CN217626126U - Pressing sleeve feeding device for assembling optical fiber connector - Google Patents

Abstract

The application discloses a press sleeve loading attachment for fiber connector equipment includes: the sleeve pressing and feeding assembly comprises a sleeve pressing and feeding assembly, a sleeve pressing and distributing assembly and a sleeve pressing and feeding assembly; the pressing sleeve feeding assembly is used for arranging pressing sleeves of the optical fiber connector in a preset direction and then feeding the pressing sleeves to the pressing sleeve distributing assembly; the pressing sleeve distributing assembly distributes materials to the pressing sleeves of the optical fiber connectors entering the pressing sleeve distributing assembly and then the materials are used by the pressing sleeve distributing assembly; the pressing sleeve feeding assembly is used for grabbing the pressing sleeve of the optical fiber connector and configuring the grabbed pressing sleeve of the optical fiber connector at a preset position.

Description

Pressing sleeve feeding device for assembling optical fiber connector

Technical Field

The application relates to the field of optical communication, in particular to a pressing sleeve feeding device for assembling an optical fiber connector.

Background

The main purpose of the optical fiber connector is to realize the connection of optical fibers. Fiber optic connectors, which are widely used in fiber optic communication systems, are of many types and have different structures.

The application relates to an optical fiber connector, including: shell, lock pin, sleeve pipe, spring and pressure cover, under the traditional mode, above-mentioned part assembles with manual work or semi-automatic mode, owing to do not realize the equipment full-automatic, the efficiency of fiber connector equipment production still has very big promotion space.

In the prior art, the press sleeve is installed manually after the direction is manually identified, and a press sleeve feeding device for assembling the optical fiber connector needs to be developed in order to realize automatic assembling of the optical fiber connector.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems in the related art, the application provides a pressing sleeve feeding device for assembling an optical fiber connector, which can automatically feed for an optical fiber connector assembling machine so as to realize automatic assembling of the optical fiber connector.

In order to solve the technical problem, the technical scheme adopted by the application is as follows:

a press sleeve feeding device for assembling an optical fiber connector is provided, which comprises: the sleeve pressing and feeding assembly comprises a sleeve pressing and feeding assembly, a sleeve pressing and distributing assembly and a sleeve pressing and feeding assembly; the pressing sleeve feeding assembly is used for arranging the pressing sleeves of the optical fiber connectors in a preset direction and then feeding the pressing sleeves to the pressing sleeve distributing assembly; the pressing sleeve distributing assembly distributes materials to the pressing sleeves of the optical fiber connectors entering the pressing sleeve distributing assembly and then the materials are used by the pressing sleeve distributing assembly; the pressing sleeve feeding assembly is used for grabbing the pressing sleeve of the optical fiber connector and configuring the grabbed pressing sleeve of the optical fiber connector at a preset position.

Preferably, the sleeve pressing feeding assembly comprises a sleeve pressing vibration disc.

Preferably, the sleeve pressing and distributing assembly is provided with a sleeve pressing and distributing straight channel, a sleeve pressing and shifting mechanism, a sleeve pressing and distributing turntable and a sleeve pressing turntable driving part; the pressing sleeve material distributing straight channel is connected between the pressing sleeve material distributing turntable and the pressing sleeve material distributing device; the sleeve pressing and material shifting mechanism is used for: and clamping the pressing sleeve at a preset position in the pressing sleeve distributing straight channel, and shifting the pressing sleeve at the preset position in the pressing sleeve distributing straight channel into the pressing sleeve distributing turntable.

Preferably, the sleeve pressing and material shifting mechanism comprises a first sleeve pressing blocking mechanism, a second sleeve pressing blocking mechanism and a sleeve pressing and material shifting driving assembly; the first pressing sleeve blocking mechanism is arranged at one side close to the pressing sleeve distributing turntable and can be controlled to block the pressing sleeve at the position corresponding to the pressing sleeve distributing straight channel from moving to the pressing sleeve distributing turntable; the first sleeve pressing blocking mechanism is arranged on one side close to the sleeve pressing feeding assembly and can be controlled to block the sleeve pressing at the position corresponding to the sleeve pressing and distributing straight channel from moving to the sleeve pressing and distributing turntable; the pressing sleeve material pushing driving assembly can push the pressing sleeve blocked by the first pressing sleeve blocking mechanism in the pressing sleeve material distributing straight channel into the pressing sleeve material distributing turntable after the blocking is removed.

Preferably, the first sleeve pressing blocking mechanism comprises a first sleeve pressing blocking power component and a first sleeve pressing blocking block, and the first sleeve pressing blocking block can be inserted into the material channel of the sleeve pressing distributing straight channel from the position avoiding part of the sleeve pressing distributing straight channel under the driving of the first sleeve pressing blocking power component so as to block the sleeve pressing at the corresponding position from moving towards the preset direction; the second sleeve pressing blocking mechanism comprises a second sleeve pressing blocking power component and a second sleeve pressing blocking block, and the second sleeve pressing blocking block can be inserted into the material channel of the sleeve pressing distribution straight channel from the position avoiding part of the sleeve pressing distribution straight channel under the driving of the second sleeve pressing blocking power component so as to block the sleeve pressing at the corresponding position from moving towards the preset direction; the pressing sleeve shifting driving component comprises a pressing sleeve shifting power part, a pressing sleeve shifting guide block and a pressing sleeve shifting movable block; the pressing sleeve stirring guide block can reciprocate in the extending direction of the pressing sleeve material distributing straight channel under the driving of the pressing sleeve stirring power component, and the pressing sleeve stirring movable block is rotatably arranged on the pressing sleeve stirring guide block; when the pressing sleeve stirs the movable block to stir the pressing sleeve to move towards one side of the pressing sleeve material distribution turntable, the pressing sleeve stirs the movable block to abut against a pressing sleeve stirring rotation stopping part arranged on a pressing sleeve stirring guide block; when the pressing sleeve stirs the movable block to retreat to one side of the pressing sleeve feeding assembly under the driving of the pressing sleeve stirring power component, the pressing sleeve stirs the movable block to rotate to the preset direction by the pressing sleeve, so that the pressing sleeve stirs the movable block to avoid the pressing sleeve.

Preferably, the pressing sleeve distributing component is provided with a pressing sleeve distributing bracket; the pressing sleeve material distribution rotary disc comprises a pressing sleeve material distribution disc body and a pressing sleeve material distribution disc shaft arranged at the end part of the pressing sleeve material distribution disc body, and the pressing sleeve material distribution rotary disc is pivoted to the pressing sleeve material distribution bracket through the pressing sleeve material distribution disc shaft; the outer side of the pressing sleeve material distribution support is provided with a motor serving as a driving part of the pressing sleeve turntable, and an output shaft of the motor is inserted into a pressing sleeve material distribution shaft hole of the pressing sleeve material distribution turntable shaft and is in driving connection with the pressing sleeve material distribution shaft hole.

Preferably, the pressing sleeve distributing bracket comprises a pressing sleeve first distributing bracket and a pressing sleeve second distributing bracket which are arranged at intervals; the two ends of the pressing sleeve distributing disc body are respectively provided with the pressing sleeve distributing disc shaft, and the two pressing sleeve distributing disc shafts are respectively pivoted to the pressing sleeve first distributing bracket and the pressing sleeve second distributing bracket through pressing sleeve distributing bearings; the rotating shaft of the pressing sleeve distributing disc is horizontally pivoted to the pressing sleeve distributing bracket, and at least four pressing sleeve distributing disc positioning grooves are uniformly distributed on the periphery of the pressing sleeve distributing disc body; when the pressing sleeve distributing disc body is viewed from one side of the pressing sleeve second distributing support, the pressing sleeve distributing positioning groove rotates to the 3 o 'clock position of the pressing sleeve distributing disc body according to preset time, so that a pressing sleeve of an optical fiber connector supplied by the pressing sleeve feeding assembly can enter the pressing sleeve distributing positioning groove corresponding to the 3 o' clock position of the pressing sleeve distributing disc body; under the driving of the pressing sleeve turntable driving part, the pressing sleeve distributing turntable can rotate the pressing sleeve of the optical fiber connector loaded at the 3 o 'clock position to the 12 o' clock position of the pressing sleeve distributing turntable body so as to be grabbed by the pressing sleeve feeding assembly.

Preferably, the pressing sleeve distributing bracket is provided with a first detection part of a pressing sleeve distributing disc so as to detect that a pressing sleeve without a fiber connector is arranged in the pressing sleeve distributing positioning groove at the 3 o' clock position of the pressing sleeve distributing disc body in a rotating manner; the pressing sleeve distributing bracket is provided with a second detection component of a pressing sleeve distributing disc so as to detect that a pressing sleeve without a fiber connector is arranged in the pressing sleeve distributing positioning groove at the 12 o' clock position of the pressing sleeve distributing disc body in a rotating manner; the pressing sleeve distributing support is provided with a third detection part of a pressing sleeve distributing disc so as to detect that a pressing sleeve without a fiber connector is arranged in the pressing sleeve distributing positioning groove at the position of 6 o' clock of the pressing sleeve distributing disc body in a rotating mode.

Preferably, the sleeve pressing and feeding assembly comprises a sleeve pressing and feeding support, a sleeve pressing and feeding traversing mechanism arranged on the sleeve pressing and feeding support, a sleeve pressing and feeding lifting mechanism arranged on the sleeve pressing and feeding traversing mechanism, and a sleeve pressing and feeding grabbing mechanism arranged on the sleeve pressing and feeding lifting mechanism; the pressing sleeve feeding and grabbing mechanism is used for grabbing a pressing sleeve of the optical fiber connector to be fed in the pressing sleeve distributing assembly, and the pressing sleeve feeding and grabbing mechanism is driven by the pressing sleeve feeding and traversing mechanism and the pressing sleeve feeding and lifting mechanism to move to a preset position.

Preferably, the pressing sleeve feeding and grabbing mechanism comprises a pressing sleeve feeding pressure head, a pressing sleeve feeding positioning insertion rod and a pressing sleeve feeding insertion rod driving part; the lower end of the pressing sleeve feeding pressure head is provided with a pressing sleeve feeding head positioning concave part, the pressing sleeve feeding head positioning concave part is matched with the upper end of the pressing sleeve in shape, the lower end of the pressing sleeve feeding head is connected with a pressing sleeve feeding head elastic sheet, and the pressing sleeve feeding head elastic sheet can clamp the pressing sleeve arranged in the pressing sleeve feeding positioning concave part so as to enable the pressing sleeve to keep the current position; the pressing sleeve feeding positioning inserted rod comprises a pressing sleeve feeding spring guiding part and a pressing sleeve feeding ejection part; will press cover and shell to assemble when pressing set material loading subassembly: under the driving of pressing cover material loading inserted bar drive unit, the pressing cover material loading spring guide part can pass through the pressing cover and then guide the spring in the shell, and under the further driving of pressing cover material loading inserted bar drive unit, the pressing cover material loading ejection part can eject the pressing cover to make it break away from the pressing cover material loading pressure head and assemble with the shell.

The technical scheme provided by the application can comprise the following beneficial effects: a press sleeve feeding device for assembling an optical fiber connector is provided, which comprises: the sleeve pressing and feeding assembly comprises a sleeve pressing and feeding assembly, a sleeve pressing and distributing assembly and a sleeve pressing and feeding assembly; the pressing sleeve feeding assembly is used for arranging the pressing sleeves of the optical fiber connectors in a preset direction and then feeding the pressing sleeves to the pressing sleeve distributing assembly; the pressing sleeve distributing assembly distributes materials for the pressing sleeve feeding assembly after pressing sleeves of the optical fiber connectors entering the pressing sleeve distributing assembly are distributed; the pressing sleeve feeding assembly is used for grabbing the pressing sleeve of the optical fiber connector and configuring the grabbed pressing sleeve of the optical fiber connector at a preset position. The pressing sleeve feeding device can automatically feed for the optical fiber connector assembling machine so as to realize automatic assembling of the optical fiber connector.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular descriptions of exemplary embodiments of the application, as illustrated in the accompanying drawings wherein like reference numbers generally represent like parts throughout the exemplary embodiments of the application.

Fig. 1 is a schematic view of an overall structure of an optical fiber connector shown in embodiment 1 of the present application.

Fig. 2 is a schematic cross-sectional view of the overall structure of the optical fiber connector shown in embodiment 1 of the present application.

Fig. 3 is a schematic view of the overall structure of the optical fiber connector assembling machine according to embodiment 1 of the present application.

Fig. 4 is a schematic view of the optical fiber connector assembling machine shown in embodiment 1 of the present application after hiding the protection cover of the chassis.

Fig. 5 is a schematic station diagram of the optical fiber connector assembling machine shown in embodiment 1 of the present application.

Fig. 6 is a schematic view of the state of the press sleeve in the press sleeve dividing straight track shown in embodiment 1 of the present application.

Fig. 7 is a schematic view of the overall structure of the sleeve pressing and feeding device shown in embodiment 1 of the present application.

Fig. 8 is a schematic view of the overall structure of the sleeve pressing and feeding device shown in embodiment 1 of the present application after the vibration disc of the housing is hidden.

Fig. 9 is a schematic diagram of fig. 8 shown in example 1 of the present application, viewed from the side of the second distribution frame of the press sleeve.

Fig. 10 is a schematic sectional view at F-F in fig. 9 shown in embodiment 1 of the present application.

Fig. 11 is a schematic view of the first press fit blocking mechanism shown in embodiment 1 of the present application.

Fig. 12 is a schematic view of the sleeve pressing and ejecting mechanism shown in embodiment 1 of the present application.

Fig. 13 is a schematic view of the sleeve feeding assembly shown in embodiment 1 of the present application.

Fig. 14 is a schematic view of the sleeve pressing and feeding gripping mechanism shown in embodiment 1 of the present application.

Fig. 15 is a schematic sectional view at G-G in fig. 14, which is shown in embodiment 1 of the present application.

Description of the reference numerals

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and intended to explain the present application and should not be construed as limiting the present application.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as the case may be.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature.

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.

Example 1

Referring to fig. 1 and 2, an optical fiber connector 900 includes: casing 901, ferrule 902, spring 903, press sleeve 904, and sleeve 905.

Referring to fig. 3 to 5, an optical fiber connector assembling machine is provided with a rack assembly, the rack assembly includes a rack base 101 and a rack protective cover 102, a rack platen 103 is provided on the rack base 101, a first rotating device 104 is configured on the rack platen 103, the first rotating device 104 includes a first rotating disc 105 controlled to rotate, and 8 optical fiber assembling jigs 106 are uniformly distributed on the circumference of the first rotating disc 105; looking down the first rotating device 104, the first rotating disc 105 rotates counterclockwise by 45 degrees at a preset time, wherein the outer side of the first rotating disc 105 in the 3 o' clock direction is configured as a housing feeding station 2, and the housing feeding station 2 is used as a starting point to be sequentially configured around the first rotating disc 105 at 45 degrees at intervals in a counterclockwise manner: the device comprises an inserting core feeding station 3, a spring feeding station 4, a first press sleeve feeding station 5, a second press sleeve feeding station 6, a spring detection station 7 and a discharging swinging plate station 8.

Referring to fig. 6-15, the present application proposes a press sleeve feeding assembly, which includes a press sleeve feeding assembly, a press sleeve distributing assembly 5200 and a press sleeve feeding assembly 5300; the pressing sleeve feeding assembly is used for arranging the pressing sleeves of the optical fiber connectors in a preset direction and then feeding the pressing sleeves to the pressing sleeve distributing assembly 5200; the pressing sleeve distributing component 5200 distributes the pressing sleeve of the optical fiber connector entering the pressing sleeve distributing component 5200 for the pressing sleeve feeding component 5300 to take; the ferrule pressing and loading assembly 5300 is used for grabbing the optical fiber connector ferrule and configuring the grabbed optical fiber connector ferrule at a preset position. As an example, the press-sleeve feeding assembly includes a press-sleeve vibration tray 5101.

Referring to fig. 6, one end of the pressing sleeve 904 assembled with the casing 901 is defined as a front end of the pressing sleeve, and the other end of the pressing sleeve is defined as a rear end of the pressing sleeve, referring to fig. 7, after the pressing sleeves 904 are arranged by the vibrating plate, the rear end of the pressing sleeve 904 in the pressing sleeve distributing straight channel 5201 is inserted into the front end of the pressing sleeve 904 adjacent to the rear end, so that a pressing sleeve shifting mechanism needs to be designed to separate the pressing sleeves 904 nested at the front end and the rear end and drive the pressing sleeves to enter the pressing sleeve distributing rotary plate 5202. Specifically, the sleeve pressing and distributing assembly 5200 is provided with a sleeve pressing and distributing straight channel 5201, a sleeve pressing and shifting mechanism, a sleeve pressing and distributing turntable 5202 and a sleeve pressing turntable driving component 5210; the sleeve pressing and distributing straight channel 5201 is connected between the sleeve pressing and distributing turntable 5202 and the sleeve pressing and distributing device; the pressing sleeve material shifting mechanism is used for: the pressing sleeves at the preset positions in the pressing sleeve distributing straight channel 5201 are clamped, and the pressing sleeves at the preset positions in the pressing sleeve distributing straight channel 5201 are pushed into the pressing sleeve distributing turntable 5202.

Further, the sleeve pressing and material shifting mechanism comprises a first sleeve pressing blocking mechanism, a second sleeve pressing blocking mechanism and a sleeve pressing and material shifting driving assembly; the first sleeve pressing blocking mechanism is configured at one side close to the sleeve pressing distributing turntable 5202, and can be controlled to block the sleeve pressing at the position corresponding to the sleeve pressing distributing straight channel 5201 from moving to the sleeve pressing distributing turntable 5202; the first sleeve pressing blocking mechanism is configured at a side close to the sleeve pressing feeding assembly, and can be controlled to block the sleeve pressing at a position corresponding to the sleeve pressing distributing straight channel 5201 from moving to the sleeve pressing distributing turntable 5202; the sleeve pressing and material shifting driving assembly can shift the sleeve pressing blocked by the first sleeve pressing blocking mechanism in the sleeve pressing and material distributing straight channel 5201 into the sleeve pressing and material distributing turntable 5202 after the blocking is removed.

The first sleeve pressing blocking mechanism comprises a first sleeve pressing blocking power component 5211 and a first sleeve pressing blocking block 5212, and under the driving of the first sleeve pressing blocking power component 5211, the first sleeve pressing blocking block 5212 can be inserted into the material channel of the sleeve pressing dividing straight channel 5201 from the position avoiding part of the sleeve pressing dividing straight channel 5201 so as to block the sleeve pressing at the corresponding position from moving towards the preset direction; the second sleeve pressing blocking mechanism comprises a second sleeve pressing blocking power component 5213 and a second sleeve pressing blocking block, and the second sleeve pressing blocking block can be inserted into the material channel of the sleeve pressing dividing straight channel 5201 from the position avoiding part of the sleeve pressing dividing straight channel 5201 under the driving of the second sleeve pressing blocking power component 5213 so as to block the sleeve pressing at the corresponding position from moving towards the preset direction; the pressing sleeve shifting driving assembly comprises a pressing sleeve shifting power component 5215, a pressing sleeve shifting guide block 5216 and a pressing sleeve shifting movable block 5218; the pressing sleeve shifting guide block 5216 can reciprocate in the extending direction of the pressing sleeve distributing straight channel 5201 under the driving of the pressing sleeve shifting power component 5215, and the pressing sleeve shifting movable block 5218 is rotatably mounted on the pressing sleeve shifting guide block 5216; when the sleeve pressing shifting movable block 5218 shifts the pressing sleeve to move towards one side of the sleeve pressing distributing material rotary disc 5202, the sleeve pressing shifting movable block 5218 abuts against a sleeve pressing shifting rotation blocking part 5217 arranged on the sleeve pressing shifting guide block 5216; when the sleeve pressing shifting movable block 5218 is driven by the sleeve pressing shifting power component 5215 to move back to one side of the sleeve pressing feeding assembly, the sleeve pressing shifting movable block 5218 can be driven by the sleeve pressing to rotate in a preset direction, so that the sleeve pressing shifting movable block 5218 is prevented from moving to the position of the sleeve pressing.

Further, the press sleeve distributing component 5200 is provided with a press sleeve distributing bracket; the pressing sleeve distributing rotary table 5202 comprises a pressing sleeve distributing rotary table 5203 and a pressing sleeve distributing rotary table 5204 configured at the end of the pressing sleeve distributing rotary table 5203, and the pressing sleeve distributing rotary table 5202 is pivoted to the pressing sleeve distributing support through the pressing sleeve distributing rotary table 5204; the outer side of the pressing sleeve distributing bracket is provided with a motor as the driving part 5210 of the pressing sleeve turntable, the output shaft of the motor is inserted into and in driving connection with the pressing sleeve distributing shaft hole 5205 of the pressing sleeve distributing shaft 5204, and the pressing sleeve distributing bracket comprises a pressing sleeve first distributing bracket 5219 and a pressing sleeve second distributing bracket 5220 which are arranged at intervals; the two end sides of the pressing sleeve distributing disc body 5203 are respectively provided with the pressing sleeve distributing disc shaft 5204, and the two pressing sleeve distributing disc shafts 5204 are respectively pivoted to the pressing sleeve first distributing support 5219 and the pressing sleeve second distributing support 5220 through pressing sleeve distributing bearings; the rotating shaft of the pressing sleeve distributing tray is horizontally pivoted to the pressing sleeve distributing bracket, and at least four pressing sleeve distributing tray positioning grooves 5206 are uniformly distributed on the periphery of the pressing sleeve distributing tray body 5203; when the press sleeve distributing disc body 5203 is viewed from one side of the press sleeve second distributing bracket 5220, the press sleeve distributing positioning slot rotates to the 3 o 'clock position of the press sleeve distributing disc body 5203 according to a preset time, so that the press sleeve of the optical fiber connector supplied by the press sleeve feeding assembly can enter the press sleeve distributing positioning slot corresponding to the 3 o' clock position of the press sleeve distributing disc body 5203; under the driving of the pressing sleeve turntable driving component 5210, the pressing sleeve distributing turntable 5202 can rotate the pressing sleeve of the optical fiber connector loaded at the 3 o 'clock position to the 12 o' clock position of the pressing sleeve distributing turntable 5203, so that the pressing sleeve feeding assembly 5300 can grasp the optical fiber connector.

In order to realize the automatic control of the device, the press sleeve distributing bracket is provided with a first detection component 5207 of a press sleeve distributing disc so as to detect that a press sleeve without a fiber connector is arranged in the press sleeve distributing positioning groove which is rotated to the 3 o' clock position of the press sleeve distributing disc body 5203; the pressing sleeve distributing bracket is provided with a second pressing sleeve distributing disc detecting component 5208 for detecting that a pressing sleeve without a fiber connector is arranged in the pressing sleeve distributing positioning groove at the 12 o' clock position of the pressing sleeve distributing disc body 5203 in a rotating manner; the pressing sleeve distributing bracket is provided with a third detecting component 5209 of a pressing sleeve distributing tray so as to detect that a pressing sleeve without a fiber connector is arranged in the pressing sleeve distributing positioning groove at the 6 o' clock position of the pressing sleeve distributing tray body 5203.

Further, the sleeve pressing and feeding assembly comprises a sleeve pressing and feeding support 5311, a sleeve pressing and feeding traversing mechanism 5321 mounted on the sleeve pressing and feeding support 5311, a sleeve pressing and feeding lifting mechanism 5331 mounted on the sleeve pressing and feeding traversing mechanism 5321, and a sleeve pressing and feeding grabbing mechanism 5341 mounted on the sleeve pressing and feeding lifting mechanism 5331; the press sleeve feeding and grabbing mechanism 5341 is used for grabbing the press sleeve of the optical fiber connector to be fed in the press sleeve splitting assembly 5200, and is driven by the press sleeve feeding and traversing mechanism 5321 and the press sleeve feeding and lifting mechanism 5331 to move to a preset position. The press sleeve feeding grabbing mechanism 5341 comprises a press sleeve feeding pressure head 5342, a press sleeve feeding positioning insertion rod 5351 and a press sleeve feeding insertion rod driving part 5361; the lower end of the pressing sleeve feeding pressure head 5342 is provided with a pressing sleeve feeding head positioning concave part 5344, the pressing sleeve feeding head positioning concave part 5344 is matched with the upper end of the pressing sleeve in shape, the lower end of the pressing sleeve feeding head is connected with a pressing sleeve feeding head elastic sheet 5343, and the pressing sleeve feeding head elastic sheet 5343 can clamp the pressing sleeve arranged in the pressing sleeve feeding positioning concave part so as to enable the pressing sleeve to keep the current position; the pressing sleeve feeding positioning insertion rod 5351 comprises a pressing sleeve feeding spring guiding part 5352 and a pressing sleeve feeding ejection part 5353; will press cover and shell to assemble when pressing set material loading subassembly: under the driving of the sleeve pressing and feeding insertion rod driving part 5361, the sleeve pressing and feeding spring guiding part 5352 can penetrate through the sleeve pressing and then guide the spring in the shell, and under the further driving of the sleeve pressing and feeding insertion rod driving part 5361, the sleeve pressing and feeding ejection part 5353 can eject the sleeve pressing to enable the sleeve pressing to be separated from the sleeve pressing and feeding pressure head 5342 and be assembled with the shell.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is a more detailed description of the present application in connection with specific embodiments thereof, and it is not intended to limit the present application to the details thereof. It will be apparent to those skilled in the art from this disclosure that many more simple derivations or substitutions can be made without departing from the spirit of the disclosure.

Claims (10)

1. A press sleeve loading device for assembling an optical fiber connector is characterized by comprising: the device comprises a pressing sleeve feeding assembly, a pressing sleeve distributing assembly and a pressing sleeve feeding assembly;

the pressing sleeve feeding assembly is used for arranging the pressing sleeves of the optical fiber connectors in a preset direction and then feeding the pressing sleeves to the pressing sleeve distributing assembly;

the pressing sleeve distributing assembly distributes materials for the pressing sleeve feeding assembly after pressing sleeves of the optical fiber connectors entering the pressing sleeve distributing assembly are distributed;

the pressing sleeve feeding assembly is used for grabbing the pressing sleeve of the optical fiber connector and configuring the grabbed pressing sleeve of the optical fiber connector at a preset position.

2. The apparatus of claim 1, wherein the swage feed assembly includes a swage vibratory plate.

3. The pressing sleeve feeding device for assembling the optical fiber connector according to claim 1, wherein the pressing sleeve distributing assembly is provided with a pressing sleeve distributing straight channel, a pressing sleeve shifting mechanism, a pressing sleeve distributing turntable and a pressing sleeve turntable driving part;

the pressing sleeve material distributing straight channel is connected between the pressing sleeve material distributing turntable and the pressing sleeve material distributing device;

the pressing sleeve material shifting mechanism is used for: and clamping the pressing sleeve at the preset position in the pressing sleeve distributing straight channel, and shifting the pressing sleeve at the preset position in the pressing sleeve distributing straight channel into the pressing sleeve distributing turntable.

4. The apparatus according to claim 3, wherein the sleeve pressing and ejecting mechanism comprises a first sleeve pressing and blocking mechanism, a second sleeve pressing and blocking mechanism, and a sleeve pressing and ejecting driving assembly;

the first pressing sleeve blocking mechanism is arranged on one side close to the pressing sleeve distributing turntable and can be controlled to block the pressing sleeve at the position corresponding to the pressing sleeve distributing straight channel from moving to the pressing sleeve distributing turntable;

the first sleeve pressing blocking mechanism is arranged at one side close to the sleeve pressing feeding assembly and can be controlled to block the sleeve pressing at the position corresponding to the sleeve pressing and distributing straight channel from moving to the sleeve pressing and distributing turntable;

the pressing sleeve material pushing driving assembly can push the pressing sleeve blocked by the first pressing sleeve blocking mechanism in the pressing sleeve material distributing straight channel into the pressing sleeve material distributing turntable after the blocking is removed.

5. The ferrule loading device for fiber optic connector assembly as claimed in claim 4,

the first sleeve pressing blocking mechanism comprises a first sleeve pressing blocking power component and a first sleeve pressing blocking block, and the first sleeve pressing blocking block can be inserted into the material channel of the sleeve pressing distribution straight channel from the position avoiding part of the sleeve pressing distribution straight channel under the driving of the first sleeve pressing blocking power component so as to block the sleeve pressing at the corresponding position from moving towards the preset direction;

the second sleeve pressing blocking mechanism comprises a second sleeve pressing blocking power component and a second sleeve pressing blocking block, and the second sleeve pressing blocking block can be inserted into the material channel of the sleeve pressing distribution straight channel from the position avoiding part of the sleeve pressing distribution straight channel under the driving of the second sleeve pressing blocking power component so as to block the sleeve pressing at the corresponding position from moving towards the preset direction;

the pressing sleeve shifting driving component comprises a pressing sleeve shifting power part, a pressing sleeve shifting guide block and a pressing sleeve shifting movable block;

the pressing sleeve stirring guide block can reciprocate in the extending direction of the pressing sleeve material distributing straight channel under the driving of the pressing sleeve stirring power part, and the pressing sleeve stirring movable block is rotatably arranged on the pressing sleeve stirring guide block;

when the pressing sleeve stirs the movable block to stir the pressing sleeve to move towards one side of the pressing sleeve distributing turntable, the pressing sleeve stirs the movable block to abut against a pressing sleeve stirring rotation stopping part arranged on a pressing sleeve stirring guide block;

when the pressing sleeve stirs the movable block to move back to one side of the pressing sleeve feeding assembly under the driving of the pressing sleeve stirring power component, the pressing sleeve stirs the movable block to be driven by the pressing sleeve to rotate towards a preset direction, so that the pressing sleeve stirs the movable block to avoid the pressing sleeve.

6. The press sleeve feeding device for assembling the optical fiber connector as claimed in claim 3, wherein the press sleeve distributing assembly is provided with a press sleeve distributing bracket;

the pressing sleeve material distribution rotary disc comprises a pressing sleeve material distribution disc body and a pressing sleeve material distribution disc shaft arranged at the end part of the pressing sleeve material distribution disc body, and the pressing sleeve material distribution rotary disc is pivoted to the pressing sleeve material distribution bracket through the pressing sleeve material distribution disc shaft;

and a motor is arranged on the outer side of the pressing sleeve distributing bracket and used as a driving part of the pressing sleeve turntable, and an output shaft of the motor is inserted into a pressing sleeve distributing shaft hole of the pressing sleeve distributing shaft and is in driving connection with the pressing sleeve distributing shaft hole.

7. The apparatus according to claim 6, wherein the press-fit distributing bracket comprises a first press-fit distributing bracket and a second press-fit distributing bracket which are spaced apart from each other;

the two ends of the pressing sleeve distributing disc body are respectively provided with the pressing sleeve distributing disc shafts, and the two pressing sleeve distributing disc shafts are respectively pivoted to the pressing sleeve first distributing support and the pressing sleeve second distributing support through pressing sleeve distributing bearings;

the rotating shaft of the pressing sleeve distributing disc is horizontally pivoted to the pressing sleeve distributing bracket, and at least four pressing sleeve distributing disc positioning grooves are uniformly distributed on the periphery of the pressing sleeve distributing disc body;

when the pressing sleeve distributing disc body is viewed from one side of the pressing sleeve second distributing support, the pressing sleeve distributing positioning groove rotates to the 3 o 'clock position of the pressing sleeve distributing disc body according to preset time, so that a pressing sleeve of an optical fiber connector supplied by the pressing sleeve feeding assembly can enter the pressing sleeve distributing positioning groove corresponding to the 3 o' clock position of the pressing sleeve distributing disc body;

under the driving of the pressing sleeve turntable driving part, the pressing sleeve distributing turntable can rotate the pressing sleeve of the optical fiber connector loaded at the 3 o 'clock position to the 12 o' clock position of the pressing sleeve distributing turntable body, so that the pressing sleeve feeding assembly can grab the optical fiber connector.

8. The press sleeve feeding device for assembling the optical fiber connector as recited in claim 7, wherein the press sleeve distributing bracket is provided with a first detecting component of a press sleeve distributing tray for detecting that a press sleeve without the optical fiber connector is arranged in the press sleeve distributing positioning groove rotated to the 3 o' clock position of the press sleeve distributing tray body;

the pressing sleeve distributing bracket is provided with a second detection part of a pressing sleeve distributing disc so as to detect that a pressing sleeve without a fiber connector is arranged in the pressing sleeve distributing positioning groove which rotates to the 12 o' clock position of the pressing sleeve distributing disc body;

the pressing sleeve distributing support is provided with a third detection part of a pressing sleeve distributing disc so as to detect that a pressing sleeve without a fiber connector is arranged in the pressing sleeve distributing positioning groove which is rotated to the 6 o' clock position of the pressing sleeve distributing disc body.

9. The device of claim 1, wherein the ferrule loading assembly comprises a ferrule loading bracket, a ferrule loading traversing mechanism mounted on the ferrule loading bracket, a ferrule loading lifting mechanism mounted on the ferrule loading traversing mechanism, and a ferrule loading grabbing mechanism mounted on the ferrule loading lifting mechanism;

the pressing sleeve feeding and grabbing mechanism is used for grabbing a pressing sleeve of the optical fiber connector to be fed in the pressing sleeve distributing assembly, and the pressing sleeve feeding and grabbing mechanism is driven by the pressing sleeve feeding and traversing mechanism and the pressing sleeve feeding and lifting mechanism to move to a preset position.

10. The device of claim 9, wherein the gripping mechanism comprises a pressing sleeve loading ram, a pressing sleeve loading positioning plunger, and a pressing sleeve loading plunger driving member;

the lower end of the pressing sleeve feeding pressure head is provided with a pressing sleeve feeding head positioning concave part, the pressing sleeve feeding head positioning concave part is matched with the upper end of the pressing sleeve in shape, the lower end of the pressing sleeve feeding head is connected with a pressing sleeve feeding head elastic sheet, and the pressing sleeve feeding head elastic sheet can clamp the pressing sleeve arranged in the pressing sleeve feeding positioning concave part so as to enable the pressing sleeve to keep the current position;

the pressing sleeve feeding positioning inserted rod comprises a pressing sleeve feeding spring guiding part and a pressing sleeve feeding ejection part;

will press cover and shell to assemble when pressing cover material loading subassembly: under the driving of the pressing sleeve feeding inserted bar driving part, the pressing sleeve feeding spring guiding part can penetrate through the pressing sleeve and then guide the spring in the shell, and under the further driving of the pressing sleeve feeding inserted bar driving part, the pressing sleeve feeding ejection part can eject the pressing sleeve to enable the pressing sleeve to be separated from the pressing sleeve feeding pressure head and assembled with the shell.

Images