CN212578322U - BOSA optical device dismounting device - Google Patents

Abstract

The utility model provides a BOSA optical device dismounting device, relates to optical device production field, includes: the middle part of the operating platform is provided with a strip-shaped opening along the length direction; two supporting blocks are mounted at one end, far away from the placing groove, of the upper portion of the operating platform, the two supporting blocks are symmetrical about the strip-shaped opening, a shearing mechanism is arranged between the two supporting blocks and comprises a driving portion, a transmission portion and a shearing member, the driving portion is rotatably connected between the two supporting blocks and located in the strip-shaped opening, the transmission portion is connected with a power output end of the driving portion in a sliding mode, the shearing member is connected with a power output end of the transmission portion in a sliding mode, and one end, far away from the shearing member, of the transmission portion is connected with; the transmission part is driven to slide by the rotation driving part, and one end of the transmission part and the rotation connecting shaft slide relatively at the same time, so that the transmission part drives the shearing part to swing between the inner side and the outer side of the strip-shaped opening, and the optical device on the operating table is sheared; the BOSA optical device shearing device is simple to operate, can be used for shearing the BOSA optical device quickly, cannot damage internal parts of the BOSA optical device, and is convenient to recycle the disassembled parts.

Description

BOSA optical device dismounting device

Technical Field

The utility model relates to an optical device production field, concretely relates to BOSA optical device dismounting device.

Background

The BOSA optical device belongs to a light emitting and receiving assembly in the field of optical fiber communication, some inferior-quality products are inevitably generated in the production process of the BOSA optical device, at the moment, the inferior-quality products need to be disassembled for reuse, and the main body, the tube core, the tail fiber and the adjusting ring on the tail fiber need to be disassembled.

SUMMERY OF THE UTILITY MODEL

The utility model discloses dismantle the problem of in-process fragile part according to current optical device, the utility model discloses a following technical scheme:

a BOSA optical device dismounting device comprises:

the operating platform is provided with a strip-shaped opening from one end to the middle part along the length direction;

the cutting device comprises an operation table, a cutting mechanism and a cutting mechanism, wherein two supporting blocks are arranged at one end of the top of the operation table, the two supporting blocks are respectively positioned at two sides of a strip-shaped opening, the cutting mechanism comprises a driving part which is rotatably connected between the two supporting blocks and is positioned in the strip-shaped opening, a transmission part which is in sliding connection with a power output end of the driving part and a cutting part which is connected with the power output end of the transmission part, and one end of the transmission part, far away from the cutting part, is in sliding connection with a rotating connecting shaft connected between the;

the rotation driving part drives the transmission part to slide, so that the transmission part and the rotation connecting shaft slide relatively to drive the shearing part to swing back and forth between the inner side and the outer side of the strip-shaped opening.

Compared with the prior art, the utility model discloses following beneficial effect has: during the use, slide through rotation drive division drive transmission portion, the one end of transmission portion and rotation connecting axle relative slip simultaneously for transmission portion drives shearing piece reciprocal swing between the bar opening inside and outside, thereby cuts the optical device who lies in on the operation panel, and easy operation can cut BOSA optical device's shell fast, can not damage BOSA optical device's internals simultaneously, is convenient for recycle the part of dismantling, reduces the loss of part.

Preferably, the driving part comprises an operating handle, a rotating disk connected between the two support blocks in a rotating mode through a driving shaft, and a first driving disk and a second driving disk which are eccentrically installed on one end face of the rotating disk, the first driving disk and the second driving disk are connected with the transmission part in a sliding mode, the connection point of the first driving disk and the transmission part and the connection point of the second driving disk and the transmission part are not coplanar, and one end of the driving shaft penetrates through the support blocks to be connected with the operating handle.

Preferably, transmission portion includes first connecting rod, sliding connection spare and the second connecting rod that one end and shearing piece link to each other, the bar hole has been seted up on the first connecting rod, it is downthehole in the bar to rotate connecting axle sliding connection, sliding connection spare all slides with first driving-disc and second driving-disc and links to each other, and sliding connection spare power take off end and first connecting rod are kept away from the one end of rotating the connecting axle and the one end that shearing piece was kept away from to the second connecting rod and are all linked to each other, and first connecting rod and second connecting rod are located sliding connection spare's different sides.

Preferably, the sliding connection piece comprises a first sliding frame connected between a first connecting rod and a second connecting rod, the first sliding frame is located between the supporting block and the rotating disk and is parallel to the rotating disk, a second sliding frame is fixedly mounted on one side, far away from the rotating disk, of the first sliding frame, the second sliding frame is perpendicular to the first sliding frame, the first driving disk is connected in a slide way formed in the first sliding frame in a sliding manner, and the second driving disk is connected in a slide way formed in the second sliding frame in a sliding manner.

Preferably, a cutting groove is formed in one end of the second connecting rod, the shearing part comprises a grinding wheel and a motor, the grinding wheel is rotatably connected in the cutting groove through a connecting shaft, the motor is located on one side of the second connecting rod, the diameter of the grinding wheel is larger than the thickness of the cutting groove, and the connecting shaft penetrates through the cutting groove and is connected with a power output end of the motor.

Preferably, the upper portion of one end of the operating platform, which is far away from the supporting block, is provided with two placing grooves along the direction perpendicular to the strip-shaped opening, the two placing grooves are symmetrical relative to the strip-shaped opening, and the second connecting rod drives the grinding wheel and the motor to swing between the two placing grooves.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a top view of an embodiment of the present invention.

Fig. 2 is a cross-sectional view in the direction a-a of the shearing mechanism of fig. 1 at rest.

Fig. 3 is a sectional view in the direction a-a of the fig. 1 shear mechanism in a raised state.

Fig. 4 is a cross-sectional view in the direction a-a of the shearing mechanism of fig. 1 in a shearing state.

FIG. 5 is an enlarged view of I in FIG. 1.

The numbers in the figures are in order: 1. an operation table; 11. a strip-shaped opening; 2. a support block; 3. a placement groove; 4. a shearing mechanism; 41. a first link; 411. a strip-shaped hole; 42. rotating the connecting shaft; 43. a second link; 431. cutting the groove; 44. rotating the disc; 441. a first drive disk; 442. a second drive disc; 443. a drive shaft; 444. an operating handle; 45. a first slide frame; 46. a second sliding frame; 47. a cutting member; 471. a grinding wheel sheet; 472. a connecting shaft; 473. an electric motor.

Detailed Description

In order to make the utility model realize that technical means, creation characteristics, achievement purpose and effect are clearer and easily understand, it is right to combine below the figure and the detailed implementation mode the utility model discloses do further explanation:

as shown in fig. 1 and fig. 2, the utility model provides a BOSA optical device detaching device, include:

the operating table comprises an operating table 1, wherein a strip-shaped opening 11 is formed in the operating table 1 from one end to the middle of the operating table along the length direction;

two supporting blocks 2 are mounted at one end of the top of the operating platform 1, the two supporting blocks 2 are respectively located on two sides of the strip-shaped opening 11, a shearing mechanism 4 is arranged between the two supporting blocks 2, the shearing mechanism 4 comprises a driving part which is rotatably connected between the two supporting blocks 2 and is located in the strip-shaped opening 11, a transmission part which is connected with a power output end of the driving part in a sliding mode and a shearing part 47 which is connected with a power output end of the transmission part, and one end, far away from the shearing part 47, of the transmission part is connected with a rotating connecting shaft 42 which is connected between the two supporting blocks 2 in a;

through rotating the drive division drive transmission portion and sliding, the one end of transmission portion and the relative slip of rotation connecting axle 42 simultaneously for transmission portion drives shearing piece 47 reciprocating swing between bar opening 11 inside and outside, thereby cut the optical device who lies in on operation panel 1, and easy operation can cut BOSA optical device's shell fast, can not damage BOSA optical device's internals simultaneously, is convenient for recycle the part that gets off dismantling, reduces the loss of part.

As shown in fig. 1 and fig. 2, according to another embodiment of the present invention, the BOSA optical device detaching device further optimizes the driving portion included therein, preferably, the driving portion includes an operating handle 444, a rotating disc 44 rotatably connected between the two supporting blocks 2 by a driving shaft 443, and a first driving disc 441 and a second driving disc 442 eccentrically installed on an end surface of the rotating disc 44, the first driving disc 441 and the second driving disc 442 are both slidably connected to the transmission portion, and a connection point of the first driving disc 441 and the transmission portion and a connection point of the second driving disc 442 and the transmission portion are not coplanar, so that when the rotating disc 44 drives the first driving disc 441 and the second driving disc 442 to rotate, the first driving disc 441 and the second driving disc do not affect each other; one end of the driving shaft 443 passes through the supporting block 2 to be connected with the operating handle 444; one end of the driving shaft 443 penetrates through the supporting block 2 to be connected with the operating handle 444, the operating handle 444 drives the rotating disc 44 to rotate, so that the first driving disc 441 and the second driving disc 442 connected with the rotating disc 44 rotate simultaneously, the first driving disc 441 and the second driving disc 442 are driven to slide on the transmission part, and the transmission part and the rotating connecting shaft 42 slide relatively, so that the shearing part 47 is driven to swing back and forth between the inner side and the outer side of the strip-shaped opening 11, and the shell of the BOSA optical device on the operating platform 1 is detached.

As shown in fig. 2, fig. 3 and fig. 4, according to another embodiment of the present invention, the BOSA optical device detaching device further optimizes the transmission portion included therein, preferably, the transmission portion includes a first connecting rod 41, a sliding connector and a second connecting rod 43 having one end connected to the shearing member 47, a strip-shaped hole 411 is formed on the first connecting rod 41, the rotating connecting shaft 42 is slidably connected to the strip-shaped hole 411, the sliding connector is slidably connected to both the first driving disk 441 and the second driving disk 442, the power output end of the sliding connector is connected to both the end of the first connecting rod 41 away from the rotating connecting shaft 42 and the end of the second connecting rod 43 away from the shearing member 47, and the first connecting rod 41 and the second connecting rod 43 are located on different sides of the sliding connector; the operation handle 444 drives the rotating disc 44 to rotate, so that the first driving disc 441 and the second driving disc 442 connected to the rotating disc 44 rotate simultaneously, the first driving disc 441 and the second driving disc 442 are driven to slide on the sliding connector, and the rotating connecting shaft 42 slides in the strip-shaped opening, so as to drive the shearing part 47 to swing back and forth between the inner side and the outer side of the strip-shaped opening 11, and the housing of the BOSA optical device on the operation table 1 is disassembled.

As shown in fig. 2, 3 and 4, according to another embodiment of the present invention, the BOSA optical device detaching device is further optimized for a sliding connection part in a transmission part included therein, preferably, the sliding connection part includes a first sliding frame 45 connected between a first connecting rod 41 and a second connecting rod 43, the first sliding frame 45 is located between the supporting block 2 and the rotating disk 44 and is parallel to the rotating disk 44, a second sliding frame 46 is fixedly installed on one side of the first sliding frame 45 away from the rotating disk 44, the second sliding frame 46 is perpendicular to the first sliding frame 45, the first driving disk 441 is slidably connected in a slide way provided on the first sliding frame 45, and the second driving disk 442 is slidably connected in a slide way provided on the second sliding frame 46.

Operating the operating handle 444 to rotate the rotating disc 44, so as to drive the first driving disc 441 to slide in the first sliding frame 45, and simultaneously drive the second driving disc 442 to slide in the second sliding frame 46, so as to make the rotating connecting shaft 42 slide in the strip-shaped hole 411; when the first driving disc 441 slides to the middle of the first sliding frame 45, if the second driving disc 442 slides to the bottom of the slideway of the second sliding frame 46, the shearing part 47 moves to the highest point outside the strip-shaped opening 11, if the second driving disc 442 slides to the top slideway of the second sliding frame 46, the shearing part 47 moves to the lowest point inside the strip-shaped opening 11, and the shearing part 47 reciprocates between the inside and the outside of the strip-shaped opening 11, so as to cut and disassemble the housing of the BOSA optical device placed on the operating platform 1.

Fig. 5 shows, according to another embodiment of the present invention, the BOSA optical device detaching device further optimizes the cutting element 47 included therein, preferably, the cutting groove 431 is formed at one end of the second connecting rod 43, the cutting element 47 includes a grinding wheel 471 rotatably connected in the cutting groove 431 through a connecting shaft 472 and a motor 473 located at one side of the second connecting rod 43, the diameter of the grinding wheel 471 is greater than the thickness of the cutting groove 431, so as to ensure that the grinding wheel can cut the housing of the BOSA optical device; the connecting shaft 472 penetrates through the cutting groove 431 and is connected with a power output end of the motor 473; the motor 473 drives the grinding wheel 471 to rotate, so as to cut and disassemble the shell of the BOSA optical device on the operating table 1.

As shown in fig. 1 and fig. 2, according to another embodiment of the present invention, the BOSA optical device detaching device further optimizes the operation table 1 included therein, preferably, the upper portion of one end of the operation table 1, which is far away from the supporting block 2, is provided with two placing grooves 3 along a direction perpendicular to the strip-shaped opening 11, the two placing grooves 3 are symmetrical about the strip-shaped opening 11, and the second connecting rod 43 drives the grinding wheel 471 and the motor 473 to swing between the two placing grooves 3; the BOSA optical device to be disassembled is placed in the placing groove 3, so that the part to be cut is positioned above the strip-shaped opening 11, and the shell of the BOSA optical device is convenient to cut and disassemble.

The utility model discloses an application principle does: the utility model discloses during the use, the BOSA optical device that will treat to dismantle is placed in standing groove 3, operation handle 444 drives rotary disk 44 and rotates, make rotary disk 44 drive first driving-disc 441 slide in first slide frame 45, drive second driving-disc 442 simultaneously and slide in second slide frame 46, and make rotation connecting axle 42 slide in bar hole 411, drive emery wheel piece 471 and motor 473 reciprocal swing between bar opening 11 inside and outside through second connecting rod 43, thereby to cutting the shell that lies in the BOSA optical device of standing groove 3 and dismantle the work, take out its inside part and recycle.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (6)

1. A BOSA optical device dismounting device comprises:

the operating platform (1), the operating platform (1) is provided with a strip-shaped opening (11) from one end to the middle part along the length direction; it is characterized in that the preparation method is characterized in that,

two supporting blocks (2) are installed at one end of the top of the operating platform (1), the two supporting blocks (2) are respectively located on two sides of the strip-shaped opening (11), a shearing mechanism (4) is arranged between the two supporting blocks (2), the shearing mechanism (4) comprises a driving part, a transmission part and a shearing part (47), the driving part is rotatably connected between the two supporting blocks (2) and located in the strip-shaped opening (11), the transmission part is connected with a power output end of the driving part in a sliding mode, the shearing part is connected with a power output end of the transmission part in a sliding mode, and one end, far away from the shearing part (47), of the transmission part is connected with a rotating connecting shaft (42) connected between the two;

the rotation driving part drives the transmission part to slide, so that the transmission part and the rotation connecting shaft (42) slide relatively to drive the shearing part (47) to swing back and forth between the inner side and the outer side of the strip-shaped opening (11).

2. A BOSA optical device detaching device according to claim 1, wherein said driving portion comprises an operating handle (444), a rotating disk (44) rotatably connected between two supporting blocks (2) by a driving shaft (443), and a first driving disk (441) and a second driving disk (442) eccentrically mounted on an end surface of one end of the rotating disk (44), said first driving disk (441) and said second driving disk (442) are slidably connected to said transmission portion, and a connection point of the first driving disk (441) and the transmission portion and a connection point of the second driving disk (442) and the transmission portion are not coplanar, and one end of said driving shaft (443) passes through the supporting block (2) and is connected to said operating handle (444).

3. The BOSA optical device detaching device according to claim 2, wherein the transmission portion comprises a first connecting rod (41), a sliding connector and a second connecting rod (43) with one end connected with the shearing member (47), a strip-shaped hole (411) is formed in the first connecting rod (41), the rotating connecting shaft (42) is slidably connected into the strip-shaped hole (411), the sliding connector is slidably connected with both the first driving disk (441) and the second driving disk (442), the power output end of the sliding connector is connected with one end of the first connecting rod (41) far away from the rotating connecting shaft (42) and one end of the second connecting rod (43) far away from the shearing member (47), and the first connecting rod (41) and the second connecting rod (43) are located on different sides of the sliding connector.

4. The BOSA optical device dismounting device according to claim 3, wherein the sliding connector comprises a first sliding frame (45) connected between a first connecting rod (41) and a second connecting rod (43), the first sliding frame (45) is located between the support block (2) and the rotating disk (44) and is parallel to the rotating disk (44), a second sliding frame (46) is fixedly installed on one side of the first sliding frame (45) far away from the rotating disk (44), the second sliding frame (46) is perpendicular to the first sliding frame (45), the first driving disk (441) is slidably connected in a slide way formed on the first sliding frame (45), and the second driving disk (442) is slidably connected in a slide way formed on the second sliding frame (46).

5. The BOSA optical device dismounting device according to claim 4, wherein a cutting groove (431) is formed in one end of the second connecting rod (43), the shearing part (47) comprises a grinding wheel (471) rotatably connected in the cutting groove (431) through a connecting shaft (472) and a motor (473) located on one side of the second connecting rod (43), the diameter of the grinding wheel (471) is larger than the thickness of the cutting groove (431), and the connecting shaft (472) penetrates through the cutting groove (431) and is connected with a power output end of the motor (473).

6. The BOSA optical device disassembling device according to any one of claims 1 to 5, wherein a placing groove (3) is formed in an upper portion of one end of the operating platform (1) far away from the supporting block (2) along a direction perpendicular to the strip-shaped opening (11), the two placing grooves (3) are symmetrical about the strip-shaped opening (11), and the second connecting rod (43) drives the grinding wheel (471) and the motor (473) to swing between the two placing grooves (3).

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