CN111633149B

CN111633149B - Aluminum wire processing system and method

Info

Publication number: CN111633149B
Application number: CN202010508553.3A
Authority: CN
Inventors: 蔡锐军
Original assignee: Individual
Current assignee: Information and Telecommunication Branch of State Grid Tianjin Electric Power Co Ltd
Priority date: 2020-06-06
Filing date: 2020-06-06
Publication date: 2022-10-18
Anticipated expiration: 2040-06-06
Also published as: CN111633149A

Abstract

The invention relates to the field of wire processing, in particular to an aluminum wire processing system and method. A method of processing an aluminum wire by an aluminum wire processing system includes the steps of: s1, fixing the left ends of a plurality of aluminum wires between a lower clamping rod and an upper clamping rod which are positioned at the left ends, fixing the right ends of the plurality of aluminum wires between the lower clamping rod and the upper clamping rod which are positioned at the right ends, and then enabling the lower clamping rod to approach the upper clamping rod to clamp one end of each aluminum wire; s2, enabling the two circular rings to rotate by taking the axes of the two circular rings as shafts, enabling the rotation directions of the two circular rings to be opposite, and twisting a plurality of aluminum wires into one strand; s3, sleeving a metal strip in the middle of the twisted strand of aluminum wire, and simultaneously enabling the two arc-shaped pressing sheets to approach to tightly press the metal strip on the twisted strand of aluminum wire; s4, the electric push rod I drives the forward and backward moving rod and the cylindrical head to move forward, and the protruding part of the upper portion of the metal strip is pressed down forward, so that the metal strip is prevented from being scattered.

Description

Aluminum wire processing system and method

Technical Field

The invention relates to the field of wire processing, in particular to an aluminum wire processing system and method.

Background

The invention discloses a multifunctional metal wire processing machine with the application number of CN201910556625.9, belongs to the field of metal wire processing equipment, and particularly relates to a multifunctional metal wire processing machine which is few in functions and cannot meet the requirement of modern industry on diversity of mechanical equipment; the straightening method is single, and the straightening effect and efficiency are influenced, and the following scheme is provided, wherein the straightening method comprises a shell, a feeding roller, a cleaning assembly, a first torsion assembly, a second torsion assembly, a third torsion assembly, a discharging head and a cutting assembly; the cleaning assembly, the first torsion assembly, the second torsion assembly and the third torsion assembly are sequentially arranged in the shell from top to bottom; the cutting-off component is arranged on the periphery of the discharge head. According to the invention, through the matching action of the feeding roller, the cleaning assembly, the first twisting assembly, the second twisting assembly, the third twisting assembly, the discharging head and the cutting assembly, the cleaning, twisting and cutting operations of the metal wire are sequentially completed, and the device has the advantages of multiple functions, strong practicability and good processing effect. But this patent does not twist multiple aluminum wires into one strand.

Disclosure of Invention

The invention provides an aluminum wire processing system which has the beneficial effect that a plurality of aluminum wires can be twisted into one strand.

The invention relates to the field of wire processing, in particular to an aluminum wire processing system which comprises a circular ring, an L-shaped connecting piece, a lower clamping rod, an upper clamping rod and an upright post.

The ring is provided with one about respectively, the equal fixedly connected with L shape connecting piece in inboard of two rings, clamping bar under the equal fixedly connected with on two L shape connecting pieces, the equal fixedly connected with stand of upside of two lower clamping bars, two go up clamping bar difference sliding connection on two stands, two go up the clamping bar and lie in the upside of two lower clamping bars respectively, be provided with a plurality of semi-circular grooves on lower clamping bar and the last clamping bar relatively.

The aluminum wire processing system further comprises ejector blocks and pressing screws, the upper ends of the two stand columns are fixedly connected with the ejector blocks, the two ejector blocks are connected with the pressing screws through threads, and the lower ends of the two pressing screws are pressed on the upper sides of the two upper clamping rods respectively.

The aluminum wire processing system further comprises a vertical plate, cross rail rods, lantern rings, fastening screws and supporting arms, the cross rail rods are fixedly connected to the left side and the right side of the upper portion of the vertical plate, the supporting arms are connected to the two cross rail rods in a sliding mode, the fastening screws are connected to the two supporting arms through threads, the two fastening screws respectively prop against the two cross rail rods, lantern rings are fixedly connected to the front ends of the two supporting arms, and the two lantern rings are rotatably connected to the two lantern rings respectively.

The aluminum wire processing system further comprises gears, a motor I, gear rings and limiting pieces, wherein the two limiting pieces are fixedly connected to the front portions of the two circular rings, the two limiting pieces on the same circular ring are respectively located on the left side and the right side of the corresponding lantern ring, the gear rings are fixedly connected to the outer sides of the two circular rings, the motor I is fixedly connected to the lower portions of the two lantern rings, the gears are fixedly connected to the output shafts of the two motor I, and the two gears are respectively in meshing transmission with the two gear rings.

The aluminum wire system of processing still includes the bottom plate, the fixed axle, the pole that changes, the arc preforming, electric putter II, the lift cover, king-rod and the stock such as, the lower part fixed connection of riser is in the rear end of bottom plate, respectively be provided with one around the pole that changes, the lower part of two pole that change is all articulated to be connected on the bottom plate, the equal fixedly connected with arc preforming in upper end of two pole that change, the equal fixedly connected with fixed axle in left side of two pole that change, the middle part fixedly connected with king-rod of bottom plate, vertical sliding connection has the lift cover on the king-rod, the articulated stock such as two that is connected with is sheathe in to the lift, the other end of two stocks such as rotates respectively and connects on two fixed axles, the upper portion fixedly connected with electric putter II of king-rod, electric putter II's expansion end fixed connection is sheathe in the lift.

The aluminum wire processing system further comprises a cylindrical head, an electric push rod I and a forward and backward moving rod, the upper portion of the vertical plate is connected with the forward and backward moving rod in a forward and backward direction in a sliding mode, the upper portion of the vertical plate is fixedly connected with the electric push rod I, the movable end of the electric push rod I is fixedly connected to the forward and backward moving rod, and the front portion of the forward and backward moving rod is fixedly connected with the cylindrical head.

The aluminum wire processing system further comprises an inserting nail, a smashing block, a block-shaped seat and a circular hole, wherein the inserting nail is fixedly connected to each of the left end and the right end of the lower side of the smashing block, the two inserting nails are inserted into the front portion of the front backward moving rod, the block-shaped seat is fixedly connected to the arc pressing piece located on the front side, and the circular hole is formed in each of the left end and the right end of the block-shaped seat.

The aluminum wire system of processing still includes hollow seat, the seat goes up and down, the emery wheel pivot, motor II, motor frame and electric putter III, the hollow seat of fixedly connected with on the bottom plate, vertical sliding connection has the seat that goes up and down on the hollow seat, the upper end of seat that goes up and down is rotated and is connected with the emery wheel pivot, the left end fixedly connected with emery wheel of emery wheel pivot, the upper portion fixedly connected with motor frame of seat goes up and down, fixedly connected with motor II on the motor frame, motor II's output shaft fixed connection is at the right-hand member of emery wheel pivot, fixedly connected with electric putter III on the bottom plate, electric putter III's expansion end fixed connection is on the motor frame.

The two arc-shaped pressing sheets are clamped with metal strips which are folded into a ring, and the grinding wheel is positioned on the right sides of the two arc-shaped pressing sheets.

A method of processing an aluminum wire by an aluminum wire processing system includes the steps of:

s1, fixing the left ends of a plurality of aluminum wires between a lower clamping rod and an upper clamping rod which are positioned at the left ends, fixing the right ends of the plurality of aluminum wires between the lower clamping rod and the upper clamping rod which are positioned at the right ends, and then enabling the lower clamping rod to approach the upper clamping rod to clamp one end of each aluminum wire;

s2, enabling the two circular rings to rotate by taking the axes of the two circular rings as axes, enabling the rotation directions of the two circular rings to be opposite, and twisting a plurality of aluminum wires into one strand;

s3, sleeving a metal strip in the middle of the twisted strand of aluminum wire, and simultaneously enabling the two arc-shaped pressing sheets to approach to tightly press the metal strip on the twisted strand of aluminum wire;

s4, the electric push rod I drives the front and rear moving rod and the cylindrical head to move forwards, and the protruding part on the upper part of the metal strip is pressed forwards, so that the metal strip is prevented from being scattered;

s5, the metal strip pressed forwards falls on the block-shaped seat, the block is hammered by a hammer, the two insert nails are driven to penetrate through the upper protruding part of the metal strip, and the metal strip is further prevented from being separated from the aluminum wire after being scattered, so that the upper protruding part of the metal strip is connected into a whole;

and S6, rotating the grinding wheel and moving the grinding wheel upwards to cut off the twisted aluminum wire strand sleeved with the metal strip.

The aluminum wire processing system has the beneficial effects that:

the invention relates to an aluminum wire processing system which can be used for twisting a plurality of aluminum wires into one strand. Fixing the left ends of the aluminum wires between a lower clamping rod and an upper clamping rod which are positioned at the left ends, fixing the right ends of the aluminum wires between the lower clamping rod and the upper clamping rod which are positioned at the right ends, and then clamping one ends of the aluminum wires by the lower clamping rod approaching the upper clamping rod; the two circular rings rotate by taking the axes of the two circular rings as shafts, the rotating directions of the two circular rings are opposite, and a plurality of aluminum wires are twisted into one strand.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of an overall structure of an aluminum wire processing system according to the present invention;

FIG. 2 is a schematic diagram of an overall structure of an aluminum wire processing system according to the present invention;

FIG. 3 is a schematic structural view of a vertical plate;

FIG. 4 is a schematic view of the collar;

FIG. 5 is a schematic view of the structure of the ring;

FIG. 6 is a first schematic structural diagram of a base plate;

FIG. 7 is a second structural view of the base plate;

fig. 8 is a schematic structural view of the hollow seat.

In the figure: a vertical plate 1; a cylindrical head 101; a plug pin 102; smashing a block 103; an electric push rod I104; forward and backward movement of the rod 105; a rail bar 106; a collar 2; a fastening screw 201; a support arm 202; a gear 203; a motor I204; a circular ring 3; a toothed ring 301; a limiting piece 302; an L-shaped connector 303; a lower clamping bar 304; an upper clamping bar 305; a column 306; a top block 307; a compression screw 308; a base plate 4; a fixed shaft 401; a turret bar 402; an arc-shaped pressing sheet 403; a block-shaped seat 404; a circular aperture 405; an electric push rod II406; a lifting sleeve 407; a middle rod 408; the equal-length rod 409; a metal strip 5; a hollow seat 6; a lifting seat 601; a grinding wheel 602; a grinding wheel spindle 603; a motor II604; a motor mount 605; electric push rod III606.

Detailed Description

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings, which are based on the orientations and positional relationships indicated in the drawings, and are used for convenience in describing the present invention and for simplicity in description, but do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate a number of the indicated technical features. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The first embodiment is as follows:

the present invention will be described with reference to fig. 1 to 8, and the present invention relates to the field of wire processing, and more specifically to an aluminum wire processing system, which includes a circular ring 3, an L-shaped connector 303, a lower clamping bar 304, an upper clamping bar 305, and a vertical column 306.

The ring 3 is controlled and respectively is provided with one, the equal fixedly connected with L shape connecting piece 303 in inboard of two rings 3, clamping bar 304 under the equal fixedly connected with on two L shape connecting pieces 303, the equal fixedly connected with stand 306 of upside of clamping bar 304 under two, clamping bar 305 is sliding connection respectively on two stands 306 on two, clamping bar 305 is located the upside of two clamping bar 304 down respectively on two, is provided with a plurality of semi-circular grooves on clamping bar 304 and the last clamping bar 305 down relatively. When in use, the left ends of the aluminum wires are fixed between the lower clamping bar 304 and the upper clamping bar 305 which are positioned at the left ends, the right ends of the aluminum wires are fixed between the lower clamping bar 304 and the upper clamping bar 305 which are positioned at the right ends, and then the lower clamping bar 304 approaches the upper clamping bar 305 to clamp one end of the aluminum wires; enabling the two circular rings 3 to rotate by taking the axes of the two circular rings as axes, enabling the rotation directions of the two circular rings 3 to be opposite, and twisting a plurality of aluminum wires into one strand; the lower and

upper clamping bars

304, 305 are provided with a plurality of semi-circular grooves in opposition to facilitate the placement of the ends of the aluminum wire.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 8, the aluminum wire processing system further includes a top block 307 and a pressing screw 308, the top ends of the two columns 306 are fixedly connected with the top block 307, the two top blocks 307 are connected with the pressing screw 308 through threads, and the lower ends of the two pressing screws 308 are respectively pressed on the upper sides of the two upper clamping rods 305. The upper clamping bar 305 may be pressed downward when the compression screw 308 is rotated so that the lower clamping bar 304 and the upper clamping bar 305 clamp one end of the aluminum wire.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 8, the aluminum wire processing system further includes a vertical plate 1, a cross rail rod 106, a collar 2, a fastening screw 201 and a support arm 202, the cross rail rod 106 is fixedly connected to both left and right sides of the upper portion of the vertical plate 1, the support arm 202 is slidably connected to both the cross rail rods 106, the fastening screw 201 is connected to both the support arms 202 through a thread, the two fastening screws 201 respectively abut against the two cross rail rods 106, the collar 2 is fixedly connected to both front ends of the two support arms 202, and the two collars 2 are respectively rotatably connected to the two collars 2. The two support arms 202 can slide left and right on the two cross rail rods 106 respectively, the distance between the two lantern rings 2 is adjusted, the distance between the two circular rings 3 is further adjusted, and the support arms 202 can be fixed by rotating the fastening screws 201; the two rings 3 are rotatable on the two collars 2, respectively.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 8, the aluminum wire processing system further includes a gear 203, a motor I204, a toothed ring 301 and two limiting pieces 302, the front portions of the two rings 3 are fixedly connected with the two limiting pieces 302, the two limiting pieces 302 on the same ring 3 are respectively located on the left and right sides of the corresponding lantern ring 2, the outer sides of the two rings 3 are fixedly connected with the toothed ring 301, the lower portions of the two lantern rings 2 are fixedly connected with the motor I204, the output shafts of the two motors I204 are fixedly connected with the gear 203, and the two gears 203 are respectively in meshing transmission with the two toothed rings 301. The motor I204 drives the gear 203 to rotate, the gear 203 rotates to drive the gear ring 301 to rotate, and then the circular ring 3 is driven to rotate on the lantern ring 2. The stop tab 302 serves to prevent the ring 3 from disengaging from the collar 2.

The fifth concrete implementation mode is as follows:

the present embodiment is described below with reference to fig. 1 to 8, the aluminum wire processing system further includes a bottom plate 4, a fixing shaft 401, a rotating frame rod 402, an arc-shaped pressing sheet 403, an electric push rod II406, a lifting sleeve 407, a middle rod 408 and equal length rods 409, the lower portion of the vertical plate 1 is fixedly connected to the rear end of the bottom plate 4, one each is disposed at the front and the rear of the rotating frame rod 402, the lower portions of the two rotating frame rods 402 are hinged to the bottom plate 4, the upper ends of the two rotating frame rods 402 are fixedly connected to the arc-shaped pressing sheet 403, the left sides of the two rotating frame rods 402 are fixedly connected to the fixing shaft 401, the middle portion of the bottom plate 4 is fixedly connected to the middle rod 408, the lifting sleeve 407 is vertically connected to the middle rod 408 in a sliding manner, the lifting sleeve 407 is hinged to two equal length rods 409, the other ends of the two equal length rods 409 are rotatably connected to the two fixing shafts 401, the upper portion of the middle rod 408 is fixedly connected to the electric push rod II406, and the movable end of the electric push rod II406 is fixedly connected to the lifting sleeve 407. When the electric push rod II406 is stretched, the lifting sleeve 407 can be driven to vertically slide on the middle rod 408, the lifting sleeve 407 vertically slides to respectively drive the two rotating frame rods 402 to simultaneously approach or keep away from rotation through the two equal-length rods 409, and then the two arc-shaped pressing sheets 403 are controlled to simultaneously approach or keep away from rotation; in order to prevent the twisted strand of aluminum wire from unraveling, a metal strip 5 is sleeved in the middle of the twisted strand of aluminum wire, and the two arc-shaped pressing pieces 403 are close to and press the metal strip 5 on the twisted strand of aluminum wire at the same time, so as to prevent the twisted strand of aluminum wire from unraveling.

The sixth specific implementation mode is as follows:

the present embodiment is described below with reference to fig. 1 to 8, the aluminum wire processing system further includes a cylinder head 101, an electric push rod I104, and a forward-backward moving rod 105, the upper portion of the vertical plate 1 is slidably connected with the forward-backward moving rod 105 in the forward-backward direction, the upper portion of the vertical plate 1 is fixedly connected with the electric push rod I104, the movable end of the electric push rod I104 is fixedly connected to the forward-backward moving rod 105, and the front portion of the forward-backward moving rod 105 is fixedly connected with the cylinder head 101. After the metal strip 5 is pressed on the strand of twisted aluminum wire, the upper part of the metal strip 5 protrudes out of the redundant part, and at this time, the electric push rod I104 drives the forward and backward moving rod 105 and the cylinder head 101 to move forward, so that the protruding part of the upper part of the metal strip 5 is pressed down forward, and the metal strip 5 is prevented from being scattered.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 8, the aluminum wire processing system further includes an inserting nail 102, a smashing block 103, a block-shaped seat 404 and a circular hole 405, the left and right ends of the lower side of the smashing block 103 are fixedly connected with one inserting nail 102, the two inserting nails 102 are inserted in the front portion of the forward and backward moving rod 105, the arc-shaped pressing sheet 403 on the front side is fixedly connected with the block-shaped seat 404, and the left and right ends of the block-shaped seat 404 are provided with the circular hole 405. The metal strip 5 pressed down forward falls on the block-shaped seat 404, and then the hammer is used for hammering the block 103 to drive the two inserting nails 102 to penetrate through the upper protruding part of the metal strip 5, so that the metal strip 5 is further prevented from being separated from the aluminum wire after being scattered, the upper protruding part of the metal strip 5 is connected into a whole, and then the two inserting nails 102 are respectively inserted into the two circular holes 405.

The specific implementation mode eight:

the embodiment is described below with reference to fig. 1 to 8, the aluminum wire processing system further includes a hollow base 6, a lifting base 601, a grinding wheel 602, a grinding wheel rotating shaft 603, a motor II604, a motor frame 605 and an electric push rod III606, the hollow base 6 is fixedly connected to the bottom plate 4, the lifting base 601 is vertically and slidably connected to the hollow base 6, the grinding wheel rotating shaft 603 is rotatably connected to the upper end of the lifting base 601, the grinding wheel 6 is fixedly connected to the left end of the grinding wheel rotating shaft 603, the motor frame 605 is fixedly connected to the upper portion of the lifting base 601, the motor II604 is fixedly connected to the motor frame 605, an output shaft of the motor II604 is fixedly connected to the right end of the grinding wheel rotating shaft 603, the electric push rod III606 is fixedly connected to the bottom plate 4, and a movable end of the electric push rod III is fixedly connected to the motor frame 605. When the electric push rod III606 is extended or retracted, the motor frame 605, the lifting seat 601 and the grinding wheel 602 can be driven to lift, the motor II604 can drive the grinding wheel 602 and the grinding wheel rotating shaft 603 to rotate, and the grinding wheel 602 rotates and moves upward to cut off a strand of aluminum wire twisted by the metal strip 5.

The specific implementation method nine:

the present embodiment will be described with reference to fig. 1 to 8, wherein the two arc-shaped pressing pieces 403 hold the metal strip 5 folded into a ring shape, and the grinding wheel 602 is located on the right side of the two arc-shaped pressing pieces 403.

s1, fixing the left ends of a plurality of aluminum wires between a lower clamping rod 304 and an upper clamping rod 305 which are positioned at the left ends, fixing the right ends of the plurality of aluminum wires between the lower clamping rod 304 and the upper clamping rod 305 which are positioned at the right ends, and clamping one ends of the aluminum wires by the lower clamping rod 304 approaching the upper clamping rod 305;

s2, enabling the two circular rings 3 to rotate by taking the axes of the two circular rings as axes, enabling the rotation directions of the two circular rings 3 to be opposite, and twisting a plurality of aluminum wires into one strand;

s3, sleeving a metal strip 5 in the middle of the twisted strand of aluminum wire, and simultaneously enabling the two arc-shaped pressing sheets 403 to approach to tightly press the metal strip 5 on the twisted strand of aluminum wire;

s4, the electric push rod I104 drives the forward and backward moving rod 105 and the cylindrical head 101 to move forward, and the protruding part of the upper part of the metal strip 5 is pressed down forward, so that the metal strip 5 is prevented from being scattered;

s5, the metal strip 5 pressed forwards falls on the block-shaped seat 404, the hammer is used for beating and smashing the block 103, the two inserting nails 102 are driven to penetrate through the upper protruding part of the metal strip 5, and the metal strip 5 is further prevented from being separated from the aluminum wire after being scattered, so that the upper protruding part of the metal strip 5 is connected into a whole;

s6, the grinding wheel 602 rotates and moves upwards, and then the twisted aluminum wire wrapped with the metal strip 5 is cut off.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an aluminum wire system of processing, includes ring (3), L shape connecting piece (303), lower clamping bar (304), goes up clamping bar (305) and stand (306), its characterized in that: the left side and the right side of each circular ring (3) are respectively provided with one circular ring, the inner sides of the two circular rings (3) are fixedly connected with L-shaped connecting pieces (303), the two L-shaped connecting pieces (303) are respectively fixedly connected with lower clamping rods (304), the upper sides of the two lower clamping rods (304) are respectively fixedly connected with upright columns (306), the two upper clamping rods (305) are respectively connected onto the two upright columns (306) in a sliding manner, the two upper clamping rods (305) are respectively positioned on the upper sides of the two lower clamping rods (304), and the lower clamping rods (304) and the upper clamping rods (305) are relatively provided with a plurality of semicircular grooves;

the aluminum wire processing system further comprises a top block (307) and pressing screws (308), the upper ends of the two upright posts (306) are fixedly connected with the top block (307), the two top blocks (307) are connected with the pressing screws (308) through threads, and the lower ends of the two pressing screws (308) are respectively pressed on the upper sides of the two upper clamping rods (305);

the aluminum wire processing system further comprises a vertical plate (1), transverse rail rods (106), lantern rings (2), fastening screws (201) and support arms (202), the transverse rail rods (106) are fixedly connected to the left side and the right side of the upper portion of the vertical plate (1), the support arms (202) are connected to the two transverse rail rods (106) in a sliding mode, the fastening screws (201) are connected to the two support arms (202) through threads, the two fastening screws (201) are respectively propped against the two transverse rail rods (106), the lantern rings (2) are fixedly connected to the front ends of the two support arms (202), and the two lantern rings (2) are respectively connected to the two circular rings (3) in a rotating mode;

the aluminum wire processing system further comprises a gear (203), a motor I (204), gear rings (301) and limiting pieces (302), wherein the front parts of the two circular rings (3) are fixedly connected with the two limiting pieces (302), the two limiting pieces (302) on the same circular ring (3) are respectively positioned on the left side and the right side of the corresponding lantern rings (2), the outer sides of the two circular rings (3) are fixedly connected with the gear rings (301), the lower parts of the two lantern rings (2) are fixedly connected with the motor I (204), the output shafts of the two motor I (204) are fixedly connected with the gear (203), and the two gear (203) are respectively in meshing transmission with the two gear rings (301);

the aluminum wire processing system further comprises a bottom plate (4), a fixed shaft (401), a rotating frame rod (402), arc-shaped pressing sheets (403), an electric push rod II (406), a lifting sleeve (407), a middle rod (408) and equal length rods (409), the lower part of the vertical plate (1) is fixedly connected to the rear end of the bottom plate (4), the front part and the rear part of the rotating frame rod (402) are respectively provided with one rotating frame rod, the lower parts of the two rotating frame rods (402) are hinged to the bottom plate (4), the upper ends of the two rotating frame rods (402) are fixedly connected with the arc-shaped pressing sheets (403), the left sides of the two rotating frame rods (402) are fixedly connected with the fixed shaft (401), the middle part of the bottom plate (4) is fixedly connected with the middle rod (408), the vertical sliding connection of the middle rod (408) is provided with the lifting sleeve (407), the lifting sleeve (407) is hinged to the lifting sleeve (409), the other ends of the two equal length rods (409) are respectively rotatably connected to the two fixed shafts (401), the upper part of the middle rod (408) is fixedly connected with the electric push rod II (406), and the movable end of the electric push rod II (406) is fixedly connected to the lifting sleeve (407);

the aluminum wire processing system further comprises a cylindrical head (101), an electric push rod I (104) and a forward and backward moving rod (105), the upper part of the vertical plate (1) is connected with the forward and backward moving rod (105) in a sliding mode in the forward and backward directions, the upper part of the vertical plate (1) is fixedly connected with the electric push rod I (104), the movable end of the electric push rod I (104) is fixedly connected onto the forward and backward moving rod (105), and the front part of the forward and backward moving rod (105) is fixedly connected with the cylindrical head (101);

the aluminum wire processing system further comprises inserting nails (102), smashing blocks (103), massive seats (404) and circular holes (405), wherein the inserting nails (102) are fixedly connected to the left end and the right end of the lower side of each smashing block (103), the two inserting nails (102) are inserted into the front portion of the front and rear moving rod (105), the arc pressing sheet (403) on the front side is fixedly connected with the massive seats (404), and the circular holes (405) are arranged at the left end and the right end of the massive seats (404).

2. The aluminum wire processing system of claim 1, wherein: the aluminum wire processing system further comprises a hollow base (6), a lifting base (601), a grinding wheel (602), a grinding wheel rotating shaft (603), a motor II (604), a motor frame (605) and an electric push rod III (606), the hollow base (6) is fixedly connected to the bottom plate (4), the lifting base (601) is vertically connected to the hollow base (6) in a sliding mode, the grinding wheel rotating shaft (603) is connected to the upper end of the lifting base (601) in a rotating mode, the grinding wheel (602) is fixedly connected to the left end of the grinding wheel rotating shaft (603), the motor frame (605) is fixedly connected to the upper portion of the lifting base (601), the motor II (604) is fixedly connected to the motor frame (605), the output shaft of the motor II (604) is fixedly connected to the right end of the grinding wheel rotating shaft (603), the electric push rod III (606) is fixedly connected to the bottom plate (4), and the movable end of the electric push rod III (606) is fixedly connected to the motor frame (605).

3. The aluminum wire processing system of claim 2, wherein: the two arc-shaped pressing sheets (403) clamp the metal strip (5) which is folded into a ring, and the grinding wheel (602) is positioned on the right sides of the two arc-shaped pressing sheets (403).

4. A method of processing aluminum wire filaments by an aluminum wire processing system as recited in claim 3, comprising the steps of:

s1, fixing the left ends of a plurality of aluminum wires between a lower clamping rod (304) and an upper clamping rod (305) which are positioned at the left ends, fixing the right ends of the plurality of aluminum wires between the lower clamping rod (304) and the upper clamping rod (305) which are positioned at the right ends, and clamping one ends of the aluminum wires by the lower clamping rod (304) and the upper clamping rod (305) which are close to each other;

s2, enabling the two circular rings (3) to rotate by taking the axes of the two circular rings as shafts, enabling the rotation directions of the two circular rings (3) to be opposite, and twisting a plurality of aluminum wires into one strand;

s3, sleeving a metal strip (5) in the middle of the twisted strand of aluminum wire, and simultaneously enabling two arc-shaped pressing sheets (403) to approach to tightly press the metal strip (5) on the twisted strand of aluminum wire;

s4, the electric push rod I (104) drives the forward and backward moving rod (105) and the cylindrical head (101) to move forward, the protruding part of the upper part of the metal strip (5) is pressed down forward, and the metal strip (5) is prevented from being scattered;

s5, the metal strip (5) which is pressed down forwards falls on the block-shaped seat (404), and the block (103) is hammered and hammered by a hammer to drive the two inserted nails (102) to penetrate through the upper protruding part of the metal strip (5), so that the metal strip (5) is further prevented from being separated from the aluminum wire after being scattered and the upper protruding part of the metal strip (5) is connected into a whole;

s6, the grinding wheel (602) rotates and moves upwards, and then the aluminum wire twisted into a strand and sleeved with the metal strip (5) is cut off.