CN219170126U - Automatic assembling and detecting integrated machine for optical module - Google Patents

Abstract

The utility model discloses an automatic assembling and detecting integrated machine for an optical module, which relates to the field of optical module processing equipment, and comprises a rack and a processing platen assembled on the inner wall, wherein a fixed table and a rotary table rotating between the fixed table and the rotary table are assembled on the surface of the processing platen, at least two processing stations which are distributed in a ring shape are arranged on the rotary table, a feeding rotary positioning mechanism, a spring feeding mechanism, a bolt feeding mechanism, a lock catch feeding mechanism, a cover feeding mechanism, at least two screw feeding mechanisms, an angle detecting mechanism and a blanking rotary positioning mechanism which are sequentially arranged on the surface of the processing platen, at least two material trays are also assembled on the surface of the processing platen, one side of each material tray is provided with a material tray feeding module connected with the feeding rotary positioning mechanism, and the other side of each material tray is provided with a material tray blanking module connected with the blanking rotary positioning mechanism. The multi-station optical module is assembled, detected and processed in a rotating mode of the turntable, and corresponding processing operations are synchronously executed by different processing stations.

Description

Automatic assembling and detecting integrated machine for optical module

Technical Field

The utility model relates to the technical field of optical module processing equipment, in particular to an optical module automatic assembly and detection integrated machine.

Background

The optical module consists of an optoelectronic device, a functional circuit, an optical interface and the like, and comprises a transmitting part and a receiving part. The optical module has the function that the transmitting end converts the electric signal into an optical signal, and the receiving end converts the optical signal into the electric signal after transmitting the optical signal through the optical fiber.

However, when the optical module is assembled, various parts are required to be assembled at the same time, at present, many assembly modes are all assembled manually or assembled by adopting equipment with single-station processing, and because the plurality of parts are required to be assembled in the assembly process, a great deal of manpower and time are required to be consumed in manual assembly, and the efficiency of the single-station assembly mode is low.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides an automatic assembling and detecting integrated machine for an optical module, which can effectively solve the problems of the background technology.

The technical scheme adopted for solving the technical problems is as follows:

the automatic assembling and detecting integrated machine for the optical module comprises a rack and a machining platen assembled on the inner wall, wherein a fixed table and a rotary table rotating between the fixed table and the rotary table are assembled on the surface of the machining platen, at least two machining stations which are distributed in a ring shape are arranged on the rotary table, a feeding rotary positioning mechanism, a spring feeding mechanism, a bolt feeding mechanism, a lock catch feeding mechanism, a cover feeding mechanism, at least two screw feeding mechanisms, an angle detecting mechanism and a discharging rotary positioning mechanism which are sequentially arranged on the outer side of the rotary table in a surrounding mode are assembled on the surface of the machining station, at least two trays are further assembled on the surface of the machining platen, a tray feeding module connected with the feeding rotary positioning mechanism is arranged on one side of the tray, and a tray discharging module connected with the discharging rotary positioning mechanism is arranged on the other side of the tray.

Further, the feeding rotary positioning mechanism consists of a product feeding positioning seat and a product feeding gripper, the discharging rotary positioning mechanism consists of a product discharging positioning seat and a product discharging gripper, the product feeding positioning seat and the product discharging positioning seat are fixed on the surface of the processing platen, and the product feeding gripper and the product discharging gripper are jointly fixed above the fixed table.

Further, the spring feeding mechanism comprises a spring rail for conveying the springs to the processing stations and a spring vibration disc connected to the tail end of the spring rail.

Further, the bolt feed mechanism comprises a bolt track for conveying bolts and a bolt vibration disc connected to the tail end of the bolt track, and the bolt feed mechanism further comprises a bolt feed gripper assembled on one side of the output end of the bolt track.

Further, hasp feed mechanism is including the hasp track that is used for carrying the hasp and connect at the terminal hasp vibration dish of this hasp track, hasp feed mechanism still includes the hasp material loading tongs of assembly in hasp track output one side.

Further, upper cover feed mechanism is including the upper cover track that is used for carrying the upper cover and connect at the terminal upper cover vibration dish of this upper cover track, upper cover feed mechanism still includes the upper cover material loading tongs of assembly on one side of the upper cover track.

Further, screw feed mechanism is including the screw feed bin that is used for holding the screw and the screwdriver head of processing, screw feed mechanism still includes the screw aircraft nose of assembly in the control slip of screwdriver head one side.

Further, the angle detection mechanism comprises an angle detection fixing seat and an angle detection lens detected through the center part of the angle detection fixing seat.

Further, all the trays are in linear alignment distribution, and at least two tray lifting motors for controlling lifting of the corresponding trays are arranged at the bottom of the processing bedplate.

Further, the tray feeding module comprises a tray feeding gripper moving to the upper portion of the tray and a tray feeding guide rail connected to the bottom of the tray feeding gripper to control sliding, and the tray discharging module comprises a tray discharging gripper moving to the upper portion of the tray and a tray discharging guide rail connected to the bottom of the tray discharging gripper to control sliding.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the multi-station optical module is assembled, detected and processed in a rotating way of the turntable, a plurality of different processing stations synchronously execute corresponding processing operations, automatic feeding and discharging are completed, the whole-course automatic operation is completed, manual processing is not needed, the whole working efficiency is improved, the whole structure is simple, the operation is convenient, and the practicability is strong.

Drawings

FIG. 1 is a schematic view of the external structure of the present utility model;

FIG. 2 is a schematic view showing the distribution of the surface structure of a processing platen according to the present utility model;

FIG. 3 is a schematic diagram of a turntable according to the present utility model;

FIG. 4 is a schematic diagram of the tray feeding module and the tray discharging module according to the present utility model;

reference numerals in the drawings:

the automatic feeding device comprises a 1-frame, a 2-processing platen, a 3-fixed table, a 4-turntable, a 5-processing station, a 6-feeding rotary positioning mechanism, a 7-spring feeding mechanism, an 8-bolt feeding mechanism, a 9-lock buckle feeding mechanism, a 10-upper cover feeding mechanism, a 11-screw feeding mechanism, a 12-angle detection mechanism, a 13-discharging rotary positioning mechanism, a 14-material tray, a 15-material tray feeding module, a 16-material tray discharging module and a 17-material tray lifting motor;

601-a product feeding positioning seat, 602-a product feeding gripper;

701-spring track, 702-spring vibration disk;

801-plug track, 802-plug vibration disc, 803-plug feeding gripper;

901-locking tracks, 902-locking vibrating plates, 903-locking feeding grippers;

1001-upper cover track, 1002-upper cover vibration disk, 1003-upper cover feeding gripper;

1101-screw bin, 1102-screw head, 1103-screw head;

1201-angle detection fixing seat, 1202-angle detection lens;

1301-product blanking positioning seats, 1302-product blanking grippers;

1501-a tray feeding gripper, 1502-a tray feeding guide rail;

1601-pan feeding grippers, 1602-pan feeding guide rails.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-4, the utility model provides an automatic assembling and detecting integrated machine for optical modules, which comprises a frame 1 and a processing bedplate 2 assembled on the inner wall, wherein a fixed table 3 and a rotary table 4 rotating between the fixed table 3 are assembled on the surface of the processing bedplate 2, the rotary table 4 is provided with at least two processing stations 5 distributed in a ring shape, the equipment is mainly used for assembling and detecting the optical modules, the rotary table 4 assembled on the processing bedplate 2 is used for finishing the processing of the optical modules step by step in a rotating mode until a finished product is finished, and a plurality of processing stations 5 are provided for batch production, so that automatic operation is formed and the integral processing efficiency is improved.

The surface of the machining platen 2 is provided with a feeding rotary positioning mechanism 6, a spring feeding mechanism 7, a bolt feeding mechanism 8, a lock catch feeding mechanism 9, an upper cover feeding mechanism 10, at least two screw feeding mechanisms 11, an angle detection mechanism 12 and a discharging rotary positioning mechanism 13 which are sequentially arranged on the outer side of the turntable 4 in a surrounding mode and machined on the machining station 5, an optical module is executed on the turntable 4 in the whole assembly and detection process, and is assembled from the feeding rotary positioning mechanism 6 through the spring feeding mechanism 7, the bolt feeding mechanism 8, the lock catch feeding mechanism 9, the upper cover feeding mechanism 10 and the screw feeding mechanism 11, detection is completed through the angle detection mechanism 12, and finally the optical module is finished by the discharging rotary positioning mechanism 13.

The surface of the processing platen 2 is also provided with at least two trays 14, one side of each tray 14 is provided with a tray feeding module 15 connected with the feeding rotary positioning mechanism 6, the other side of each tray 14 is provided with a tray discharging module 16 connected with the discharging rotary positioning mechanism 13, the optical modules before assembly and processing and the optical modules after assembly and processing are placed at positions, all the optical modules are placed on the trays 14, a plurality of trays 14 are aligned in a straight structure, and each tray 14 is provided with a tray lifting motor 17 for correspondingly controlling lifting.

The feeding rotary positioning mechanism 6 is composed of a product feeding positioning seat 601 and a product feeding gripper 602, the discharging rotary positioning mechanism 13 is composed of a product discharging positioning seat 1301 and a product discharging gripper 1302, the product feeding positioning seat 601 and the product discharging positioning seat 1301 are both fixed on the surface of the machining platen 2, the product feeding gripper 602 and the product discharging gripper 1302 are jointly fixed above the fixed table 3, the feeding rotary positioning mechanism 6 is used for positioning and clamping an optical module before assembly and machining onto the turntable 4, the angle position before clamping is adjusted by the product feeding positioning seat 601 to facilitate clamping of the product feeding gripper 602, however, after the optical module is machined on the turntable 4, the optical module is taken out by the discharging rotary positioning mechanism 13, taken out by the product discharging gripper 1302 and moved onto the product discharging positioning seat 1301.

The spring feeding mechanism 7 comprises a spring rail 701 for conveying a spring to the processing station 5 and a spring vibration disc 702 connected to the tail end of the spring rail 701, and is mainly used for assembling the spring, wherein the spring is placed on the spring vibration disc 702 and conveyed by the spring rail 701 for assembly processing.

The bolt feeding mechanism 8 comprises a bolt track 801 for conveying bolts and a bolt vibration disc 802 connected to the tail end of the bolt track 801, the bolt feeding mechanism 8 further comprises a bolt feeding gripper 803 assembled on one side of the output end of the bolt track 801, the mechanism is mainly used for assembling bolts, the bolts are placed on the bolt vibration disc 802, are conveyed to the output end through the bolt track 801, and are clamped to the processing station 5 through the bolt feeding gripper 803 for assembly.

The lock catch feeding mechanism 9 comprises a lock catch track 901 for conveying locks and a lock catch vibration plate 902 connected to the tail end of the lock catch track 901, the lock catch feeding mechanism 9 further comprises lock catch feeding grippers 903 assembled on one side of the output end of the lock catch track 901, the lock catch feeding mechanism is mainly used for assembling locks, the locks are placed on the lock catch vibration plate 902, conveyed to the output end through the lock catch track 901, and then clamped to the processing station 5 through the lock catch feeding grippers 903 for assembling.

The upper cover feeding mechanism 10 comprises an upper cover rail 1001 for conveying an upper cover and an upper cover vibration disc 1002 connected to the tail end of the upper cover rail 1001, the upper cover feeding mechanism 10 further comprises an upper cover feeding gripper 1003 assembled on one side of the upper cover rail 1001, the mechanism is mainly used for assembling the upper cover, the upper cover is placed on the upper cover vibration disc 1002, is conveyed to an output end through the upper cover rail 1001, and is clamped to a processing station 5 through the upper cover feeding gripper 1003 for assembly.

The screw feeding mechanism 11 comprises a screw storage bin 1101 for storing screws and a screw driver head 1102 for processing, the screw feeding mechanism 11 further comprises a screw driver head 1103 which is assembled on one side of the screw driver head 1102 and controls sliding, the screw driver head is mainly used for assembling screws, the screw driver is assembled by the screw feeding mechanism 11 in an assembling mode, screws of the same type can be assembled, screws of different types can be assembled, the assembled screws are stored in the screw storage bin 1101, and the screw driver head 1102 moves to a processing station 5 for assembling and processing after being absorbed by magnetism.

The angle detection mechanism 12 comprises an angle detection fixing seat 1201 and an angle detection lens 1202 detected by the center part of the angle detection fixing seat 1201, and the angle detection mechanism 12 is mainly used for detecting the angle after assembly and processing, so that the later-stage discharge clamping and positioning adjustment are facilitated.

The tray feeding module 15 includes a tray feeding grip 1501 moving to the top of the tray 14 and a tray feeding guide rail 1502 connected to the bottom of the tray feeding grip 1501 and controlling sliding, the tray discharging module 16 includes a tray discharging grip 1601 moving to the top of the tray 14 and a tray discharging guide rail 1602 connected to the bottom of the tray discharging grip 1601 and controlling sliding, when the optical module needs to be assembled and processed by feeding, the tray feeding grip 1501 grabs the optical module under the multidirectional control of the tray feeding guide rail 1502 and then moves to the feeding rotary positioning mechanism 6 for feeding, when the optical module needs to be discharged after the assembly and processing are completed, the tray discharging grip 1601 grabs the discharging rotary positioning mechanism 13 under the multidirectional control of the tray discharging guide rail 1602 and then moves to the tray 14 for discharging.

Compared with the prior art, the technical scheme carries out multi-station optical module assembly, detection and processing treatment in a rotating mode of the turntable 4, synchronously executes corresponding processing operations on a plurality of different processing stations, completes automatic feeding and discharging, realizes full-process automatic operation, does not need manual treatment, and improves overall working efficiency.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (10)

1. The utility model provides an optical module automatic assembly detects all-in-one, includes the frame and assembles the processing platen at the inner wall, its characterized in that: the automatic feeding device is characterized in that a fixed table and a rotary table rotating between the fixed table and the rotary table are assembled on the surface of the machining table, at least two machining stations which are annularly distributed are arranged on the rotary table, a feeding rotary positioning mechanism, a spring feeding mechanism, a bolt feeding mechanism, a lock catch feeding mechanism, an upper cover feeding mechanism, at least two screw feeding mechanisms, an angle detecting mechanism and a discharging rotary positioning mechanism which are sequentially arranged around the outer side of the rotary table and machined on the machining stations are assembled on the surface of the machining table, at least two trays are further assembled on the surface of the machining table, a tray feeding module connected with the feeding rotary positioning mechanism is arranged on one side of each tray, and a tray discharging module connected with the discharging rotary positioning mechanism is arranged on the other side of each tray.

2. The light module automatic assembly and detection all-in-one machine according to claim 1, wherein: the feeding rotary positioning mechanism consists of a product feeding positioning seat and a product feeding gripper, the discharging rotary positioning mechanism consists of a product discharging positioning seat and a product discharging gripper, the product feeding positioning seat and the product discharging positioning seat are fixed on the surface of the processing platen, and the product feeding gripper and the product discharging gripper are fixed above the fixed table together.

3. The light module automatic assembly and detection all-in-one machine according to claim 1, wherein: the spring feeding mechanism comprises a spring rail used for conveying springs to the processing stations and a spring vibration disc connected to the tail end of the spring rail.

4. The light module automatic assembly and detection all-in-one machine according to claim 1, wherein: the bolt feeding mechanism comprises a bolt track for conveying bolts and a bolt vibration disc connected to the tail end of the bolt track, and the bolt feeding mechanism further comprises a bolt feeding gripper assembled on one side of the output end of the bolt track.

5. The light module automatic assembly and detection all-in-one machine according to claim 1, wherein: the lock catch feeding mechanism comprises a lock catch track for conveying lock catches and a lock catch vibration disc connected to the tail end of the lock catch track, and the lock catch feeding mechanism further comprises a lock catch feeding grip assembled on one side of the output end of the lock catch track.

6. The light module automatic assembly and detection all-in-one machine according to claim 1, wherein: the upper cover feeding mechanism comprises an upper cover rail for conveying an upper cover and an upper cover vibration disc connected to the tail end of the upper cover rail, and further comprises an upper cover feeding gripper assembled on one side of the upper cover rail.

7. The light module automatic assembly and detection all-in-one machine according to claim 1, wherein: screw feed mechanism is including the screw feed bin that is used for holding the screw and the screw driver head of processing, screw feed mechanism still includes the screw driver head of assembly in screw driver head one side control slip.

8. The light module automatic assembly and detection all-in-one machine according to claim 1, wherein: the angle detection mechanism comprises an angle detection fixing seat and an angle detection lens detected through the center of the angle detection fixing seat.

9. The light module automatic assembly and detection all-in-one machine according to claim 1, wherein: all the trays are in linear alignment distribution, and at least two tray lifting motors for controlling lifting of the corresponding trays are arranged at the bottom of the processing bedplate.

10. The light module automatic assembly and detection all-in-one machine according to claim 1, wherein: the charging tray feeding module comprises a charging tray feeding gripper moving to the upper part of the charging tray and a charging tray feeding guide rail connected to the bottom of the charging tray feeding gripper to control sliding, and the charging tray discharging module comprises a charging tray discharging gripper moving to the upper part of the charging tray and a charging tray discharging guide rail connected to the bottom of the charging tray discharging gripper to control sliding.

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