CN218707084U - Conveying mechanism for power adapter - Google Patents

Abstract

The utility model discloses a conveying mechanism for a power adapter, which comprises a conveying mechanism and a conveying mechanism, wherein the conveying mechanism is arranged on the conveying mechanism; the material taking assembly, the overturning assembly and the transplanting assembly are arranged in the box body; the overturning assembly is arranged on one side of the material taking assembly and is used for receiving and overturning the power adapter conveyed by the material taking assembly; and the transplanting assembly is arranged on one side of the overturning assembly and is used for moving and placing the power adapter conveyed by the overturning assembly. Like this, get material subassembly, upset subassembly and transplant the subassembly and connect the equipment in order to carry power adapter to replace manual work, not only can reduction in production cost, adopt conveying mechanism to carry power adapter's packaging efficiency moreover. Meanwhile, the first material taking device, the second material taking device and the third material taking device are combined for use to replace manual work to assemble, accidental damage of manual work in the assembling process can be reduced, and the yield of the power adapter is improved.

Description

Conveying mechanism for power adapter

Technical Field

The utility model belongs to the technical field of power adapter technique and specifically relates to a conveying mechanism for power adapter is related to.

Background

In the prior art, the power adapter is often assembled in a manual assembly or semi-automatic assembly manner, for example, in patent CN207072463U, there is still a labor cost, the production cost is relatively high and the efficiency of manual assembly is relatively low, and the manual assembly manner has a high damage rate in the assembly process, which increases the production cost. In the related art, other structures in the mobile phone have adopted a mechanized transportation form, such as CN206914770U, but there is no automatic transportation structure for the power adapter, so it is necessary to provide an automatic structure for transporting the power adapter.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a conveying mechanism for power adapter, conveying mechanism can be better transportation power adapter, reduction in production cost, and can realize mechanized transportation.

According to the utility model discloses a conveying mechanism of power adapter, include; the material taking assembly, the overturning assembly and the transplanting assembly are arranged in the box body; get material subassembly includes: first extracting device, first extracting device is used for absorbing and transporting power adapter, the upset subassembly set up in one side of getting the material subassembly, the upset subassembly includes: the second material taking device is arranged opposite to the first material taking device and is configured to receive and turn over a power adapter conveyed by the first material taking device; and the transplanting assembly is arranged on one side of the overturning assembly, which deviates from the material taking assembly, and comprises: a third material extracting device disposed opposite the second material extracting device, and configured to remove and place the power adapter.

According to the utility model discloses a conveying mechanism for power adapter gets material subassembly, upset subassembly and transplants the subassembly and connect the equipment in order to carry power adapter to the various box in order to get material subassembly, upset subassembly through the use to replace manual work, not only can reduction in production cost, adopt conveying mechanism to carry power adapter can promote power adapter's packaging efficiency moreover. Simultaneously, adopt first extracting device, second extracting device and third extracting device to make up the use and assemble in order to replace the manual work, can reduce the unexpected damage of manual work in the assembling process, promote power adapter's yields. In addition, the conveying mechanism is adopted to convey the power adapter, so that the assembling process of the power adapter has higher automation rate.

In some embodiments, the take-off assembly further comprises: the material taking device comprises a first driving device, a second driving device and a third driving device, wherein the first material taking device is arranged on the first driving device in a slidable mode along a first direction, the first driving device is arranged on the second driving device in a slidable mode along a second direction, the second driving device is arranged on the third driving device in a slidable mode along a third direction, and the first direction, the second direction and the third direction are perpendicular to each other in pairs.

In some embodiments, the first extracting apparatus comprises: first material suction head and first pressure sensor, first material suction head set up in first drive arrangement's lateral wall, first pressure sensor set up in first material suction head is close to power adapter's one end.

In some embodiments, the flipping assembly further comprises: the second material taking device is arranged on the fourth driving device so as to turn over under the action of the fourth driving device, and the fourth driving device is arranged on the fifth driving device in a slidable manner along a third direction.

In some embodiments, the second material extracting apparatus comprises: the clamping jaw is in but the horizontal motion makes two under the effect of second driving piece the clamping jaw is close to each other or keep away from each other, the second driving piece set up in on the fourth drive arrangement.

In some embodiments, the fourth driving means comprises: the support is arranged on the rotating shaft, and the second material taking device is arranged on the support.

In some embodiments, the fifth driving means comprises: the sliding part is arranged on the second base, the fourth driving part is arranged on the sliding part in a sliding mode, and the fourth driving device is arranged on the second base and moves along with the fourth driving part.

In some embodiments, the transplanting assembly comprises: the third material taking device is arranged on the sixth driving device in a sliding mode along the first direction, and the sixth driving device is arranged on the seventh driving device in a sliding mode along the third direction.

In some embodiments, the third material extracting apparatus comprises: the second material taking suction head is arranged on the sixth driving device, and the second pressure sensor is arranged on the second material taking suction head.

In some embodiments, further comprising; the color box assembly comprises a color box and a conveying belt, the color box and the power adapter are arranged oppositely, the color box is borne on the conveying belt, and the third material taking device is used for conveying the power adapter into the color box.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a conveying mechanism according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a take-out assembly according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a flip assembly according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a transplanting assembly according to the embodiment of the invention.

Reference numerals:

the feeding mechanism 10, the power adapter 11,

a pick assembly 100, a first pick device 110, a first pick head 111, a first pressure sensor 112, a first drive 120, a second drive 130, a third drive 140, a first base 150, a first drive member 160, a first drive member 170, a second drive member 180,

the turnover assembly 200, the second material taking device 210, the second driving member 211, the clamping jaw 212, the fourth driving device 220, the bracket 222, the rotating shaft 223, the fifth driving device 230, the second base 231, the fourth driving member 232, the sliding member 233,

a transplanting assembly 300, a third material taking device 310, a second material taking sucker 311, a second pressure sensor 312, a sixth driving device 320, a seventh driving device 330, a third base 340, a fifth driving member 350, a third transmission member 360, a fourth transmission member 370,

color box assembly 400, color box 410, conveyor belt 420.

Detailed Description

Embodiments of the present invention are described in detail below, and the embodiments described with reference to the drawings are exemplary.

A conveying mechanism 10 for a power adapter 11 according to an embodiment of the present invention is described below with reference to fig. 1 to 4, including; a take-out assembly 100, an inversion assembly 200, and a transplanting assembly 300.

Specifically, the take-off assembly 100 includes: first extracting device 110, first extracting device 110 are used for absorbing and transporting power adapter 11, and upset subassembly 200 sets up in one side of extracting subassembly 100, and upset subassembly 200 includes: the second material taking device 210, the second material taking device 210 is arranged opposite to the first material taking device 110, and the second material taking device 210 is configured to receive and turn over the power adapter 11 conveyed by the first material taking device 100; and transplanting the subassembly 300 and setting up in the one side that upset subassembly 200 deviates from getting material subassembly 100, transplanting the subassembly 300 and including: a third material extracting device 310, wherein the third material extracting device 310 is arranged opposite to the second material extracting device 210, and the third material extracting device 310 is configured to be used for removing and placing the power adapter 11 conveyed by the second material extracting device 210.

It should be noted that, the material taking assembly 100 is adapted to take out the power adapter 11 and convey it to the turning assembly 200, the turning assembly 200 is adapted to receive and turn over the power adapter 11, so that the power adapter 11 can be turned to a position where assembly is required and conveyed continuously, and the transplanting assembly 300 is adapted to receive and convey the power adapter 11, and correspondingly place it in the color box to complete assembly of the power adapter 11.

Specifically, the first material extracting device 110 on the material extracting assembly 100 is adapted to be fitted with the power adapter 11, so that the first material extracting device 110 can suck the power adapter 11 and transport the power adapter 11. The turnover assembly 200 is provided with a second material taking device 210, and the second material taking device 210 is suitable for being arranged opposite to and adapted to the first material taking device 110 so as to suck the power adapter 11 transported by the first material taking device 100 onto the turnover assembly 200 for turnover and transportation. The transplanting assembly 300 is provided with a third material taking device 310, and the third material taking device 310 is suitable for being arranged opposite to and adapted to the second material taking device 210, so that the power adapter 11 after being turned and transported by the turning device 200 can be sucked and transported into the correspondingly arranged color box 410 to form the transportation and transportation of the power adapter 11.

According to the utility model discloses a conveying mechanism 10 for power adapter 11 is connected the equipment in order to carry power adapter 11 and assemble various box through using to get material subassembly 100, upset subassembly 200 and transplant subassembly 300 to replace manual work, not only can reduction in production cost, adopt conveying mechanism 10 to carry power adapter 11 can promote power adapter 11's packaging efficiency moreover. Meanwhile, the first material taking device 110, the second material taking device 210 and the third material taking device 310 are combined for use to replace manual assembly, so that accidental damage of manual operation in the assembly process can be reduced, and the yield of the power adapter 11 is improved. In addition, the adoption of the conveying mechanism 10 for conveying the power adapter 11 also enables the assembling process of the power adapter 11 to have higher automation rate.

In some embodiments, the take-off assembly 100 comprises: the power adapter comprises a first material taking device 110, a first driving device 120, a second driving device 130 and a third driving device 140, wherein the first material taking device 110 is used for sucking the power adapter 11, the first material taking device 110 is slidably arranged on the first driving device 120 along a first direction, the first driving device 120 is slidably arranged on the second driving device 130 along a second direction, the second driving device 130 is slidably arranged on the third driving device 140 along a third direction, and the first direction, the second direction and the third direction are pairwise perpendicular.

It will be appreciated that the first material extracting apparatus 110 is adapted to draw in the power adapter 11 to deliver the power adapter 11. Meanwhile, a first driving device 120, a second driving device 130 and a third driving device 140 are further provided, and the first driving device 120, the second driving device 130 and the third driving device 140 can adjust the position of the first material taking device 110, so that the position of the first material taking device 110 can be adjusted after the first material taking device 110 absorbs the power adapter 11, and the conveying effect of the power adapter 11 is achieved. Further, the first drive device 120, the second drive device 130, and the third drive device 140 are employed because they are perpendicular to each other so that they can be adjusted in position relative to each other to effect movement of the first extracting apparatus 110.

In some embodiments, the first drive device 120, the second drive device 130, and the third drive device 140 each include: the driving device comprises a first base 150, a first driving piece 160, a first transmission piece 170 and a second transmission piece 180, wherein the first driving piece 160 is arranged on the first base 150, the first transmission piece 170 is arranged on the first driving piece 160, and the second transmission piece 180 is in transmission fit with the first transmission piece 170; the first material extracting device 110 is disposed on the second transmission member 180 of the first driving device 120, the first base 150 of the first driving device 120 is disposed on the second transmission member 180 of the second driving device 130, and the first base 150 of the second driving device 130 is disposed on the second transmission member 180 of the third driving device 140.

That is, in some specific embodiments, in order to reduce cost and facilitate uniform control, the structures of the first driving device 120, the second driving device 130 and the third driving device 140 may be configured to be similar so as to facilitate assembly connection of the first driving device 120, the second driving device 130 and the third driving device 140, and to facilitate uniform control of the first driving device 120, the second driving device 130 and the third driving device 140 to drive movement of the power adapter 11.

Specifically, the first base 150 is adapted to provide a support function so that the first driving member 160 can be assembled and constructed on the first base 150. During use of the first driving member 160, power is adapted to be transmitted through the first transmission member 170 to drive the second transmission member 180 to move. For example, the first driving member 160 of the third driving device 140 provides a driving force to drive the second transmission member 180 to move through the first transmission member 170, so as to drive the second driving device 130 to move; the first driving member 160 of the second driving device 130 provides a driving force, and the first driving member 170 of the second driving device 130 drives the second transmission member 180 of the second driving device 130 to move so as to drive the first driving device 120 to move; the first driving member 160 of the first driving device 120 provides a driving force, and the first transmission member 170 of the first driving device 120 drives the second transmission member 180 of the first driving device 120 to move, so as to drive the first material taking device 110 to move. In this way, the position of the first material taking device 110 can be adjusted by using the first driving device 120, the second driving device 130 and the third driving device 140 in combination.

In some embodiments, the first material extracting apparatus 110 includes: a first pick-up head 111 and a first pressure sensor 112, the first pick-up head 111 being disposed on a side wall of the first drive assembly 120, the first pressure sensor 112 being disposed at an end of the first pick-up head 111 proximate the power adapter 11. It will be appreciated that the first material extracting tip 111 is adapted to be positioned opposite the power adapter 11 such that when the first material extracting tip 111 is mated against the power adapter 11, the first material extracting tip 111 is adapted to suck the power adapter 11 such that the power adapter 11 can be removed from the predetermined position. Meanwhile, a first pressure sensor 112 is provided on the first picking tip 111, and when the first picking tip 111 sucks the power adapter 11, the first pressure sensor 112 is adapted to be collided with, so as to detect and judge whether the first picking tip 111 has finished sucking and adapting with the power adapter 11.

In some embodiments, flip assembly 200 comprises: the second material taking device 210 is arranged on the fourth driving device 220 to turn over under the action of the fourth driving device 220, and the fourth driving device 220 is slidably arranged on the fifth driving device 230 along a third direction. It should be noted that the second material taking device 210 is adapted to be matched with the power adapter 11, so that when the first material taking device 110 moves the power adapter 11 to the second material taking device 210, the power adapter 11 is moved to the second material taking device 210 to be turned over. Meanwhile, a fourth driving device 220 and a fifth driving device 230 are further arranged on the turnover assembly 200, and the fourth driving device 220 is suitable for providing a turnover function, so that when the power adapter 11 is placed on the second material taking device 210, the second driving device 130 can be driven to turn over, and the power adapter 11 on the second material taking device 210 is driven to turn over. Furthermore, the fourth driving device 220 is adapted to be connected with the fifth driving device 230, and the fifth driving device 230 is adapted to drive the fourth driving device 220 to move so as to transport the flipped power adapter 11 to the next position for subsequent transportation of the subsequent device to the power adapter 11.

In some embodiments, the second material extracting apparatus 210 comprises: the two clamping jaws 212 are detachably arranged on the second driving member 211, and at least one clamping jaw 212 can horizontally move under the action of the second driving member 211 to enable the two clamping jaws 212 to approach or separate from each other, and the second driving member 211 is arranged on the fourth driving device 220. It can be understood that the second driving element 211 is adapted to provide a driving force to drive the two clamping jaws 212 to move, so that the two clamping jaws 212 oppositely disposed can be limited outside the power adapter 11, and adjusted according to the form of the power adapter 11, so that the clamping jaws 212 are adapted to be more reliable in the assembly limitation of the power adapter 11, thereby improving the applicability of the second material taking device 210 to the power adapter 11 and making the transportation of the second material taking device 210 to the power adapter 11 more reliable, so as to improve the usability of the conveying mechanism 10. In some embodiments, the clamping jaw 212 is removably attached to the second drive 211. Therefore, when the power adapter 11 of different models needs to be adapted, the clamping jaw 212 can be replaced, so as to improve the applicability. The first material taking device 110 and the third material taking device 310 both adopt the form of suction nozzles, the suction nozzles can suck air flow in a large range, so that the suction nozzles can correspond to power adapters 11 of various different sizes, the second material taking device 210 needs to fix the power adapters 11 for overturning, the mode of clamping jaws is adopted, so that the second material taking device 210 can be more reliable in assembly limitation on the power adapters 11, the phenomenon that the power adapters 11 fall off in the process of overturning is avoided, and the transportation efficiency of the power adapters 11 is improved.

In some embodiments, the fourth driving device 220 includes: the rotating shaft 223 and the bracket 222, the bracket 222 is arranged on the rotating shaft 223, and the second material taking device 210 is arranged on the bracket 222; the fifth driving device 230 includes: the sliding device comprises a second base 231, a fourth driving member 232 and a sliding member 233, wherein the sliding member 233 is arranged on the second base 231, the fourth driving member 232 is slidably arranged on the sliding member 233, and the fourth driving device 220 is arranged on the second base 231 and moves along with the fourth driving member 232. Similarly, as shown above, the rotating shaft 223 is suitable for transmitting a driving force to drive the bracket 222 to move, and the second driving device 130 is disposed on the bracket 222 to drive the second driving device 130 to move and drive the power adapter 11 assembled on the second material taking device 210 to move. And the fifth driving device 230 includes a fourth driving member 232, and the fourth driving member 232 is adapted to provide power to make the fourth driving member 232 slide along the sliding member 233, so as to transport the power adapter 11.

In some embodiments, transplanting assembly 300 includes: the third material taking device 310, the sixth driving device 320 and the seventh driving device 330, the third material taking device 310 is slidably disposed on the sixth driving device 320 along the first direction, and the sixth driving device 320 is slidably disposed on the seventh driving device 330 along the third direction.

It is contemplated that the third driving device 140 is adapted to mate with the power adapter 11 to transport the power adapter 11 to a designated location, such as a lottery cartridge, under the driving of the sixth driving member and the seventh driving device 330, to allow the transport mechanism 10 to complete the transport of the power adapter 11.

In some embodiments, the sixth driving device 320 and the seventh driving device 330 each include: the driving device comprises a third base 340, a fifth driving part 350, a third transmission part 360 and a fourth transmission part 370, wherein the fifth driving part 350 is arranged on the third base 340, the third transmission part 360 is arranged on the fifth driving part 350, and the fourth transmission part 370 is in transmission fit with the third transmission part 360; the third material taking device 310 is disposed on the fourth transmission member 370 of the sixth driving device 320, and the third base 340 of the sixth driving device 320 is disposed on the fourth transmission member 370 of the seventh driving device 330.

Similarly, the structure of the sixth driving device 320 and the seventh driving device 330 is suitably configured to be similar, so as to facilitate the assembly connection of the sixth driving device 320 and the seventh driving device 330, and to facilitate the unified control of the sixth driving device 320 and the seventh driving device 330 for driving the mobile transportation of the power adapter 11.

Specifically, the third base 340 is adapted to provide a support function so that the fifth driving member 350 can be assembled and constructed on the third base 340. During use of the fifth driving element 350, power is adapted to be transmitted through the third transmission element 360 to drive the fourth transmission element 370 to move. For example, the fifth driving element 350 of the seventh driving device 330 provides a driving force to drive the fourth transmission element 370 to move through the third transmission element 360, so as to drive the sixth driving device 320 to move; the fifth driving component 350 of the sixth driving device 320 provides a driving force to drive the fourth transmission component 370 of the sixth driving device 320 to move through the third transmission component 360 of the sixth driving device 320, so as to drive the third material taking device 310 to move. In this way, the position of the third material taking device 310 can be adjusted by using the sixth driving device 320 and the seventh driving device 330 in combination.

In some embodiments, the third material extracting apparatus 310 includes: a second pick-up head 311 and a second pressure sensor 312, the second pick-up head 311 being mounted on the sixth drive arrangement 320, the second pressure sensor 312 being mounted on the second pick-up head 311.

Similarly, the second material extracting tip 311 is adapted to be disposed opposite the power adapter 11 such that when the second material extracting tip 311 is mated against the power adapter 11, the second material extracting tip 311 is adapted to absorb the power adapter 11 such that the power adapter 11 can be removed from the second material extracting apparatus 210. Also, a second pressure sensor 312 is provided on the second picking head 311, and the second pressure sensor 312 is adapted to be activated when the second picking head 311 picks up power adapter 11 to detect and determine whether the second picking head 311 has completed picking up engagement with the power adapter 11.

In some embodiments, the delivery mechanism 10 further comprises; the color box assembly 400, the color box assembly 400 includes a color box 410 and a conveyor belt 420, the color box 410 and the power adapter 11 are oppositely disposed, and the color box 410 is carried on the conveyor belt 420, and the third material taking device 310 is used for conveying the power adapter 11 into the color box 410. It is understood that the third extracting device 310 is adapted to transport the power adapter 11 to the color box 410, and after the power adapter 11 is assembled in the color box 410, the transport belt 420 is adapted to be activated to transport the color box 410 to the next process.

Other constructions and operations of the conveyor mechanism 10 according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean 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 invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A delivery mechanism (10) for a power adapter, comprising;

a take-off assembly (100), the take-off assembly (100) comprising: a first material taking device (110), wherein the first material taking device (110) is used for sucking and transporting the power adapter;

a flip assembly (200), the flip assembly (200) set up in one side of getting the material assembly (100), the flip assembly (200) includes: a second material extracting device (210), wherein the second material extracting device (210) is arranged opposite to the first material extracting device (110), and the second material extracting device (210) is configured to receive and turn over a power adapter conveyed by the first material extracting device (110); and

a transplanting assembly (300), the transplanting assembly (300) is arranged on one side of the overturning assembly (200) departing from the material taking assembly (100), and the transplanting assembly (300) comprises: a third material extracting device (310), the third material extracting device (310) being disposed opposite the second material extracting device (210), and the third material extracting device (310) being configured to remove and place the power adapter.

2. The conveyor mechanism (10) for power adapters of claim 1, wherein said take-out assembly (100) further comprises: the material taking device comprises a first driving device (120), a second driving device (130) and a third driving device (140), wherein the first material taking device (110) is arranged on the first driving device (120) in a slidable mode along a first direction, the first driving device (120) is arranged on the second driving device (130) in a slidable mode along a second direction, the second driving device (130) is arranged on the third driving device (140) in a slidable mode along a third direction, and the first direction, the second direction and the third direction are pairwise perpendicular.

3. The conveyor mechanism (10) for power adapters of claim 2, wherein said first extracting apparatus (110) comprises: a first pick-up head (111) and a first pressure sensor (112), the first pick-up head (111) being disposed on a side wall of the first drive arrangement (120), the first pressure sensor (112) being disposed at an end of the first pick-up head (111) proximate the power adapter.

4. The delivery mechanism (10) for power adapters of claim 1, wherein said flipping assembly (200) further comprises: the second material taking device (210) is arranged on the fourth driving device (220) to turn over under the action of the fourth driving device (220), and the fourth driving device (220) is slidably arranged on the fifth driving device (230) along a third direction.

5. The conveyor mechanism (10) for power adapters as recited in claim 4, wherein the second material extracting apparatus (210) comprises: the clamping jaw driving device comprises a second driving piece (211) and two clamping jaws (212) which are oppositely arranged, wherein the two clamping jaws (212) are detachably arranged on the second driving piece (211), at least one clamping jaw (212) can horizontally move under the action of the second driving piece (211) to enable the two clamping jaws (212) to be close to or far away from each other, and the second driving piece (211) is arranged on a fourth driving device (220).

6. The delivery mechanism (10) for power adapters according to claim 4, characterized in that said fourth driving means (220) comprise: the material taking device comprises a rotating shaft (223) and a support (222), wherein the support (222) is arranged on the rotating shaft (223), and the second material taking device (210) is arranged on the support (222).

7. The delivery mechanism (10) for power adapters according to claim 4, characterized in that said fifth driving means (230) comprises: the sliding device comprises a second base (231), a fourth driving piece (232) and a sliding piece (233), wherein the sliding piece (233) is arranged on the second base (231), the fourth driving piece (232) is arranged on the sliding piece (233) in a sliding mode, and a fourth driving device (220) is arranged on the second base (231) and moves along with the fourth driving piece (232).

8. The delivery mechanism (10) for power adapters of claim 2, wherein said transplanting assembly (300) further comprises: the third material taking device (310) is arranged on the sixth driving device (320) in a sliding mode along the first direction, and the sixth driving device (320) is arranged on the seventh driving device (330) in a sliding mode along the third direction.

9. The conveyor mechanism (10) for power adapters of claim 8, wherein said third material extracting apparatus (310) comprises: a second pick-up head (311) and a second pressure sensor (312), said second pick-up head (311) being disposed on said sixth drive means (320), said second pressure sensor (312) being disposed on said second pick-up head (311).

10. The delivery mechanism (10) for a power adapter according to claim 1, further comprising; the color box assembly comprises a color box and a conveying belt, the color box and the power adapter are arranged oppositely, the color box is borne on the conveying belt, and the third material taking device is used for conveying the power adapter into the color box.

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