CN112083536A

CN112083536A - Optical device production and processing packaging hardware

Info

Publication number: CN112083536A
Application number: CN202011069984.0A
Authority: CN
Inventors: 卢立建
Original assignee: Hunan Zhongke Photoelectric Co ltd
Current assignee: Hunan Zhongke Photoelectric Co ltd
Priority date: 2020-10-09
Filing date: 2020-10-09
Publication date: 2020-12-15

Abstract

The invention discloses an optical device production and processing packaging device which comprises a base, a conveying belt, a fixed rod, a rotating arm, a mounting seat, a connecting rod, a sucker, a bracket component, a placing groove, a rotating component and a lifting component, wherein the rotating component drives the rotating arm to rotate around the axial direction of the fixed rod, and the lifting component is used for driving the sucker to move up and down. The invention has the following beneficial effects: carry the box body that is used for encapsulating the optical device to the sucking disc below through the conveyer belt, runner assembly drive rotor arm rotates to move down by lifting unit drive sucking disc, make the sucking disc adsorb the optical device, then rethread runner assembly rotates, makes the sucking disc rotate to the conveyer belt top, moves down by lifting unit drive sucking disc again, makes the optical device place on the box body, encapsulates the operation by outside packaging mechanism again, relative prior art's encapsulation equipment, simple structure, the simple operation.

Description

Optical device production and processing packaging hardware

Technical Field

The invention relates to the field of optical device packaging equipment, in particular to an optical device production, processing and packaging device.

Background

Optical devices (Optical devices) are divided into active devices and passive devices, the active devices are optoelectronic devices which need external energy to drive and work in an Optical communication system and can convert electrical signals into Optical signals or Optical signals into electrical signals, and the optoelectronic devices are hearts of an Optical transmission system. The optical passive device is an optoelectronic device which does not need an external energy source to drive operation. The optical device generally comprises a chip, a crystal, an optical fiber, an electronic component and other precise parts.

When the optical device is processed, the optical device needs to be packaged on the box body, the currently used packaging equipment is complex in structure and high in manufacturing cost, and therefore manufacturing cost of enterprises is increased when small and medium-sized enterprises use the optical device.

In order to solve the above problems, we propose an optical device manufacturing and packaging apparatus.

Disclosure of Invention

The technical problem to be solved by the present invention is to overcome the defects of the prior art, and to solve the technical problem, the present invention provides a packaging apparatus for producing and processing an optical device, and the following technical scheme is provided:

the invention provides a packaging device for producing and processing an optical device, which comprises:

a base;

the conveying belt is arranged above the base through the mounting bracket assembly, a plurality of blind hole type placing grooves for clamping and placing an external box body are formed in a belt body of the conveying belt, and the conveying belt is driven by an external speed reduction motor to rotate;

the fixed rod is vertically arranged on the base;

the rotating arm is rotatably sleeved on the fixed rod;

the mounting seat is fixedly connected to one end, far away from the fixed rod, of the rotating arm;

the connecting rod is vertically and slidably connected to the mounting seat;

the sucker is fixedly connected to the lower end of the connecting rod and corresponds to the conveying belt;

the rotating assembly drives the rotating arm to rotate around the axial direction of the fixed rod;

and the lifting assembly is used for driving the sucker to move up and down.

Preferably, the bracket component is including locating the floating plate of base top, the horizontal both ends of floating plate respectively are vertical to be equipped with the curb plate, the conveyer belt rotates the connection on two curb plates through the installation pivot level, the floating plate is by its reciprocating of adjusting unit drive, and then adjusts the height of conveyer belt.

Preferably, the adjusting unit comprises an adjusting screw rod with a vertical thread penetrating through the floating plate, the lower end of the adjusting screw rod is rotatably connected to the bottom plate, guide columns are vertically arranged on two opposite sides of the bottom plate respectively, and the guide columns penetrate through the floating plate in a sliding fit manner.

Preferably, the floating plate is embedded with graphite bushings, and the graphite bushings are respectively sleeved on the two guide columns in a one-to-one corresponding sliding fit manner.

Preferably, the bottom plate is provided with a mounting seat, the adjusting screw rod is coaxially provided with an annular clamping block, and correspondingly, the mounting seat is provided with a clamping groove for clamping the annular clamping block and enabling the annular clamping block to rotate freely.

Preferably, the rotating assembly comprises a first gear sleeved on the fixed rod, the rotating arm is provided with a servo motor, the servo motor is connected with a second gear in a driving mode, and the first gear and the second gear are in meshing transmission.

Preferably, the lifting assembly comprises a sliding block which is arranged at the upper end of the connecting rod and is made of a magnetic conductive material, correspondingly, a sliding groove which is used for clamping the sliding block and can vertically and freely slide is formed in the mounting seat, an electromagnet is installed in the sliding groove and is located above the sliding block and matched with the sliding block, an elastic piece is arranged between the electromagnet and the sliding block, and the elastic piece abuts against the sliding block and drives the sliding block to move downwards.

Preferably, the elastic part is a compression spring vertically installed in the sliding groove, and two ends of the compression spring in the elastic direction respectively abut against the sliding block and the electromagnet.

Preferably, the outer wall of the mounting seat is provided with an air hole communicated with the sliding groove.

Compared with the prior art, the invention has the following beneficial effects: the box body for packaging the optical device is conveyed to the lower part of the sucker through the conveying belt, the rotating assembly drives the rotating arm to rotate, the sucker is driven to move downwards by the lifting assembly to be adsorbed by the sucker, then the sucker is driven to rotate to the upper part of the conveying belt through the rotating assembly, then the sucker is driven to move downwards by the lifting assembly to be placed on the box body, and then the packaging operation is carried out by an external packaging mechanism, compared with the packaging equipment in the prior art, the box body packaging device is simple in structure and convenient to operate, the adjusting unit is arranged, the floating plate is driven to move upwards and downwards through the adjusting unit to adjust the height of the conveying belt, so that the box body packaging device can adapt to different height models, the lifting assembly is composed of an electromagnet, a sliding block and an elastic piece, the sucker moves downwards, the optical device can be placed on the box body, and magnetism is generated by electrifying of, the slide block is driven by magnetic force to move towards the electromagnet, so that the sucker moves upwards, and the lifting assembly is simpler in structure and convenient to operate.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of an assembly structure of an optical device production, processing and packaging apparatus according to the present invention;

FIG. 2 is an enlarged partial schematic view at A of FIG. 1;

in the figure: 1-fixed rod, 2-servo motor, 3-second gear, 4-first gear, 5-rotating arm, 6-mounting seat, 7-connecting rod, 8-placing groove, 9-adjusting screw, 10-graphite bushing, 11-guide column, 12-mounting seat, 13-annular clamping block, 14-clamping groove, 15-bottom plate, 16-floating plate, 17-side plate, 18-conveying belt, 19-sucking disc, 20-electromagnet, 21-air vent, 22-compression spring, 23-sliding block and 24-sliding groove.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Examples

As shown in fig. 1-2, an optical device manufacturing and packaging apparatus includes:

a base 15;

the conveying belt 18 is arranged above the base 15 through a mounting bracket assembly, a plurality of blind hole type placing grooves 8 for clamping and placing external box bodies are formed in the belt body of the conveying belt 18, and the conveying belt 18 is driven by an external speed reduction motor to rotate;

the fixing rod 1 is vertically arranged on the base 15;

the rotating arm 5 is rotatably sleeved on the fixed rod 1;

the mounting seat 6 is fixedly connected to one end, far away from the fixed rod 1, of the rotating arm 5;

the connecting rod 7 is vertically and slidably connected to the mounting seat 6;

the sucking disc 19 is fixedly connected to the lower end of the connecting rod 7, and corresponds to the conveying belt 18;

the rotating assembly drives the rotating arm 5 to rotate around the axial direction of the fixed rod 1;

and the lifting assembly is used for driving the sucking disc 19 to move up and down.

In this embodiment, the support assembly preferably includes a floating plate 16 disposed above the base 15, the floating plate 16 is vertically provided with side plates 17 at both lateral ends, the conveyor belt 18 is horizontally and rotatably connected to the two side plates 17 through a mounting rotating shaft, and the floating plate 16 is driven by an adjusting unit to move up and down, so as to adjust the height of the conveyor belt 18.

In the present embodiment, the adjusting unit preferably includes an adjusting screw 9 vertically threaded on the floating plate 16, the lower end of the adjusting screw 9 is rotatably connected to the bottom plate 15, guide posts 11 are vertically arranged on two opposite sides of the bottom plate 15 respectively, and the guide posts 11 slidably penetrate through the floating plate 16.

In this embodiment, it is preferable that the floating plate 16 is embedded with graphite bushings 10, the graphite bushings 10 are respectively fitted on the two guide posts 11 in a sliding manner, and the graphite bushings 10 are provided, so that the guide posts 11 do not generate large mechanical wear when sliding with the floating plate 16 due to self-lubrication of the graphite bushings 10, thereby prolonging the service life of the floating plate 16.

In this embodiment, as preferable, the bottom plate 15 is provided with an installation seat 12, the adjusting screw 9 is coaxially provided with an annular clamping block 13, correspondingly, the installation seat 12 is provided with a clamping groove 14 for clamping the annular clamping block 13 and enabling free rotation, and the adjusting screw 9 is rotatably connected to the bottom plate 15 through rotation and limitation of the annular clamping block 13 in the clamping groove 14.

In this embodiment, as preferred, the rotating assembly includes first gear 4 that cup joints on dead lever 1, install servo motor 2 on rotor arm 5, the last drive of servo motor 2 is connected with second gear 3, first gear 4 and the meshing transmission of second gear 3, servo motor 2 is supplied power by external power source, and servo motor 2 circular telegram is rotated to drive second gear 3 and the meshing transmission of first gear 4, and then drive rotor arm 5 rotates, makes sucking disc 19 rotate and adsorbs the optical device.

In this embodiment, preferably, the lifting assembly includes a slider 23 disposed at the upper end of the connecting rod 7 and made of a magnetic conductive material, and correspondingly, a sliding groove 24 for the slider 23 to engage with and vertically and freely slide is formed in the mounting base 6, an electromagnet 20 is installed in the sliding groove 24, the electromagnet 20 is located above the slider 23 and is used in cooperation with the slider 23, an elastic member is disposed between the electromagnet 20 and the slider 23, the elastic member abuts against the slider 23 and drives the slider 23 to move down, the electromagnet 20 generates magnetism to drive the slider 23 to move up and the suction cup 19 to move up, when the electromagnet 20 is powered off, the magnetism is lost, the elastic member abuts against the slider 23 at this time, and then the slider 23 moves down, so that the suction cup 19 moves down and the optical device is placed on an external box body to be packaged.

In this embodiment, the elastic member is preferably a compression spring 22 vertically installed in the sliding groove 24, and both ends of the compression spring 22 in the elastic direction respectively abut against the slider 23 and the electromagnet 20.

In this embodiment, preferably, the outer wall of the mounting seat 6 is provided with an air hole 21 penetrating the sliding groove 24, and the air hole 21 prevents air compression when the sliding block 23 slides in the sliding groove 24, so that the sliding process of the sliding block 23 is smooth.

The working principle of the invention is as follows: the box body used for packaging the optical device is placed in the placing groove 8 of the conveying belt 18 by a worker or an external manipulator, the conveying belt 18 is electrified to run, then the servo motor 2 is electrified and rotates, the second gear 3 and the first gear 4 are in meshing transmission, the rotating arm 5 is rotated, the optical device adsorbed on the suction disc 19 is rotated to the position above the box body, the conveying belt 18 stops running at the moment, then the electromagnet 20 is powered off and loses magnetism, at the moment, the sliding block 23 moves downwards through elastic abutting of the compression spring 22 and enables the optical device to abut against the surface of the box body, then the optical device and the box body are packaged by an external packaging mechanism, then the electromagnet 20 is electrified to generate magnetism, the sliding block 23 is driven to move upwards, meanwhile, the servo motor 2 rotates to drive the rotating arm 5 to rotate, and the suction disc 19 is far away from the conveying belt 18 and continues the.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An optical device production and processing packaging device, comprising:

a base (15);

the conveying belt (18) is arranged above the base (15) through a mounting bracket assembly, a plurality of blind hole type placing grooves (8) for clamping and placing external box bodies are formed in the belt body of the conveying belt (18), and the conveying belt (18) is driven by an external speed reduction motor to rotate;

the fixing rod (1), the said fixing rod (1) is set up on the base (15) vertically;

the rotating arm (5), the said rotating arm (5) is fitted over the dead lever (1) rotatably;

the mounting seat (6) is fixedly connected to one end, far away from the fixed rod (1), of the rotating arm (5);

the connecting rod (7), the said connecting rod (7) is connected to the mounting base (6) vertically and slidably;

the sucker (19) is fixedly connected to the lower end of the connecting rod (7) and corresponds to the conveying belt (18);

the rotating assembly drives the rotating arm (5) to rotate around the axial direction of the fixed rod (1);

the lifting assembly is used for driving the sucking disc (19) to move up and down.

2. A packaging apparatus for optical device manufacturing according to claim 1, wherein said bracket assembly comprises a floating plate (16) disposed above the base (15), said floating plate (16) having two side plates (17) vertically disposed at each of the two lateral ends thereof, said conveyor belt (18) being horizontally rotatably connected to the two side plates (17) by means of a mounting shaft, said floating plate (16) being driven by the adjusting unit to move up and down, thereby adjusting the height of said conveyor belt (18).

3. A packaging apparatus for optical device production and processing according to claim 2, wherein said adjusting unit comprises an adjusting screw (9) threaded vertically through the floating plate (16), the lower end of said adjusting screw (9) is rotatably connected to the bottom plate (15), and two opposite sides of said bottom plate (15) are vertically provided with guiding posts (11), respectively, said guiding posts (11) are slidably fitted through the floating plate (16).

4. A packaging apparatus for optical device production and processing according to claim 3, wherein the floating plate (16) is embedded with graphite bushings (10), and the graphite bushings (10) are respectively slidably fitted on the two guiding pillars (11) in a one-to-one correspondence.

5. The optical device producing, processing and packaging apparatus as claimed in claim 3, wherein the bottom plate (15) is provided with a mounting seat (12), the adjusting screw (9) is coaxially provided with an annular clamping block (13), and correspondingly, the mounting seat (12) is provided with a clamping groove (14) for the annular clamping block (13) to clamp and freely rotate.

6. The optical device production, processing and packaging apparatus as claimed in claim 1, wherein the rotating assembly comprises a first gear (4) sleeved on the fixing rod (1), the rotating arm (5) is provided with a servo motor (2), the servo motor (2) is connected with a second gear (3) in a driving manner, and the first gear (4) and the second gear (3) are in meshing transmission.

7. The optical device production, processing and packaging apparatus as claimed in claim 1, wherein the lifting assembly includes a slider (23) made of a magnetic material and disposed at an upper end of the connecting rod (7), and correspondingly, a sliding groove (24) for the slider (23) to engage with and to vertically and freely slide is disposed on the mounting base (6), an electromagnet (20) is disposed in the sliding groove (24), the electromagnet (20) is disposed above the slider (23) and is used in cooperation with the slider (23), an elastic member is disposed between the electromagnet (20) and the slider (23), and the elastic member abuts against the slider (23) and drives the slider (23) to move down.

8. The optical device manufacturing and packaging apparatus as claimed in claim 7, wherein the elastic member is a compression spring (22) vertically installed in the sliding groove (24), and two ends of the compression spring (22) in the elastic direction respectively abut against the slider (23) and the electromagnet (20).

9. An optical device manufacturing and packaging apparatus as claimed in claim 7, wherein the outer wall of the mounting seat (6) is provided with air holes (21) penetrating the sliding grooves (24).