CN116612938A - Novel wire twisting machine - Google Patents

Abstract

The utility model discloses a novel stranding machine which comprises a bottom plate, a driving frame, a first bearing, a reduction gearbox body and a stranding motor, and is characterized in that the driving frame is arranged on one side of the upper end of the bottom plate, the first bearing is arranged on the upper end of the driving frame, the reduction gearbox body is arranged on one side of the driving frame, the stranding motor is arranged on the upper end of the bottom plate and is connected with one end of the reduction gearbox body, a rotation mounting structure is arranged on one side of the upper end of the bottom plate, a discharging merging structure is arranged in the center of the upper end of the bottom plate, and a traction rolling structure is arranged on the other side of the upper end of the bottom plate; the utility model relates to the technical field of stranded wire equipment, in the scheme, a plurality of spools are installed through the plurality of arranged placing shafts, the spools are effectively fixed through the arranged extruding disc and the fixing bolts, the installation stability of the spools is ensured, the plurality of spools can be synchronously disassembled through the plurality of discharging frames moving along with the discharging plate through the arranged discharging merging structure, and the whole operation is simple.

Description

Novel wire twisting machine

Technical Field

The utility model relates to the technical field of stranding equipment, in particular to a novel stranding machine.

Background

The stranding machine is a stranding mechanical device which can be widely applied to various soft/hard conductor wires, so that a plurality of single conductors are twisted into one strand to meet the technological requirements of the wires, and the stranding machine can be generally divided into a single stranding machine, a pair stranding machine, a high-speed stranding machine, a back-twisting machine, a cage stranding machine, a frame work stranding machine, a tubular stranding machine, a disc stranding machine and the like according to the stranding mode;

single strander: the three types of discrete single strander, horizontal cantilever single strander and suspended frame single strander are mainly applied to high-frequency wires such as HDMI, DP, USB, CAT-7, electronic wires, data wires, electronic wire core wire pair stranding and multi-strand stranding;

pairing and twisting machine: the device is used for twisting high-frequency data cables, telephone lines 5#, core wire pair payment and the like;

high-speed stranding machine: the automatic tension high-speed stranding machine and the manual tension high-speed stranding machine are mainly applied to copper wire stranding of computer flat cables, earphone wires, electronic wires, power wires, telephone wires, automobile wires, network wires, PVC wires and the like;

back-twist machine: the four-flame back-twist device is applied to back-twist (back-fire) of the total payment of the high-frequency digital cable, so that the positions of the insulating core wires are staggered and balanced during the total payment, and uneven torsion stress during the pairing is overcome, so that the high-speed pairing can still be uniform in quality and accurate in pitch, the highest rotating speed can reach 600R.P.M, the back-twist effect is good, and the performance is excellent;

high speed cantilevers: the method is suitable for twisting PE or PVC coated core wires of control cables, communication cables, data cables, coaxial cables and the like, and can be completed at one time by a central wrapping belt or a side-discharging wrapping belt, and is mainly used for twisting wire core wires with high precision requirements;

high-speed suspension frame type: the method is suitable for twisting PE or PVC coated core wires of control cables, communication cables, power wires and the like and completing the center wrapping belt or the side-release wrapping belt at one time;

the prior patent discloses a CN202211014470.4 cable stranding machine, it is convenient for in time carry out the chucking with the end of single conductor when single conductor releases to finish, single conductor that has solved to break away from single conductor spool is loose to turn round into one with other a plurality of single conductors, lead to the problem that the wire rod technology of turning round is not up to standard, and inconvenient problem of connecting new single conductor, the power distribution box comprises a box body, be provided with fixed axle and drive fixed axle pivoted actuating mechanism on the box, fixedly connected with carousel on the fixed axle, be provided with release mechanism on the carousel, release mechanism's right side has set gradually clamping guide mechanism and winding mechanism, release mechanism includes a plurality of round bars of fixed mounting on the carousel, the cover is equipped with single conductor spool on the round bar, be provided with a plurality of first guide rings and a plurality of U type framves on the carousel, rotate on the U type frame and be connected with chucking subassembly. But still has the following problems;

the stranded wire mode adopted in the patent document cannot be quickly disassembled from an idle wire roller after the stranded wire is completed, single manual removal is needed, the operation is complicated, the overall efficiency of the stranded wire is low, and the winding mode adopted in the document cannot be quickly disassembled from the winding roller when the winding roller needs to be replaced, so that the overall disassembly operation of the winding roller is complicated;

the prior patent discloses a CN201920561538.8 wire twisting machine, which relates to the technical field of cable production and has the technical scheme that the wire twisting machine comprises a base, wherein a wire feeding device, a wire twisting device, a wire pressing device, a guiding device and a wire collecting device are arranged on the base, and the guiding device comprises a vertical guiding mechanism and a transverse guiding mechanism; the vertical guide mechanism comprises a first guide frame, a first guide wheel, a first movable seat, a second guide wheel and a first driving assembly; the transverse guide mechanism comprises a second guide frame fixedly connected to the base, a third guide wheel rotationally connected to the second guide frame through a third rotating shaft, a second movable seat slidingly connected to the second guide frame along the width direction of the base, a fourth guide wheel rotationally connected to the second movable seat through a fourth rotating shaft, and a second driving assembly mounted on the second guide frame and used for driving the second movable seat to move. The utility model solves the problem of inconvenient collection of the cable by the take-up pulley, and achieves the effect of convenient collection of the cable by the take-up pulley;

the wire twisting method adopted in the patent document also has the problems that the spool installation operation is complicated, the spool is inconvenient to replace, and the like, and in view of the problems, the proposal has been made for intensive research.

Disclosure of Invention

The technical scheme of the utility model for achieving the purpose is as follows: the novel stranding machine comprises a bottom plate, a driving frame, a first bearing, a reduction box body and a stranding motor, wherein the driving frame is installed on one side of the upper end of the bottom plate, the first bearing is installed on the upper end of the driving frame, the reduction box body is installed on one side of the driving frame, the stranding motor is installed on the upper end of the bottom plate and is connected with one end of the reduction box body, a rotation installation structure is arranged on one side of the upper end of the bottom plate, a discharging merging structure is arranged in the center of the upper end of the bottom plate, and a traction rolling structure is arranged on the other side of the upper end of the bottom plate;

the rotation mounting structure includes: the device comprises a support frame, a second bearing, a combining disc, a mounting shaft, a mounting frame, eight placing shafts, eight through holes, eight bobbins, an extrusion disc, eight fixing holes, eight fixing bolts and eight auxiliary bearings;

the support frame install in the bottom plate upper end, the second bearing install in the support frame upper end, merge the dish inlay in the second bearing, eight merge the hole has been seted up to merge the dish upper end, install the axle both ends inlay respectively in first bearing and merge the dish, and one end with the reduction box other end is connected, install frame fixed mounting in install axle upper end, eight place the axle all install in install frame one lateral wall department, eight the through-hole all open in install frame upper end, eight spool respectively movable sleeve in eight place the axle upper end, the extrusion dish movable sleeve in install the axle upper end, eight the fixed orifices all open and locate the extrusion dish outside, eight fixing bolt all is located extrusion dish one side, eight auxiliary bearing all is located extrusion dish opposite side.

Preferably, the discharging merging structure comprises: the device comprises a merging frame, a fixed roller, two mounting grooves, two moving blocks, a moving roller, two threaded sleeves, two connecting seats, two threaded rods, a discharging disc, eight discharging frames and a driving assembly;

the combined frame is arranged at the center of the upper end of the bottom plate, two ends of the fixed roller are respectively embedded at two sides in the combined frame, two mounting grooves are respectively formed in two sides of the combined frame, two moving blocks are respectively movably embedded in the two mounting grooves, two ends of the moving roller are respectively movably embedded in the two moving blocks, two threaded sleeves are respectively embedded at two sides of the upper end of the combined frame, two connecting seats are respectively arranged at two upper ends of the moving blocks, two threaded rods are respectively movably embedded in the two threaded sleeves, the bottom ends of the threaded rods are respectively movably connected with the two connecting seats, the discharging disc is movably sleeved at the upper end of the mounting shaft, eight discharging frames are respectively arranged at the outer sides of the discharging disc, and the driving assembly is arranged at the upper end of the bottom plate and is positioned at one side of the combined frame.

Preferably, the driving assembly includes: two unloading frames, four guide rods, two unloading plates and two unloading cylinders;

the two unloading frames are arranged at the upper end of the bottom plate, the two upper ends of the two unloading frames are provided with guide holes, one ends of four guide rods are movably embedded in the four guide holes respectively, the two unloading plates are arranged at one sides of the four guide rods respectively, the two unloading cylinders are arranged at one sides of the two unloading frames respectively, and the telescopic ends are connected with one sides of the two unloading plates respectively.

Preferably, the traction winding structure includes: the device comprises a traction frame, four traction rollers, a winding fixing plate, a winding mounting plate, a fixing assembly, a winding motor, a winding shaft, a mounting block, a winding roller and a winding bearing;

the traction frame is installed in the bottom plate upper end, four traction rollers are all installed in the traction frame, the winding fixed plate is installed in the bottom plate upper end rear side, the winding mounting plate is installed in the bottom plate upper end front side, fixed subassembly install in winding mounting plate upper end, the winding motor install in winding fixed plate one side, the winding shaft install in on the winding motor driving end, and run through in winding fixed plate one side, installation piece fixed mounting in winding shaft one side, winding roller one end movable sleeve in installation piece upper end, the winding bearing install in the winding roller opposite side, and the activity inlay in the fixed subassembly.

Preferably, the fixing assembly includes: a fixing groove, a fixing frame and an inserting frame;

the fixed slot is formed in the upper end of the winding mounting plate, the fixed frame is movably sleeved at the upper end of the winding mounting plate, the fixed frame and the upper end of the winding mounting plate are both provided with inserting ports, and the inserting frame is movably embedded in the inserting ports.

Preferably, a first motor frame is arranged at the joint of the stranded wire motor and the bottom plate.

Preferably, a second motor frame is arranged at the joint of the winding motor and the winding fixing plate.

Preferably, a first connection reinforcing rib is arranged at the joint of the driving frame and the bottom plate.

Preferably, a second connection reinforcing rib is arranged at the joint of the unloading frame and the bottom plate.

Preferably, the traction frame is "U" -shaped.

According to the novel wire twisting machine manufactured by the technical scheme, the rotating installation structure is adopted, the wire twisting shafts are installed through the plurality of arranged placing shafts, the wire twisting shafts are effectively fixed through the arranged extrusion plates and the fixing bolts, the installation stability of the wire twisting shafts is guaranteed, when the wire twisting shafts are required to be discharged, the plurality of wire twisting shafts can be synchronously detached through the plurality of discharging frames which follow the movement of the discharging plates, the whole operation is simple, the replacement efficiency of the wire twisting shafts can be effectively improved, the winding rollers are integrally installed in a clamping mode through the arranged traction winding structure, and when the winding rollers are required to be replaced, the winding rollers can be replaced only by taking down the fixing frames, so that the whole operation is simple.

Drawings

Fig. 1 is a schematic diagram of a front view perspective structure of a novel wire twisting machine according to the present utility model.

Fig. 2 is a schematic rear-view perspective structure of the novel stranding machine according to the present utility model.

Fig. 3 is a schematic side view of a novel stranding machine according to the present utility model.

Fig. 4 is a schematic perspective view of a discharging frame of the novel stranding machine.

Fig. 5 is an enlarged schematic view of the "a" position of the novel stranding machine according to the present utility model.

Fig. 6 is a schematic perspective view of a driving assembly of the novel stranding machine according to the present utility model.

In the figure: 1. the wire winding device comprises a bottom plate, 2, a driving frame, 3, a first bearing, 4, a reduction box body, 5, a wire winding motor, 6, a supporting frame, 7, a second bearing, 8, a combining disc, 9, a mounting shaft, 10, a mounting frame, 11, a placing shaft, 12, a through hole, 13, a spool, 14, a pressing disc, 15, a fixing hole, 16, a fixing bolt, 17, an auxiliary bearing, 18, a combining frame, 19, a fixing roller, 20, a mounting groove, 21, a moving block, 22, a moving roller, 23, a threaded sleeve, 24, a connecting seat, 25, a threaded rod, 26, a discharging disc, 27, a discharging frame, 28, a discharging frame, 29, a guide rod, 30, a discharging plate, 31, a discharging cylinder, 32, a traction frame, 33, a traction roller, 34, a winding fixing plate, 35, a winding mounting plate, 36, a winding motor, 37, a winding shaft, 38, a mounting block, 39, a winding roller, 40, a winding bearing, 41, a fixing groove, 42, a fixing frame, 43, a plug-in frame, 44, a first motor frame, 45, a second electric frame, 46, a first frame, a reinforcing rib and a second connecting reinforcement.

Description of the embodiments

The present utility model will be described in detail with reference to the accompanying drawings, as shown in fig. 1 to 6, a novel wire twisting machine.

Examples: the novel stranding machine comprises a bottom plate 1, a driving frame 2, a first bearing 3, a reduction gearbox 4 and a stranding motor 5, wherein the driving frame 2 is arranged on one side of the upper end of the bottom plate 1, the first bearing 3 is arranged on the upper end of the driving frame 2, the reduction gearbox 4 is arranged on one side of the driving frame 2, the stranding motor 5 is arranged on the upper end of the bottom plate 1 and is connected with one end of the reduction gearbox 4, one side of the upper end of the bottom plate 1 is provided with a rotation installation structure, a discharging merging structure is arranged in the center of the upper end of the bottom plate 1, and the other side of the upper end of the bottom plate 1 is provided with a traction rolling structure;

the rotation mounting structure includes: the device comprises a supporting frame 6, a second bearing 7, a combining disc 8, a mounting shaft 9, a mounting frame 10, eight placing shafts 11, eight through holes 12, eight bobbins 13, an extrusion disc 14, eight fixing holes 15, eight fixing bolts 16 and eight auxiliary bearings 17;

the support frame 6 is installed in bottom plate 1 upper end, the second bearing 7 is installed in support frame 6 upper end, merge dish 8 inlays and is adorned in the second bearing 7, eight merge holes have been seted up to merge dish 8 upper end, install axle 9 both ends and inlay respectively in first bearing 3 and merge dish 8, and one end is connected with the reducing gear box 4 other end, install frame 10 fixed mounting in installation axle 9 upper end, eight place axle 11 all install in installation frame 10 a lateral wall department, eight through-holes 12 all set up in installation frame 10 upper end, eight spool 13 activity suit respectively in eight place axle 11 upper ends, extrusion dish 14 activity suit is in installation axle 9 upper end, eight fixed orifices 15 all set up in extrusion dish 14 outside, eight fixing bolt 16 all are located extrusion dish 14 one side, eight auxiliary bearings 17 all are located extrusion dish 14 opposite side.

When the cable is required to be processed, a worker firstly moves the extruding disc 14 to the right side on the mounting shaft 9, then places the bobbins 13 on the upper ends of the placing shafts 11 on the upper ends of the mounting frames 10 respectively, then passes through the through holes 12 and the combining disc 8 respectively, winds the other end on the upper end of the traction winding structure, then moves the extruding disc 14 to the left side on the upper ends of the mounting shafts 9, sleeves the eight placing shafts 11 through eight fixing holes 15 on the upper ends of the extruding disc 14, screws the fixing bolts 16 on the placing shafts 11, extrudes and fixes the bobbins 13 through auxiliary bearings 17 on one side of the extruding disc 14, ensures the rotating effect of the bobbins 13 on the upper ends of the placing shafts 11, can select a specified number of fixing bolts 16 to be installed according to a use scene and an operation specification, does not need to be installed all the eight fixing bolts 16, then works under the action of the reduction box 4, drives the mounting shafts 9 and the combining disc 8 to rotate in the first bearings 3 and the second bearings 7 through eight fixing holes 15, simultaneously carries out the driving of the stranded wires, simultaneously takes down the winding structure, and takes down the stranded wires to the winding structure, and takes out the subsequent winding structure to be synchronous winding and takes out the winding structure, thus the winding structure is convenient to take out the winding and the winding structure is realized, and the winding is convenient to take the stranded wires after the winding structure is finished.

In a specific implementation process, the unloading and combining structure comprises: the combined frame 18, the fixed roller 19, the two mounting grooves 20, the two moving blocks 21, the moving roller 22, the two threaded sleeves 23, the two connecting seats 24, the two threaded rods 25, the discharge tray 26, the eight discharge frames 27 and the driving assembly;

the combining frame 18 is installed at the center of the upper end of the bottom plate 1, two ends of the fixed roller 19 are respectively embedded at two sides in the combining frame 18, two mounting grooves 20 are respectively formed at two sides of the combining frame 18, two moving blocks 21 are respectively movably embedded in the two mounting grooves 20, two ends of the moving roller 22 are respectively movably embedded in the two moving blocks 21, two threaded sleeves 23 are respectively embedded at two sides of the upper end of the combining frame 18, two connecting seats 24 are respectively installed at the upper ends of the two moving blocks 21, two threaded rods 25 are respectively movably embedded in the two threaded sleeves 23, the bottom ends are respectively movably connected with the two connecting seats 24, a discharging disc 26 is movably sleeved at the upper end of the mounting shaft 9, eight discharging frames 27 are respectively installed at the outer sides of the discharging disc 26, and a driving component is installed at the upper end of the bottom plate 1 and positioned at one side of the combining frame 18.

When the twisted wire is twisted, a worker first passes the twisted wire between the fixed roller 19 and the movable roller 22, then screws the threaded rod 25, so that the two threaded rods 25 rotate in the two connecting seats 24 and the threaded sleeve 23 to drive the two movable blocks 21 to adjust the height in the two mounting grooves 20, the distance between the movable roller 22 and the fixed roller 19 is changed, the fixed roller 19 is matched with the movable roller 22, the twisted wire is combined, after winding is completed, the driving assembly works to push the discharge disc 26 to move at the upper end of the mounting shaft 9, and the eight bobbins 13 are discharged through the eight discharge frames 27.

In an implementation, the drive assembly includes: two discharge frames 28, four guide rods 29, two discharge plates 30 and two discharge cylinders 31;

two unloading frames 28 are all installed in bottom plate 1 upper end, and the guiding hole has all been seted up to two unloading frames 28 upper end, and four guiding rod 29 one end is movable respectively to inlay in four guiding holes, and two stripper plates 30 are installed respectively in four guiding rod 29 one side, and two unloading cylinders 31 are installed respectively in two unloading frames 28 one side, and flexible end is connected with two stripper plates 30 one side respectively.

It should be noted that, during unloading, by driving the two unloading cylinders 31 to operate, the two unloading plates 30 are pushed to contact with the unloading frame 27 by the two unloading cylinders 31 until the spool 13 is separated from the placement shaft 11, and the movement stability of the two unloading plates 30 is ensured under the action of the four guide rods 29.

In a specific implementation process, the traction rolling structure comprises: the traction frame 32, four traction rollers 33, a winding fixing plate 34, a winding mounting plate 35, a fixing assembly, a winding motor 36, a winding shaft 37, a mounting block 38, a winding roller 39 and a winding shaft 37 bearing;

the traction frame 32 is arranged at the upper end of the bottom plate 1, four traction rollers 33 are all arranged in the traction frame 32, a winding fixing plate 34 is arranged at the rear side of the upper end of the bottom plate 1, a winding mounting plate 35 is arranged at the front side of the upper end of the bottom plate 1, a fixing component is arranged at the upper end of the winding mounting plate 35, a winding motor 36 is arranged at one side of the winding fixing plate 34, a winding shaft 37 is arranged at the driving end of the winding motor 36 and penetrates through one side of the winding fixing plate 34, a mounting block 38 is fixedly arranged at one side of the winding shaft 37, one end of the winding roller 39 is movably sleeved at the upper end of the mounting block 38, a winding shaft 37 is arranged at the other side of the winding roller 39 in a bearing manner, and the winding motor is movably embedded in the fixing component.

In an implementation, the fixing assembly includes: a fixing groove 41, a fixing frame 42, and an insertion frame 43;

the fixed slot 41 is arranged at the upper end of the winding mounting plate 35, the fixed frame 42 is movably sleeved at the upper end of the winding mounting plate 35, the fixed frame 42 and the upper end of the winding mounting plate 35 are respectively provided with an inserting port, and the inserting frame 43 is movably embedded in the inserting ports.

When the cable is wound, the winding roller 39 is first sleeved with one end thereof by a worker, the winding shaft 37 at the other end of the winding roller 39 is then inserted into the fixing groove 41, the fixing frame 42 is then sleeved with the upper end of the winding mounting plate 35, the inserting frame 43 is then inserted into the inserting opening, the fixing frame 42 is used for fixing the winding shaft 37, the purpose of installing the winding roller 39 is achieved, one end of the cable is then sleeved at the upper end of the winding roller 39, the winding motor 36 is driven to work, the winding shaft 37 and the winding roller 39 are driven to rotate, the winding operation is carried out on the cable, the overall strength of the winding of the cable is ensured by the traction roller 33 arranged in the traction frame 32, and when the winding roller 39 is required to be dismounted, the winding roller 39 can be dismounted only by taking down the fixing frame 42 and the inserting frame 43.

In a specific implementation process, a first motor frame 44 is arranged at the connection part of the stranded wire motor 5 and the bottom plate 1.

In a specific implementation process, a second motor frame 45 is arranged at the connection part of the winding motor 36 and the winding fixing plate 34.

In a specific implementation process, a first connection reinforcing rib 46 is arranged at the connection part of the driving frame 2 and the bottom plate 1.

In the specific implementation process, the connection part of the discharging frame 28 and the bottom plate 1 is provided with a second connection reinforcing rib 47.

In particular implementations, the traction frame 32 is "U" -shaped.

The above technical solution only represents the preferred technical solution of the present utility model, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present utility model, and the technical solution falls within the scope of the present utility model.

Claims (10)

1. The novel stranding machine comprises a bottom plate (1), a driving frame (2), a first bearing (3), a reduction gearbox body (4) and a stranding motor (5), and is characterized in that the driving frame (2) is installed on one side of the upper end of the bottom plate (1), the first bearing (3) is installed on the upper end of the driving frame (2), the reduction gearbox body (4) is installed on one side of the driving frame (2), the stranding motor (5) is installed on the upper end of the bottom plate (1) and is connected with one end of the reduction gearbox body (4), a rotation installation structure is arranged on one side of the upper end of the bottom plate (1), a discharging merging structure is arranged at the center of the upper end of the bottom plate (1), and a traction rolling structure is arranged on the other side of the upper end of the bottom plate (1).

The rotation mounting structure includes: the device comprises a supporting frame (6), a second bearing (7), a combining disc (8), a mounting shaft (9), a mounting frame (10), eight placing shafts (11), eight through holes (12), eight bobbins (13), an extrusion disc (14), eight fixing holes (15), eight fixing bolts (16) and eight auxiliary bearings (17);

the support frame (6) install in bottom plate (1) upper end, second bearing (7) install in support frame (6) upper end, merge dish (8) inlay in second bearing (7), eight merge holes have been seted up to merge dish (8) upper end, install axle (9) both ends inlay respectively in first bearing (3) and merge dish (8), and one end with gearbox (4) other end is connected, installing frame (10) fixed mounting in installing axle (9) upper end, eight place axle (11) all install in installing frame (10) one side wall department, eight through-hole (12) all open and are located installing frame (10) upper end, eight spool (13) respectively movable sleeve in eight place axle (11) upper end, extrusion dish (14) movable sleeve in install axle (9) upper end, eight fixed orifices (15) all open eight (14) are located eight extrusion dish (14) are located in extrusion dish (14) are located auxiliary disc (14) one side all.

2. The novel stranding machine of claim 1, wherein the discharge combining structure comprises: the combined frame (18), a fixed roller (19), two mounting grooves (20), two moving blocks (21), a moving roller (22), two threaded sleeves (23), two connecting seats (24), two threaded rods (25), a discharge disc (26), eight discharge frames (27) and a driving assembly;

the combined frame (18) is installed in the center of the upper end of the bottom plate (1), two ends of the fixed roller (19) are respectively embedded in two sides in the combined frame (18), two mounting grooves (20) are respectively formed in two sides of the combined frame (18), two moving blocks (21) are respectively movably embedded in two mounting grooves (20), two ends of the moving roller (22) are respectively movably embedded in two moving blocks (21), two threaded sleeves (23) are respectively embedded in two sides of the upper end of the combined frame (18), two connecting seats (24) are respectively installed in two upper ends of the moving blocks (21), two threaded rods (25) are respectively movably embedded in two threaded sleeves (23), the bottom ends of the threaded rods are respectively movably connected with two connecting seats (24), a discharging disc (26) is movably arranged at the upper end of the mounting shaft (9), eight discharging frames (27) are respectively installed in the two sides of the upper end of the moving block (21), the two connecting seats (24) are respectively embedded in the upper end of the driving assembly, and the eight discharging frames (27) are respectively embedded in the upper end of the driving assembly, and the eight discharging frames are respectively arranged on the two sides of the driving assembly.

3. The novel stranding machine of claim 2, wherein the drive assembly comprises: two unloading frames (28), four guide rods (29), two unloading plates (30) and two unloading cylinders (31);

two unloading frame (28) all install in bottom plate (1) upper end, two guiding hole has all been seted up to unloading frame (28) upper end, four guiding rod (29) one end is movable respectively inlay in four in the guiding hole, two stripper (30) install respectively in four guiding rod (29) one side, two unloading cylinder (31) install respectively in two unloading frame (28) one side, and flexible end is connected with two stripper (30) one side respectively.

4. The novel stranding machine of claim 1, wherein the traction wrap-up structure comprises: the device comprises a traction frame (32), four traction rollers (33), a winding fixing plate (34), a winding mounting plate (35), a fixing assembly, a winding motor (36), a winding shaft (37), a mounting block (38), a winding roller (39) and a winding shaft (37);

traction frame (32) install in bottom plate (1) upper end, four traction roller (33) all install in traction frame (32), rolling fixed plate (34) install in bottom plate (1) upper end rear side, rolling mounting panel (35) install in bottom plate (1) upper end front side, fixed subassembly install in rolling mounting panel (35) upper end, rolling motor (36) install in rolling fixed plate (34) one side, rolling axle (37) install in on rolling motor (36) driving end, and run through in rolling fixed plate (34) one side, installation piece (38) fixed mounting in rolling axle (37) one side, rolling roller (39) one end movable sleeve in installation piece (38) upper end, rolling axle (37) hold install in rolling roller (39) opposite side, and the activity inlay in fixed subassembly.

5. The novel stranding machine of claim 4, wherein the securing assembly comprises: a fixing groove (41), a fixing frame (42) and an inserting frame (43);

the fixed slot (41) is formed in the upper end of the winding mounting plate (35), the fixed frame (42) is movably sleeved at the upper end of the winding mounting plate (35), the upper ends of the fixed frame (42) and the winding mounting plate (35) are respectively provided with an inserting port, and the inserting frame (43) is movably embedded in the inserting ports.

6. A novel stranding machine according to claim 1, characterized in that the connection of the stranding motor (5) with the base plate (1) is provided with a first motor frame (44).

7. The novel stranding machine according to claim 4, wherein a second motor frame (45) is arranged at the joint of the winding motor (36) and the winding fixing plate (34).

8. The novel stranding machine according to claim 1, wherein a first connecting reinforcing rib (46) is arranged at the joint of the driving frame (2) and the bottom plate (1).

9. A novel stranding machine according to claim 3, characterized in that the junction of the unloading frame (28) and the bottom plate (1) is provided with a second connection reinforcing rib (47).

10. A new stranding machine according to claim 4, characterized in that the traction frame (32) is "U" -shaped.