阅读说明：本技术 一种线材自动热压剪切机 (Automatic hot-pressing shearing machine for wire ) 是由 李文森 于 2021-06-29 设计创作，主要内容包括：本发明涉及线材剪切技术领域,尤其涉及一种线材自动热压剪切机,包括工作台、用于放卷线材的放线装置,所述工作台上沿线材行进方向依次设有送线装置、剪切装置、热压装置、送出装置；所述送线装置,用于将放线装置送出的线材送往至剪切装置中；所述剪切装置,用于对线材进行剪切；所述热压装置,用于对线材待剪切位置进行夹紧并加热；所述送出装置,用于将剪切好的线材进行送出下料；本发明能够替代人工手动的方式来对线材进行自动剪切分段,能够减少操作人员的大量工作量,能够提高线材剪切分段的效率,能够很好地适用于大批量的线材的剪切分段。(The invention relates to the technical field of wire shearing, in particular to an automatic hot-pressing shearing machine for wires, which comprises a workbench and a wire releasing device for releasing the wires, wherein a wire feeding device, a shearing device, a hot-pressing device and a delivery device are sequentially arranged on the workbench along the advancing direction of the wires; the wire feeding device is used for feeding the wire rod fed out by the wire releasing device into the shearing device; the shearing device is used for shearing the wire; the hot-pressing device is used for clamping and heating the position of the wire to be sheared; the feeding device is used for feeding the cut wire rods out for blanking; the automatic wire shearing and segmenting device can replace a manual mode to automatically shear and segment wires, can reduce a large amount of workload of operators, can improve the efficiency of wire shearing and segmenting, and can be well suitable for shearing and segmenting large batches of wires.)

1. The utility model provides an automatic hot pressing shearing machine of wire rod, includes workstation (1), is used for unreeling pay-off (2) of wire rod, its characterized in that: the wire feeding device (3), the shearing device (4), the hot pressing device (11) and the delivery device (5) are sequentially arranged on the workbench (1) along the advancing direction of the wire;

the wire feeding device (3) is used for feeding the wire rod fed out by the wire releasing device (2) to the shearing device (4);

the shearing device (4) is used for shearing the wire;

the hot-pressing device (11) is used for clamping and heating the position of the wire to be sheared;

and the sending-out device (5) is used for sending out and blanking the cut wire rods.

2. An automatic hot-pressing wire shearing machine according to claim 1, wherein: the wire feeding device (3) comprises a wire feeding mounting seat (31) arranged on the workbench (1) and a plurality of wire feeding modules (32) arranged on the wire feeding mounting seat (31) side by side along the X-axis direction, each wire feeding module (32) comprises a wire feeding adjusting block (33) connected to the wire feeding mounting seat (31) in a sliding mode along the Z-axis direction, a wire feeding driven wheel (34) connected to the wire feeding adjusting block (33) in a rotating mode along the Y-axis direction, a wire feeding driving wheel (35) connected to the wire feeding mounting seat (31) in a rotating mode along the Y-axis direction and located below the wire feeding driven wheel (34), and a wire feeding power mechanism (36) used for driving the wire feeding driving wheel (35) to rotate, wherein the wire feeding power mechanism (36) is arranged on the wire feeding mounting seat (31), the output end of the wire feeding power mechanism (36) is connected with the wire feeding driving wheel (35) in a driving mode, and wires fed out of the paying-off device (2) penetrate through the space between the wire feeding driving wheel (35) and the wire feeding driven wheel (34).

3. An automatic hot-pressing wire shearing machine according to claim 1, wherein: still be equipped with wire rod straining device (6) between pay-off (2) and send traditional thread binding putting (3), wire rod straining device (6) are including setting up wire rod tensioning frame (61) on workstation (1), set up last take-up pulley (62) at wire rod tensioning frame (61) top, tensioning regulating block (63) along Z axle direction sliding connection in wire rod tensioning frame (61) bottom, set up lower take-up pulley (64) on tensioning regulating block (63), set up tensioning send-out wheel (65) on wire rod tensioning frame (61), last take-up pulley (62) and lower take-up pulley (64) set up side by side along Z axle direction, the wire rod that pay-off (2) sent out sends out and send into in the pay-off (3) after upper take-up pulley (62), lower take-up pulley (64), tensioning send-out wheel (65) in proper order.

4. An automatic hot-pressing wire shearing machine according to claim 1, wherein: the shearing device (4) comprises a shearing frame (41) arranged on the workbench (1), an upper shearing slide seat (42) connected to the top of the shearing frame (41) in a sliding manner along the Z-axis direction, an upper shearing power mechanism (43) used for driving the upper shearing slide seat (42) to slide, an upper shearing knife (44) arranged on the upper shearing slide seat (42), a lower shearing slide seat (45) connected to the bottom of the shearing frame (41) in a sliding manner along the Z-axis direction, a lower shearing power mechanism (46) used for driving the lower shearing slide seat (45) to slide, and a lower shearing knife (47) arranged on the lower shearing slide seat (45), the upper shearing power mechanism (43) is arranged on the top of the shearing frame (41), the output end of the upper shearing power mechanism (43) is in driving connection with the upper shearing sliding seat (42), the lower shearing power mechanism (46) is arranged on the bottom of the shearing frame (41), and the output end of the lower shearing power mechanism (46) is in driving connection with the lower shearing sliding seat (45).

5. An automatic hot-pressing wire shearing machine according to claim 1, wherein: still be equipped with on workstation (1) and be convenient for shearing mechanism (4) to carry out trapping mechanism (7) sheared to the wire rod, trapping mechanism (7) include two trapping modules (71), two trapping modules (71) are located the wire rod respectively and treat the both ends of shearing position department, two trapping modules (71) all include along Z axle direction sliding connection trapping briquetting (711) on workstation (1), be used for driving trapping briquetting (711) gliding trapping mechanism (712), trapping mechanism (712) set up on workstation (1), trapping mechanism's (712) output drive connection trapping briquetting (711).

6. An automatic hot-pressing wire shearing machine according to claim 1, wherein: the delivery device (5) comprises a delivery mounting seat (51), a delivery driving wheel (52) rotationally connected to the delivery mounting seat (51) along the Y-axis direction, a delivery power mechanism (53) used for driving the delivery driving wheel (52) to rotate, and a delivery driven wheel (54) rotationally connected to the delivery mounting seat (51) along the Y-axis direction and located below the delivery driving wheel (52), wherein the delivery power mechanism (53) is arranged on the delivery mounting seat (51), and the output end of the delivery power mechanism (53) is in driving connection with the delivery driving wheel (52).

7. An automatic hot-pressing wire shearing machine as claimed in claim 6, wherein: still be equipped with slip table device (8) on workstation (1), slip table device (8) include along X axle direction sliding connection slip table (81) on workstation (1), be used for driving slip table (81) gliding slip table power unit (82), send out mount pad (51) and set up on slip table (81), slip table power unit (82) set up on workstation (1), and slip table (81) are connected in the output drive of slip table power unit (82).

8. An automatic hot-pressing wire shearing machine according to claim 1, wherein: a lead device (9) is arranged between the shearing device (4) and the delivery device (5), the lead device (9) comprises a lead frame (91), an upper lead slide seat (92) connected to the lead frame (91) in a sliding manner along the Z-axis direction, an upper lead power mechanism (93) used for driving the upper lead slide seat (92) to slide, an upper lead block (94) arranged on the upper lead slide seat (92), a lower lead slide seat (95) connected to the lead frame (91) in a sliding manner along the Z-axis direction, a lower lead power mechanism (96) used for driving the lower lead slide seat (95) to slide, and a lower lead block (97) arranged on the lower lead slide seat (95), wherein an upper lead groove (98) is formed on the upper lead block (94), a lower lead groove (99) is formed on the lower lead block (97), and a lead channel (10) is formed by the upper lead groove (98) and the lower lead groove (99) in a surrounding manner, the lead channel (10) is in a round table structure.

9. An automatic hot-pressing wire shearing machine as claimed in claim 8, wherein: still be equipped with slip table device (8) on workstation (1), slip table device (8) include along X axle direction sliding connection slip table (81) on workstation (1), be used for driving slip table (81) gliding slip table power unit (82), lead frame (91) sets up on slip table (81), slip table power unit (82) set up on workstation (1), slip table power unit (82)'s output drive connection slip table (81).

10. An automatic hot-pressing wire shearing machine according to claim 1, wherein: hot press unit (11) set up preceding hot pressing module (111), back hot pressing module (112) of both sides around the wire rod including the symmetry, preceding hot pressing module (111), back hot pressing module (112) all including setting up hot pressing mount pad (113) on slip table (81), along hot pressing slide (114) of Y axle direction sliding connection on hot pressing mount pad (113), be used for driving gliding hot pressing power unit (115) of hot pressing slide (114), set up hot pressing piece (116) on hot pressing slide (114).

The technical field is as follows:

the invention relates to the technical field of wire shearing, in particular to an automatic hot-pressing shearing machine for wires.

Background art:

the wire rod is mostly one roll, when using, need carry out fixed length shearing segmentation with the wire rod according to required use length, and in prior art, most still pull the wire rod through artifical manual mode and cut with the wire rod of formation required length manually, nevertheless come to cut the segmentation to the wire rod through artifical manual mode, and not only operating personnel work load is big, and required time is long moreover, inefficiency, can not be applicable to the shearing segmentation of large batch wire rod well.

The invention content is as follows:

the invention aims to provide an automatic hot-pressing shearing machine for wires, which can replace a manual mode to automatically shear and segment the wires, reduce a large amount of workload of operators, improve the shearing efficiency of the wires and be well suitable for shearing and segmenting large batches of wires.

In order to achieve the purpose, the invention adopts the technical scheme that: an automatic hot-pressing shearing machine for wires comprises a workbench and a wire releasing device for releasing the wires, wherein a wire feeding device, a shearing device, a hot-pressing device and a delivery device are sequentially arranged on the workbench along the advancing direction of the wires; the wire feeding device is used for feeding the wire rod fed out by the wire releasing device into the shearing device; the shearing device is used for shearing the wire; the hot-pressing device is used for clamping and heating the position of the wire to be sheared; and the sending-out device is used for sending out and blanking the cut wire rods.

The wire feeding device comprises a wire feeding mounting seat arranged on a workbench, and a plurality of wire feeding modules arranged on the wire feeding mounting seat side by side along the X-axis direction, each wire feeding module comprises a wire feeding adjusting block connected to the wire feeding mounting seat in a sliding mode along the Z-axis direction, a wire feeding driven wheel connected to the wire feeding adjusting block in a rotating mode along the Y-axis direction, a wire feeding driving wheel connected to the wire feeding mounting seat in a rotating mode along the Y-axis direction and located below the wire feeding driven wheel, and a wire feeding power mechanism used for driving the wire feeding driving wheel to rotate, the wire feeding power mechanism is arranged on the wire feeding mounting seat, the output end of the wire feeding power mechanism is connected with the wire feeding driving wheel in a driving mode, and wires fed by the wire paying-off device penetrate through the wire feeding driving wheel and the wire feeding driven wheel.

The wire tensioning mechanism comprises a wire tensioning frame arranged on the workbench, an upper tensioning wheel arranged at the top of the wire tensioning frame, a tensioning adjusting block connected to the bottom of the wire tensioning frame in a sliding mode along the Z-axis direction, a lower tensioning wheel arranged on the tensioning adjusting block, and a tensioning sending-out wheel arranged on the wire tensioning frame, wherein the upper tensioning wheel and the lower tensioning wheel are arranged side by side along the Z-axis direction, and wires sent out by the pay-off device are sequentially wound around the upper tensioning wheel, the lower tensioning wheel and the tensioning sending-out wheel and then sent into the wire feeding device.

The further improvement of the scheme is that the shearing device comprises a shearing frame arranged on a workbench, an upper shearing sliding seat connected to the top of the shearing frame in a sliding manner along the Z-axis direction, an upper shearing power mechanism used for driving the upper shearing sliding seat to slide, an upper shearing knife arranged on the upper shearing sliding seat, a lower shearing sliding seat connected to the bottom of the shearing frame in a sliding manner along the Z-axis direction, a lower shearing power mechanism used for driving the lower shearing sliding seat to slide, and a lower shearing knife arranged on the lower shearing sliding seat, wherein the upper shearing power mechanism is arranged on the top of the shearing frame, the upper shearing sliding seat is connected with the output end of the upper shearing power mechanism in a driving manner, the lower shearing power mechanism is arranged on the bottom of the shearing frame, and the output end of the lower shearing power mechanism is connected with the lower shearing sliding seat in a driving manner.

The wire clamping device comprises two wire clamping modules, the two wire clamping modules are respectively located at two ends of a position where the wire is to be sheared, the two wire clamping modules respectively comprise a wire clamping pressing block connected to the workbench in a sliding mode along the Z-axis direction, and a wire clamping power mechanism used for driving the wire clamping pressing block to slide.

The feeding device comprises a feeding mounting seat, a feeding driving wheel which is rotatably connected to the feeding mounting seat along the Y-axis direction, a feeding power mechanism which is used for driving the feeding driving wheel to rotate, and a feeding driven wheel which is rotatably connected to the feeding mounting seat along the Y-axis direction and is positioned below the feeding driving wheel, wherein the feeding power mechanism is arranged on the feeding mounting seat, and the output end of the feeding power mechanism is connected with the feeding driving wheel in a driving manner.

The further improvement to above-mentioned scheme does, still be equipped with the slip table device on the workstation, the slip table device includes along X axle direction sliding connection in the slip table on the workstation, be used for driving the gliding slip table power unit of slip table, send out the mount pad and set up on the slip table, slip table power unit sets up on the workstation, the slip table is connected in the output drive of slip table power unit.

The improved structure of the wire guide device comprises a shearing device, a feeding device, a wire guide frame, an upper wire sliding seat, an upper wire power mechanism, an upper wire block, a lower wire sliding seat, a lower wire power mechanism and a lower wire block, wherein the shearing device is arranged between the shearing device and the feeding device, the wire device comprises a wire guide frame, an upper wire sliding seat, an upper wire power mechanism, an upper wire block, a lower wire channel and a wire guide channel, the upper wire sliding seat is connected to the wire guide frame in a sliding mode along the Z-axis direction, the lower wire power mechanism is used for driving the lower wire sliding seat to slide, the lower wire block is arranged on the lower wire sliding seat, an upper wire groove is formed in the upper wire block, a lower wire groove is formed in the lower wire block, the upper wire groove and the lower wire groove are surrounded to form a wire guide channel, and the wire guide channel is in a round table-shaped structure.

The further improvement to above-mentioned scheme does, still be equipped with the slip table device on the workstation, the slip table device includes along X axle direction sliding connection in the slip table on the workstation, be used for driving the gliding slip table power unit of slip table, the lead frame sets up on the slip table, slip table power unit sets up on the workstation, the slip table is connected in the output drive of slip table power unit.

The further improvement to above-mentioned scheme does, hot press unit sets up preceding hot pressing module, the hot pressing die group in back and forth both sides including the symmetry around the wire rod, and preceding hot pressing module, hot pressing die group all include set up the hot pressing mount pad on the slip table, follow the hot pressing slide of Y axle direction sliding connection on the hot pressing mount pad, be used for driving gliding hot pressing power unit of hot pressing slide, set up the hot pressing piece on the hot pressing slide.

The invention has the beneficial effects that: the invention provides an automatic hot-pressing shearing machine for wires, which comprises a workbench and a wire releasing device for releasing the wires, wherein a wire feeding device, a shearing device, a hot-pressing device and a delivery device are sequentially arranged on the workbench along the advancing direction of the wires; the wire feeding device is used for feeding the wire rod fed out by the wire releasing device into the shearing device; the shearing device is used for shearing the wire; the hot-pressing device is used for clamping and heating the position of the wire to be sheared; the feeding device is used for feeding the cut wire rods out for blanking;

according to the wire shearing and segmenting device, the wire can be automatically sheared and segmented through the matching of the pay-off device, the wire feeding device, the shearing device and the wire feeding device, the automatic shearing and segmenting of the wire can be carried out in a mode of replacing manual operation, a large amount of workload of operators can be reduced, the wire shearing and segmenting efficiency can be improved, and the wire shearing and segmenting device can be well suitable for shearing and segmenting large batches of wires; in addition, the hot-pressing device can clamp and heat the position of the wire to be cut, so that the wire can be cut more easily, and the hot-pressing device can be suitable for cutting wires with higher hardness, such as braided belts and the like.

Description of the drawings:

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic structural diagram of the wire feeding device of the present invention.

FIG. 3 is a schematic structural diagram of a shearing device of the present invention.

Fig. 4 is a schematic structural view of the slide table apparatus of the present invention.

Fig. 5 is a schematic structural view of the wire tensioning mechanism of the present invention.

Fig. 6 is a schematic structural diagram of the wire guiding device of the present invention.

FIG. 7 is a schematic structural diagram of a hot press apparatus according to the present invention.

Description of reference numerals: the wire feeding device comprises a workbench 1, a paying-off device 2, a wire feeding device 3, a wire feeding mounting seat 31, a wire feeding module 32, a wire feeding adjusting block 33, a wire feeding driven wheel 34, a wire feeding driving wheel 35, a wire feeding power mechanism 36, a shearing device 4, a shearing frame 41, an upper shearing slide seat 42, an upper shearing power mechanism 43, an upper shearing knife 44, a lower shearing slide seat 45, a lower shearing power mechanism 46, a lower shearing knife 47, a delivery device 5, a delivery mounting seat 51, a delivery driving wheel 52, a delivery power mechanism 53, a delivery driven wheel 54, a wire tensioning mechanism 6, a wire tensioning frame 61, an upper tensioning wheel 62, a tensioning adjusting block 63, a lower tensioning wheel 64, a tensioning delivery wheel 65, a tensioning adjusting roller 66, a separating part 67, a tensioning winding groove 68, a wire clamping device 7, a wire clamping module 71, a wire clamping pressing block 711, a wire clamping power mechanism 712, a sliding table device 8, a sliding table 81, a sliding table 82, a wire guiding device 9, a power mechanism 46 and a wire device, The lead frame 91, the upper lead slide 92, the upper lead power mechanism 93, the upper lead block 94, the lower lead slide 95, the lower lead power mechanism 96, the lower lead block 97, the upper lead groove 98, the lower lead groove 99, the lead channel 10, the hot pressing device 11, the front hot pressing module 111, the rear hot pressing module 112, the hot pressing mounting base 113, the hot pressing slide 114, the hot pressing power mechanism 115, and the hot pressing block 116.

The specific implementation mode is as follows:

the invention is further described with reference to the accompanying drawings, as shown in fig. 1-7, the invention includes a workbench 1 and a wire releasing device 2 for releasing the wire, wherein the workbench 1 is sequentially provided with a wire feeding device 3, a shearing device 4, a hot pressing device 11 and a delivery device 5 along the advancing direction of the wire; the wire feeding device 3 is used for feeding the wire rod fed out by the wire releasing device 2 to the shearing device 4; the shearing device 4 is used for shearing the wire; the hot-pressing device 11 is used for clamping and heating a position to be sheared of the wire; the sending-out device 5 is used for sending out and blanking the cut wire rods; according to the wire shearing and segmenting device, the wire can be automatically sheared and segmented through the matching of the pay-off device 2, the wire feeding device 3, the shearing device 4 and the delivery device 5, the automatic shearing and segmenting of the wire can be carried out in a mode of replacing manual operation, a large amount of workload of operators can be reduced, the wire shearing and segmenting efficiency can be improved, and the wire shearing and segmenting device can be well suitable for the shearing and segmenting of large batches of wires; in addition, the hot-pressing device 11 can clamp and heat the position of the wire to be cut, so that the wire can be cut more easily, and the hot-pressing device is suitable for cutting wires with high hardness, such as braided belts.

The thread feeding device 3 comprises a thread feeding mounting seat 31 arranged on the workbench 1 and a plurality of thread feeding modules 32 arranged on the thread feeding mounting seat 31 side by side along the X-axis direction, two thread feeding modules 32 are arranged on the thread feeding mounting seat 31 in the embodiment, each thread feeding module 32 comprises a thread feeding adjusting block 33 connected to the thread feeding mounting seat 31 in a sliding manner along the Z-axis direction and a thread feeding driven wheel 34 connected to the thread feeding adjusting block 33 in a rotating manner along the Y-axis direction, the wire feeding driving wheel 35 is rotationally connected to the wire feeding mounting seat 31 along the Y-axis direction and positioned below the wire feeding driven wheel 34, the wire feeding power mechanism 36 is used for driving the wire feeding driving wheel 35 to rotate, the wire feeding power mechanism 36 is arranged on the wire feeding mounting seat 31, the output end of the wire feeding power mechanism 36 is in driving connection with the wire feeding driving wheel 35, and wires fed out by the wire releasing device 2 penetrate through the space between the wire feeding driving wheel 35 and the wire feeding driven wheel 34; by adjusting the position of the wire feeding adjusting block 33 on the wire feeding mounting seat 31, the distance between the wire feeding driven wheel 34 and the wire feeding driving wheel 35 can be adjusted, the tightness of the wire passing through the wire feeding driven wheel 34 and the wire feeding driving wheel 35 can be adjusted according to specific use conditions, and therefore the wire can be better fed.

A wire tensioning mechanism 6 is further arranged between the pay-off device 2 and the wire feeding device 3, the wire tensioning mechanism 6 comprises a wire tensioning frame 61 arranged on the workbench 1, an upper tensioning wheel 62 arranged at the top of the wire tensioning frame 61, a tensioning adjusting block 63 connected to the bottom of the wire tensioning frame 61 in a sliding manner along the Z-axis direction, a lower tensioning wheel 64 arranged on the tensioning adjusting block 63, and a tensioning sending-out wheel 65 arranged on the wire tensioning frame 61, and the upper tensioning wheel 62 and the lower tensioning wheel 64 are arranged side by side along the Z-axis direction; in the embodiment, the upper tensioning wheel 62 and the lower tensioning wheel 64 are respectively provided with a plurality of separating parts 67 at intervals along the Y-axis direction, a tensioning winding groove 68 is formed between each two adjacent separating parts 67, and wires with more turns can be wound through the plurality of tensioning winding grooves 68 arranged side by side along the Y-axis direction, i.e., longer wires can be wound in a smaller space, so that the whole equipment structure is more compact and reasonable, and the practicability is strong; the wire rod sent out by the pay-off device 2 is sequentially wound by an upper tension wheel 62, a lower tension wheel 64 and a tension sending-out wheel 65 and then is sent into the wire feeding device 3; when the wire releasing speed of the wire releasing device 2 is greater than the wire feeding speed of the wire feeding device 3, the wire is buffered and wound on the upper tension wheel 62 and the lower tension wheel 64, and the tension adjusting block 63 slides downwards; when the wire feeding speed of the wire feeding device 3 is greater than the wire releasing speed of the wire releasing device 2, the wire buffered on the upper tensioning wheel 62 and the lower tensioning wheel 64 is reduced, and the tensioning adjusting block 63 slides upwards; compared with the method that the pay-off device 2 directly sends the sent wire into the wire feeding device 3, the wire feeding device can better send the wire sent out by the pay-off device 2 into the wire feeding device 3 through the wire tensioning mechanism 6, the wire tensioning frame 61 is also provided with the plurality of tensioning adjusting rollers 66, the installation positions of the tensioning adjusting rollers 66 on the wire tensioning frame 61 can be adjusted, namely the tightness of the wire can be adjusted by changing the installation positions of the tensioning adjusting rollers 66 on the wire tensioning frame 61, and the wire can be better conveyed.

The shearing device 4 comprises a shearing frame 41 arranged on the workbench 1, an upper shearing slide seat 42 connected to the top of the shearing frame 41 in a sliding manner along the Z-axis direction, an upper shearing power mechanism 43 used for driving the upper shearing slide seat 42 to slide, an upper shearing knife 44 arranged on the upper shearing slide seat 42, a lower shearing slide seat 45 connected to the bottom of the shearing frame 41 in a sliding manner along the Z-axis direction, a lower shearing power mechanism 46 used for driving the lower shearing slide seat 45 to slide, and a lower shearing knife 47 arranged on the lower shearing slide seat 45, wherein the upper shearing power mechanism 43 is arranged on the top of the shearing frame 41, the upper shearing slide seat 42 is connected to the output end of the upper shearing power mechanism 43 in a driving manner, the lower shearing power mechanism 46 is arranged on the bottom of the shearing frame 41, and the output end of the lower shearing power mechanism 46 is connected with the lower shearing slide seat 45 in a driving manner.

The wire clamping device 7 convenient for the shearing device 4 to shear the wire is further arranged on the workbench 1, the wire clamping device 7 comprises two wire clamping modules 71, the two wire clamping modules 71 are respectively located at two ends of a position where the wire is to be sheared, each wire clamping module 71 comprises a wire clamping pressing block 711 connected to the workbench 1 in a sliding mode along the Z-axis direction and a wire clamping power mechanism 712 used for driving the wire clamping pressing block 711 to slide, the wire clamping power mechanism 712 is arranged on the workbench 1, and the output end of the wire clamping power mechanism 712 is connected with the wire clamping pressing block 711 in a driving mode.

The feeding device 5 includes a feeding mounting base 51, a feeding driving wheel 52 rotatably connected to the feeding mounting base 51 along the Y-axis direction, a feeding power mechanism 53 for driving the feeding driving wheel 52 to rotate, and a feeding driven wheel 54 rotatably connected to the feeding mounting base 51 along the Y-axis direction and located below the feeding driving wheel 52, wherein the feeding power mechanism 53 is disposed on the feeding mounting base 51, and an output end of the feeding power mechanism 53 is drivingly connected to the feeding driving wheel 52.

A wire device 9 is further arranged between the shearing device 4 and the sending-out device 5, the wire device 9 comprises a wire frame 91, an upper wire slide seat 92 connected to the wire frame 91 in a sliding manner along the Z-axis direction, an upper wire power mechanism 93 used for driving the upper wire slide seat 92 to slide, an upper wire block 94 arranged on the upper wire slide seat 92, a lower wire slide seat 95 connected to the wire frame 91 in a sliding manner along the Z-axis direction, a lower wire power mechanism 96 used for driving the lower wire slide seat 95 to slide, and a lower wire block 97 arranged on the lower wire slide seat 95, an upper wire groove 98 is formed in the upper wire block 94, a lower wire groove 99 is formed in the lower wire block 97, a wire channel 10 is formed by surrounding the upper wire groove 98 and the lower wire groove 99, the wire channel 10 is in a truncated cone-shaped structure, and wires can be conveniently sent to the sending-out device 5 from the position of the shearing device 4 through the wire device 9.

The workbench 1 is further provided with a sliding table device 8, the sliding table device 8 comprises a sliding table 81 connected to the workbench 1 in a sliding manner along the X-axis direction and a sliding table power mechanism 82 used for driving the sliding table 81 to slide, the delivery mounting seat 51 is arranged on the sliding table 81, the lead frame 91 is arranged on the sliding table 81, the sliding table power mechanism 82 is arranged on the workbench 1, and the output end of the sliding table power mechanism 82 is connected with the sliding table 81 in a driving manner; can drive wire device 9 and send out device 5 through removing slip table 81 and remove on workstation 1, can adjust wire device 9 and send out device 5 position on workstation 1 through slip table device 8 promptly, when using, with wire device 9, send out device 5 and remove to the position department of being close to shearing mechanism 4, whole equipment is compacter reasonable, occupation space is little, when needs wiring, when maintenance, with wire device 9, send out device 5 and remove to the position department of keeping away from shearing mechanism 4, so that wiring, maintenance, therefore, the clothes hanger is strong in practicability.

The hot press unit 11 includes the symmetry and sets up preceding hot pressing module 111 in wire rod front and back both sides, back hot pressing module 112, preceding hot pressing module 111, back hot pressing module 112 is all including setting up hot pressing mount pad 113 on slip table 81, along the hot pressing slide 114 of Y axle direction sliding connection on hot pressing mount pad 113, be used for driving the gliding hot pressing power unit 115 of hot pressing slide 114, set up hot pressing block 116 on hot pressing slide 114, treat to cut the position and press from both sides tightly and heat the wire rod through preceding hot pressing module 111, the hot pressing block 116 of back hot pressing module 112, can make the wire rod cut more easily, can be applicable to the shearing of the wire rod that has great hardness such as some braid over braid.

The working principle is as follows:

the pay-off device 2 unreels the wire, the wire is fed into the wire feeding device 3 after sequentially passing through an upper tensioning wheel 62, a lower tensioning wheel 64 and a tensioning sending-out wheel 65 of the wire tensioning mechanism 6, wire clamping press blocks 711 of two wire clamping modules 71 respectively press two ends of a position to be sheared of the wire, an upper shearing knife 44 and a lower shearing knife 47 of the shearing device 4 are close to each other and shear the position to be sheared of the wire, and the sending-out device 5 sends out the sheared wire for blanking to complete the whole shearing process of the wire;

the automatic wire shearing and segmenting device can replace a manual mode to automatically shear and segment wires, can reduce a large amount of workload of operators, can improve the efficiency of wire shearing and segmenting, and can be well suitable for shearing and segmenting large batches of wires.

It is understood that the above description is only a preferred embodiment of the present invention, and all equivalent changes or modifications of the structure, features and principles described in the present invention are included in the scope of the present invention.