CN212455120U - Fiber transceiver diode installation equipment - Google Patents

Abstract

A fiber optic transceiver diode mounting apparatus comprising: the platform is provided with a press-fitting mechanism, a feeding mechanism, a gluing mechanism and a discharging mechanism. The press-mounting mechanism comprises a lifting device, a push rod of the lifting device is provided with a mounting frame, the middle part of the mounting frame is provided with a rotating device, the rotating device is connected with a pressure plate, the pressure plate is simultaneously and rotatably connected to the top surface of the mounting frame, and the pressure plate is at least provided with three pairs of clamps along the circumference; the feeding mechanism comprises a sliding chute, the bottom of the sliding chute is provided with a transmission belt, and one end of the sliding chute is positioned below one of the clamps; the glue coating mechanism comprises a plurality of mounting seats, one mounting seat is arranged below the other clamp, and the mounting seat is provided with a glue coating barrel; the discharging mechanism is provided with a conveying belt, a limiting plate is arranged on the conveying belt, the limiting plate is used for placing a tray, the tray is used for fixing the BOSA shell, and the conveying belt passes through the position below any remaining clamp. High production efficiency and low manufacturing cost.

Description

Fiber transceiver diode installation equipment

Technical Field

The utility model relates to an optical fiber transceiver especially relates to an optical fiber transceiver diode erection equipment.

Background

Fiber optic transceivers, also known as BOSA. One or more diodes are required to be pressed and mounted on a BOSA shell when the BOSA component is produced, and the conventional diode pressing and mounting modes comprise two modes, namely manual pressing and mounting, but the efficiency is low; the other type is assembly line press mounting, a plurality of stations are arranged, the assembly line press mounting comprises feeding, gluing, press mounting and discharging, each station is provided with an independent lifting device, and the manufacturing cost of the equipment is high.

SUMMERY OF THE UTILITY MODEL

For solving prior art not enough, the utility model provides an optical fiber transceiver diode erection equipment adopts a elevating gear cooperation rotary device can realize getting piece, rubber coating and pressure equipment work simultaneously, and production efficiency is high, and equipment manufacturing cost is lower.

In order to realize the purpose of the utility model, the following scheme is proposed:

a fiber optic transceiver diode mounting apparatus comprising: the platform is provided with a press-fitting mechanism, a feeding mechanism, a gluing mechanism and a discharging mechanism.

The press-mounting mechanism comprises a lifting device, a push rod of the lifting device is provided with a mounting frame, the middle part of the mounting frame is provided with a rotating device, the rotating device is connected with a pressure plate, the pressure plate is simultaneously and rotatably connected to the top surface of the mounting frame, and the pressure plate is at least provided with three pairs of clamps along the circumference;

the feeding mechanism comprises a sliding chute, a transmission belt is arranged at the bottom of the sliding chute, and one end of the sliding chute is positioned below one of the clamps;

the gluing mechanism comprises a plurality of mounting seats, one of the mounting seats is arranged below the other clamp, and the mounting seat is provided with a gluing barrel;

the discharging mechanism is provided with a conveying belt, a limiting plate is arranged on the conveying belt, the limiting plate is used for placing a tray, the tray is used for fixing the optical fiber transceiver shell, and the conveying belt passes through any residual one of the lower part of the clamp.

Further, elevating gear is followed platform bottom is upwards installed, the mounting bracket is located the platform top, the mounting bracket includes the bottom plate, the bottom plate bottom surface connect in elevating gear, the bottom plate top is equipped with the roof, rotary device's main shaft passes the roof.

Further, a pair of semicircular cover plates is arranged on the upper surface of the top plate, a circular ring is arranged at the bottom of the pressure plate, and the circular ring is rotatably arranged in the semicircular cover plates.

Further, the pressure disk is equipped with four supports, four the support is along the circumference evenly distributed of pressure disk, interior root the support all is equipped with anchor clamps, anchor clamps set up downwards, feeding mechanism, rubber coating mechanism and discharge mechanism locate wherein threely in proper order the below of anchor clamps.

Further, the transmission band install in the platform, the platform is in the transmission band end is equipped with the locating plate, the spout front end with the locating plate contact, the bottom connect in the platform.

And furthermore, a proximity switch is arranged at the bottom of the mounting base below the clamp and used for detecting whether the gluing barrel is placed at the gluing station.

Furthermore, the discharging mechanism is provided with an in-place switch and a positioning cylinder corresponding to the position of the clamp, and a positioning hole is machined in the side face of the tray.

Furthermore, four guide rods are arranged at the bottom of the mounting frame and penetrate through the platform.

Furthermore, the lifting device adopts an air cylinder or a hydraulic cylinder or a motor, and the rotating device adopts a servo motor.

The beneficial effects of the utility model reside in that:

1. the automatic part taking, gluing and press-mounting device is high in production efficiency and low in manufacturing cost, a plurality of clamps are mounted on the pressure plate, the clamps are driven to simultaneously carry out part taking, gluing and press-mounting work through the cooperation of the rotating mechanism and the lifting mechanism, the feeding mechanism can automatically feed materials, and the discharging mechanism and the press-mounting mechanism are synchronously controlled;

2. the glue spreading barrel can be used for mounting diodes with various sizes, the sliding grooves of the feeding mechanism can be replaced, the adaptive sliding grooves are mounted according to different diodes, the glue spreading barrel can be replaced according to the overall dimension of the diodes, and the tray for placing the optical fiber transceiver shell can be replaced;

3. the gluing mechanism is provided with a proximity switch and can be used for detecting whether a gluing barrel is placed on a mounting seat of a gluing station, so that the diode is prevented from being glued in a leakage manner;

4. the optical fiber transceiver shell body pressure equipment position precision is high, at first through step motor accurate control conveyer belt distance of moving, whether through the switch detection tray that targets in place, at last through the cooperation of location cylinder and the locating hole on the tray, accomplish the location to tray and optical fiber transceiver shell.

Drawings

The drawings described herein are for illustrative purposes only of selected embodiments and not all possible implementations, and are not intended to limit the scope of the present disclosure.

Fig. 1 shows a first usage state of the present invention.

Fig. 2 shows a second usage state of the present invention.

Fig. 3 shows a third usage state of the present invention.

Fig. 4 shows a configuration diagram of the platen.

Fig. 5 shows a configuration diagram of the mount.

Fig. 6 shows the patterning of the glue application mechanism.

Fig. 7 shows the location of the platform for mounting the feeding mechanism.

Fig. 8 shows a structural view of the chute.

The labels in the figure are: 1-platform, 2-optical fiber transceiver shell, 10-press mounting mechanism, 11-lifting device, 12-mounting rack, 121-bottom plate, 122-top plate, 123-semicircular cover plate, 124-guide rod, 13-rotating device, 14-pressing plate, 141-circular ring, 142-support, 143-reinforcing rib, 15-clamp, 20-feeding mechanism, 21-sliding groove, 22-transmission belt, 23-positioning plate, 231-positioning pin, 30-gluing mechanism, 31-mounting seat, 32-gluing barrel, 33-mounting groove, 34-proximity switch, 40-discharging mechanism, 41-conveying belt, 42-tray, 43-in-place switch and 44-positioning cylinder.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings, but the described embodiments of the present invention are some embodiments of the present invention, not all embodiments.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship that the product of the present invention is usually placed when in use, and this is only for the convenience of description of the present invention and simplification of the description. The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance. The terms "parallel", "perpendicular", etc. do not require that the components be absolutely parallel or perpendicular, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; either directly or indirectly through intervening media, or through both elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Examples

As shown in fig. 1 to 8, an optical fiber transceiver diode mounting apparatus includes a platform 1, and further includes a press-fitting mechanism 10, a feeding mechanism 20, a glue coating mechanism 30, and a discharging mechanism 40 mounted on the platform 1.

Specifically, press-fit mechanism 10 includes elevating gear 11, elevating gear 11 is upwards installed from 1 bottom of platform, elevating gear 11 can adopt the cylinder, pneumatic cylinder or motor, elevating gear 11's push rod is equipped with mounting bracket 12, mounting bracket 12 is located 1 top of platform, mounting bracket 12 includes bottom plate 121, elevating gear 11 is connected in bottom plate 121 bottom surface, bottom plate 121 top is equipped with roof 122, bottom plate 121 and roof 122's shape is the same, connect through four stands in the middle of, for making mounting bracket 12 at the stability of reciprocating the in-process, and take place the incline when preventing the pressure equipment diode, mounting bracket 12 bottom is equipped with four guide arms 124, guide arm 124 all passes platform 1. The middle part of the mounting frame 12 is provided with a rotating device 13, the rotating device 13 is fixedly installed on the bottom surface of the top plate 122, the main shaft of the rotating device 13 penetrates through the top plate 122, and the main shaft of the rotating device 13 is coaxial with the main shaft of the lifting device 11.

Rotating device 13 is connected with pressure disk 14, the main shaft of rotating device 13 wears to adorn in the center of pressure disk 14 through the mode of key connection, rotating device 13 control pressure disk 14 is rotatory, pressure disk 14 is rotatable simultaneously and connects in the mounting bracket 12 top surface, as shown in fig. 5, roof 122 upper surface is equipped with a pair of semicircle apron 123, as shown in fig. 4, pressure disk 14 bottom is equipped with ring 141, ring 141 rotates and locates in semicircle apron 123, be clearance fit between ring 141 and the semicircle apron 123, rotating device 13's main shaft passes ring 141. The lifting device 11 controls the pressing plate 14 and the mounting frame 12 to move up and down together, and the work of taking, gluing and press mounting is realized through the up and down movement, wherein the taking is to grab the diode.

More specifically, the platen 14 is provided with at least three supports 142, the supports are arranged along the circumference of the platen 14, the platen 14 of the embodiment is provided with four supports 142, the included angle between every two adjacent supports 142 is 90 °, the bottom surface of each support 142 is provided with a fixture 15 for taking, gluing and press-fitting, the feeding mechanism 20, the gluing mechanism 30 and the discharging mechanism 40 are sequentially arranged below the three pairs of fixtures 15, the rotating device 13 rotates 90 ° each time, and the fixtures 15 are arranged above the taking position, the gluing position and the press-fitting position after each rotation.

Specifically, the feeding mechanism 20 includes a sliding slot 21, a transmission belt 22 is disposed at the bottom of the sliding slot 21, and one end of the sliding slot 21 is located below one of the clamps 15.

More specifically, the chute 21 is detachably mounted on the platform 1, as shown in fig. 8, the chute 21 includes two side plates 211, the side plates 211 are connected together through a front baffle 215 and a rear baffle 216, the front baffle 215 is processed with a positioning hole 212, the side plates 211 are provided with a guide plate 214 for preventing the diodes from overlapping and tilting in the chute 21 to cause jamming, the transmission belt 22 is located between the side plates 211 and lower than the front baffle 215 and the rear baffle 216, when the diodes are placed in the chute 21, the bottom surface of the diodes contacts with the transmission belt 22, the front end of the side plate 211 is processed with a hollow 213 for preventing the bottom of the clamp 15 from contacting with the chute 21, when the former diodes are taken away by the clamp 15, the latter diodes are supplemented forward under the driving of the transmission belt 22, because the transmission belt 22 needs to bear a small amount of pressure when the diodes are clamped, the position is set above, supporting the diode by means of the rigidity of the drive shaft; as shown in fig. 7, the transmission belt 22 is mounted on the platform 1, the platform 1 is provided with a positioning plate 23 at the end of the transmission belt 22, the positioning plate 23 is provided with a positioning pin 231, the front end of the sliding slot 21 contacts with the positioning plate 23, the positioning pin 231 is inserted into the positioning hole 212, and the bottom of the side plate 211 is connected to the platform 1 through a screw or a pin.

Specifically, the glue coating mechanism 30 includes a plurality of mounting seats 31, one of the mounting seats 31 is disposed below the other clamp 15, and the mounting seat 31 is provided with a glue coating barrel 32. During gluing, the lifting device 11 drives the diode to move up and down, so that the diode is dipped in glue in the gluing barrel 32, and the gluing part of the gluing barrel 32 is arranged on the inner side wall and is only used for gluing the side wall of the diode.

Furthermore, a proximity switch 34 is arranged at the bottom of the mounting seat 31 below the fixture 15 and used for detecting whether the gluing barrel 32 is placed at the gluing station, if the proximity switch 34 does not detect the gluing barrel 32, the equipment stops running or cannot be started, the mounting seat 31 is fixed in the mounting groove 33, and the proximity switch 34 is connected to the bottom of the mounting groove 33.

Specifically, the discharging mechanism 40 is provided with a conveying belt 41, the conveying belt 41 is controlled by a stepping motor, the conveying belt 41 is provided with a limiting plate 411, the limiting plate 411 is used for placing a tray 42, the tray 42 is used for fixing the optical fiber transceiver housing 2, in this example, a BOSA housing, the conveying belt 41 passes through the lower part of any remaining fixture 15, the conveying belt 41 moves by a predetermined distance along with the rotation of the rotating device 11 once per rotation, so as to realize the replacement of the tray 42 below the fixture 15, namely, the BOSA shell which is pressed leaves, then another BOSA shell to be pressed enters a pressing station, because the pressure is needed to bear, the lower surface of the conveying belt 41 is contacted with the platform 1, or a fixed platform is arranged below the conveying belt 41 corresponding to the press-fitting position, since the belt 41 is stopped during press-fitting, the friction between the belt 41 and the table 1 is negligible, or the table is replaced by dense rollers.

More specifically, in order to further precisely control the stop position of the tray 42 to ensure the accuracy of the press-fitting position of the BOSA shell, the discharging mechanism 40 is provided with an in-place switch 43 and a positioning cylinder 44 at a position corresponding to the clamp 15, a positioning hole is machined in the side surface of the tray 42, the in-place switch 43 firstly detects whether the tray 42 is in place, and the positioning cylinder 44 extends out of the positioning hole in the side surface of the main shaft inserted tray 42 after the tray 42 is detected to be in place, so as to realize positioning.

In conclusion, the equipment simultaneously realizes the taking, gluing and press mounting of the diode through the clamp 15 arranged on the press plate 14, because the same lifting device 11 is adopted, the heights of the feeding mechanism 20, the gluing mechanism 30 and the discharging mechanism 40 are required to be adjusted when the equipment is designed, when the lifting device 11 is positioned at the highest point in the working process, the clamp 15 clamping the diode can not contact with any part in the rotating process, when the lifting device 11 is positioned at the lowest point, the clamp 15 at the working position just clamps the diode stably, the side wall of the diode at the gluing working position is completely contacted with the side wall of the gluing barrel 32, and the diode in press mounting work is just in place.

The foregoing is only a preferred embodiment of the invention and is not intended to be the only or limiting embodiment of the invention. It should be understood by those skilled in the art that various changes and equivalent substitutions made herein may be made without departing from the scope of the invention as defined by the appended claims.

Claims (9)

1. A fiber optic transceiver diode mounting apparatus comprising: the platform (1) is characterized by further comprising a press-fitting mechanism (10), a feeding mechanism (20), a gluing mechanism (30) and a discharging mechanism (40) which are arranged on the platform (1);

the press-fitting mechanism (10) comprises a lifting device (11), a push rod of the lifting device (11) is provided with a mounting frame (12), a rotating device (13) is arranged in the middle of the mounting frame (12), the rotating device (13) is connected with a pressure plate (14), the pressure plate (14) is simultaneously and rotatably connected to the top surface of the mounting frame (12), and at least three pairs of clamps (15) are arranged on the pressure plate (14) along the circumference;

the feeding mechanism (20) comprises a sliding groove (21), a conveying belt (22) is arranged at the bottom of the sliding groove (21), and one end of the sliding groove (21) is positioned below one of the clamps (15);

the gluing mechanism (30) comprises a plurality of mounting seats (31), one mounting seat (31) is arranged below the other clamp (15), and the mounting seat (31) is provided with a gluing barrel (32);

discharge mechanism (40) are equipped with conveyer belt (41), be equipped with limiting plate (411) on conveyer belt (41), limiting plate (411) are used for placing tray (42), tray (42) are used for fixed optical fiber transceiver casing (2), conveyer belt (41) process remaining arbitrary one the below of anchor clamps (15).

2. A fiber optic transceiver diode mounting arrangement according to claim 1, wherein the lifting device (11) is mounted from the bottom of the platform (1) upwards, the mounting frame (12) is located above the platform (1), the mounting frame (12) comprises a bottom plate (121), the bottom plate (121) is connected to the lifting device (11) at a bottom surface, a top plate (122) is provided above the bottom plate (121), and a main shaft of the rotating device (13) passes through the top plate (122).

3. A fiber optic transceiver diode mounting arrangement according to claim 2, wherein the top plate (122) has a pair of semicircular cover plates (123) on an upper surface thereof, and the platen (14) has a circular ring (141) on a bottom thereof, the circular ring (141) being rotatably disposed within the semicircular cover plates (123).

4. An optical fiber transceiver diode mounting device according to claim 1, wherein the platen (14) is provided with four brackets (142), the four brackets (142) are uniformly distributed along the circumference of the platen (14), the inner brackets (142) are provided with the clamps (15), the clamps (15) are arranged downwards, and the feeding mechanism (20), the gluing mechanism (30) and the discharging mechanism (40) are sequentially arranged below three of the clamps (15).

5. A fiber optic transceiver diode mounting arrangement according to claim 1, wherein the transmission band (22) is mounted to the platform (1), the platform (1) is provided with a positioning plate (23) at the end of the transmission band (22), the front end of the sliding slot (21) is in contact with the positioning plate (23), and the bottom is connected to the platform (1).

6. A fiber optic transceiver diode mounting arrangement according to claim 1, wherein a proximity switch (34) is provided at the bottom of the mounting base (31) below the clamp (15) for detecting whether the glue station is positioned with the glue barrel (32).

7. The fiber optic transceiver diode mounting device according to claim 1, wherein the discharging mechanism (40) is provided with a positioning switch (43) and a positioning cylinder (44) corresponding to the position of the clamp (15), and a positioning hole is machined on the side surface of the tray (42).

8. A fiber optic transceiver diode mounting arrangement according to claim 1, wherein four guide rods (124) are provided at the bottom of the mounting bracket (12), the guide rods (124) each passing through the platform (1).

9. A fiber optic transceiver diode mounting arrangement according to claim 1, wherein the lifting means (11) is a pneumatic cylinder or a hydraulic cylinder or an electric motor and the rotating means (13) is a servo motor.

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