CN111908069A

CN111908069A - Automatic feeding equipment for power adapter pin

Info

Publication number: CN111908069A
Application number: CN202010701031.5A
Authority: CN
Inventors: 罗伟权
Original assignee: Individual
Current assignee: Shandong Yinan Park Development And Construction Co ltd
Priority date: 2020-07-20
Filing date: 2020-07-20
Publication date: 2020-11-10
Anticipated expiration: 2040-07-20
Also published as: CN111908069B

Abstract

The invention discloses automatic feeding equipment for pins of a power adapter, which comprises a feeding hopper, an attitude adjusting mechanism and a pin conveying mechanism, wherein the attitude adjusting mechanism is arranged at a feed opening at the bottom of the feeding hopper and comprises an adjusting roller and a rotary driving mechanism; the adjusting rollers comprise a first adjusting roller and a second adjusting roller; the first adjusting roller is provided with a metal conductor limiting structure, and the metal conductor limiting structure comprises a limiting convex ring and two first limiting grooves arranged on two sides of the limiting convex ring; a second limiting groove corresponding to the metal conductor limiting structure is formed in the second adjusting roller; the pin conveying mechanism comprises a pin conveying belt and an intermediate transfer plate, and the intermediate transfer plate is provided with a transfer inclined plane which is inclined downwards; one end of the transmission inclined plane extends to the lower part of the adjusting roller, and the other end of the transmission inclined plane extends to the position right above the pin conveying belt. This automatic feeding equipment can realize participating in the material loading work automatically, effectively improves production efficiency and reduction in production cost.

Description

Automatic feeding equipment for power adapter pin

Technical Field

The invention relates to a power adapter, in particular to automatic feeding equipment for pins of the power adapter.

Background

The power adapter is a power supply conversion device of small electronic equipment, and generally comprises a power transformer, a rectifying circuit, a capacitor, a PCB and a shell, wherein the rectifying circuit is used for converting external alternating current into direct current, and each electronic element of the rectifying circuit is arranged on the PCB.

Furthermore, the shell of the adapter is provided with pin mounting holes, and the pin mounting holes are provided with pins used for being communicated with external alternating current. In the existing adapter production process, the loading and carrying work of the pins is mainly realized manually, the working efficiency is low, and the production cost is high.

Disclosure of Invention

The invention aims to overcome the existing problems and provides the automatic feeding equipment for the pins of the power adapter, which can automatically realize the feeding work of the pins, effectively improve the production efficiency and reduce the production cost.

The purpose of the invention is realized by the following technical scheme:

an automatic feeding device of pins of a power adapter comprises a feeding hopper for placing the pins to be fed, a posture adjusting mechanism for adjusting the pins to be fed into a uniform posture and a pin conveying mechanism for conveying the pins with the adjusted posture to the next production station, wherein,

the posture adjusting mechanism is arranged at a feed opening at the bottom of the feeding hopper and comprises an adjusting roller for rotating to adjust the posture of the plug pins and a rotary driving mechanism for driving the adjusting roller to rotate; the adjusting rollers comprise a first adjusting roller and a second adjusting roller, the first adjusting roller and the second adjusting roller are arranged in parallel, and the axes of the first adjusting roller and the second adjusting roller are positioned on the same horizontal plane; the first adjusting roller is provided with a metal conductor limiting structure for limiting two metal conductors of the pins, and the metal conductor limiting structures are provided with a plurality of groups and are uniformly distributed along the axial direction of the first adjusting roller; the metal conductor limiting structure comprises two limiting convex rings and two first limiting grooves, and the two first limiting grooves are arranged on two sides of each limiting convex ring; the second adjusting roller is provided with a plurality of second limiting grooves for limiting the mounting plates of the pins, the second limiting grooves correspond to the plurality of groups of metal conductor limiting structures one by one and are uniformly distributed along the axial direction of the second adjusting roller; the rotary driving mechanism is used for driving the first adjusting roller and the second adjusting roller to rotate reversely and transmitting the pins in the feeding hopper downwards;

the pin conveying mechanism comprises a pin conveying belt and intermediate transfer plates for transferring the pins with the adjusted postures to the pin conveying mechanism, the number of the intermediate transfer plates is the same as that of the metal conductor limiting structures, the intermediate transfer plates are vertically arranged, and the thickness of each intermediate transfer plate is smaller than the distance between two metal conductors of each pin; the middle transfer plate is provided with a transfer inclined plane which is arranged in a downward inclined manner; the width of the pin conveyer belt is smaller than the distance between the two metal conductors of the pins; one end of the transmission inclined plane extends to the lower part of the adjusting roller, and the other end of the transmission inclined plane extends to the position right above the pin conveyer belt; wherein, different transmission inclined planes respectively extend to the positions right below the metal conductor limiting structures of different adjusting rollers.

The working principle of the automatic feeding equipment for the power adapter pins is as follows:

when the device works, a large number of pins are put into the feeding hopper by a worker, then the rotary driving mechanism is started, and the first adjusting roller and the second adjusting roller rotate reversely under the driving of the rotary driving mechanism to convey the pins in the feeding hopper downwards. The first adjusting roller is provided with a limiting convex ring and a first limiting groove which are used for limiting two metal conductors of the pins, in the continuous rotating process of the first adjusting roller, the postures of the pins in the feeding hopper are continuously changed, when the two metal conductors of the pins close to the first adjusting roller are respectively clamped into the two first limiting grooves of the same group, the limiting action is completed, the mounting plate of the pins is also limited in the second limiting groove of the second adjusting roller, and then under the driving of the rotary driving mechanism, the pins penetrate through the space between the first adjusting roller and the second adjusting roller and fall onto the middle transfer plate below. Furthermore, because the weight of the two metal conductors is relatively large, in the process of falling down, the two metal conductors of the pins face downwards, so that the pins just straddle the middle transfer plate below, and the first-time material loading connection work is completed.

After participating in on falling middle transfer board, down sliding along the transmission inclined plane under the effect of gravity, then the landing is to participating in on the conveyer belt to accomplish the handing-over work of material loading for the second time, will participate in by participating in the conveyer belt at last and carry to next processing station in.

The invention also comprises a stirring mechanism for stirring the pins in the feeding hopper, wherein the stirring mechanism comprises a stirring roller and a stirring driving mechanism for driving the stirring roller to rotate;

the stirring roller is arranged in the feeding hopper in a rotating connection mode, and the stirring driving mechanism is arranged outside the feeding hopper. Through above-mentioned structure, at the in-process of material loading, stir the pin, can strengthen the "mobility" nature of participating in for participating in can move down fast, constantly adjust the gesture of self simultaneously, and then pass between first adjusting roller and the second adjusting roller.

Preferably, two stirring rollers are arranged and are arranged in parallel; the driving force of the stirring driving mechanism acting on the two stirring rollers is opposite. Therefore, the two stirring rollers can rotate oppositely, and the adjusting speed of the pins can be further accelerated, so that the pins can pass through the first adjusting roller and the second adjusting roller in a uniform posture as soon as possible.

Preferably, a plurality of pre-adjusting ring parts are arranged on the stirring roller along the axis direction, and the pre-adjusting ring parts are arranged in parallel with the limiting convex ring. Thus, pins in various postures can be combed in advance while the pins are stirred.

Preferably, the stirring driving mechanism comprises a stirring driving motor and a stirring transmission assembly, and the stirring transmission assembly comprises a synchronous belt transmission assembly and a synchronous gear assembly. Of course, other mechanisms capable of achieving rotational drive are also possible.

In a preferred embodiment of the present invention, the number of the pin conveyors is less than that of the intermediate transfer plates, and at least two intermediate transfer plates correspond to one pin conveyor; wherein, the tail ends of the middle transfer plates of the corresponding same pin conveyer belt are sequentially arranged along the conveying direction of the pin conveyer belt. Through the structure, the pins on the middle transfer plates can be drained to the same pin conveyer belt, so that the number of the pin conveyer belts is reduced, the structure is optimized, and the manufacturing cost is reduced.

In a preferred aspect of the present invention, the rotary drive mechanism includes a rotary drive motor and a rotary transmission assembly, and the rotary transmission assembly includes a synchronous belt transmission assembly and a synchronous gear assembly. Of course, other mechanisms capable of achieving rotational drive are also possible.

Compared with the prior art, the invention has the following beneficial effects:

1. the automatic feeding equipment can automatically realize the feeding work of the pins, effectively improve the production efficiency and reduce the production cost.

2. In the process of material loading, through setting up middle transfer board, accomplish twice handing-over work successively, participate in from the feeding funnel with the posture adjustment to participate in the conveyer belt on, not only can keep participating in the posture unchangeable, have advantages such as simple structure simultaneously.

Drawings

Fig. 1 is an exploded view of a power adapter, in which a denotes pins, 1a denotes metal conductors, 2a denotes a mounting plate, and b denotes a housing of the adapter.

Fig. 2 is a schematic perspective view of an automatic feeding device for power adapter pins according to the present invention.

Fig. 3 is a schematic perspective view of the steering roller and the intermediate transfer plate according to the present invention.

Fig. 4 is a side view of the dancer and intermediate transfer plate of the present invention.

Fig. 5 is a top view of the dancer and intermediate transfer plate of the present invention.

Fig. 6 is an enlarged view of X in fig. 5.

Detailed Description

In order to make those skilled in the art understand the technical solutions of the present invention well, the following description of the present invention is provided with reference to the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Referring to fig. 1 to 6, the automatic feeding device for pins of a power adapter in the embodiment includes a feeding hopper 1 for placing pins to be fed, a posture adjustment mechanism for adjusting the pins to be fed into a uniform posture, and a pin conveying mechanism for conveying the pins with the adjusted posture to a next production station, wherein the posture adjustment mechanism is arranged at a bottom feed opening of the feeding hopper 1 and includes an adjustment roller for rotating to perform posture adjustment on the pins and a rotation driving mechanism for driving the adjustment roller to rotate; the adjusting rollers comprise a first adjusting roller 2 and a second adjusting roller 3, the first adjusting roller 2 and the second adjusting roller 3 are arranged in parallel, and the axes of the first adjusting roller and the second adjusting roller are positioned on the same horizontal plane; the first adjusting roller 2 is provided with a metal conductor limiting structure for limiting two metal conductors of the pins, and the metal conductor limiting structures are provided with a plurality of groups and are uniformly distributed along the axial direction of the first adjusting roller 2; the metal conductor limiting structure comprises two limiting convex rings 2-1 and two first limiting grooves 2-2, and the two first limiting grooves 2-2 are arranged on two sides of the limiting convex rings 2-1; the second adjusting roller 3 is provided with a plurality of second limiting grooves 3-1 for limiting the mounting plates of the pins, and the plurality of second limiting grooves 3-1 correspond to the plurality of groups of metal conductor limiting structures one by one and are uniformly distributed along the axial direction of the second adjusting roller 3; the rotary driving mechanism is used for driving the first adjusting roller 2 and the second adjusting roller 3 to rotate reversely, and the pins in the feeding hopper 1 are conveyed downwards.

The pin conveying mechanism comprises a pin conveying belt 4 and a middle transfer plate 5 used for transferring the pins with adjusted postures to the pin conveying mechanism, the number of the middle transfer plates 5 is the same as that of the metal conductor limiting structures, the middle transfer plates are vertically arranged, and the thickness of each middle transfer plate 5 is smaller than the distance between two metal conductors of each pin; the middle transfer plate 5 is provided with a transfer inclined plane which is arranged in a downward inclined manner; the width of the pin conveyer belt 4 is smaller than the distance between the two metal conductors of the pins; one end of the transmission inclined plane extends to the lower part of the adjusting roller, and the other end of the transmission inclined plane extends to the position right above the pin conveyer belt 4; wherein, different transmission inclined planes respectively extend to the positions right below the metal conductor limiting structures of different adjusting rollers.

Referring to fig. 1, the automatic feeding apparatus in this embodiment further includes a stirring mechanism for stirring the pins in the feeding hopper 1, and the stirring mechanism includes a stirring roller 6 and a stirring driving mechanism for driving the stirring roller 6 to rotate; the stirring roller 6 is arranged in the feeding hopper 1 in a rotating connection mode, and the stirring driving mechanism is arranged outside the feeding hopper 1. Through above-mentioned structure, at the in-process of material loading, stir the pin, can strengthen the "mobility" nature of participating in for participating in can move down fast, constantly adjust the gesture of self simultaneously, and then pass between first adjusting roller 2 and second adjusting roller 3.

Further, two stirring rollers 6 are arranged and are arranged in parallel; the driving forces of the stirring driving mechanism acting on the two stirring rollers 6 are opposite. In this way, the two stirring rollers 6 can be rotated in opposite directions, and the adjustment speed of the pins can be further increased, so that the pins can pass through the first adjusting roller 2 and the second adjusting roller 3 in a uniform posture as early as possible.

Further, a plurality of pre-adjusting ring parts are arranged on the stirring roller 6 along the axis direction, and the pre-adjusting ring parts are arranged in parallel with the limiting convex ring 2-1. Thus, pins in various postures can be combed in advance while the pins are stirred.

Referring to fig. 1, the stirring driving mechanism comprises a stirring driving motor 7 and a stirring transmission assembly, and the stirring transmission assembly comprises a synchronous belt transmission assembly and a synchronous gear assembly. Of course, other mechanisms capable of achieving rotational drive are also possible.

2-5, the number of pin conveyors 4 is less than the number of intermediate transfer plates 5, at least two intermediate transfer plates 5 corresponding to one pin conveyor 4; wherein the ends of the intermediate transfer plates 5 of the corresponding one and the same pin conveyor 4 are arranged one after the other in the conveying direction of the pin conveyor 4. Through the structure, the pins on the middle transfer plates 5 can be drained to the same pin conveyer belt 4, the number of the pin conveyer belts 4 is reduced, the structure is optimized, and the manufacturing cost is reduced. Further, a high-frequency low-amplitude vibrator (not shown in the figures, and the specific structure can refer to a vibration mechanism in the prior art) is arranged below the middle transmission plate 5, so that the pins can be assisted to accelerate downward sliding.

Referring to fig. 1, the rotary drive mechanism includes a rotary drive motor 8 and a rotary transmission assembly including a synchronous belt transmission assembly and a synchronous gear assembly. Of course, other mechanisms capable of achieving rotational drive are also possible.

Referring to fig. 1 to 6, the automatic loading device for the power adapter pins in the present embodiment operates on the following principle:

when the device works, a large number of pins are put into the feeding hopper 1 by a worker, then the rotary driving mechanism is started, and the first adjusting roller 2 and the second adjusting roller 3 rotate in the reverse direction under the driving of the rotary driving mechanism to convey the pins in the feeding hopper 1 downwards. The first adjusting roller 2 is provided with a limiting convex ring 2-1 and a first limiting groove 2-2 for limiting two metal conductors of the pins, the postures of the pins in the feeding hopper 1 are continuously changed in the continuous rotating process of the first adjusting roller 2, when the two metal conductors close to the pins of the first adjusting roller 2 are respectively clamped into the two first limiting grooves 2-2 in the same group, the limiting action is completed, the mounting plates of the pins are also limited in the second limiting grooves 3-1 of the second adjusting roller 3, and then the pins pass through the space between the first adjusting roller 2 and the second adjusting roller 3 and fall onto the middle transfer plate 5 below under the driving of the rotary driving mechanism. Further, because the weight of the two metal conductors is relatively large, in the process of falling down, the two metal conductors of the pins face downwards, so that the pins just straddle the middle transfer plate 5 below, and the first-time loading connection work is completed.

After participating in on falling middle transfer board 5, down slide along the transmission inclined plane under the effect of gravity, then the landing is to participating in on the conveyer belt 4 to accomplish the handing-over work of material loading for the second time, carry participating in by participating in the conveyer belt 4 at last and carry to next processing station.

The present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents and are included in the scope of the present invention.

Claims

1. An automatic feeding device of pins of a power adapter is characterized by comprising a feeding hopper for placing the pins to be fed, a posture adjusting mechanism for adjusting the pins to be fed into a uniform posture and a pin conveying mechanism for conveying the pins with the adjusted posture to the next production station, wherein,

2. The automatic loading device of pins of a power adapter according to claim 1, further comprising a stirring mechanism for stirring the pins in the loading hopper, the stirring mechanism comprising a stirring roller and a stirring driving mechanism for driving the stirring roller to rotate;

the stirring roller is arranged in the feeding hopper in a rotating connection mode, and the stirring driving mechanism is arranged outside the feeding hopper.

3. The automatic loading device of power adapter pins according to claim 2, wherein the stirring rollers are provided in two and arranged in parallel; the driving force of the stirring driving mechanism acting on the two stirring rollers is opposite.

4. The automatic loading device of power adapter pins according to claim 2, wherein the stirring roller is provided with a plurality of pre-adjustment ring portions along the direction of the axis, and the pre-adjustment ring portions are arranged in parallel with the limiting convex ring.

5. The automatic loading device of power adapter pins according to claim 2, wherein the stirring driving mechanism comprises a stirring driving motor and a stirring transmission assembly, and the stirring transmission assembly comprises a synchronous belt transmission assembly and a synchronous gear assembly.

6. The automatic loading apparatus of power adapter pins according to claim 1, wherein the number of pin conveyors is less than the number of intermediate transfer plates, at least two intermediate transfer plates corresponding to one pin conveyor; wherein, the tail ends of the middle transfer plates of the corresponding same pin conveyer belt are sequentially arranged along the conveying direction of the pin conveyer belt.

7. The automatic loading apparatus of power adapter pins according to any one of claims 1 to 6, wherein the rotary drive mechanism comprises a rotary drive motor and a rotary drive assembly, the rotary drive assembly comprising a synchronous belt drive assembly and a synchronous gear assembly.