CN108538517B - Parallel belt plate USB3.1 cable production line and production process thereof - Google Patents

Abstract

The invention relates to a parallel tape plate USB3.1 cable production line which is characterized by comprising eighteen insulation production lines (100), five wrapping production lines (200), a collection production line (300), a weaving production line (400), a sheath production line (500) and a pair twisting production line (600). The parallel tape plate USB3.1 cable production line and the production process thereof have the advantages that the core wires are not required to be cut off in the wrapping process, the wrapping material can be charged, the production efficiency is improved, and the product quality is improved.

Description

Parallel belt plate USB3.1 cable production line and production process thereof

Technical Field

The invention relates to a parallel belt plate USB3.1 cable production line and a production process thereof.

Background

In parallel band version USB3.1 cable production process, need wrap the operation around the package outside the heart yearn, tradition is wrapping the in-process around the package, work as a roll and use up around the package material, need whole line to shut down, cut the heart yearn, just can change down to wrap the package with remaining around the package core, install new again around the package material, whole change process is comparatively loaded down with trivial details, and down time is longer, influence production efficiency, the heart yearn need cut in addition, also can lead to the discontinuity of product, reduce product quality.

Disclosure of Invention

The invention aims to overcome the defects, and provides a parallel band plate USB3.1 cable production line and a production process thereof, wherein the parallel band plate USB3.1 cable production line can finish the charging of a wrapping material without cutting off a core wire in the wrapping process, the production efficiency is improved, and the product quality is improved.

The purpose of the invention is realized as follows:

a production line of parallel band version USB3.1 cable includes eighteen insulating assembly lines, five around package assembly lines, a set assembly line, one weave assembly line, a sheath assembly line and a pair twist assembly line.

The first insulation assembly line and the second insulation assembly line are respectively used for insulation of an insulation white line and an insulation black line in the red wrapping line;

the third insulation assembly line and the fourth insulation assembly line are respectively used for insulation of an insulation white line and an insulation black line in the brown tape wrapping line;

the fifth insulation assembly line and the sixth insulation assembly line are respectively used for insulation of the insulation white line and the insulation black line in the blue tape wrapping line;

the seventh insulation assembly line and the eighth insulation assembly line are respectively used for insulation of the insulation white line and the insulation black line in the green tape wrapping line;

the ninth insulation assembly line and the tenth insulation assembly line are respectively used for insulation of the white insulation wire and the green insulation wire in the white-green twisted pair wire;

the eleventh insulation assembly line is used for insulating the red insulation line;

the twelfth insulation production line is used for insulating the brown insulation line;

the thirteenth insulation assembly line is used for insulating an orange insulation line;

the fourteenth insulation production line is used for insulation of the purple insulation line;

the fifteenth insulation production line is used for insulating the gray insulation lines;

the sixteenth insulation assembly line is used for insulating the yellow insulation wire;

the seventeenth insulation assembly line is used for insulating the blue insulation wire;

the eighteenth insulation assembly line is used for insulating the black insulation line;

the first insulation assembly line and the second insulation assembly line are connected in parallel and are connected with a first wrapping assembly line behind the first insulation assembly line, and the first wrapping assembly line is used for wrapping red tape wires;

the third insulation assembly line and the fourth insulation assembly line are connected in parallel and are connected with a second wrapping assembly line behind the third insulation assembly line and the fourth insulation assembly line, and the second wrapping assembly line is used for wrapping brown tape wires;

the fifth insulation assembly line and the sixth insulation assembly line are connected in parallel and are connected with a third wrapping assembly line behind the fifth insulation assembly line and the sixth insulation assembly line, and the second wrapping assembly line is used for wrapping blue tape wires;

the seventh insulation assembly line and the eighth insulation assembly line are connected in parallel and are connected with a fourth wrapping assembly line behind the seventh insulation assembly line and the eighth insulation assembly line together, and the second wrapping assembly line is used for wrapping green tape wires;

the ninth insulation assembly line and the tenth insulation assembly line are connected in parallel and are connected with a pair-twisting assembly line behind the ninth insulation assembly line, and the pair-twisting assembly line is used for twisting white and green pair-twisted wires;

the first, second, third, fourth, pair, eleventh to eighteenth insulation assembly lines are connected in parallel with a gathering assembly line at the rear, the gathering assembly line is used for gathering red, brown, blue, green, red, brown, orange, purple, gray, yellow, blue, black, white-green and filling lines, the fifth wrapping assembly line is used for gathering red, brown, blue, green, red, blue, green, red, brown, blue, red, brown, orange, purple, green, red, brown, orange, purple, gray, Yellow insulated wire, blue insulated wire, black insulated wire, white green twisted pair line and filling wire carry out the aluminium foil around the package and form inner structure, and the assembly line is woven in the connection of fifth rear around the package assembly line, weaves the outer formation weaving layer of weaving that the assembly line is used for inner structure, weaves the rear connection sheath assembly line of assembly line, and the sheath assembly line is used for the outer formation restrictive coating of weaving layer.

A continuous wrapping device is arranged on the wrapping production line;

a continuous wrapping device comprises a first wire passing sleeve and a second wire passing sleeve which are transversely arranged, wherein the first wire passing sleeve and the second wire passing sleeve are arranged left and right and a section of space is reserved between the first wire passing sleeve and the second wire passing sleeve, and the section of space forms a wrapping area;

a rotary sleeve is sleeved outside the first wire passing sleeve, a rotary plate extending outwards is fixedly connected to the left end of the rotary sleeve, a bearing is arranged between the rotating sleeve and the first wire passing sleeve, a plurality of circles of radially distributed springs are arranged on the outer side of the rotating sleeve from left to right, each circle is provided with a plurality of groups of springs, the outer end of the spring located at the same radial position is connected with a transversely arranged inner expansion rod, the plurality of groups of inner expansion rods form an inner expansion sleeve, the outer side of the right end of each inner expansion rod is provided with an inward guide inclined plane, a wrapping part for wrapping is sleeved on the outer side of the left middle section of each inner expansion sleeve, each wrapping part comprises an inner layer wrapping core and an outer layer wrapping material, a first locking sleeve is screwed on the right section of each inner expansion sleeve, the right section of each inner expansion sleeve is in threaded fit with the first locking sleeve, the outer surface of each first locking sleeve is an arc surface with an outward convex surface, and the outer diameter of the left end of each first locking sleeve is consistent with the outer diameter of;

a fixed sleeve is sleeved outside the second wire passing sleeve, a fixed plate extending outwards is fixedly connected to the right end of the fixed sleeve, a plurality of groups of wrapping pieces to be fed are sleeved outside the fixed sleeve on the left side of the fixed plate, and a second locking sleeve is screwed outside the left end of the fixed sleeve;

the wrapping roll core, the first locking sleeve and the second locking sleeve are of split structures matched with the respective shapes of the first locking sleeve and the second locking sleeve; the split structure comprises an upper arc part and a lower arc part, wherein the two arc parts are embedded with each other through a groove and a clamping block.

Preferably, the left end surface of the rotating plate is connected with a rotating power mechanism for providing rotating power for the rotating plate.

Preferably, the left end of the inner expanding sleeve is positioned in the limiting groove on the right side surface of the rotating plate.

When the wrapping material of the wrapping piece outside the internal expansion sleeve is wrapped, the machine is stopped, the first locking sleeve is screwed off, the split structure of the first locking sleeve is separately taken down, then moving the wrapped roll core to the right, taking off the split structure of the wrapped roll core separately, screwing off the second locking sleeve, taking off the split structure of the second locking sleeve separately, moving the left-most wrapped part on the fixed sleeve to the inner expansion sleeve, guiding the wrapped part by the guide inclined plane when moving, when the wrapped part moves to the left end of the inner expansion sleeve, due to the action of the spring, the inner expanding sleeve locks the wrapping piece, the first locking sleeve and the second locking sleeve are sequentially installed, the second locking sleeve abuts against the wrapping piece which is positioned at the leftmost end of the fixed sleeve after being updated, the newly replaced wrapping material of the wrapping piece is connected to the core wire, the machine is restarted, the wrapping operation is continued, and the process is repeated until the core wire and the multiple groups of wrapping pieces to be loaded are all wrapped.

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

the parallel tape plate USB3.1 cable production line and the production process thereof have the advantages that the core wires are not required to be cut off in the wrapping process, the wrapping material can be charged, the production efficiency is improved, and the product quality is improved.

Drawings

Fig. 1 is a schematic structural diagram of a parallel band version USB3.1 cable.

Fig. 2 is a schematic structural diagram of an internal structure of a parallel band version USB3.1 cable.

Fig. 3 is a schematic view of a production line of parallel tape-coated USB3.1 cables.

Fig. 4 is a schematic structural view of a continuous wrapping device.

Fig. 5 is a partial schematic view of the structure of the first wire passing sleeve in fig. 4.

Fig. 6 is a partial schematic view of the structure of the second wire passing sleeve in fig. 4.

Fig. 7 is a side view of the split structure.

FIG. 8 is a side view of the connection between the internal expanding sleeve and the rotating sleeve.

Wherein:

insulation line 100

Wrapping assembly line 200

Assembly line 300

Braiding line 400

Jacket line 500

Pair twist production line 600

Parallel band version USB3.1 cable 800, braided layer 801, sheath layer 802, red band wire 803, brown band wire 804, blue band wire 805, green band wire 806, red insulating wire 807, brown insulating wire 808, orange insulating wire 809, purple insulating wire 810, gray insulating wire 811, yellow insulating wire 812, blue insulating wire 813, black insulating wire 814, white-green twisted pair 815 and filling wire 816

The continuous winding device 900, the first wire passing sleeve 901, the second wire passing sleeve 902, the rotating sleeve 903, the rotating plate 904, the bearing 905, the spring 906, the inner expanding rod 907, the winding core 908, the winding material 909, the first locking sleeve 910, the fixing sleeve 911, the fixing plate 912, the second locking sleeve 913 and the core wire 914.

Detailed Description

Referring to fig. 1-8, the invention relates to a production line of a parallel tape-coated USB3.1 cable and a production process thereof, wherein the parallel tape-coated USB3.1 cable 800 comprises an internal structure, and a braided layer 801 and a sheath layer 802 which are sequentially arranged outwards outside the internal structure, and the internal structure comprises a red tape-coated wire 803, a brown tape-coated wire 804, a blue tape-coated wire 805, a green tape-coated wire 806, a red insulating wire 807, a brown insulating wire 808, an orange insulating wire 809, a purple insulating wire 810, a gray insulating wire 811, a yellow insulating wire 812, a blue insulating wire 813, a black insulating wire 814, a white-green twisted pair 815 and a filling wire 816; the red wrapping wire 803, the brown wrapping wire 804, the blue wrapping wire 805, the green wrapping wire 806, the red insulating wire 807, the brown insulating wire 808, the orange insulating wire 809, the purple insulating wire 810, the gray insulating wire 811, the yellow insulating wire 812, the blue insulating wire 813, the black insulating wire 814, the white-green twisted pair 815 and the filling wire 816 are firstly gathered and then wrapped by aluminum foil to form an internal structure;

the red wrapping tape line 803 is formed by wrapping an internal insulating white line, an insulating black line and a ground line by a red wrapping tape;

the brown wrapping wire 804 is formed by wrapping an insulating white wire, an insulating black wire and a ground wire inside through a brown wrapping tape;

the blue wrapping wire 805 is formed by wrapping an internal insulating white wire, an insulating black wire and a ground wire through a blue wrapping tape;

the green wrapping wire 806 is formed by wrapping an internal insulating white wire, an insulating black wire and a ground wire with a green wrapping tape;

the white-green twisted pair 815 is formed by twisting a white insulated wire and a green insulated wire;

the various insulated wires described above are made from the exterior of a conductor by an insulating process.

A production line of parallel band plate USB3.1 cables comprises eighteen insulation production lines 100, five wrapping production lines 200, a collection production line 300, a weaving production line 400, a sheath production line 500 and a pair twist production line 600;

the first insulation assembly line 100 and the second insulation assembly line 100 are respectively used for insulation of an insulation white line and an insulation black line in the red tape line 803;

the third insulation assembly line 100 and the fourth insulation assembly line 100 are used for insulation of an insulation white line and an insulation black line in the brown tape-covered line 804 respectively;

the fifth insulation assembly line 100 and the sixth insulation assembly line 100 are used for insulation of the insulation white line and the insulation black line in the blue tape line 805 respectively;

the seventh insulation assembly line 100 and the eighth insulation assembly line 100 are used for insulation of the insulation white line and the insulation black line in the green tape line 806 respectively;

the ninth insulation assembly line 100 and the tenth insulation assembly line 100 are used for insulation of the white insulation wire and the green insulation wire in the white-green twisted pair wire 807 respectively;

the eleventh insulation line 100 is used for insulation of the red insulation line 807;

the twelfth insulation production line 100 is used for insulation of the brown insulation line 808;

the thirteenth insulation production line 100 is used for insulating an orange insulation line 809;

the fourteenth insulation line 100 is used for insulation of the purple insulation line 810;

a fifteenth insulation line 100 is used for the insulation of the grey insulated wires 811;

the sixteenth insulation line 100 is used for insulation of the yellow insulation line 812;

the seventeenth insulation line 100 is used for insulation of the blue insulation line 813;

the eighteenth insulation line 100 is used for insulation of the black insulation line 814;

the first insulating assembly line 100 and the second insulating assembly line 100 are connected in parallel and are connected with a first wrapping assembly line 200 behind the first insulating assembly line 100, and the first wrapping assembly line 200 is used for wrapping a red tape-covered wire 803;

the third insulation assembly line 100 and the fourth insulation assembly line 100 are connected in parallel and are connected with a second wrapping assembly line 200 behind the third insulation assembly line and the fourth insulation assembly line 100, and the second wrapping assembly line 200 is used for wrapping a brown tape wrapping line 804;

the fifth insulation assembly line 100 and the sixth insulation assembly line 100 are connected in parallel and are connected with a third lapping assembly line 200 behind the fifth insulation assembly line and the sixth insulation assembly line, and the second lapping assembly line 200 is used for lapping the blue tape line 805;

the seventh insulation assembly line 100 and the eighth insulation assembly line 100 are connected in parallel and are connected with a fourth lapping assembly line 200 behind the seventh insulation assembly line and the eighth insulation assembly line 100, and the second lapping assembly line 200 is used for lapping a green tape-covered wire 806;

the ninth insulation assembly line 100 and the tenth insulation assembly line 100 are connected in parallel and are commonly connected with a pair-twisting assembly line 600 behind the ninth insulation assembly line 100, and the pair-twisting assembly line 600 is used for twisting the white-green pair-twisted wires 807;

the first wrapping production line 200, the second wrapping production line 200, the third wrapping production line 200, the fourth wrapping production line 200, the pair twisting production line 600, the eleventh insulation production line 100 to the eighteenth insulation production line 100 are connected in parallel and jointly connected with the assembly production line 300 behind the first wrapping production line, the eleventh insulation production line 100 to the eighteenth insulation production line 100, the assembly production line 300 is used for assembling a red wrapping line 803, a brown wrapping line 804, a blue wrapping line 805, a green wrapping line 806, a red insulation line 807, a brown insulation line 808, an orange insulation line 809, a purple insulation line 810, a gray insulation line 811, a yellow insulation line 812, a blue insulation line 813, a black insulation line 814, a white green twisted pair line 815 and a filling line 816, the fifth wrapping production line 200 is connected behind the assembly production line 300, and the fifth wrapping production line 200 is used for assembling the red wrapping line 803, the brown wrapping line 804, the blue wrapping line 805, the green wrapping line 806, the blue wrapping line 815 and the filling line 816, Red insulated wire 807, brown insulated wire 808, orange insulated wire 809, purple insulated wire 810, gray insulated wire 811, yellow insulated wire 812, blue insulated wire 813, black insulated wire 814, white-green twisted pair 815 and filler wire 816 are wrapped with aluminum foil to form an internal structure, a weaving assembly line 400 is connected behind the fifth wrapping assembly line 200, the weaving assembly line 400 is used for weaving outside the internal structure to form a woven layer 801, a sheath assembly line 500 is connected behind the weaving assembly line 400, and the sheath assembly line 500 is used for weaving outside the woven layer 801 to form a sheath layer 802.

Wherein:

a continuous wrapping device 900 is arranged on the wrapping assembly line 200;

the continuous wrapping device 900 comprises a first wire passing sleeve 901 and a second wire passing sleeve 902 which are transversely arranged, wherein the first wire passing sleeve 901 and the second wire passing sleeve 902 are arranged left and right with a space left therebetween, and the space forms a wrapping area;

a rotating sleeve 903 is sleeved outside the first wire passing sleeve 901, a rotating plate 904 which extends outwards is fixedly connected to the left end of the rotating sleeve 903, the left end face of the rotating plate 904 is connected with a rotating power mechanism for providing rotating power for the rotating plate 904, a bearing 905 is arranged between the rotating sleeve 903 and the first wire passing sleeve 901, a plurality of circles of springs 906 which are radially distributed are arranged on the outer side of the rotating sleeve 903 from left to right, each circle of springs is provided with six groups of springs 906, the outer end of the spring 906 which is located at the same radial position is connected with an inner expanding rod 907 which is transversely arranged, the six groups of inner expanding rods 907 form an inner expanding sleeve, the left end of the inner expanding sleeve is located in a limiting groove on the right side face of the rotating plate 904, the limiting groove is used for limiting the left end of each inner expanding rod 907 in the compression process of the springs 906, an inward guide inclined face is arranged on the outer side of the right end of each inner expanding rod 907, and a wrapping, the wrapping part comprises an inner wrapping core 908 and an outer wrapping material 909, the right section of the inner expansion sleeve is provided with a first locking sleeve 910 in a rotating mode, the right section of the inner expansion sleeve is in threaded fit with the first locking sleeve 910, the outer surface of the first locking sleeve 910 is an outward cambered surface, and the outer diameter of the left end of the first locking sleeve 910 is consistent with the outer diameter of the right end of the wrapping core 908.

A fixed sleeve 911 is sleeved outside the second wire passing sleeve 902, a fixing plate 912 extending outwards is fixedly connected to the right end of the fixed sleeve 911, a plurality of groups of wrapping pieces to be fed are sleeved outside the fixed sleeve 911 on the left side of the fixing plate 912, and a second locking sleeve 913 is screwed outside the left end of the fixed sleeve 911;

the winding core 908, the first locking sleeve 910 and the second locking sleeve 913 have similar split structures; the split structure comprises an upper arc part and a lower arc part, wherein the two arc parts are embedded with each other through a groove and a clamping block.

After the wrapping material 909 of the wrapping part outside the inner expanding sleeve is wrapped, the machine is stopped, the first locking sleeve 910 is screwed down, the split structure of the first locking sleeve 910 is separated and taken down, then the wrapped wrapping core 908 after wrapping is moved to the right, the split structure of the wrapped core 908 is separated and taken down, the second locking sleeve 913 is screwed down, the split structure of the second locking sleeve 913 is separated and taken down, the wrapping part at the leftmost end on the fixing sleeve 911 is moved to the inner expanding sleeve, the guide slope gives the guide when the wrapping part moves, when the wrapping part moves to the left end of the inner expanding sleeve, the inner expanding sleeve locks the wrapping part due to the action of the spring 906, the first locking sleeve 910 and the second locking sleeve 913 are sequentially installed, the second locking sleeve 913 abuts against the wrapping part at the leftmost end on the fixing sleeve 911 after being updated, the wrapping material of the newly replaced wrapping part is connected to the core wire 914, the machine is restarted, and the wrapping operation is continued, the process is repeated until the core wires 914 and the plurality of groups of wrapping pieces to be fed are completely wrapped. The multiple sets of wrapped components to be loaded are matched in length to the core 914 by calculation before the wrapping operation.

The above is only a specific application example of the present invention, and the protection scope of the present invention is not limited in any way. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (1)

1. A parallel tape-wrapping USB3.1 cable production line is characterized by comprising eighteen insulation production lines (100), five wrapping production lines (200), a collection production line (300), a weaving production line (400), a sheath production line (500) and a pair-twisting production line (600);

the first insulation assembly line (100) and the second insulation assembly line (100) are respectively used for insulation of an insulation white line and an insulation black line in the red wrapping tape line (803);

the third insulation assembly line (100) and the fourth insulation assembly line (100) are respectively used for insulation of an insulation white line and an insulation black line in the brown tape wrapping line (804);

the fifth insulation assembly line (100) and the sixth insulation assembly line (100) are respectively used for insulation of the insulation white line and the insulation black line in the blue tape line (805);

the seventh insulation assembly line (100) and the eighth insulation assembly line (100) are respectively used for insulation of the insulation white line and the insulation black line in the green tape wrapping line (806);

the ninth insulation assembly line (100) and the tenth insulation assembly line (100) are respectively used for insulating white insulation wires and green insulation wires in the white-green twisted pair wires (807);

the eleventh insulation production line (100) is used for insulating the red insulation line (807);

the twelfth insulation production line (100) is used for insulating the brown insulation wire (808);

the thirteenth insulation production line (100) is used for insulating an orange insulation wire (809);

the fourteenth insulation production line (100) is used for insulating the purple insulation line (810);

a fifteenth insulation production line (100) is used for insulation of the grey insulation line (811);

the sixteenth insulation production line (100) is used for insulating the yellow insulation line (812);

the seventeenth insulation production line (100) is used for insulating the blue insulation line (813);

the eighteenth insulation production line (100) is used for insulating the black insulation wire (814);

the first insulating assembly line (100) and the second insulating assembly line (100) are connected in parallel and are connected with a first wrapping assembly line (200) behind the first insulating assembly line, and the first wrapping assembly line (200) is used for wrapping a red wrapping tape line (803);

the third insulation assembly line (100) and the fourth insulation assembly line (100) are connected in parallel and are connected with a second wrapping assembly line (200) behind the third insulation assembly line and the fourth insulation assembly line, and the second wrapping assembly line (200) is used for wrapping a brown tape-covered wire (804);

the fifth insulation assembly line (100) and the sixth insulation assembly line (100) are connected in parallel and are connected with a third wrapping assembly line (200) behind the fifth insulation assembly line and the sixth insulation assembly line, and the second wrapping assembly line (200) is used for wrapping the blue tape wrapping line (805);

the seventh insulation assembly line (100) and the eighth insulation assembly line (100) are connected in parallel and are connected with a fourth wrapping assembly line (200) behind the seventh insulation assembly line and the eighth insulation assembly line, and the second wrapping assembly line (200) is used for wrapping a green wrapping tape line (806);

the ninth insulation assembly line (100) and the tenth insulation assembly line (100) are connected in parallel and are commonly connected with a pair-twisting assembly line (600) behind the ninth insulation assembly line (100), and the pair-twisting assembly line (600) is used for twisting the white-green pair-twisted wires (807);

a first wrapping assembly line (200), a second wrapping assembly line (200), a third wrapping assembly line (200), a fourth wrapping assembly line (200), a pair twisting assembly line (600), an eleventh insulation assembly line (100) to an eighteenth insulation assembly line (100) are connected in parallel and are commonly connected with a gathering assembly line (300) behind the first wrapping assembly line, the second wrapping assembly line and the eighteenth insulation assembly line, the gathering assembly line (300) is used for gathering a red wrapping wire (803), a brown wrapping wire (804), a blue wrapping wire (805), a green wrapping wire (806), a red insulation wire (807), a brown insulation wire (808), an orange insulation wire (809), a purple insulation wire (810), a gray insulation wire (811), a yellow insulation wire (812), a blue insulation wire (813), a black insulation wire (814), a white green pair twisting wire (815) and a filling wire (816), and a fifth wrapping assembly line (200) is connected behind the gathering assembly line (300), the fifth wrapping production line (200) is used for carrying out aluminum foil wrapping on the collected red wrapping wire (803), the brown wrapping wire (804), the blue wrapping wire (805), the green wrapping wire (806), the red insulating wire (807), the brown insulating wire (808), the orange insulating wire (809), the purple insulating wire (810), the gray insulating wire (811), the yellow insulating wire (812), the blue insulating wire (813), the black insulating wire (814), the white-green twisted pair wire (815) and the filling wire (816) to form an internal structure, a weaving assembly line (400) is connected behind the fifth wrapping assembly line (200), the weaving assembly line (400) is used for weaving outside the internal structure to form a weaving layer (801), a sheath assembly line (500) is connected behind the weaving assembly line (400), and the sheath assembly line (500) is used for forming a sheath layer (802) outside the weaving layer (801);

a continuous wrapping device (900) is arranged on the wrapping assembly line (200);

the continuous wrapping device comprises a first wire passing sleeve (901) and a second wire passing sleeve (902) which are transversely arranged, wherein the first wire passing sleeve (901) and the second wire passing sleeve (902) are arranged left and right, a distance is reserved between the first wire passing sleeve (901) and the second wire passing sleeve (902), and a wrapping area is formed by the distance;

a rotating sleeve (903) is sleeved outside the first wire passing sleeve (901), a rotating plate (904) which extends outwards is fixedly connected to the left end of the rotating sleeve (903), a bearing (905) is arranged between the rotating sleeve (903) and the first wire passing sleeve (901), a plurality of circles of springs (906) which are radially distributed are arranged on the outer side of the rotating sleeve (903) from left to right, each circle is provided with a plurality of groups of springs (906), the outer end of the spring (906) which is located at the same radial position is connected with a transversely arranged inner expansion rod (907), the plurality of groups of inner expansion rods (907) form an inner expansion sleeve, the outer side of the right end of the inner expansion rod (907) is provided with an inward guide inclined plane, a wrapping piece for wrapping is sleeved on the outer left middle section of the inner expansion sleeve, the wrapping piece comprises an inner wrapping core (908) and an outer wrapping material (909), and a first locking sleeve (910) is screwed on the right section of the inner expansion sleeve, the right section of the internal expansion sleeve is in threaded fit with the first locking sleeve (910), the outer surface of the first locking sleeve (910) is an arc surface with an outward convex surface, and the outer diameter of the left end of the first locking sleeve (910) is consistent with the outer diameter of the right end of the wrapping core (908);

a fixed sleeve (911) is sleeved outside the second wire passing sleeve (902), a fixed plate (912) extending outwards is fixedly connected to the right end of the fixed sleeve (911), a plurality of groups of wrapping pieces to be fed are sleeved outside the fixed sleeve (911) on the left side of the fixed plate (912), and a second locking sleeve (913) is screwed outside the left end of the fixed sleeve (911);

the wrapping winding core (908), the first locking sleeve (910) and the second locking sleeve (913) are of split structures which are matched with the respective shapes of the first locking sleeve and the second locking sleeve; the split structure comprises an upper arc part and a lower arc part, wherein the two arc parts are embedded with each other through a groove and a clamping block;

the left end surface of the rotating plate (904) is connected with a rotating power mechanism for providing rotating power for the rotating plate (904);

the left end of the internal expansion sleeve is positioned in the limit groove on the right side surface of the rotating plate (904).

The production process of the parallel belt plate USB3.1 cable production line comprises the following steps:

when the wrapping material (909) of the wrapping part outside the inner expanding sleeve is wrapped, stopping the machine, screwing down the first locking sleeve (910), separating and taking down the split structure of the first locking sleeve (910), then moving the wrapped wrapping core (908) to the right, separating and taking down the split structure of the wrapped core (908), screwing down the second locking sleeve (913), separating and taking down the split structure of the second locking sleeve (913), moving the wrapping part at the leftmost end on the fixing sleeve (911) to the inner expanding sleeve, wherein the guide slope gives the guide for moving the wrapping part, when the wrapping part moves to the left end of the inner expanding sleeve, the inner expanding sleeve locks the wrapping part due to the action of the spring (906), sequentially installing the first locking sleeve (910) and the second locking sleeve (913), the second locking sleeve (913) is updated and then positioned at the wrapping part at the leftmost end on the fixing sleeve (911), and connecting the newly replaced wrapping material (909) to the core wire (914), and restarting the machine, continuing to perform the lapping operation, and repeating the process until the core wires (914) and the plurality of groups of lapping pieces to be fed are all lapped.

Images