connected with two third pivot 78, third pivot 78 rear side all is connected with second drive gear 79, second drive gear 79 meshes with rack 76 respectively, be connected with induction heating assembly 710 on the third pivot 78 of right side, be connected with clamp splice 711 on the third pivot 78 of left side.

In the process of the rotation of the grooved pulley 53, one earpiece is driven to rotate to a position between the clamping block 711 and the induction heating assembly 710, at the moment, the transmission device 8 is matched with the contact frame 75, the transmission device 8 drives the contact frame 75 to move downwards, the contact frame 75 drives the moving rod 74 and the rack 76 to move downwards, so that the rack 76 drives the second transmission gear 79 to rotate inwards respectively, and the clamping block 711 and the induction heating assembly 710 clamp the earpiece for induction heating to realize annealing; when the transmission device 8 rotates to a position where the transmission device does not cooperate with the contact frame 75, the elastic member 73 is reset, so as to drive the moving rod 74 and the contact frame 75 to move upwards for resetting, and thus drive the second transmission gear 79 to reset, so as to reset the clamping block 711 and the induction heating assembly 710.

The transmission device 8 comprises a support 81, a fourth rotating shaft 82, a missing gear 83, a cam 84, a driving motor 85 and a gear transmission assembly 86, and specifically comprises:

chassis 1 right side wall left is connected with two supports 81, the rotary type is connected with fourth pivot 82 between the support 81, be connected with scarce gear 83 on the fourth pivot 82, lack gear 83 and the cooperation of first transmission gear 56, lack the structure that gear 83 just is 90 degrees distributions for having two rows of teeth, the rear side is connected with cam 84 on the fourth pivot 82, cam 84 and contact frame 75 cooperate, chassis 1 right side wall left middle part is connected with driving motor 85, be connected with gear drive assembly 86 between driving motor 85 and the fourth pivot 82.

The driving motor 85 can be started, the driving motor 85 drives the fourth rotating shaft 82 to rotate clockwise through the gear transmission assembly 86, the fourth rotating shaft 82 drives the missing gear 83 and the cam 84 to rotate, when the first row of teeth of the missing gear 83 rotates to be matched with the first transmission gear 56, the grooved wheel 53 rotates 90 degrees counterclockwise, the missing gear 83 is separated from being matched with the first transmission gear 56, the cam 84 starts to be matched with the contact frame 75 at the moment, the cam 84 drives the contact frame 75 to move downwards, so that the induction heating assembly 710 performs induction heating on the glasses earpiece, when the cam 84 rotates 90 degrees and is not matched with the contact frame 75, the second row of teeth of the missing gear 83 starts to be matched with the first transmission gear 56, so that the grooved wheel 53 rotates 90 degrees counterclockwise again.

Still including mobile device 9, mobile device 9 is including toothed belt 91 and sector gear 92, specifically is:

be equipped with mobile device 9 between conveyer belt 3 and the fourth pivot 82, mobile device 9 is used for the automatic conveyer belt 3 that drives to carry out anticlockwise rotation, and the conveyer belt 3 periphery is connected with toothed belt 91, is connected with sector gear 92 on the fourth pivot 82, and sector gear 92 cooperates with toothed belt 91.

When the fourth rotating shaft 82 rotates clockwise, the fourth rotating shaft 82 drives the sector gear 92 to rotate clockwise, when the second row of teeth of the missing gear 83 rotates to be separated from the matching with the first transmission gear 56, the sector gear 92 starts to be matched with the toothed belt 91, so that the sector gear 92 drives the transmission belt 3 to rotate counterclockwise, when one placing rack 4 moves from the right opening structure of the grooved pulley 53 to the left opening structure of the placing rack, the sector gear 92 is separated from the matching with the toothed belt 91, and at this time, the first row of teeth of the missing gear 83 is matched with the first transmission gear 56 again.

Still including fixed block 10 and leading truck 11, specifically do: both sides all are connected with fixed block 10 around the right side extension frame 2, and fixed block 10 upside all is connected with leading truck 11.

When placing the earpiece on rack 4, the anticlockwise rotation of conveyer belt 3 will drive the earpiece and carry out the direction of position through leading truck 11, make the earpiece can be accurate carry out the contact with induction heating subassembly 710.

Further, the belt drive assembly 55 is a belt drive.

Further illustrated, the gear assembly 86 is a bevel gear drive.

Further, the elastic member 73 is a straight spring.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides an earpiece automatic annealing equipment of glasses production usefulness which characterized in that, including:

the device comprises a bottom frame (1), wherein extension frames (2) are arranged on two sides of the bottom frame (1), a conveyor belt (3) is arranged between the extension frames (2), and placing frames (4) are uniformly distributed on the conveyor belt (3);

the transfer device (5) is arranged between the bottom frames (1), the conveyor belt (3) is located between the transfer devices (5), the transfer devices (5) are matched with the placement frames (4) in distance, and the transfer devices (5) are used for transferring the glasses legs conveyed by the conveyor belt (3);

the supporting frame (6) is arranged on one side of the underframe (1), an annealing device (7) is arranged on the supporting frame (6), and the annealing device (7) is used for annealing the transferred earpiece;

transmission (8), transmission (8) are located between chassis (1), and transmission (8) and transfer device (5) and annealing device (7) cooperation, and transmission (8) are used for the drive and control transfer device (5) and annealing device (7) motion and state.

2. The automatic earpiece annealing apparatus for the production of glasses according to claim 1, characterized in that the transfer device (5) comprises:

the conveying device comprises a connecting seat (51), wherein the connecting seat (51) is respectively arranged on two sides of an underframe (1), a first rotating shaft (52) is rotatably arranged on the connecting seat (51), grooved wheels (53) are respectively arranged at positions of the first rotating shaft (52) close to one side of a conveying belt (3), the grooved wheels (53) are of structures with openings at two sides, and the distance between the opening structures of the grooved wheels (53) corresponds to the distance between placing frames (4);

the second rotating shaft (54) is rotatably arranged between the bottom frames (1), belt transmission assemblies (55) are arranged between two sides of the second rotating shaft (54) and the first rotating shaft (52) respectively, a first transmission gear (56) is arranged on the second rotating shaft (54), and the first transmission gear (56) is matched with the transmission device (8).

3. The automatic earpiece annealing device for the production of glasses according to claim 2, characterized in that the annealing device (7) comprises:

the device comprises L-shaped frames (71), the L-shaped frames (71) are arranged between supporting frames (6), a moving pair (72) is arranged at one side of each L-shaped frame (71) close to a conveying belt (3), an elastic part (73) is arranged on each moving pair (72), a moving rod (74) is arranged on a moving part of each moving pair (72), a contact frame (75) is arranged at one side of each moving rod (74) close to a bottom frame (1), each contact frame (75) is matched with a transmission device (8), and two groups of racks (76) are arranged at the other side of each contact frame (75);

the fixing seat (77) is arranged on one side wall of the L-shaped frame (71) close to the rack (76), two groups of third rotating shafts (78) are rotatably arranged on the fixing seat (77), second transmission gears (79) are arranged at positions of the third rotating shafts (78) close to one side of the rack (76), and the second transmission gears (79) are respectively meshed with the adjacent racks (76);

the induction heating assembly (710), the induction heating assembly (710) is arranged on the group of third rotating shafts (78);

and the clamping block (711) is arranged on the third rotating shaft (78) on the other side.

4. The automatic earpiece annealing device for the production of glasses according to claim 3, characterized in that the transmission means (8) comprise:

the support (81), the support (81) is arranged on one side of the underframe (1), and the support (81) is rotatably provided with a fourth rotating shaft (82);

the gear lack (83) is arranged on the fourth rotating shaft (82), the gear lack (83) is matched with the first transmission gear (56), and the gear lack (83) is of a structure which is provided with two rows of teeth and is distributed at 90 degrees;

the cam (84) is arranged on the fourth rotating shaft (82) at a position close to one side of the contact frame (75), and the cam (84) is matched with the contact frame (75);

and the driving motor (85), the driving motor (85) is arranged on the bottom frame (1), and a gear transmission assembly (86) is arranged between the driving motor (85) and the fourth rotating shaft (82).

5. The automatic earpiece annealing device according to claim 4, further comprising a moving device (9), wherein the moving device (9) comprises:

the toothed belt (91), the toothed belt (91) is arranged on the periphery of the conveyor belt (3);

and the sector gear (92) is arranged on the fourth rotating shaft (82), and the sector gear (92) is matched with the toothed belt (91).

6. The automatic earpiece annealing apparatus for eyeglasses production according to claim 5, further comprising:

the fixed blocks (10) are respectively arranged on the group of extension frames (2), and guide frames (11) are arranged on the fixed blocks (10).

7. The automatic earpiece annealing device for the production of glasses according to claim 6, characterized in that the belt drive assembly (55) is a belt drive.

8. The automatic temple annealer device for use in the production of eyeglasses according to claim 7, wherein the gear assembly (86) is a bevel gear drive.

9. The automatic temple annealing apparatus for the production of eyeglasses according to claim 8, wherein the elastic member (73) is a straight spring.