CN220616710U - Optical fiber connector placing disc - Google Patents

Abstract

The utility model provides a dish is placed to fiber connector, includes places the ring, places the ring and has seted up and has placed the hole, places the setting in hole and conveniently fix a position a plurality of fiber connectors, avoids at the in-process of shifting, because the mutual collision between the fiber connectors causes the condition of fiber head wearing and tearing. The movable table is arranged on the periphery of the placement ring, the movable table is penetrated with a penetrating plate, the penetrating plate is sleeved with a movable inserting plate, a rectangular hole is formed in the movable inserting plate, the outer side end of the penetrating plate is penetrated on the rectangular hole, the inner side end of the movable inserting plate is provided with an outer clamping plate, and a U-shaped groove is formed in the outer clamping plate. The setting of outer cardboard and U-shaped groove is convenient carries out spacing fixedly to fiber connector's one end to in order to be convenient for establish fiber connector card on placing the ring, consequently still with the movable picture peg activity set up on the one end of dressing. The U-shaped groove is convenient to limit, and the U-shaped groove can be specifically adjusted according to the appearance structure of the optical fiber connector, such as a concave structure and other special-shaped structures.

Description

Optical fiber connector placing disc

Technical Field

The utility model relates to the technical field of optical fiber connector processing, in particular to an optical fiber connector placing disc.

Background

When the optical fiber connector with the tail fiber is processed, the steps of cutting the optical fiber, peeling the optical fiber, connecting the optical fiber connector with the optical fiber, grinding and cleaning the optical fiber head and the like are needed. And in the grinding, cleaning and detecting circulation processes after the optical fiber and the optical fiber connector are assembled, the conditions of abrasion and the like of the optical fiber head are caused due to the lack of necessary protection for the optical fiber connector, so that the quality of the optical fiber connector with the tail optical fiber is affected.

Disclosure of Invention

The utility model provides an optical fiber connector placing disc which solves the defects in the prior art, can fix an optical fiber connector when the optical fiber connector is transferred, and can protect an optical fiber head.

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

the utility model provides a dish is placed to fiber connector, is the circumference array ground and has seted up on placing the ring and has placed the hole, places the setting of hole and conveniently fix a position a plurality of fiber connectors, avoids at the in-process of shifting, because the mutual collision between the fiber connectors causes the condition of fiber head wearing and tearing.

The movable table is arranged on the periphery of the placement ring, the movable table is penetrated with a penetrating plate, the outer side end of the penetrating plate is sleeved with a movable inserting plate, a rectangular hole is formed in the movable inserting plate, the outer side end of the penetrating plate is penetrated on the rectangular hole, the inner side end of the movable inserting plate is provided with an outer clamping plate, and a U-shaped groove is formed in the outer clamping plate. The setting of outer cardboard and U-shaped groove is convenient carries out spacing fixedly to fiber connector's one end to in order to be convenient for establish fiber connector card on placing the ring, consequently still with the movable picture peg activity set up on the one end of dressing. The U-shaped groove is convenient to limit, and the U-shaped groove can be specifically adjusted according to the appearance structure of the optical fiber connector, such as a concave structure and other special-shaped structures.

A pair of movable rods penetrate through two sides of the placement hole, an inner top plate is arranged at one end of each movable rod, a through hole is formed in the inner top plate, the through holes are coaxially arranged with the placement hole, the inner top plate is located between the outer clamping plate and the placement ring, a second spring is sleeved on each movable rod, and the second spring is located between the inner top plate and the placement ring. The arrangement of the second spring can enable the inner top plate to move outwards, when the optical fiber connector is placed, the second spring is extruded, and after the optical fiber connector is placed, the optical fiber connector is fixed between the outer clamping plate and the inner top plate through the restoring deformation force applied to the inner top plate by the second spring. In addition, when the pushing force is applied to the external clamping plate, the optical fiber connector can move inwards, so that the end detection operation of the optical fiber head or the end grinding operation of the optical fiber head is convenient.

Further, the inner periphery of the placement ring is provided with a connecting plate, a middle plate is arranged at the middle position of the connecting plate, a rectangular hole is formed in the middle plate, a rectangular penetrating column penetrates through the rectangular hole, a clamping groove is formed in the rectangular penetrating column, an end column is arranged at one end of the rectangular penetrating column, and a concave inserting plate penetrates through the clamping groove. The end post provided by the utility model can be arranged on a testing device, so that the end part of the optical fiber head of each optical fiber connector can be conveniently detected, and the arranged concave plugboard has the function of strengthening and fixing the placing ring and the like.

Further, the outer side end of the penetrating plate is provided with a guide rod, a first spring is sleeved on the guide rod, the outer side end of the first spring is sleeved with an end plate, the guide rod penetrates through the end plate, and the end plate is arranged at the outer side end of the movable plugboard. The arrangement of the first spring can enable the outer clamping plate to act on the end part of the optical fiber connector all the time, so that the fixing stability of the optical fiber connector is ensured.

Further, the concave plates are installed on the placing ring in a circumferential array mode, through holes are formed in the concave plates, the quantity of the concave plates is consistent with that of the placing holes, the concave plates are in one-to-one correspondence with that of the placing holes, the placing holes and the corresponding through holes are coaxially arranged, a pair of concave guide plates are arranged on the concave plates, shielding plates penetrate through the concave guide plates, side plates are arranged at the outer ends of the shielding plates, inclined holes are formed in the side plates, avoiding grooves are formed in the outer ends of the movable rods, the side plates penetrate through the avoiding grooves, action bars are arranged at the outer ends of the movable rods, the action bars penetrate through the inclined holes, and the outer ends of the inclined holes extend obliquely inwards. The shielding plate that sets up here can protect parts such as optical fiber head when carrying out fiber connector and shift, avoids causing the damage to optical fiber head, when grinding or test operation, can make it open again under the effect of action lever simultaneously to make the optical fiber head wear to stretch out in the eye, thereby conveniently test or grind the operation.

The technical scheme has the advantages that:

the utility model is convenient for positioning the optical fiber connectors in the circulation process, and can avoid damaging the optical fiber heads in the circulation process, thereby improving the yield of the optical fiber connectors.

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 an enlarged view at B.

Fig. 4 shows a second perspective view of one embodiment.

Fig. 5 shows an enlarged view at C.

Detailed Description

As shown in fig. 1 to 5, an optical fiber connector placement tray includes a placement ring 1, and placement holes 15 are formed in the placement ring 1 in a circumferential array.

The movable table 2 is arranged on the periphery of the placement ring 1, the movable table 2 is provided with a penetrating plate 20 in a penetrating manner, the outer side end of the penetrating plate 20 is sleeved with a movable inserting plate 21, a rectangular hole is formed in the movable inserting plate 21, the outer side end of the penetrating plate 20 is provided with an outer clamping plate 22 in a penetrating manner, and the outer clamping plate 22 is provided with a U-shaped groove 23. The outer side end of the penetrating plate 20 is provided with a guide rod 24, a first spring 25 is sleeved on the guide rod 24, an end plate 26 is sleeved on the outer side end of the first spring 25, the guide rod 24 penetrates through the end plate 26, and the end plate 26 is arranged at the outer side end of the movable plugboard 21.

A pair of movable rods 37 are penetrated at two sides of the placement hole 15, one end of each movable rod 37 is provided with an inner top plate 3, a perforation 30 is formed in the inner top plate 3, the perforation 30 and the placement hole 15 are coaxially arranged, the inner top plate 3 is positioned between the outer clamping plate 22 and the placement ring 1, a second spring 31 is sleeved on each movable rod 37, and the second spring 31 is positioned between the inner top plate 3 and the placement ring 1.

The concave plates 32 are installed on the placing ring 1 in a circumferential array, through holes are formed in the concave plates 32, the number of the concave plates 32 is consistent with that of the placing holes 15, the concave plates 32 are in one-to-one correspondence with that of the placing holes 15, the placing holes 15 and the corresponding through holes are coaxially arranged, a pair of concave guide plates 33 are arranged on the concave plates 32, shielding plates 34 penetrate through the concave guide plates 33, side plates 35 are arranged at the outer side ends of the shielding plates 34, inclined holes 36 are formed in the side plates 35, avoiding grooves 39 are formed in the outer side ends of movable rods 37, side plates 35 penetrate into the avoiding grooves 39, action rods are arranged at the outer side ends of the movable rods 37 and penetrate into the inclined holes 36, and the outer side ends of the inclined holes 36 extend obliquely inwards.

In this embodiment, when the optical fiber connector is placed and fixed, an operator can pull the movable plugboard 21 outwards during placement, so that the first spring 25 is compressed, then the inner side end of the optical fiber connector is inserted into the through hole 30, and then the second spring 31 is compressed by pressing the optical fiber connector, and when the outer side end of the optical fiber connector moves to the inner side of the outer clamping plate 22, the operator releases the pulling force on the movable plugboard 21, so that the movable plugboard 21 moves inwards under the action of the first spring 25, and the inner wall of the outer clamping plate 22 acts on the tail end of the optical fiber connector.

When the test of the optical fiber head is performed in this embodiment, the active pushing mechanism such as the air cylinder acts on the outer clamping plate 22, so that the optical fiber connector, the threading plate 20, the movable rod 37 and the like all move inwards, when the movable rod 37 moves inwards, the acting rod arranged on the movable rod acts on the inclined hole 36, so that the shielding plate 34 is gradually opened, shielding of the threading hole is further canceled, and then the optical fiber head extends out from between the shielding plates 34 through the threading hole, and then the test operation of the end part of the optical fiber head is performed.

As a supplementary embodiment, when testing is performed, the connecting plate 10 may be disposed on the inner periphery of the placement ring 1, the middle plate 11 is disposed at the middle position of the connecting plate 10, a rectangular hole is formed on the middle plate 11, a rectangular through column 13 is penetrated in the rectangular hole, a clamping groove is formed on the rectangular through column 13, an end column 12 is disposed at one end of the rectangular through column 13, the end column 12 may be fixed on the testing device, the end column 12 is connected to a stepper motor, and a concave plugboard 14 is penetrated in the clamping groove. In a specific implementation, an operator wears the rectangular through column 13 in the rectangular hole, inserts the concave plugboard 14 at the clamping groove, and starts the stepping motor to rotate the optical fiber connectors step by step, so that the end parts of the optical fiber heads of each optical fiber connector are detected one by one in the rotating process.

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 (4)

1. The optical fiber connector placing disc is characterized by comprising a placing ring (1), wherein the placing ring (1) is provided with placing holes (15) in a circumferential array;

the periphery of the placement ring (1) is provided with a movable table (2), a penetrating plate (20) is penetrated on the movable table (2), the outer side end of the penetrating plate (20) is sleeved with a movable inserting plate (21), a rectangular hole is formed in the movable inserting plate (21), the outer side end of the penetrating plate (20) is penetrated on the rectangular hole, the inner side end of the movable inserting plate (21) is provided with an outer clamping plate (22), and a U-shaped groove (23) is formed in the outer clamping plate (22);

a pair of movable rods (37) are penetrated at two sides of the placement hole (15), an inner top plate (3) is arranged at one end of each movable rod (37), a perforation (30) is formed in the inner top plate (3), the perforation (30) and the placement hole (15) are coaxially arranged, the inner top plate (3) is located between the outer clamping plate (22) and the placement ring (1), a second spring (31) is sleeved on each movable rod (37), and the second spring (31) is located between the inner top plate (3) and the placement ring (1).

2. The optical fiber connector placement tray according to claim 1, wherein the inner periphery of the placement ring (1) is provided with a connecting plate (10), a middle tray (11) is arranged at the middle position of the connecting plate (10), a rectangular hole is formed in the middle tray (11), a rectangular penetrating column (13) penetrates through the rectangular hole, a clamping groove is formed in the rectangular penetrating column (13), an end column (12) is arranged at one end of the rectangular penetrating column (13), and a concave inserting plate (14) penetrates through the clamping groove.

3. The optical fiber connector placement tray according to claim 1, wherein a guide rod (24) is arranged at the outer side end of the threading plate (20), a first spring (25) is sleeved on the guide rod (24), an end plate (26) is sleeved at the outer side end of the first spring (25), the guide rod (24) penetrates through the end plate (26), and the end plate (26) is arranged at the outer side end of the movable plugboard (21).

4. The optical fiber connector placement disc according to claim 1, wherein the placement ring (1) is provided with concave plates (32) in a circumferential array, through holes are formed in the concave plates (32), the concave plates (32) are consistent with the placement holes (15), the concave plates (32) are in one-to-one correspondence with the placement holes (15), the placement holes (15) and the corresponding through holes are coaxially arranged, a pair of concave guide plates (33) are arranged on the concave plates (32), shielding plates (34) are penetrated on the concave guide plates (33), side plates (35) are arranged at the outer side ends of the shielding plates (34), inclined holes (36) are formed in the side plates (35), avoidance grooves (39) are formed in the outer side ends of the movable rods (37), the side plates (35) penetrate in the avoidance grooves (39), action bars are arranged at the outer side ends of the movable rods (37), and penetrate in the inclined holes (36), and the outer side ends of the inclined holes (36) extend inwards.