CN220207953U - Movable gesture adjusting mechanism - Google Patents

Abstract

The utility model provides a remove appearance mechanism of transferring, includes first longeron, and installation end plate is installed at the both ends of first longeron, and second longeron etc. are installed to the other end of installation end plate, and this scheme has not only realized the transfer of optical module, has realized the appearance operation of transferring of optical film piece again to adopt single driving source drive's mode, has obviously reduced the energy consumption through this kind of mode. The scheme can realize synchronous transfer and posture adjustment, adopts the limit of the first hole to the rotating plate, so that the rotating plate is in a vertical posture, and when the rotating plate moves at the position of the third hole, the rotating plate is in a horizontal state due to the fact that the third hole is opposite to the long hole, and the posture change of the rotating plate can be reflected on the posture adjustment of the optical module, so that the optical module is adjusted to be in a vertical state from the horizontal state.

Description

Movable gesture adjusting mechanism

Technical Field

The utility model relates to the technical field of optical module processing, in particular to a movable gesture adjusting mechanism.

Background

In order to clean the optical module assembly after the optical module is processed, the pollution of dust particles to lenses and the like is avoided, and the performance of the optical module is affected. In addition, in order to ensure the quality of the manufactured optical module after the processing is finished, the optical module is often tested, and in order to perform plugging operation during the testing, a vertical plugging mode is generally adopted, and naturally, the cleaning is also generally performed in a vertical state. At present, no matter when the optical module is cleaned or tested, the optical module is placed in the placement box, and when the optical module is taken during testing, the optical module is automatically cleaned and tested, and the posture of the optical module can be adjusted in the moving process, so that the optical module is a technical problem to be solved urgently.

Disclosure of Invention

The utility model provides a movable gesture adjusting mechanism, which solves the defects of the prior art, and is convenient for optical module test or optical module transfer and gesture adjusting operation during cleaning, thereby correspondingly improving the cleaning or testing efficiency and having stronger practicability.

In order to achieve the object of the present utility model, the following techniques are proposed:

the utility model provides a remove appearance mechanism of transferring, includes first longeron, and installation end plate is installed at the both ends of first longeron, and the second longeron is installed to the other end of installation end plate, and first longeron and second longeron are vertical setting.

The second long plate is provided with a long hole, one end of the first long plate is provided with a first hole, the other end of the first hole is provided with a second hole, the other end of the second hole is provided with a third hole, the first hole and the third hole are long strip-shaped holes, a height difference exists between the first hole and the third hole, the third hole is positioned above the first hole, the second hole is obliquely arranged, the second hole extends upwards towards the third hole in an inclined mode, and the first hole is opposite to the long hole;

one of them installs the promotion cylinder on the mounting end plate, promotes the fly leaf of cylinder's loose end and installs a pair of sliding sleeve on the fly leaf, and the cover is equipped with the slide rail on the sliding sleeve, and the slide rail is installed on the second longeron, rotates on the fly leaf and is equipped with the pivot, and the pivot wears in the slot hole, and the inboard end of pivot is equipped with the rotor plate, is equipped with the action bar on the rotor plate, and the action bar is at first hole, second hole and the downthehole motion of third. Therefore, the structural components show that the mode of driving by a single driving source is adopted in the scheme, so that the transfer of the optical module is realized, the posture adjustment operation of the optical film block is realized, and the energy consumption is obviously reduced by the mode. The scheme can realize synchronous transfer and posture adjustment, adopts the limit of the first hole to the rotating plate, so that the rotating plate is in a vertical posture, and when the rotating plate moves at the position of the third hole, the rotating plate is in a horizontal state due to the fact that the third hole is opposite to the long hole, and the posture change of the rotating plate can be reflected on the posture adjustment of the optical module, so that the optical module is adjusted to be in a vertical state from the horizontal state.

The rotating shaft is provided with a clamping mechanism.

Further, the action rod is rotatably provided with a roller, and the roller moves in the first hole, the second hole and the third hole. The roller is arranged to improve the flexibility in movement.

Further, a sliding sleeve is sleeved on the rotating shaft, and the sliding sleeve is movably arranged on the long hole. The sliding sleeve reduces the friction action of the rotating shaft and facilitates the rotating of the rotating shaft.

Further, fixture installs the cylinder including installing in the installation piece of pivot outside end on the lower extreme of installation piece, installs the ejector pad on the cylinder, and the ejector pad cover is located on the installation piece, and the traction rod is installed at the both ends of ejector pad, and the cover is equipped with the casing on the traction rod, and the casing is installed in the both ends of lower plate, and the lower extreme of traction rod is equipped with the movable seat, articulates on the movable seat has a pair of even board, and a pair of rotation arch is installed respectively at the both ends of lower plate, and the bellied lower extreme of rotation all articulates there is the grip block, and the upper end of grip block sets up the connector, and the connector articulates in the other end that links the board respectively. It can be seen from the above description that the present solution also adopts a single power driving mode, and the clamping grooves at both ends can be simultaneously performed during clamping. And the mounting block plays a role in guiding movement of the pushing plate.

Further, the inner wall of the clamping plate is provided with a soft buffer cushion. The stability of centre gripping can be improved through the setting of this part to avoid causing the influence to the optical module.

The technical scheme has the advantages that:

the utility model is convenient for stably clamping the optical module, drives the optical module to move, and can adjust the posture of the optical module in the moving process.

Drawings

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be described in further detail with reference to the accompanying drawings.

Fig. 1 shows a perspective view of one embodiment.

Fig. 2 shows an enlarged view at a.

Fig. 3 shows a second perspective view of one embodiment.

Description of the embodiments

As shown in fig. 1-3, a movable gesture adjusting mechanism comprises a first long plate 1, wherein two ends of the first long plate 1 are provided with an installation end plate 10, the other end of the installation end plate 10 is provided with a second long plate 11, and the first long plate 1 and the second long plate 11 are vertically arranged.

The second long plate 11 is provided with a long hole 12, one end of the first long plate 1 is provided with a first hole 13, the other end of the first hole 13 is provided with a second hole 14, the other end of the second hole 14 is provided with a third hole 15, the first hole 13 and the third hole 15 are all long-shaped holes, a height difference exists between the first hole 13 and the third hole 15, the third hole 15 is located above the first hole 13, the second hole 14 is obliquely arranged, the second hole 14 extends upwards in an inclined mode towards the third hole 15, and the first hole 13 is opposite to the long hole 12. One of the installation end plates 10 is provided with a pushing cylinder 2, the movable end of the pushing cylinder 2 is provided with a movable plate 20, the movable plate 20 is provided with a pair of sliding sleeves 21, the sliding sleeves 21 are sleeved with sliding rails 22, the sliding rails 22 are arranged on the second long plate 11, the movable plate 20 is rotatably provided with a rotating shaft 23, the rotating shaft 23 penetrates through the long hole 12, the rotating shaft 23 is sleeved with the sliding sleeves, and the sliding sleeves are movably arranged on the long hole 12. The inner side end of the rotating shaft 23 is provided with a rotating plate 24, the rotating plate 24 is provided with an action rod, and the action rod moves in the first hole 13, the second hole 14 and the third hole 15. Preferably, the action bars are rotatably provided with rollers 25, and the rollers 25 move in the first holes 13, the second holes 14 and the third holes 15.

When the roller 25 is located in the third hole 15, the rotating plate 24 is in a vertical posture, then the pushing cylinder 2 is started, and the movable plate 20 is driven by the pushing cylinder 2 to move along the length direction of the sliding rail 22, and when moving, the rotating shaft 23 is driven to move along the long hole 12, and in the moving process, the optical module is driven to move. When the roller 25 passes through the second hole 14 and enters the first hole 14, the rotation plate 24 is in a horizontal state due to no height difference between the first hole 14 and the long hole 12 until the rotation plate 24 moves to the end of the first hole 13 in a horizontal state, and at this time, the transfer and posture adjustment operations of the optical module are completed.

Optionally, a clamping mechanism is mounted on the shaft 23. The fixture comprises a mounting block 3 mounted at the outer side end of a rotating shaft 23, a lower plate 30 is mounted at the lower end of the mounting block 3, an air cylinder 31 is mounted on the lower plate 30, a push plate 32 is mounted on the air cylinder 31, the push plate 32 is sleeved on the mounting block 3, traction rods 33 are mounted at two ends of the push plate 32, a shell 34 is sleeved on the traction rods 33, the shell 34 is mounted at two ends of the lower plate 30, movable seats 35 are arranged at the lower ends of the traction rods 33, a pair of connecting plates 36 are hinged on the movable seats 35, a pair of rotating protrusions 37 are mounted at two ends of the lower plate 30 respectively, clamping plates 38 are hinged at the lower ends of the rotating protrusions 37, connectors 39 are arranged at the upper ends of the clamping plates 38, and the connectors 39 are hinged at the other ends of the connecting plates 36 respectively. The inner wall of the clamping plate 38 is provided with a soft cushion.

When the optical module is clamped, the cylinder 31 can drive the pushing plate 32 to move, the traction rod 33 is driven to move along with the movement of the pushing plate 32, the movable seat 35 is driven to move along with the movement of the traction rod 33, the clamping plate 38 is pulled to rotate through the connecting plate 36 when the movable seat 35 moves, and finally the inner wall of the clamping plate 38 acts on the side wall of the optical module, so that the clamping operation of the optical module is completed.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the utility model, and it will be apparent to those skilled in the art that various modifications and variations can be made in the present utility model without departing from the spirit and scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (5)

1. The movable gesture adjusting mechanism is characterized by comprising a first long plate (1), wherein an installation end plate (10) is installed at two ends of the first long plate (1), a second long plate (11) is installed at the other end of the installation end plate (10), and the first long plate (1) and the second long plate (11) are vertically arranged;

a long hole (12) is formed in the second long plate (11), a first hole (13) is formed in one end of the first long plate (1), a second hole (14) is formed in the other end of the first hole (13), a third hole (15) is formed in the other end of the second hole (14), the first hole (13) and the third hole (15) are both long-strip-shaped holes, a height difference exists between the first hole (13) and the third hole (15), the third hole (15) is located above the first hole (13), the second hole (14) is obliquely arranged, the second hole (14) obliquely extends upwards towards the third hole (15), and the first hole (13) is opposite to the long hole (12);

one of the installation end plates (10) is provided with a pushing cylinder (2), the movable end of the pushing cylinder (2) is provided with a movable plate (20), the movable plate (20) is provided with a pair of sliding sleeves (21), the sliding sleeves (21) are sleeved with sliding rails (22), the sliding rails (22) are arranged on a second long plate (11), the movable plate (20) is rotatably provided with a rotating shaft (23), the rotating shaft (23) penetrates through a long hole (12), the inner side end of the rotating shaft (23) is provided with a rotating plate (24), the rotating plate (24) is provided with an action rod, and the action rod moves in a first hole (13), a second hole (14) and a third hole (15);

the rotating shaft (23) is provided with a clamping mechanism.

2. The movable gesture adjusting mechanism according to claim 1, wherein the action bar is rotatably provided with a roller (25), and the roller (25) moves in the first hole (13), the second hole (14) and the third hole (15).

3. The movable gesture adjusting mechanism according to claim 1, wherein a sliding sleeve is sleeved on the rotating shaft (23), and the sliding sleeve is movably arranged on the long hole (12).

4. The movable gesture adjusting mechanism according to claim 1, wherein the clamping mechanism comprises a mounting block (3) mounted at the outer side end of the rotating shaft (23), a lower plate (30) is mounted at the lower end of the mounting block (3), an air cylinder (31) is mounted on the lower plate (30), a pushing plate (32) is mounted on the air cylinder (31), the pushing plate (32) is sleeved on the mounting block (3), pulling rods (33) are mounted at two ends of the pushing plate (32), a shell (34) is sleeved on the pulling rods (33), the shell (34) is mounted at two ends of the lower plate (30), movable seats (35) are arranged at the lower ends of the pulling rods (33), a pair of connecting plates (36) are hinged on the movable seats (35), a pair of rotating protrusions (37) are mounted at two ends of the lower plate (30) respectively, clamping plates (38) are hinged at the lower ends of the rotating protrusions (37), connectors (39) are arranged at the upper ends of the clamping plates (38), and the connectors (39) are hinged at the other ends of the connecting plates (36) respectively.

5. The mobile gesture adjustment mechanism of claim 4, wherein the inner wall of the clamping plate (38) is provided with a soft cushion.