CN118061472B - Power adapter shell processingequipment with stub bar removes function - Google Patents

Abstract

The invention relates to the technical field of production of power adapter shells and discloses a power adapter shell processing device with a stub bar removing function.

Description

Power adapter shell processingequipment with stub bar removes function

Technical Field

The invention relates to the technical field of power adapter shell production, in particular to a power adapter shell processing device with a stub bar removing function.

Background

The power adapter is used as power supply power conversion equipment of a plurality of electronic devices, is commonly used in small electronic products such as mobile phones, liquid crystal displays, notebook computers and the like, is widely applied to various use environments, and is an injection molding device for a power adapter shell, namely equipment for manufacturing the power adapter shell by heating and injecting thermoplastic plastics or thermosetting plastics into a molding die through an injection molding cylinder. The forming mold generally comprises an upper mold and a lower mold, and after the mold product is cooled, the upper mold is uncovered to take out the finished power adapter housing from the lower mold.

The existing power adapter shell processing device is characterized in that after the power adapter shell is subjected to injection molding, a stub bar is left at the position of a glue inlet, the stub bar can influence the assembly of the whole product, so that the stub bar is required to be removed in order to ensure that the structure of the product meets the assembly requirement of the product, the product is taken out from an injection molding machine by manual hands after the product is molded, then the stub bar is manually sheared off by using cutting pliers, and finally the product is taken out and placed on a production line, so that the whole process is low in automation degree and processing efficiency.

Disclosure of Invention

The invention aims to provide a power adapter shell processing device with a stub bar removing function, which solves the problems in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: the power adapter shell machining device with the stub bar removing function comprises an injection molding machine, a material taking manipulator, a stub bar removing component and a material conveying roller set;

The material head removing assembly comprises a base, a bracket, a positioning seat, a supporting overhead, a transplanting cylinder, a pressing cylinder, an electric sucking disc, an ejection cylinder, a conical ejector block, a through hole, a movable groove, a movable block, a connecting groove, a supporting spring, a cutter and an opening;

The automatic feeding device is characterized in that a bracket and a supporting frame are arranged on the base, a positioning seat is arranged on the bracket, a transplanting cylinder is arranged on the supporting frame, a lower pressing cylinder is arranged on the transplanting cylinder in a sliding mode, an electric sucking disc is arranged on the lower pressing cylinder, an ejection cylinder is arranged on the bracket, a conical jacking block is arranged at the output end of the ejection cylinder, a through hole is formed in the positioning seat, the conical jacking block is inserted in the through hole, a movable groove is formed in the upper portion of the through hole, a moving block is arranged in the movable groove in a sliding mode, a connecting groove is formed in the moving block, the connecting groove is connected with the movable groove through a supporting spring, a cutter is arranged on the moving block, an opening is formed in the movable groove, after a power adapter shell formed by injection molding is placed on the positioning seat by a mechanical arm, the lower pressing cylinder is started, the lower pressing cylinder drives the electric sucking disc to move to a processing position, the lower pressing cylinder is started to press the electric sucking disc to fix the shell on the positioning seat, at the same time, the conical jacking block drives the moving block to move the moving block, the moving block is connected with the movable groove through the supporting block, the cutter is connected with the movable groove through the supporting spring, and the cutter can be moved to the opening of the moving block after the material taking cylinder is completely removed, and the cutter is completely machined.

Further, the collecting box is placed on the table top of the base, the collecting box is placed under the bracket, the first blanking opening is formed in the positioning seat, the second blanking opening is formed in the bracket, the first blanking opening and the second blanking opening are aligned, the cut blanking head can fall into the collecting box through the first blanking opening and the second blanking opening, and collecting of the blanking head can be achieved.

Further, an inclined plane is arranged on one side, close to the conical top block, of the moving block, and the inclined plane is parallel to the inclined plane of the conical top block.

Further, the base is provided with a material moving first-stage utilization assembly and a material moving second-stage utilization assembly, execution driving force is provided for the material moving first-stage utilization assembly and the material moving second-stage utilization assembly through the operation of the lower pressure cylinder, and the cooperative operation of the material moving first-stage utilization assembly and the material moving second-stage utilization assembly is realized.

Further, the material moving primary utilization component comprises a working chamber, a first fixed rod, a connecting plate, a connecting spring, a linkage plate, a connecting rod, a stress rod and a transmission shaft;

Be equipped with the working chamber on the base, fixed mounting has first dead lever in the working chamber, slidable mounting has the connecting plate on the first dead lever, connecting spring is installed at the top of connecting plate and working chamber, install the gangboard on the connecting plate, install the connecting rod on the gangboard, install the atress pole on the connecting rod, install the transmission shaft on the gangboard, when the cylinder is down in the processing position operation, the cylinder drives electric sucking disc down and moves down the in-process and can push down the atress pole down, and the atress pole can drive the connecting plate extension connection spring on the first dead lever through connecting rod and gangboard, realizes the synchronization of atress pole and gangboard to can let the gangboard drive the transmission shaft and move down in step.

Further, the material moving secondary utilization component comprises a spiral slideway, a turntable, a connecting rod, a swivel, a driving shaft, a driving wheel, a fixed plate, a rotating shaft, a driven wheel, a passage hole and a driving belt;

The utility model discloses a transmission shaft, including the base, the work room, the rotating ring, the connecting rod is installed to the top rotation of work room, the connecting rod is installed to the bottom of carousel, the transmission shaft runs through the rotating ring, rotate on the rotating ring and install the drive shaft, the drive shaft alternates in the spiral slide, the cover is equipped with the drive wheel on the rotating ring, two sets of fixed plates are installed to the bilateral symmetry of base, two sets of rotate on the fixed plate and install the pivot, the driven wheel is installed to the lower extreme of pivot, the passageway hole has been seted up to one side that the work room is close to the driven wheel, two sets of driven wheel respectively with the drive wheel cover establish the drive belt, drive belt quantity is two, when the transmission shaft moves down, under the extrusion effect of drive shaft on utilizing spiral slide on the transmission shaft and the rotating ring, can let the transmission shaft drive the rotating ring rotate at longitudinal movement in-process, the rotating ring can drive the drive wheel and rotate in step, under the band pulley transmission effect that drive wheel, can realize the rotation of pivot.

Further, the material moving secondary utilization assembly further comprises a reciprocating screw rod, a limiting block, a sliding seat, a second fixing rod, a sliding plate, a push-pull rod, a linkage rod and a clamping plate;

The reciprocating screw is installed to the upper end of pivot, two sets of the stopper is installed at the top of reciprocating screw, and two sets of slidable mounting has the slide on the reciprocating screw, the base is close to one side of reciprocating screw and installs the second dead lever, slidable mounting has the slide on the second dead lever, the slide is connected through the push-and-pull rod with the slide, the both ends of push-and-pull rod are articulated with the slide respectively in the slide, install the gangbar on the slide, install splint on the gangbar, when reciprocating screw rotates, two sets of slides carry out the staggered operation, namely when one slide moves to the nadir along the reciprocating screw, another slide moves to the nadir along the reciprocating screw, and when the pivot rotates, the pivot can drive reciprocating screw and rotate in step, and reciprocating screw can drive the slide and carry out vertical reciprocating motion in the rotatory in-process, and when the slide moves down, the slide can drive the slide of last year of second dead lever through the pole and move towards the base direction, and can drive the slide through the push-and-pull rod and-move towards keeping away from the base direction, and can take place the stack in the box through the staggered operation of two sets of slides and can not take place in the equal effect of the box of stacking in the reciprocal box when reciprocating screw is realized.

Further, open the fluting has been seted up on the mesa of base, a plurality of roller are installed to the fluting internal rotation, the roller is the line contact with the bottom of box that gathers materials, can reduce the removal frictional force of box that gathers materials, ensures the smooth and easy removal of box that gathers materials.

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

When the material taking manipulator places the injection molding power adapter shell behind the positioning seat, start and transplant the cylinder, make the cylinder that pushes down drive electric sucking disc and remove to the processing position, restart pushes down the cylinder, let the cylinder that pushes down the electric sucking disc and fix the shell on the positioning seat, simultaneously, start ejecting cylinder, drive movable block compression supporting spring through the toper kicking block, can let the cutter on the movable block stretch out the opening and get rid of the stub bar, after finishing processing, adsorb the shell through starting electric sucking disc, can be under the drive of transplanting the cylinder, remove the shell that finishes processing on the conveying roller group.

When the lower pressing cylinder runs at the processing position, the lower pressing cylinder drives the electric sucking disc to downwards move, the stress rod can be downwards pressed in the process of downwards moving, and can drive the transmission shaft to synchronously downwards move through the connecting rod and the linkage plate, and the running driving force can be provided for the material moving secondary utilization assembly through the movement of the transmission shaft.

Under the cooperation of the spiral slideway and the driving shaft, the driving shaft can drive the swivel to rotate in the longitudinal movement process, and under the belt pulley transmission effect formed by the driving wheel, the driven wheel and the driving belt, the sliding seat can realize longitudinal reciprocating movement, at the moment, the material collecting box can be driven to reciprocate and transversely move by utilizing the staggered operation of the two groups of sliding seats at different sides through the clamping plates on the linkage rod, so that the flatness of the accumulated material head in the material collecting box is consistent under the inertia effect, and the material head can be prevented from falling off due to nonuniform accumulation in the material collecting box.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of a first view angle structure of the present invention;

FIG. 2 is a schematic view of a second view angle structure of the present invention;

FIG. 3 is a schematic view of a first cut-away configuration of the present invention;

FIG. 4 is a second cut-away schematic view of the present invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 4;

FIG. 6 is an enlarged schematic view of the structure at B in FIG. 3;

FIG. 7 is an enlarged schematic view of the structure at C in FIG. 4;

Fig. 8 is an enlarged schematic view of the structure at D in fig. 4.

In the figure: 1. a base; 2. a bracket; 3. a collection box; 4. a positioning seat; 5. a supporting overhead; 6. transplanting air cylinders; 7. a pressing cylinder; 8. an electric suction cup; 9. an ejection cylinder; 10. a conical top block; 11. a through hole; 12. a movable groove; 13. a moving block; 14. a connecting groove; 15. a support spring; 16. a cutter; 17. an opening; 18. a first blanking port; 19. a second feed opening;

20. A material transferring first-stage utilization component; 2001. a working chamber; 2002. a first fixing rod; 2003. a connecting plate; 2004. a connecting spring; 2005. a linkage plate; 2006. a connecting rod; 2007. a force-bearing rod; 2008. a transmission shaft;

21. A material moving secondary utilization component; 2101. a spiral slideway; 2102. a turntable; 2103. a connecting rod; 2104. a swivel; 2105. a drive shaft; 2106. a driving wheel; 2107. a fixing plate; 2108. a rotating shaft; 2109. driven wheel; 2110. a passageway hole; 2111. a transmission belt; 2112. a reciprocating screw; 2113. a limiting block; 2114. a slide; 2115. a second fixing rod; 2116. a slide plate; 2117. a push-pull rod; 2118. a linkage rod; 2119. a clamping plate; 2120. slotting; 2121. and (3) a roll shaft.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1 to 5, the present invention provides the following technical solutions: the power adapter shell machining device with the stub bar removing function comprises an injection molding machine, a material taking manipulator, a stub bar removing component and a material conveying roller set;

the injection molding machine, the material taking manipulator and the material conveying roller set are all in the prior art, so that the description is not excessively repeated;

The material head removing assembly comprises a base 1, a bracket 2, a positioning seat 4, a supporting frame 5, a transplanting cylinder 6, a lower pressing cylinder 7, an electric sucking disc 8, an ejection cylinder 9, a conical ejection block 10, a through hole 11, a movable groove 12, a movable block 13, a connecting groove 14, a supporting spring 15, a cutter 16 and an opening 17;

The base 1 is provided with a bracket 2 and an overhead frame 5, the bracket 2 is provided with a positioning seat 4, the overhead frame 5 is provided with a transplanting cylinder 6, the transplanting cylinder 6 is provided with a lower pressing cylinder 7 in a sliding manner, the lower pressing cylinder 7 is provided with an electric sucking disc 8, the bracket 2 is provided with an ejection cylinder 9, the output end of the ejection cylinder 9 is provided with a conical jacking block 10, the positioning seat 4 is provided with a through hole 11, the conical jacking block 10 is inserted in the through hole 11, the upper part of the through hole 11 is provided with a movable groove 12, the movable groove 12 is internally provided with a moving block 13, the moving block 13 is provided with a connecting groove 14, the connecting groove 14 is connected with the movable groove 12 through a supporting spring 15, the moving block 13 is provided with a cutter 16, the movable groove 12 is provided with an opening 17, after the ejection cylinder 9 is arranged on the positioning seat 4 by a power adapter shell of an injection molding machine hand, the transplanting cylinder 6 is started, the lower pressing cylinder 7 is driven to move to the through hole 11, the lower pressing cylinder 7 is driven to move to the loading cylinder 7, the lower pressing cylinder 8 is driven to move through the supporting cylinder 7, the moving block 13 is driven to stretch out of the moving cylinder 13, and the cutter 13 is simultaneously driven to move the lifting cylinder 10, and the lifting cylinder is driven to move the lifting cylinder 10 to move the lifting cylinder 13 to stretch out the lifting cylinder to the lifting cylinder 13, and the lifting cylinder is completely move the lifting cylinder by the lifting block through the supporting cylinder, and the lifting cylinder is completely pressed by the lifting cylinder.

The collecting box 3 has been placed on the mesa of base 1, collecting box 3 places under bracket 2, set up first feed opening 18 on the positioning seat 4, set up second feed opening 19 on the bracket 2, first feed opening 18 and second feed opening 19 align, and the stub bar that cuts can drop in collecting box 3 through first feed opening 18 and second feed opening 19, can realize collecting the stub bar.

The moving block 13 is provided with an inclined plane on one side close to the conical top block 10, and the inclined plane is parallel to the inclined plane of the conical top block 10.

The base 1 is provided with a material moving primary utilization assembly 20 and a material moving secondary utilization assembly 21, execution driving force is provided for the material moving primary utilization assembly 20 and the material moving secondary utilization assembly 21 through the operation of the lower pressure cylinder 7, and the cooperative operation of the material moving primary utilization assembly 20 and the material moving secondary utilization assembly 21 is realized.

As shown in fig. 1-7, the material transferring stage utilizing assembly 20 includes a working chamber 2001, a first fixing rod 2002, a connecting plate 2003, a connecting spring 2004, a linkage plate 2005, a connecting rod 2006, a force rod 2007 and a transmission shaft 2008;

the base 1 is provided with a working chamber 2001, a first fixed rod 2002 is fixedly installed in the working chamber 2001, a connecting plate 2003 is slidably installed on the first fixed rod 2002, a connecting spring 2004 is installed at the tops of the connecting plate 2003 and the working chamber 2001, a linkage plate 2005 is installed on the connecting plate 2003, a connecting rod 2006 is installed on the linkage plate 2005, a stress rod 2007 is installed on the connecting rod 2006, a transmission shaft 2008 is installed on the linkage plate 2005, when a lower pressing cylinder 7 runs at a machining position, the lower pressing cylinder 7 drives an electric sucking disc 8 to downwards move, the stress rod 2007 can downwards press the stress rod 2007, the stress rod 2007 can drive the connecting plate 2003 on the first fixed rod 2002 through the connecting rod 2006 and the linkage plate 2005 to stretch the connecting spring 2004, and synchronization of the stress rod 2007 and the linkage plate 2005 is achieved, so that the linkage plate 2005 drives the transmission shaft 2008 to synchronously downwards move.

As shown in fig. 1-8, the material moving secondary utilization assembly 21 comprises a spiral slideway 2101, a turntable 2102, a connecting rod 2103, a swivel 2104, a driving shaft 2105, a driving wheel 2106, a fixing plate 2107, a rotating shaft 2108, a driven wheel 2109, a passageway hole 2110 and a driving belt 2111;

The utility model discloses a motor, including driving wheel 2101, driving wheel 2104, driving wheel 2109, driving wheel 2104, driving wheel 2101, driving wheel 2104, driving wheel 2105, driving wheel 2107, driving wheel 2108, passageway hole 2110 has been seted up to the top rotation of studio 2001, connecting rod 2103 is installed to the bottom of carousel 2102, connecting rod 2103 installs swivel 2104 in the bottom of connecting rod 2103, driving wheel 2008 runs through swivel 2104, swivel 2105 is installed in the swivel 2104 in the rotation, cover is equipped with driving wheel 2106 on swivel 2104, two sets of fixed plates 2107 are installed to the bilateral symmetry of base 1, two sets of swivel 2108 are installed in the rotation on the fixed plate 2107, the passageway hole 2110 has been seted up to one side that the studio 2001 is close to from the driving wheel 2109, two sets of from the driving wheel 2109 respectively with cover on the driving wheel 2106, driving wheel 2101 quantity is two, when the driving wheel 2008 moves down, utilizes the extrusion effect of spiral slide 2101 on driving wheel 2101 and driving wheel 2105 on swivel 2104, can make up the driving wheel 2008 and can rotate in the swivel 2106 in the rotation of driving wheel 2106 in the rotation process of driving wheel 2106 under driving wheel 2106, can realize the rotation of driving wheel 2108.

The material moving secondary utilization assembly 21 further comprises a reciprocating screw rod 2112, a limiting block 2113, a sliding seat 2114, a second fixing rod 2115, a sliding plate 2116, a push-pull rod 2117, a linkage rod 2118 and a clamping plate 2119;

The upper end of the rotating shaft 2108 is provided with a reciprocating screw 2112, the tops of the two groups of reciprocating screws 2112 are provided with limiting blocks 2113, the two groups of reciprocating screws 2112 are provided with sliding seats 2114 in a sliding mode, one side of the base 1, which is close to the reciprocating screw 2112, is provided with a second fixing rod 2115, the second fixing rod 2115 is provided with a sliding plate 2116 in a sliding mode, the sliding plate 2116 is connected with the sliding seat 2114 through a sliding rod 2117, two ends of the sliding rod 2117 are respectively hinged with the sliding plate 2116, the sliding plate 2116 is provided with a linkage rod 2118, the linkage rod 2118 is provided with a clamping plate 2119, when the reciprocating screw 2112 rotates, the two groups of sliding seats 2114 perform staggered operation, namely, when one sliding seat 2114 moves to the lowest point along the reciprocating screw 2112, the sliding seat 2118 rotates, the rotating shaft 2108 can drive the sliding seat 2112 to synchronously rotate, the sliding seat 2112 to move along the sliding seat 2112 in the sliding seat 2114 in the longitudinal direction, the sliding seat 2114 can be driven by the sliding seat 2114 to move towards the longitudinal direction of the sliding seat 2113, and the sliding seat 2114 can be far away from the base 2113 when the sliding seat 2114 is not uniformly stacked, and the sliding seat 2114 can be moved towards the base 2113, and the base 2114 can be kept away from the longitudinal direction of the sliding seat 2114.

The table top of the base 1 is provided with a slot 2120, a plurality of roll shafts 2121 are rotatably arranged in the slot 2120, the roll shafts 2121 are in line contact with the bottom of the collecting box 3, the moving friction force of the collecting box 3 can be reduced, and smooth movement of the collecting box 3 is guaranteed.

The working principle of the invention is as follows:

After the material taking manipulator places the injection molding power adapter shell on the positioning seat 4, the transplanting cylinder 6 is started, the lower pressing cylinder 7 drives the electric sucking disc 8 to move to the processing station, the lower pressing cylinder 7 is started again, the lower pressing cylinder 7 presses the electric sucking disc 8 to fix the shell on the positioning seat 4, meanwhile, the ejection cylinder 9 is started, the moving block 13 is driven by the conical ejection block 10 to compress the supporting spring 15, the cutter 16 on the moving block 13 extends out of the opening 17 to remove the stub bar, and after the processing is finished, the shell is adsorbed by the electric sucking disc 8 is started, and the processed shell can be moved to the material conveying roller set under the driving of the transplanting cylinder 6.

When the lower pressing cylinder 7 runs at a processing position, the lower pressing cylinder 7 drives the electric sucking disc 8 to downwards move, the stress rod 2007 can be downwards pressed, the stress rod 2007 can drive the connecting plate 2003 on the first fixed rod 2002 to stretch the connecting spring 2004 through the connecting rod 2006 and the linkage plate 2005, synchronization of the stress rod 2007 and the linkage plate 2005 is achieved, and therefore the linkage plate 2005 can drive the transmission shaft 2008 to downwards move synchronously, and running driving force can be provided for the material moving secondary utilization assembly 21 through movement of the transmission shaft 2008.

When the transmission shaft 2008 moves downwards, the spiral slideway 2101 on the transmission shaft 2008 and the driving shaft 2105 on the rotating ring 2104 are utilized to enable the transmission shaft 2008 to drive the rotating ring 2104 to rotate in the longitudinal movement process, the rotating ring 2104 can drive the driving wheel 2106 to synchronously rotate in the rotation process, the rotation of the rotating shaft 2108 can be realized under the belt pulley transmission effect formed by the driving wheel 2106, the driven wheel 2109 and the transmission belt 2111, when the rotating shaft 2108 rotates, the rotating shaft 2108 can drive the reciprocating screw 2112 to synchronously rotate, the reciprocating screw 2112 can drive the sliding seat 2114 to longitudinally reciprocate in the rotation process, when the sliding seat 2114 moves downwards, the sliding seat 2114 can drive the sliding plate 2116 on the second fixing rod 2115 to move towards the direction of the base 1 through the sliding rod 2117, the staggered operation of two groups of different sliding seats 2114 can drive the sliding plates 2116 on the second fixing rod 2115 to move towards the direction away from the base 1, and the aggregate box 2113 can be prevented from being stacked in a uniform plane through the clamping plates on the linkage rod 2118, and the aggregate can be prevented from being stacked up and down uniformly.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (4)

1. A power adapter shell processingequipment with stub bar removes function, its characterized in that: the power adapter shell machining device with the stub bar removing function comprises an injection molding machine, a material taking manipulator, a stub bar removing assembly and a material conveying roller set;

The material head removing assembly comprises a base (1), a bracket (2), a positioning seat (4), a supporting overhead frame (5), a transplanting air cylinder (6), a pressing air cylinder (7), an electric sucking disc (8), an ejection air cylinder (9), a conical ejector block (10), a through hole (11), a movable groove (12), a movable block (13), a connecting groove (14), a supporting spring (15), a cutter (16) and an opening (17);

the automatic cutting machine is characterized in that a bracket (2) and a supporting frame (5) are arranged on the base (1), a positioning seat (4) is arranged on the bracket (2), a transplanting air cylinder (6) is arranged on the supporting frame (5), a lower air cylinder (7) is arranged on the transplanting air cylinder (6) in a sliding mode, an electric sucking disc (8) is arranged on the lower air cylinder (7), an ejection air cylinder (9) is arranged on the bracket (2), a conical ejector block (10) is arranged at the output end of the ejection air cylinder (9), a through hole (11) is formed in the positioning seat (4), the conical ejector block (10) is inserted into the through hole (11), a movable groove (12) is formed in the upper portion of the through hole (11), a moving block (13) is arranged in a sliding mode, a connecting groove (14) is formed in the moving block (13), the connecting groove (14) is connected with the moving groove (12) through a supporting spring (15), and an opening (16) is formed in the moving block (13);

The collecting box (3) is placed on the table top of the base (1), the collecting box (3) is placed under the bracket (2), the positioning seat (4) is provided with a first blanking opening (18), the bracket (2) is provided with a second blanking opening (19), and the first blanking opening (18) and the second blanking opening (19) are aligned;

An inclined plane is arranged on one side of the moving block (13) close to the conical top block (10), and the inclined plane is parallel to the inclined plane of the conical top block (10);

The base (1) is provided with a material moving primary utilization assembly (20) and a material moving secondary utilization assembly (21), execution driving force is provided for the material moving primary utilization assembly (20) and the material moving secondary utilization assembly (21) through the operation of the lower pressure cylinder (7), and the cooperative operation of the material moving primary utilization assembly (20) and the material moving secondary utilization assembly (21) is realized;

The material moving primary utilization assembly (20) comprises a working chamber (2001), a first fixed rod (2002), a connecting plate (2003), a connecting spring (2004), a linkage plate (2005), a connecting rod (2006), a stress rod (2007) and a transmission shaft (2008);

Be equipped with studio (2001) on base (1), fixed mounting has first dead lever (2002) in studio (2001), slidable mounting has connecting plate (2003) on first dead lever (2002), connecting spring (2004) are installed at connecting plate (2003) and the top of studio (2001), install linkage board (2005) on connecting plate (2003), install connecting rod (2006) on linkage board (2005), install atress pole (2007) on connecting rod (2006), install transmission shaft (2008) on linkage board (2005).

2. The power adapter housing processing apparatus with a stub bar removal function according to claim 1, wherein: the material moving secondary utilization assembly (21) comprises a spiral slideway (2101), a rotary table (2102), a connecting rod (2103), a swivel (2104), a driving shaft (2105), a driving wheel (2106), a fixing plate (2107), a rotating shaft (2108), a driven wheel (2109), a passageway hole (2110) and a driving belt (2111);

Be equipped with spiral slide (2101) on transmission shaft (2008), carousel (2102) are installed in the top rotation of studio (2001), connecting rod (2103) are installed to the bottom of carousel (2102), swivel (2104) are installed to the bottom of connecting rod (2103), transmission shaft (2008) run through swivel (2104), install drive shaft (2105) on swivel (2104) rotation, drive shaft (2105) alternate in spiral slide (2101), cover is equipped with drive wheel (2106) on swivel (2104), two sets of fixed plate (2107) are installed to the bilateral symmetry of base (1), two sets of fixed plate (2108) are installed in the rotation on fixed plate (2107), driven wheel (2109) are installed to the lower extreme of pivot (2108), one side that studio (2001) is close to driven wheel (2109) is seted up passageway hole (2110), two sets of driven wheel (2109) respectively with drive wheel (2106) on cover drive belt (2111), drive belt (2111) quantity is two.

3. The power adapter housing processing apparatus with a stub bar removal function according to claim 2, wherein: the material moving secondary utilization assembly (21) further comprises a reciprocating screw (2112), a limiting block (2113), a sliding seat (2114), a second fixed rod (2115), a sliding plate (2116), a push-pull rod (2117), a linkage rod (2118) and a clamping plate (2119);

The reciprocating screw (2112) is installed to the upper end of pivot (2108), and two sets of stopper (2113) are installed at the top of reciprocating screw (2112), and two sets of slidable mounting has slide (2114) on reciprocating screw (2112), second dead lever (2115) are installed to one side that base (1) is close to reciprocating screw (2112), slidable mounting has slide (2116) on second dead lever (2115), slide (2116) are connected through push-and-pull rod (2117) with slide (2114), both ends of push-and-pull rod (2117) are articulated with slide (2114) in slide (2116) respectively, install gangbar (2118) on slide (2116), install splint (2119) on gangbar (2118), when reciprocating screw (2) rotates, the staggered operation is carried out to two sets of slides (2114), and when one slide (2114) moves to the nadir along reciprocating screw (2112), another slide (2114) is along reciprocating screw (2112) and is high to the slide (2114).

4. A power adapter housing processing apparatus with stub bar removal function as defined in claim 3, wherein: a slot (2120) is formed in the table top of the base (1), a plurality of roll shafts (2121) are rotatably arranged in the slot (2120), and the roll shafts (2121) are in line contact with the bottom of the collecting box (3).