CN220501933U - Optical fiber adapter pipe sleeve feeding table - Google Patents

Abstract

The utility model discloses an optical fiber adapter tube sleeve feeding table, wherein a plurality of accommodating cavities are arranged on a material carrying disc, and through holes are formed in the bottoms of the accommodating cavities; the ejection piece is provided with an ejection head and an ejector rod, the ejection head is positioned above the through hole, and the ejector rod extends downwards out of the through hole; the transverse through groove and the longitudinal through groove of the supporting frame jointly form a communicated channel; the lower end of the ejector rod extends to the channel; the ball device comprises a ball body, a ball support, a supporting rod and a ball driving device, wherein the ball driving device drives the supporting rod to move so that the ball body moves in the channel; the feeding driving device drives the supporting frame to move. Compared with the prior art, the utility model has the following main outstanding progress: the jacking piece is placed in the accommodating cavity and is used for accommodating materials, the ejector rod downwards extends out of the through hole, when the ball body of the rolling ball device moves along the channel, the optical fiber adapter tube sleeves can be jacked up one by one, the material taking manipulator is not required to descend to take materials and then ascend, the action of the material taking manipulator is effectively simplified, and the machining efficiency is improved.

Description

Optical fiber adapter pipe sleeve feeding table

Technical Field

The utility model relates to the technical field of preparation of optical fiber adapters, in particular to a pipe sleeve feeding table of an optical fiber adapter.

Background

The optical fiber adapter (optical fiber inserting core) mainly comprises a metal sleeve, a ceramic sleeve and an optical fiber, wherein the optical fiber is inserted into the ceramic sleeve, and the ceramic sleeve with the optical fiber inserted therein is then inserted into the metal sleeve. In the automated manufacture of fiber optic adapters, it is often necessary for each fitting to be fitted with a charge. In the prior art, the pipe sleeve feeding table can only realize simple bearing effect, the pipe sleeves cannot be ejected one by one, at most, the alternating work of two material bearing discs can be realized, but the manipulator is required to translate to a specified position, descend to take materials, ascend and translate out each time during taking materials, and the operation process has multiple actions and low efficiency. For example, chinese patent publication No. CN 110712936A discloses a synchronous alternating feeding mechanism, which comprises: the conveying channel comprises a conveying bottom plate, and a left guide vertical plate and a right guide vertical plate which are fixedly connected to two sides of the conveying bottom plate relatively; the top feeding plate and the bottom feeding plate are arranged in the conveying channel; and the driving component is in transmission connection with the top feeding plate and the bottom feeding plate, a transfer station and a material preparation station are sequentially arranged in the transmission channel along the extending direction of the transmission channel, the driving component synchronously drives the top feeding plate and the bottom feeding plate to do opposite staggered movement, and the synchronous opposite staggered transmission of the two feeding plates can be realized through one driver, so that the problem of the asynchronism of the two feeding plates can be prevented, the equipment cost is saved due to the fact that the driver is saved, and the feeding efficiency is improved by reducing the downtime rate. However, the technology still cannot be simplified in operation, and the working efficiency can be further improved.

Accordingly, in view of the problems in the prior art, it is desirable to provide a fiber optic adapter tube nest feed table technique that is capable of ejecting a nest one by one.

Disclosure of Invention

The utility model aims to avoid the defects in the prior art and provides a fiber adapter tube sleeve feeding table capable of ejecting tube sleeves one by one.

The aim of the utility model is achieved by the following technical scheme:

provides a pipe sleeve feeding table of an optical fiber adapter, which comprises a material bearing disc, a supporting frame, a material ejecting part, a rolling ball device and a feeding driving device,

the material bearing plate is arranged on the supporting frame, the material bearing plate is provided with a plurality of containing cavities, and the bottoms of the containing cavities are provided with through holes;

the ejection piece is provided with an ejection head and an ejector rod, the ejection head is positioned above the through hole, and the ejector rod extends downwards out of the through hole;

the support frame is provided with an arched hollowed-out part, the arched hollowed-out part consists of a plurality of transverse through grooves and longitudinal through grooves, two adjacent transverse through grooves are communicated through the longitudinal through grooves, and the transverse through grooves and the longitudinal through grooves jointly form a communicated channel; the lower end of the ejector rod extends to the channel;

the ball device comprises a ball body, a ball support, a supporting rod and a ball driving device, wherein the ball body is arranged on the ball support, the top of the ball body extends into the arched hollowed-out part, the ball support is arranged on the supporting rod, and the ball driving device drives the supporting rod to move so that the ball body moves in the channel;

the feeding driving device drives the supporting frame to move.

Preferably, the ball support is bowl-shaped and has an inner diameter larger than the outer diameter of the ball, and the top of the ball is higher than the ball support.

Preferably, the ball driving device is an electric screw, and the lower end of the supporting rod is fixedly connected with a screw nut of the electric screw.

Preferably, the support frame is provided with a bracket, the bracket is mounted on the support seat, the rolling ball driving device is mounted on the support seat, the support seat is mounted on the workbench through a guide rail, and the feeding driving device drives the support seat to move in a translational manner along the guide rail.

Preferably, the feeding driving device is an electric screw rod, an electric push rod or comprises a motor, a synchronous wheel and a synchronous belt.

Preferably, the material bearing plate, the supporting frame, the material ejection piece, the supporting seat, the rolling ball device and the feeding driving device form a group of feeding units together, the number of the feeding units is two, and the two groups of feeding units alternately feed.

Preferably, the plurality of accommodating cavities are distributed in a matrix, and each row of accommodating cavities is positioned above the same transverse through groove.

Preferably, the plurality of transverse through grooves are parallel to each other, the longitudinal through grooves are perpendicular to the transverse through grooves, and the plurality of transverse through grooves and the plurality of longitudinal through grooves form a channel in a single direction.

Preferably, the movement direction of the ball device is perpendicular to the feeding direction of the feeding driving device.

Preferably, the lower end of the ejector rod is arranged in a hemispherical shape.

The utility model has the beneficial effects that:

the utility model relates to an optical fiber adapter tube sleeve feeding table, which comprises a material bearing disc, a supporting frame, a material ejecting part, a rolling ball device and a feeding driving device, wherein the material bearing disc is arranged on the supporting frame and is provided with a plurality of accommodating cavities, and through holes are formed in the bottoms of the accommodating cavities; the ejection piece is provided with an ejection head and an ejector rod, the ejection head is positioned above the through hole, and the ejector rod extends downwards out of the through hole; the support frame is provided with an arched hollowed-out part, the arched hollowed-out part consists of a plurality of transverse through grooves and longitudinal through grooves, two adjacent transverse through grooves are communicated through the longitudinal through grooves, and the transverse through grooves and the longitudinal through grooves jointly form a communicated channel; the lower end of the ejector rod extends to the channel; the ball device comprises a ball body, a ball support, a supporting rod and a ball driving device, wherein the ball body is arranged on the ball support, the top of the ball body extends into the arched hollowed-out part, the ball support is arranged on the supporting rod, and the ball driving device drives the supporting rod to move so that the ball body moves in the channel; the feeding driving device drives the supporting frame to move. Compared with the prior art, the utility model has the following main outstanding progress:

(1) The jacking piece is placed in the accommodating cavity and is used for accommodating materials, the ejector rod downwards extends out of the through hole, when the ball body of the rolling ball device moves along the channel, the optical fiber adapter tube sleeves can be jacked up one by one, the material taking manipulator is not required to descend to take materials and then ascend, the action of the material taking manipulator is effectively simplified, and the machining efficiency is improved.

(2) The arched hollow part consists of a plurality of transverse through grooves and longitudinal through grooves, the transverse through grooves and the longitudinal through grooves jointly form a communicated channel, the ball body can smoothly roll to the second transverse through groove from the first transverse through groove in the arched hollow part through the longitudinal through grooves, and meanwhile, the channel can limit the ball body to swing left and right in the movement direction of the ball body, so that the whole structure design is ingenious, and the operation is simple and smooth.

(3) The rolling ball device is simple in structure and works in cooperation with the ejection piece, complex work can be completed by utilizing the simplest structure, and the rolling ball is small in rolling form friction force, labor-saving and prolonged in service life.

Drawings

The utility model is further illustrated by the accompanying drawings, the content of which does not constitute any limitation of the utility model.

FIG. 1 is an overall schematic of one embodiment of a fiber optic adapter key feed station of the present utility model.

FIG. 2 is a schematic view of a support frame of one embodiment of a critical fiber optic adapter feed station of the present utility model.

FIG. 3 is a schematic view of a sphere and sphere cradle of one embodiment of a fiber optic adapter key feed station of the present utility model.

FIG. 4 is a schematic view of a support frame of one embodiment of a critical fiber optic adapter feed station of the present utility model.

Fig. 1 to 4 include:

1 a material carrying disc: 1-1 a receiving cavity;

2 supporting frame: 2-1 of an arched hollowed-out part, 2-2 of a transverse through groove and 2-3 of a longitudinal through groove;

3 liftout piece: 3-1 material ejection heads and 3-2 ejector rods;

4 ball device: 4-1 ball body, 4-2 ball support, 4-3 support rod, 4-4 electric screw rod, 4-5 screw rod nut;

and 5, feeding and driving devices.

Description of the embodiments

The utility model is further illustrated with reference to the following examples.

Examples

Referring to fig. 1 to 4, the fiber adapter tube feeding table of the present embodiment includes a material receiving tray 1, a supporting frame 2, a material ejecting member 3, a ball device 4, and a feeding driving device 5, which drives the supporting frame 2 to move. The feeding driving device is an electric screw 4-4, an electric push rod or consists of a motor, a synchronous wheel and a synchronous belt.

In this embodiment, a material receiving tray 1 is mounted on a supporting frame 2, the material receiving tray 1 is provided with a plurality of receiving cavities 1-1, and a through hole is provided at the bottom of the receiving cavity 1-1. Correspondingly, the support frame 2 is provided with an arched hollowed-out part 2-1, the arched hollowed-out part 2-1 consists of a plurality of transverse through grooves 2-2 and longitudinal through grooves 2-3, two adjacent transverse through grooves 2-2 are communicated through the longitudinal through grooves 2-3, and the transverse through grooves 2-2 and the longitudinal through grooves 2-3 jointly form a communicated channel; the plurality of accommodating cavities 1-1 are distributed in a matrix, and each row of accommodating cavities 1-1 is positioned above the same transverse through groove 2-2. The transverse through grooves 2-2 are mutually parallel, the longitudinal through grooves 2-3 are perpendicular to the transverse through grooves 2-2, and the transverse through grooves 2-2 and the longitudinal through grooves form a channel in a single direction.

In order to realize that the pipe sleeves are ejected one by one, the ejector member 3 of the embodiment is provided with an ejector head 3-1 and an ejector rod 3-2, the ejector head 3-1 is positioned above the through hole, the ejector rod 3-2 extends downwards out of the through hole, and the lower end of the ejector rod 3-2 is arranged in a hemispherical shape. The lower end of the ram 3-2 extends into the channel to be pushed up by the ball means 4.

The ball rolling device 4 comprises a ball 4-1, a ball support 4-2, a supporting rod 4-3 and a ball driving device, wherein the ball 4-1 is arranged on the ball support 4-2, the top of the ball support extends into the arched hollowed-out part 2-1, the ball support 4-2 is arranged on the supporting rod 4-3, and the ball driving device drives the supporting rod 4-3 to move so that the ball 4-1 moves in a channel; the rolling ball driving device is an electric screw 4-4, the lower end of the supporting rod 4-3 is fixedly connected with a screw nut 4-5 of the electric screw 4-4, and the movement direction of the rolling ball device 4 is perpendicular to the feeding direction of the feeding driving device.

The working process of the optical fiber adapter tube sleeve feeding table is as follows:

the pipe sleeves are placed in the accommodating cavities 1-1, the material taking mechanical arm (equipment which works together with the utility model) is located at an initial position, the ball body 4-1 of the ball rolling device 4 is located at one end of the first row of transverse through grooves 2-2 to jack up the first pipe sleeve, when the pipe sleeves are lifted out of the accommodating cavities 1-1 and enter the clamping jaw of the material taking mechanical arm, the clamping jaw of the material taking mechanical arm clamps the jacked pipe sleeves and moves to a specified position to discharge materials, the material taking mechanical arm moves to the position above the second pipe sleeve above the material carrying disc 1, the ball body 4-1 of the ball rolling device 4 moves to the second pipe sleeve to jack up the second pipe sleeve through the jacking piece 3, and the material taking mechanical arm clamps the pipe sleeves to move to discharge materials. The operation is completed until the first row of pipe sleeves are completely taken out, at the moment, the ball 4-1 is positioned at the junction position of the transverse through groove 2-2 and the longitudinal through groove 2-3, when the feeding driving device drives the supporting frame 2 and the material carrying disc 1 to advance a certain distance in the feeding direction, the ball 4-1 falls into the junction position of the longitudinal through groove 2-3 and the second row of transverse through groove 2-2, meanwhile, the material taking manipulator moves to the pipe sleeve position corresponding to the ball 4-1 to clamp the pipe sleeves, the ball driving device drives the ball 4-1 to move towards the other end of the transverse through groove 2-2, and the material taking manipulator works in a matched manner until the feeding is completed.

Examples

The support frame 2 of this embodiment is provided with the support, and the support is installed in the supporting seat, and spin drive arrangement installs in the supporting seat, and the supporting seat passes through the guide rail to be installed in the workstation, and feeding drive arrangement drive supporting seat is along guide rail translational motion. Wherein, the material-bearing plate 1, the supporting frame 2, the material-ejecting piece 3, the supporting seat, the rolling ball device 4 and the feeding driving device 5 jointly form a group of feeding units, the number of the feeding units is two, and the two groups of feeding units alternately feed. The two groups of feeding units act alternately, so that the time for waiting for the material bearing disc 1 to be installed in the pipe sleeve is saved, and the working efficiency is high.

The main technical solution of the present embodiment is basically the same as that of embodiment 1, and features that are not explained in the present embodiment are explained in embodiment 1, and are not described here again.

Examples

The ball support 4-2 of this embodiment is bowl-shaped, the inner diameter of the ball support is larger than the outer diameter of the ball 4-1, and the top of the ball 4-1 is higher than the ball support 4-2, so that the ball 4-1 can rotate at any angle, and the ball 4-1 can smoothly move from one transverse through groove 2-2 to the other transverse through groove 2-2 through the longitudinal through groove 2-3.

The main technical solution of the present embodiment is substantially the same as that of embodiment 1 or embodiment 2, and features that are not explained in the present embodiment are explained in embodiment 1 or embodiment 2, and are not described herein.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and are not intended to limit the scope of the claims. It will be appreciated by those skilled in the art that changes may be made to the embodiments described and illustrated herein, and equivalents may be substituted for elements thereof without departing from the true spirit and scope of the embodiments.

Claims (10)

1. A fiber optic adapter tube cassette feed station, characterized by: comprises a material carrying disc, a supporting frame, a material ejecting part, a rolling ball device and a feeding driving device,

the material bearing plate is arranged on the supporting frame and is provided with a plurality of containing cavities, and the bottoms of the containing cavities are provided with through holes;

the material ejection piece is provided with a material ejection head and a push rod, the material ejection head is positioned above the through hole, and the push rod extends out of the through hole downwards;

the support frame is provided with an arched hollowed-out part, the arched hollowed-out part consists of a plurality of transverse through grooves and longitudinal through grooves, two adjacent transverse through grooves are communicated through the longitudinal through grooves, and the transverse through grooves and the longitudinal through grooves jointly form a communicated channel; the lower end of the ejector rod extends to the channel;

the ball rolling device comprises a ball body, a ball support, a supporting rod and a ball driving device, wherein the ball body is arranged on the ball support, the top of the ball body extends into the arched hollowed-out part, the ball support is arranged on the supporting rod, and the ball driving device drives the supporting rod to move so that the ball body moves in a channel;

the feeding driving device drives the supporting frame to move.

2. A fiber optic adapter tube cassette feeding station according to claim 1, wherein: the ball support is arranged in a bowl shape, the inner diameter of the ball support is larger than the outer diameter of the ball body, and the top of the ball body is higher than the ball support.

3. A fiber optic adapter tube cassette feeding station according to claim 1, wherein: the ball driving device is an electric screw rod, and the lower end of the supporting rod is fixedly connected with a screw nut of the electric screw rod.

4. A fiber optic adapter tube cassette feeding station according to claim 3, wherein: the support frame is provided with a support, the support is mounted on a support seat, the rolling ball driving device is mounted on the support seat, the support seat is mounted on the workbench through a guide rail, and the feeding driving device drives the support seat to move in a translational mode along the guide rail.

5. A fiber optic adapter tube cassette feeding station according to claim 4, wherein: the feeding driving device is an electric screw rod, an electric push rod or consists of a motor, a synchronous wheel and a synchronous belt.

6. A fiber optic adapter tube cassette feeding station according to claim 4, wherein: the material bearing plate, the supporting frame, the material ejection piece, the supporting seat, the rolling ball device and the feeding driving device form a group of feeding units together, the number of the feeding units is two, and the two groups of feeding units alternately feed.

7. A fiber optic adapter tube cassette feeding station according to claim 1, wherein: the plurality of accommodation cavities are distributed in a matrix, and each row of accommodation cavities are positioned above the same transverse through groove.

8. The fiber optic adapter tube housing feed station of claim 1, wherein: the transverse through grooves are parallel to each other, the longitudinal through grooves are perpendicular to the transverse through grooves, and the transverse through grooves and the longitudinal through grooves form a channel in a single direction.

9. A fiber optic adapter tube cassette feeding station according to claim 1, wherein: the movement direction of the ball rolling device is perpendicular to the feeding direction of the feeding driving device.

10. A fiber optic adapter tube cassette feeding station according to claim 1, wherein: the lower end of the ejector rod is arranged in a hemispherical shape.