CN220902485U - Adapter assembling device - Google Patents

Abstract

The utility model discloses an assembly device of an adapter, which comprises a frame, wherein a rotary feeding mechanism is arranged on the frame and used for transferring materials among the mechanisms, and the assembly device also comprises a plurality of rotary feeding mechanisms which are sequentially arranged on the frame along the circumferential direction of the rotary feeding mechanisms: main part feed mechanism, sleeve feed mechanism, at least one sealing washer feed mechanism, stay cord feed mechanism, at least one spring feed mechanism, bi-color circle feed mechanism, dustproof top cap feed mechanism and dustproof bottom cap feed mechanism. The technical scheme of the embodiment of the utility model can improve the assembly efficiency of the adapter and reduce the assembly cost.

Description

Adapter assembling device

Technical Field

The utility model relates to the technical field of assembly equipment, in particular to assembly equipment of an adapter.

Background

The adapter mainly plays a role in connection when being applied, and the adapter main body, the sleeve, the sealing ring, the pull rope, the spring and other parts need to be assembled during production. In the present technical scheme, the adapter is assembled by adopting a manual assembly mode, however, because the structure is complex, the assembly efficiency is lower and the assembly cost is higher by adopting the manual assembly mode.

Disclosure of utility model

The present utility model aims to solve at least to some extent one of the technical problems in the above-described technology. Therefore, the utility model aims to provide an assembling device of an adapter, so as to improve the assembling efficiency of the adapter and reduce the assembling cost.

In order to achieve the above object, an embodiment of the present utility model provides an assembling device for an adapter, including a frame, on which a rotary feeding mechanism is provided, the rotary feeding mechanism including a plurality of assembling bits, the rotary feeding mechanism being rotated to transfer materials between the mechanisms;

The device further comprises a rotary feeding mechanism which is sequentially arranged on the frame along the circumferential direction of the rotary feeding mechanism:

The main body feeding mechanism is used for storing the adapter main body to be assembled and transferring the adapter main body to a corresponding assembly position;

The sleeve feeding mechanism comprises a first vibrating disc, a feeding turntable and an inserting unit; at least one feeding position is arranged on the feeding turntable, and the feeding turntable is connected with the output end of the first vibration disk; the first vibration disc is used for storing a sleeve to be assembled and conveying the sleeve into the feeding position of the feeding turntable through vibration; the plug-in unit is arranged below the feeding turntable, and when the feeding turntable rotates the sleeve in the feeding position to the position below the assembly position through rotation, the plug-in unit can lift the sleeve upwards so that the sleeve is inserted into the adapter main body positioned in the assembly position from bottom to top;

The sealing ring feeding mechanism is used for storing a sealing ring to be assembled and sleeving the sealing ring on the adapter main body at a corresponding position;

The pull rope loading mechanism is used for storing pull ropes to be assembled and sleeving the pull ropes on the adapter main bodies at corresponding positions;

The spring feeding mechanism is used for storing a spring to be assembled and sleeving the spring on the adapter main body at a corresponding position;

the double-color ring feeding mechanism is used for storing double-color rings to be assembled, sleeving the double-color rings on the adapter main body at the corresponding positions and being positioned above the sleeved springs;

The dustproof top cover feeding mechanism is used for storing a dustproof top cover to be assembled and sleeving the dustproof top cover on the top of the adapter main body at the corresponding position;

and the dustproof bottom cover feeding mechanism is used for storing a dustproof bottom cover to be assembled, inserting the dustproof bottom cover at the bottom of the adapter main body to finish assembly, and discharging the assembled adapter.

According to the assembly equipment of the adapter, disclosed by the embodiment of the utility model, the rotary feeding mechanism, the main body feeding mechanism, the sleeve feeding mechanism, the sealing ring feeding mechanism, the spring feeding mechanism, the double-color ring feeding mechanism, the dustproof top cover feeding mechanism and the dustproof bottom cover feeding mechanism are arranged, and the automatic assembly of the adapter can be realized by matching the mechanisms, so that the assembly efficiency of the adapter is improved, and the assembly cost is reduced.

And through setting up rotary feeding mechanism, compare in transfer chain formula production, the space that significantly reduces assembly equipment occupies, has improved assembly equipment structure's compactness.

In addition, the assembly device of the adapter according to the embodiment of the utility model may further have the following additional technical features:

Optionally, the sleeve feeding mechanism further comprises a stop plate, and the stop plate is arranged corresponding to the plug-in unit; the stop plate part is positioned above the rotary feeding mechanism and is partially overlapped with the rotary feeding mechanism in the vertical direction; the stop plate may limit the adapter body when the insert unit inserts the sleeve into the adapter body.

Optionally, the seal ring feeding mechanism includes:

the second vibration disc is used for storing the sealing ring to be assembled and conveying the sealing ring;

The oiling component is used for storing lubricating oil;

the first grabbing component comprises a first clamping jaw and a first driving component which are in driving connection, and the first clamping jaw can reciprocate in the vertical direction and the horizontal direction under the driving of the first driving component.

Optionally, the quantity of sealing washer feed mechanism is two, and two sealing washer feed mechanism sets up the optional adjacently, stay cord feed mechanism includes:

The third vibration disc is used for storing the rope body to be assembled and conveying the rope body to an assembly station;

A fourth vibration plate for storing the rope ring to be assembled and conveying the rope ring;

The second grabbing component comprises a second clamping jaw and a second driving component which are in driving connection, the second clamping jaw can grab the rope ring from the fourth vibration disc to be transferred to the assembly station under the driving of the second driving component, the rope ring is pressed into the rope body, the rope body is sleeved on the periphery of the rope ring to obtain a pull rope, and the pull rope is sleeved on the adapter main body at the corresponding position.

Optionally, the pull rope feeding mechanism further comprises:

The visual assembly is used for identifying the angle of the gripped rope ring so as to control the second clamping jaw to adjust the angle of the rope ring;

the rope body lifting assembly is arranged corresponding to the output end of the third vibration disc, and can lift the rope body to complete the sleeving of the rope body and the rope body when the rope ring is pressed into the rope body.

Optionally, dustproof bottom cover feed mechanism includes:

The fifth vibration disc is used for storing the dustproof bottom covers to be assembled and conveying the dustproof bottom covers to the assembling station one by one;

The third grabbing component comprises a third clamping jaw and a third driving component which are in driving connection, and the third clamping jaw can grab the adapter main body from the rotary feeding mechanism under the driving of the third driving component, and is transferred to the upper part of the dustproof bottom cover positioned at the assembling station and is pressed down to complete the assembly.

Optionally, the apparatus further comprises a bagging mechanism comprising:

the input end of the blanking guide groove is correspondingly arranged with the dustproof bottom cover feeding mechanism;

the bag supporting assembly is arranged corresponding to the output end of the discharging guide groove and is used for supporting the packaging bag to receive the assembled adapter;

The fourth grabbing component is used for grabbing the packaging bag and transferring the packaging bag to the bag supporting component;

The plastic package assembly is arranged corresponding to the bag opening assembly and is used for sealing the packaging bags after the packaging bags are loaded with the adapters in a preset number.

Drawings

FIG. 1 is a schematic diagram of an assembly device of an adapter according to one embodiment of the utility model;

Fig. 2 is a schematic structural view of a sleeve feeding mechanism according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a seal ring feeding mechanism according to one embodiment of the present utility model;

Fig. 4 is a schematic structural view of a pull rope feeding mechanism according to an embodiment of the present utility model.

Description of the reference numerals: the device comprises a frame 100, a rotary feeding mechanism 200, a main body feeding mechanism 300, a sleeve feeding mechanism 400, a seal ring feeding mechanism 500, a stay rope feeding mechanism 600, a spring feeding mechanism 700, a double-color ring feeding mechanism 800, a dustproof top cover feeding mechanism 900, a dustproof bottom cover feeding mechanism 1000, a first vibrating disc 410, a feeding turntable 420, an insert unit 430, a stop plate 440, a second vibrating disc 510, an oiling component 520, a first grabbing component 530, a third vibrating disc 610, a fourth vibrating disc 620 and a second grabbing component 630.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

In order that the above-described aspects may be better understood, exemplary embodiments of the present utility model will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present utility model are shown in the drawings, it should be understood that the present utility model may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the utility model to those skilled in the art.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 4, an embodiment of the present utility model provides an assembling apparatus for an adapter, which includes a frame 100, a rotary feeding mechanism 200 is provided on the frame 100, the rotary feeding mechanism 200 includes a plurality of assembling bits, and the rotary feeding mechanism 200 is rotated to transfer materials between the respective mechanisms. In an example, the rotary feeding mechanism 200 includes a feeding turntable and a motor, wherein the motor is disposed below the feeding turntable and is in driving connection with the feeding turntable, and a plurality of assembly bits are disposed on the feeding turntable along the circumferential direction of the feeding turntable. The assembly bit is of a groove-shaped structure matched with the shape of the adapter main body, and a through hole for the sleeve to pass through is formed in the bottom of the assembly bit so as to facilitate the installation of the sleeve. Therefore, when corresponding materials are placed on the assembly line, the feeding turntable can rotate under the drive of the motor so as to transfer the materials among the mechanisms.

The assembly device further comprises a main body feeding mechanism 300, a sleeve feeding mechanism 400, at least one sealing ring feeding mechanism 500, a stay cord feeding mechanism 600, at least one spring feeding mechanism 700, a double-color ring feeding mechanism 800, a dust-proof top cover feeding mechanism 900 and a dust-proof bottom cover feeding mechanism 1000 which are sequentially arranged on the frame 100 along the circumferential direction of the rotary feeding mechanism 200.

Specifically, the main body loading mechanism 300 is used for storing the adaptor main body to be assembled and transferring the adaptor main body to the corresponding assembly position. In one example, the body feed mechanism 300 includes a vibratory pan in which an operator can place the adapter body to place and feed the adapter body by vibration, mechanical jaws that can move in vertical and horizontal directions to grasp the adapter body fed by the vibratory pan and transfer it into an assembly location on the feed turntable. Because the rotary feeding mechanism 200 is adopted, the mechanical clamping jaw only needs to place the adapter main body on the assembly position nearest to the mechanical clamping jaw, and the feeding is continued after the next assembly position rotates in place.

The vision module is arranged above the mechanical clamping jaw, the vision module is connected with the controller, the vision module can acquire images of the adapter main body which is grabbed by the mechanical clamping jaw, and image recognition is carried out on the images by adopting an image recognition algorithm to determine whether the angle (for example, whether the top of the adapter main body is upward) is proper, if the angle is proper, the adapter main body can be placed at an assembly position on the feeding turntable, and if the angle is improper, the controller can control the mechanical clamping jaw to adjust the angle of the adapter main body, for example, rotate or overturn, and the like, and then the adapter main body is placed at the assembly position.

The image recognition algorithm may be an existing image recognition algorithm, and is not limited thereto.

The sleeve loading mechanism 400 is configured to insert a sleeve, which may be a ceramic sleeve, into an adapter body disposed on an assembly site. The sleeve feeding mechanism 400 includes a first vibration plate 410, a feeding turntable 420, and an insert unit 430, at least one feeding level is provided on the feeding turntable 420, and in one example, the number of the feeding levels is four and is provided at intervals along the circumference of the feeding turntable 420. The feeding turntable 420 is connected with the output end of the first vibration disk 410, and the feeding turntable 420 is located below the feeding turntable and corresponds to the assembly phase. The first vibration plate 410 is used to store the sleeve to be assembled and to convey the sleeve into the loading level of the loading turntable 420 by vibration. The insert unit 430 is disposed below the loading turntable 420, and when a sleeve is placed in at least one loading level, the loading turntable 420 can rotate the sleeve in the loading level to a position below a corresponding assembly level by rotating. The plug-in unit 430 can then be lifted up against the sleeve in the assembled position, so that the sleeve can be inserted into the adapter body in the assembled position from bottom to top.

In an example, the plug-in unit 430 includes a cylinder (not shown in the figure) and a thimble that are in driving connection, the thimble can reciprocate in a vertical direction under the driving of the cylinder, and a through hole for the thimble to pass through is formed at the bottom of the feeding level, so that the thimble can pass through the feeding level from bottom to top and lift up the sleeve under the driving of the cylinder, and the sleeve passes through the feeding turntable from bottom to top to be inserted into the adapter main body at a corresponding position, thereby completing the assembly of the sleeve.

In an example, the position of the feeding turntable 420 corresponding to the assembly position is provided with a guide block, the guide block is provided with a guide through hole for the sleeve to pass through along the vertical direction, and the top end and the bottom end of the guide block are respectively abutted against the feeding turntable 420 and the feeding turntable, so that the sleeve can be guided when being jacked up, the sleeve is prevented from deviating, and the inserting effect of the sleeve is ensured.

And the sealing ring feeding mechanism 500 is used for storing the sealing ring to be assembled and sleeving the sealing ring on the adapter main body at the corresponding position. The pull rope feeding mechanism 600 is used for storing the pull rope to be assembled, and sleeving the pull rope on the adapter main body at the corresponding position, and at this time, the adapter main body is sleeved with a sealing ring through the sealing ring feeding mechanism 500.

At least one spring loading mechanism 700 is provided to store the springs to be assembled and to sleeve the springs on the adapter body at the corresponding positions, and in one embodiment, the number of the spring loading mechanisms 700 is two, and springs with different sizes can be respectively sleeved. Specifically, the spring loading mechanism 700 arranged in front is used for sleeving a smaller-sized spring, sleeving the smaller-sized spring on the adapter body, and the spring loading mechanism 700 arranged behind is used for sleeving a larger-sized spring, sleeving the larger-sized spring on the outer periphery of the smaller-sized spring on the adapter body. In one example, the spring loading mechanism 700 includes a vibrating tray to store springs to be assembled and a mechanical gripper that is movable in a vertical direction and a horizontal direction to grasp the springs from the output end of the vibrating tray storing the springs and to fit them over the adapter body at the assembly location. In one example, the mechanical jaw may be a pneumatic jaw.

The bi-color ring feeding mechanism 800 is used for storing bi-color rings to be assembled, and is used for sleeving the bi-color rings on the adapter body at corresponding positions and is positioned above the sleeved springs. The structure of the dual-color ring feeding mechanism 800 can refer to the spring feeding mechanism 700, and will not be described herein.

The dust cap loading mechanism 900 is configured to store a dust cap to be assembled, and to cover the dust cap on the top of the adapter body at a corresponding position. The dustproof bottom cover feeding mechanism 1000 is used for storing a dustproof bottom cover to be assembled, inserting the dustproof bottom cover at the bottom of the adapter body to complete assembly, and discharging the assembled adapter.

Therefore, through the mutual matching of the mechanisms, the automatic assembly of the adapter can be realized, the assembly efficiency of the adapter is improved, and the assembly cost is reduced. And, through setting up rotary feeding mechanism 200, compare in transfer chain formula production, the space that significantly reduces assembly equipment occupies, has improved the compactibility of assembly equipment structure.

In one embodiment of the present utility model, the sleeve loading mechanism 400 further includes a stopper plate 440, and the stopper plate 440 is disposed corresponding to the insert unit 430. The stopper plate 440 is partially located above the rotary feeding mechanism 200 and partially overlaps the feeding mechanism in the vertical direction. Specifically, the stopper plate 440 is located above the feed turntable and extends a distance in the radial direction of the feed turntable toward the center of the feed turntable so that the stopper plate 440 can be located above the assembly bits at the corresponding positions. When the plug-in unit 430 inserts the sleeve into the adapter body, the adapter body is limited when rising along with the rising, so as to ensure the assembly effect of the sleeve, and prevent the adapter body from being separated from the assembly position, thereby affecting the assembly efficiency.

In one embodiment of the utility model, seal ring feeding mechanism 500 includes a second vibratory pan 510, an oiling assembly 520, and a first grasping assembly 530. Specifically, the second vibration plate 510 is used for storing the sealing ring to be assembled and conveying the sealing ring through vibration. The oiling assembly 520 is configured to store lubricating oil, and in one example, the oiling assembly 520 includes an oiling sponge and a placement table, the oiling sponge is placed on the placement table, and the oiling sponge is absorbed with the lubricating oil. The first grasping assembly 530 includes a first jaw drivingly connected to the first drive assembly, the first jaw being reciprocally movable in a vertical direction and a horizontal direction by the first drive assembly.

In the actual use process, the oiling component 520 is located between the second vibration disk 510 and the feeding turntable, and when the first clamping jaw moves to the upper side of the oiling component 520 after grabbing the sealing ring from the second vibration disk 510, the first clamping jaw moves downwards, so that the grabbed sealing ring contacts with the oiling sponge to paint lubricating oil. The first clamping jaw moves to the upper part of the feeding turntable again so as to sleeve the sealing ring on the adapter main body at the corresponding position. In one example, the first clamping jaw is a pneumatic clamping jaw so as to open the sealing ring to complete the assembly. In an embodiment, the number of the seal ring feeding mechanisms 500 is two, and the two seal ring feeding mechanisms 500 are adjacently arranged to meet the requirement of continuously sleeving two seal rings and improve the assembly efficiency.

In one embodiment of the utility model, the pull cord includes a cord body and a cord loop that are assembled prior to assembly of the pull cord to the adapter body. From this, stay cord feed mechanism 600 includes third vibration dish 610, fourth vibration dish 620 and second grabbing subassembly 630. Specifically, the third vibration plate 610 is used to store the rope to be assembled and convey the rope to the assembly station, and the fourth vibration plate 620 is used to store the rope loop to be assembled and convey the rope loop by vibration. The second grabbing component 630 includes a second clamping jaw and a second driving component that are in driving connection, where the second clamping jaw can grab the rope ring from the output end of the fourth vibration disk 620 and transfer it to the assembly station and press it into the rope body located in the assembly station, so that the rope body is sleeved on the periphery of the rope ring to obtain the assembled pull rope, and the second clamping jaw can transfer the pull rope to the upper side of the feeding turntable, so as to sleeve the pull rope on the adapter body at the corresponding position. In one example, the second jaw is a pneumatic jaw.

Further, the pull rope feeding mechanism 600 further includes a vision component (such as a camera) and a rope lifting component, where the vision component can be disposed above the assembly station to perform image acquisition on the rope ring grabbed by the second clamping jaw, perform angle recognition, determine an angle between the rope ring and the horizontal plane, and control the second clamping jaw to adjust the angle of the rope ring to reach a predetermined angle according to the angle recognition result, and then press the rope ring meeting the angle requirement into the rope body obliquely. The rope body lifting assembly is disposed corresponding to the output end of the third vibration plate 610, and can lift the rope body to complete the sleeving of the rope body lifting assembly and the third vibration plate when the second clamping jaw presses the rope ring into the rope body and does not release the rope ring. In one example, the rope pulling assembly includes a pulling member (e.g., a structure of a clamping jaw or a towable rope, which is not particularly limited) and a driving member that can drive the pulling member to reciprocate in a vertical direction to achieve pulling of the rope. The image recognition algorithm may be an existing image recognition algorithm, and is not limited in particular.

In one embodiment of the present utility model, the dust cap loading mechanism 1000 includes a fifth vibration plate for storing the dust caps to be assembled and conveying the dust caps one by one to the assembling station, and a third gripping assembly. The third grabbing component comprises a third clamping jaw and a third driving component which are in driving connection, and the third clamping jaw can grab the adapter main body from the feeding turntable under the driving of the third driving component and transfer the adapter main body to the upper part of the dustproof bottom cover positioned at the assembling station and press the adapter main body downwards to complete the assembly. In one example, the third jaw is a pneumatic jaw.

In one embodiment of the utility model the assembly apparatus further comprises a bagging mechanism comprising a blanking chute, a bag-opening assembly, a fourth grasping assembly, and a plastic package assembly. Specifically, the input end of the discharging guide groove is arranged corresponding to the feeding mechanism 1000 of the dust-proof bottom cover, so that after the dust-proof bottom cover is assembled, the third clamping jaw can transfer the assembled adapter to the upper portion of the discharging guide groove and release the adapter, and the adapter slides along the discharging guide groove according to the gravity of the adapter.

The bag supporting component is correspondingly arranged with the output end of the discharging guide groove and is used for supporting the packaging bag to receive the assembled adapter. In an example, the bag opening assembly includes two opposite adsorption plates, the two adsorption plates can adsorb two sides of the packaging bag respectively through vacuumizing, and then the two adsorption plates are moved to increase the distance between the two adsorption plates so as to open the packaging bag.

The fourth grabbing component is used for grabbing the packaging bag from the packaging bag feeding position and transferring the packaging bag to the bag supporting component, and in one example, the fourth grabbing component comprises a fourth clamping jaw and a fourth driving component, and the fourth clamping jaw can reciprocate in the vertical direction and the horizontal direction under the driving of the fourth driving component.

The plastic package assembly is arranged corresponding to the bag opening assembly, and the plastic package assembly can seal the packaging bag in a heating mode after the packaging bag is loaded with a predetermined number of adapters. After sealing is completed, the adsorption plate stops vacuumizing so as to enable the packaging bag to fall off, and discharging is completed. In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., 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 present utility model. In this specification, schematic representations of the above terms should not be understood as necessarily being directed 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. Further, one skilled in the art can engage and combine the different embodiments or examples described in this specification.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the utility model.

Claims (8)

1. The assembly equipment of the adapter is characterized by comprising a rack, wherein a rotary feeding mechanism is arranged on the rack, the rotary feeding mechanism comprises a plurality of assembly bits, and the rotary feeding mechanism is rotated to transfer materials among the mechanisms;

The device further comprises a rotary feeding mechanism which is sequentially arranged on the frame along the circumferential direction of the rotary feeding mechanism:

The main body feeding mechanism is used for storing the adapter main body to be assembled and transferring the adapter main body to a corresponding assembly position;

The sleeve feeding mechanism comprises a first vibrating disc, a feeding turntable and an inserting unit; at least one feeding position is arranged on the feeding turntable, and the feeding turntable is connected with the output end of the first vibration disk; the first vibration disc is used for storing a sleeve to be assembled and conveying the sleeve into the feeding position of the feeding turntable through vibration; the plug-in unit is arranged below the feeding turntable, and when the feeding turntable rotates the sleeve in the feeding position to the position below the assembly position through rotation, the plug-in unit can lift the sleeve upwards so that the sleeve is inserted into the adapter main body positioned in the assembly position from bottom to top;

The sealing ring feeding mechanism is used for storing a sealing ring to be assembled and sleeving the sealing ring on the adapter main body at a corresponding position;

The pull rope loading mechanism is used for storing pull ropes to be assembled and sleeving the pull ropes on the adapter main bodies at corresponding positions;

The spring feeding mechanism is used for storing a spring to be assembled and sleeving the spring on the adapter main body at a corresponding position;

the double-color ring feeding mechanism is used for storing double-color rings to be assembled, sleeving the double-color rings on the adapter main body at the corresponding positions and being positioned above the sleeved springs;

The dustproof top cover feeding mechanism is used for storing a dustproof top cover to be assembled and sleeving the dustproof top cover on the top of the adapter main body at the corresponding position;

and the dustproof bottom cover feeding mechanism is used for storing a dustproof bottom cover to be assembled, inserting the dustproof bottom cover at the bottom of the adapter main body to finish assembly, and discharging the assembled adapter.

2. The apparatus of claim 1, wherein the sleeve loading mechanism further comprises a stop plate disposed in correspondence with the plug-in unit; the stop plate part is positioned above the rotary feeding mechanism and is partially overlapped with the rotary feeding mechanism in the vertical direction; the stop plate may limit the adapter body when the insert unit inserts the sleeve into the adapter body.

3. The apparatus of claim 1, wherein the seal ring feeding mechanism comprises:

the second vibration disc is used for storing the sealing ring to be assembled and conveying the sealing ring;

The oiling component is used for storing lubricating oil;

the first grabbing component comprises a first clamping jaw and a first driving component which are in driving connection, and the first clamping jaw can reciprocate in the vertical direction and the horizontal direction under the driving of the first driving component.

4. A device according to claim 3, wherein the number of seal ring feeding mechanisms is two, and two seal ring feeding mechanisms are arranged adjacently.

5. The apparatus of claim 1, wherein the pull-cord loading mechanism comprises:

The third vibration disc is used for storing the rope body to be assembled and conveying the rope body to an assembly station;

A fourth vibration plate for storing the rope ring to be assembled and conveying the rope ring;

The second grabbing component comprises a second clamping jaw and a second driving component which are in driving connection, the second clamping jaw can grab the rope ring from the fourth vibration disc to be transferred to the assembly station under the driving of the second driving component, the rope ring is pressed into the rope body, the rope body is sleeved on the periphery of the rope ring to obtain a pull rope, and the pull rope is sleeved on the adapter main body at the corresponding position.

6. The apparatus of claim 5, wherein the pull-cord loading mechanism further comprises:

The visual assembly is used for identifying the angle of the gripped rope ring so as to control the second clamping jaw to adjust the angle of the rope ring;

the rope body lifting assembly is arranged corresponding to the output end of the third vibration disc, and can lift the rope body to complete the sleeving of the rope body and the rope body when the rope ring is pressed into the rope body.

7. The apparatus of claim 1, wherein the dust cap loading mechanism comprises:

The fifth vibration disc is used for storing the dustproof bottom covers to be assembled and conveying the dustproof bottom covers to the assembling station one by one;

The third grabbing component comprises a third clamping jaw and a third driving component which are in driving connection, and the third clamping jaw can grab the adapter main body from the rotary feeding mechanism under the driving of the third driving component, and is transferred to the upper part of the dustproof bottom cover positioned at the assembling station and is pressed down to complete the assembly.

8. The apparatus of claim 7, further comprising a bagging mechanism, the bagging mechanism comprising:

the input end of the blanking guide groove is correspondingly arranged with the dustproof bottom cover feeding mechanism;

the bag supporting assembly is arranged corresponding to the output end of the discharging guide groove and is used for supporting the packaging bag to receive the assembled adapter;

The fourth grabbing component is used for grabbing the packaging bag and transferring the packaging bag to the bag supporting component;

The plastic package assembly is arranged corresponding to the bag opening assembly and is used for sealing the packaging bags after the packaging bags are loaded with the adapters in a preset number.