CN112962179A - Doubling, twisting and silk-collecting all-in-one machine and using method thereof - Google Patents

Abstract

The invention relates to a doubling, twisting and silk-collecting integrated machine and a using method thereof, comprising a frame, a plurality of spindle transmission systems arranged on the frame and a line roller arranged on the spindle transmission systems, the machine frame is provided with a plurality of doubling wheel sets positioned above the thread rollers, and also comprises a steel collar sleeved on the outer ring of the thread rollers and a steel collar lifting system for driving a plurality of steel collar lifting rings to lift synchronously, the spindle transmission system drives the thread rollers to rotate, tows from the last traction roller set of the wire drawing unit pass through the steel collar hooks on the steel collar after being doubled by the doubling wheel sets, then the wire is wound on a wire roller, the wire winding is realized through the rotation of the wire roller, the tension of the tows drives the wire guide collar hook to rotate along with the wire roller, the twisting is realized, the steel collar lifting system drives the steel collar to lift, the steel collar does vertical lifting movement with a certain stroke, and the stroke is consistent with the height of the wire roller, so that the wire arranging function is completed.

Description

Doubling, twisting and silk-collecting all-in-one machine and using method thereof

Technical Field

The invention relates to the field of rope winding, in particular to a doubling, twisting and yarn collecting all-in-one machine and a using method thereof.

Background

The last process of the extrusion and wire drawing unit is to wind silk threads into rollers, the wound silk rollers are directly used for forming equipment such as a rope making machine, a shaft beating machine, a ball beating machine and the like, after extrusion and wire drawing in the prior art, the silk rollers are wound into olive-shaped shafts by the wire winding machine or are wound on the silk rollers, the silk rollers are required to be subjected to a doubling process when doubling is required to meet the diameter requirement, and then are twisted into threads by the twisting machine, so that the silk rollers can be used for forming equipment such as the rope making machine, the shaft beating machine, the ball beating machine and the like.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a doubling, twisting and yarn-collecting all-in-one machine and a use method thereof, which can integrate three processes.

The invention is realized by the following technical scheme, and provides a doubling, twisting and winding all-in-one machine which comprises a rack, a plurality of spindle transmission systems arranged on the rack, a wire roller arranged on the spindle transmission systems, a plurality of doubling wheel sets arranged above the wire roller, a steel collar ring sleeved on the outer ring of the wire roller and a steel collar ring lifting system for driving a plurality of steel collar rings to lift synchronously, wherein the wire roller is arranged on the rack.

The spindle transmission system in the scheme drives the wire roller to rotate, tows coming out of a last traction roller set of the wire drawing unit pass through a head line neck hook on a head line neck ring downwards after being doubled through the doubling wheel set and then are wound on the wire roller, the yarns are collected through rotation of the wire roller, tension of the tows drives the head line neck hook to rotate along with the wire roller, twisting is achieved, the head line ring lifting system drives the head line ring to lift, the head line ring does vertical lifting movement with a certain stroke, and the stroke is consistent with the height of the wire roller, so that the wire arranging function is achieved.

As an optimization, the wire roller device further comprises a wire passing device positioned above the wire roller, and the end part of the wire passing device is provided with a spiral wire passing ring. The silk bundle passes through the line ring in this scheme, leads the silk bundle of line roller top through crossing the line ring, crosses the line ring and is the heliciform, is convenient for get into the line ring through the clearance between the helix with the silk bundle.

Preferably, the thread passing device comprises an outer sleeve fixedly connected with the frame, a rotating shaft rotatably connected in the outer sleeve and a supporting rod fixedly connected at the upper end of the rotating shaft, and the thread passing ring is fixedly connected with the supporting rod. The pivot in this scheme is rotated and is connected in the overcoat to make the wire ring can carry out certain rotation around the pivot, prevent that the silk bundle rolling from leading to the silk bundle to damage because of assaulting when accelerating, when needs loading and unloading line roller, turn to one side with crossing wire ring and bracing piece simultaneously, reserve the vertical direction space, make things convenient for loading and unloading line roller.

Preferably, the spindle transmission system comprises a spindle seat coupled to the frame and a thread roller shaft fixedly connected to the upper end surface of the spindle seat, the upper end surface of the spindle seat is provided with a plurality of positioning pins, and the end surface of the thread roller is provided with positioning pin holes matched with the positioning pins. In the scheme, the bobbin shaft is inserted into the bobbin, and the spindle seat is connected with the binding surface of the bobbin through the positioning pin, so that the bobbin can rotate along with the spindle seat to realize twisting and yarn collecting functions.

Preferably, the spindle transmission system further comprises a rotating motor for driving the spindle base to rotate, and the rotating motor is connected with the spindle base through a belt. In the scheme, the spindle seat is driven to rotate by the rotating motor.

Preferably, the steel collar lifting system comprises a lifting frame vertically connected to the machine frame in a sliding mode and a lifting drive for driving the lifting frame to lift, and the steel collar is fixedly connected with the lifting frame. The steel collar circle in this scheme and crane rigid coupling to drive a plurality of steel collar circles synchronous lifting through the lift of crane.

As the optimization, the lift drive is including being located the elevator motor of crane one end and installing the motor sprocket on elevator motor, the motor sprocket is double sprocket, be equipped with a plurality of promotion hoisting points on the crane, the promotion hoisting point that is close to motor sprocket one end directly links to each other with motor sprocket through the lifting chain, and all the other promotion hoisting points are connected to a chain pull rod through the lifting chain, the chain pull rod links to each other with motor sprocket through connecting the chain.

The promotion hoisting point that is close to motor sprocket one end in this scheme passes through the lift chain and directly links to each other with motor sprocket to rotation through motor sprocket drives the promotion of this promotion hoisting point, and all the other promotion hoisting points are connected to a chain pull rod through the lift chain, and motor sprocket moves the chain pull rod through connecting the chain strip, thereby drives all the other hoisting points through the chain pull rod and promotes in step.

Preferably, the rack is fixedly connected with a plurality of vertical guide rods, and the lifting frame is provided with guide wheels positioned on two sides of the guide rods. The leading wheel setting in this scheme is in the guide bar both sides to realize the lift of crane through the direction of leading wheel on the guide bar.

Preferably, the doubling wheel set comprises a wheel shaft fixed on the rack and a doubling wheel arranged on the wheel shaft, and the doubling wheel is a grooved wheel with an arc-shaped groove bottom. In the scheme, the doubling wheel is a grooved wheel with an arc-shaped groove bottom, so that the required silk threads are doubled on the grooved wheel.

Preferably, the steel collar comprises an outer steel collar ring connected with the steel collar lifting system and an inner steel collar ring rotatably connected to the outer steel collar ring, and the inner steel collar ring is provided with a steel collar hook. The steel collar hook in the scheme rotates along with the thread roller, so that twisting is realized.

A use method of a doubling, twisting and yarn-collecting all-in-one machine comprises the following steps: after the tows come out of the traction roller, the tows firstly pass through the separate dried small shrimps hook, then pass through the doubling wheel group, the thread passing device and the steel collar hook, and finally the thread ends are wound on the thread roller according to the rotation direction of the thread roller, the change-over switch is turned to a high-speed gear, the thread roller is driven to run at a high speed through the spindle transmission system, and the twisting and the reeling are started;

the synchronous lifting of all the steel collars is controlled by a steel collar lifting system, so that synchronous wire arrangement is realized, the rotating speed of a spindle transmission system needs to be correspondingly reduced along with the increase of the diameter of a drawn wire, the lifting speed of the steel collar needs to be correspondingly reduced, and the speed matching of the spindle transmission system and the steel collar is realized by a PLC;

after the thread roller is fully wound with thread, the foot switch is stepped down, the spindle stops rotating, the thread is cut off, the thread head is pulled by hand and wound on the standby thread roller running at low speed, then the change-over switch is switched to high speed gear, and the twisting and winding of a new thread roller are started.

The invention has the beneficial effects that: the doubling, twisting and silk-collecting all-in-one machine and the use method thereof have the advantages that three processes are integrated, labor force is saved, the turnover space of workpieces is saved, equipment investment is saved, production efficiency is improved, and the profit margin of products is improved.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view taken along plane A-A of FIG. 1 in accordance with the present invention;

FIG. 4 is a schematic view of the spindle base structure of the present invention;

FIG. 5 is a schematic structural view of a lifting system for a steel collar of the present invention;

FIG. 6 is a side view of the steel collar lifting system of the present invention;

FIG. 7 is a schematic view of the crane structure of the present invention;

FIG. 8 is a schematic structural view of a doubling wheel set according to the present invention;

FIG. 9 is a schematic view of the structure of the wire passing device of the present invention;

FIG. 10 is a top view of the wire guide of the present invention;

shown in the figure:

1. the wire drawing machine comprises a machine frame, 2, a steel collar lifting system, 3, a spindle transmission system, 4, a wire passing device, 5, a wire roller, 6, a steel collar, 7, a doubling wheel set, 8, a wire bundle, 21, a motor chain wheel, 22, a steering chain wheel, 23, a lifting chain, 24, a chain pull rod, 25, a connecting chain, 26, a lifting frame, 27, a guide rod, 28, a guide wheel, 29, a lifting chain wheel, 31, a rotating motor, 32, a tensioning wheel, 33, a spindle seat, 34, a wire roller shaft, 35, a positioning pin, 41, a support rod, 42, a wire passing ring, 43, a lower support rod, 44, an outer sleeve, 45, a fixing plate, 46, a spring, 47, a fastening sleeve, 48, a rotating shaft, 61, a steel collar outer ring, 62, a steel collar inner ring, 71, a doubling wheel, 72 and a wheel.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

As shown in fig. 1 to 10, the doubling, twisting and collecting all-in-one machine of the present invention comprises a frame 1, a plurality of spindle transmission systems 3 installed on the frame 1, and a thread roller 5 installed on the spindle transmission systems 3, wherein the frame 1 is provided with a plurality of thread combining wheel sets 7 located above the thread roller 5, and further comprises a steel collar 6 sleeved on an outer ring of the thread roller 5 and a steel collar lifting system 2 driving the plurality of steel collar 6 to lift synchronously.

The number of the spindles (namely the number of the spindle transmission systems 3) can be more or less, is generally an even number, the number of the actual filament collecting heads is less than the total number of the spindles, and the redundant spindles are used as transition spindles of a thread feeding roller and a thread discharging roller.

The spindle transmission systems 3 are arranged side by side along a row, the spindle transmission systems 3 comprise spindle bases 33 which are axially connected on the machine frame 1 and thread rollers 34 fixedly connected on the upper end surfaces of the spindle bases 33, the thread rollers 34 are inserted into the thread rollers 5, and the lower end surfaces of the thread rollers 5 are placed on the upper end surfaces of the spindle bases 33.

The upper end surface of the spindle seat 33 is provided with a plurality of positioning pins 35, and the end surface of the wire roller 5 is provided with positioning pin holes matched with the positioning pins 35. The positioning pins 35 in this embodiment are provided with two and evenly distributed along the central circumference of the spindle base 33, and a plurality of positioning pin holes are provided, so that the wire roller can rotate along with the spindle base 33 to realize twisting and wire collecting functions.

The spindle transmission system 3 further comprises a rotating motor 31 for driving the spindle base 33 to rotate, the rotating motor 31 is connected with the spindle base 33 through a belt, and the spindle transmission system further comprises a tension pulley 32 arranged on one side of the belt.

The number of the doubling wheel sets 7 is the same as that of the spindle transmission systems 3, each doubling wheel set 7 comprises a wheel shaft 72 fixed on the rack 1 and a doubling wheel 71 installed on the wheel shaft 72, each doubling wheel 71 is a grooved wheel with an arc-shaped groove bottom, the groove of each grooved wheel needs to be deep enough to prevent yarn jumping, so that the doubling function is ensured, and the tows 8 are turned from the grooved wheels and then enter the spindle transmission systems 3 downwards.

The wire guide device is characterized by further comprising wire guide devices 4 located above the wire roller 5, the number of the wire guide devices 4 is the same as that of the spindle transmission system 3, the wire guide devices 4 are located between the doubling wheel set 7 and the wire roller 5, spiral wire guide rings 42 are arranged at the end portions of the wire guide devices 4, the wire guide rings 42 are made of steel wires, the thread pitches of spiral portions of the end portions are larger than the diameters of tows, accordingly, the tows can conveniently enter the wire guide rings 42 through the spiral portions, the spiral turns are round, and accordingly the tows can conveniently enter the wire guide rings 42.

The thread passing device 4 comprises an outer sleeve 44 fixedly connected with the frame 1, a rotating shaft 48 rotatably connected in the outer sleeve 44 and a support rod 41 fixedly connected at the upper end of the rotating shaft 48, and the thread passing ring 42 is fixedly connected with the support rod 41.

A fixing plate 45 is fixedly connected to the outer side of the outer sleeve 44, and the fixing plate 45 is connected with the rack 1 through a bolt, so that the outer sleeve 44 is connected with the rack 1.

The support rod 41 is fixed at the upper end of the rotating shaft 48, the rotating shaft 48 is sleeved with the spring 46 positioned in the outer sleeve 44, the upper end of the spring 46 is propped against the boss in the outer sleeve 44, the lower end of the spring 46 is propped against the fastening sleeve 47, the fastening sleeve 47 is sleeved at the lower end of the rotating shaft 48, and the lower end of the rotating shaft is provided with the nut screwed onto the fastening sleeve 47, so that when the tension of the tows drives the wire passing ring 42 to move upwards, the spring 46 can play a role in buffering.

The thread passing device 4 further comprises a lower support rod 43 located below the support rod 41, the upper end of the lower support rod 43 is fixedly connected with the support rod 41, and the lower end of the lower support rod 43 is fixedly connected between the fastening sleeve 47 and the nut.

The steel collar 6 comprises a steel collar outer ring 61 connected with the steel collar lifting system 2 and a steel collar inner ring 62 rotatably connected to the steel collar outer ring 61, and the steel collar outer ring 61 and the steel collar inner ring 62 are both sleeved on the outer ring of the wire roller 5. The steel collar inner ring 62 can rotate freely, and a steel collar hook is arranged on the steel collar inner ring 62.

The steel collar lifting system 2 comprises a lifting frame 26 vertically connected to the rack 1 in a sliding mode and a lifting drive for driving the lifting frame 26 to lift, one lifting frame 26 is arranged, and the steel collar outer rings 61 of all the steel collars 6 are fixedly connected with the lifting frame 26.

A plurality of vertical guide rods 27 are fixedly connected to the machine frame 1, and guide wheels 28 positioned on two sides of the guide rods 27 are mounted on the lifting frame 26. Two guide wheels 28 are respectively arranged on two sides of each guide rod 27, and the guide wheels 28 on the two sides vertically walk on the guide rods 27 to realize vertical guide of the lifting frame 26.

The lift drive is including being located the elevator motor of crane 26 one end and installing motor sprocket 21 on elevator motor, motor sprocket 21 is double sprocket, be equipped with a plurality of promotion hoisting points on the crane 26, the promotion hoisting point that is close to motor sprocket 21 one end is direct to link to each other with motor sprocket 21 through lifting chain 23, and all the other promotion hoisting points are connected to a horizontal chain pull rod 24 through lifting chain 23, chain pull rod 24 links to each other with motor sprocket 21 through connecting chain 25.

The lifting chain 23 is provided with a lifting chain wheel 29 at the upper end, the lifting chain is vertically connected with a lifting hoisting point, is transversely connected with the motor chain wheel 21 or the chain pull rod 24 after being turned by the lifting chain wheel 29, and also comprises a turning chain wheel 22 positioned above the motor chain wheel 21, wherein the turning chain wheel 22 is a double-row chain, and the height of the turning chain wheel corresponds to that of the lifting chain wheel 29.

The electric control device is characterized by further comprising an electric system, wherein the electric system mainly comprises an electric cabinet, an operation panel, a frequency converter, a PLC (programmable logic controller), a touch screen and a low-voltage electric device, the rotating motor 31 can realize high-speed and low-speed conversion through a change-over switch, the low speed is adopted when the wire roller 5 is assembled and disassembled, the high speed is adopted during working, the start and stop of the spindle are controlled through a foot switch, and the operation is convenient.

The use method of the invention comprises the following steps: after the tows come out of the traction roller, the tows firstly pass through a separate dried small shrimp hook (each tow can not be crossed at all), then pass through a doubling wheel set 7, a thread passing device 4 and a steel collar hook, finally the thread ends are wound on a thread roller 5 according to the rotation direction of the thread roller, a change-over switch is turned to a high-speed gear, the thread roller 5 is driven to run at a high speed through a spindle transmission system 3, and twisting and filament winding are started;

the twisting of the equipment is single-head single-control in transmission and control, all steel collars are controlled to synchronously lift through the steel collar lifting system 2, so that synchronous wire arrangement is realized, the linear speed of a tail traction roller of a wire drawing unit is constant, the rotating speed of a spindle transmission system 3 needs to be correspondingly reduced along with the increase of the diameter of a wound wire, the lifting speed of the steel collar needs to be correspondingly reduced, and the speed matching of the two is realized through a PLC (programmable logic controller);

after the thread roller 5 is fully wound, the foot switch is stepped down, the spindle stops rotating, the thread is cut off, the thread head is pulled by hand and wound on the standby thread roller 5 running at a low speed, then the change-over switch is switched to a high-speed gear, and the twisting and the thread winding of a new thread roller 5 are started.

The process advancement of the operation is that single-head single control is adopted, and a standby roller is added, so that the roller change without stopping is conveniently realized; the high-low speed conversion is adopted in the control, and the skillful technique of an operator is added, so that the tension change between the traction and the wire collection is not large (the suspension amount of the wire is not large, and the wire collection is not influenced); the PLC is used for controlling the wire arrangement to enable the wire rollers to be arranged orderly; the variable frequency control is adopted, the twist can be electronically adjusted, and the method is convenient, time-saving, labor-saving and reliable.

Of course, the above description is not limited to the above examples, and the undescribed technical features of the present invention can be implemented by or using the prior art, and will not be described herein again; the above embodiments and drawings are only for illustrating the technical solutions of the present invention and not for limiting the present invention, and the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that changes, modifications, additions or substitutions within the spirit and scope of the present invention may be made by those skilled in the art without departing from the spirit of the present invention, and shall also fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a doubling twisting receives silk all-in-one which characterized in that: the wire roller winding machine comprises a rack (1), a plurality of spindle transmission systems (3) arranged on the rack (1), and a wire roller (5) arranged on the spindle transmission systems (3), wherein a plurality of wire combining wheel sets (7) positioned above the wire roller (5) are arranged on the rack (1), and the wire roller winding machine further comprises a wire collar (6) sleeved on the outer ring of the wire roller (5) and a wire collar lifting system (2) for driving the plurality of wire collar (6) to synchronously lift.

2. The doubling, twisting and collecting all-in-one machine as claimed in claim 1, wherein: the wire roller is characterized by further comprising a wire passing device (4) positioned above the wire roller (5), wherein a spiral wire passing ring (42) is arranged at the end part of the wire passing device (4).

3. The doubling, twisting and collecting all-in-one machine as claimed in claim 2, wherein: the thread passing device (4) comprises an outer sleeve (44) fixedly connected with the rack (1), a rotating shaft (48) rotatably connected in the outer sleeve (44) and a supporting rod (41) fixedly connected to the upper end of the rotating shaft (48), and the thread passing ring (42) is fixedly connected with the supporting rod (41).

4. The doubling, twisting and collecting all-in-one machine as claimed in claim 1, wherein: the spindle transmission system (3) comprises a spindle seat (33) connected to the rack (1) in a shaft mode and a line roller shaft (34) fixedly connected to the upper end face of the spindle seat (33), a plurality of positioning pins (35) are arranged on the upper end face of the spindle seat (33), and positioning pin holes matched with the positioning pins (35) are formed in the end face of the line roller (5).

5. The doubling, twisting and collecting all-in-one machine as claimed in claim 5, wherein: the spindle transmission system (3) further comprises a rotating motor (31) for driving the spindle seat (33) to rotate, and the rotating motor (31) is connected with the spindle seat (33) through a belt.

6. The doubling, twisting and collecting all-in-one machine as claimed in claim 1, wherein: the steel collar lifting system (2) comprises a lifting frame (26) vertically connected to the rack (1) in a sliding mode and a lifting drive for driving the lifting frame (26) to lift, and the steel collar (6) is fixedly connected with the lifting frame (26).

7. The doubling, twisting and collecting all-in-one machine as claimed in claim 6, wherein: the lifting drive is including being located the elevator motor of crane (26) one end and installing motor sprocket (21) on elevator motor, motor sprocket (21) are double sprocket, be equipped with a plurality of promotion hoisting points on crane (26), the promotion hoisting point that is close to motor sprocket (21) one end directly links to each other with motor sprocket (21) through lifting chain (23), and all the other promotion hoisting points are connected to a chain pull rod (24) through lifting chain (23), chain pull rod (24) link to each other with motor sprocket (21) through connecting chain (25).

8. The doubling, twisting and collecting all-in-one machine as claimed in claim 6, wherein: a plurality of vertical guide rods (27) are fixedly connected to the rack (1), and guide wheels (28) located on two sides of the guide rods (27) are mounted on the lifting frame (26).

9. The doubling, twisting and collecting all-in-one machine as claimed in claim 1, wherein: the doubling wheel set (7) comprises a wheel shaft (72) fixed on the rack (1) and a doubling wheel (71) arranged on the wheel shaft (72), and the doubling wheel (71) is a grooved wheel with an arc-shaped groove bottom.

10. A use method of a doubling, twisting and yarn-collecting all-in-one machine is characterized in that: after the tows come out of the traction roller, the tows firstly pass through the separate shrimp hooks, then pass through the doubling wheel set (7), the thread passing device (4) and the steel collar hook, and finally the thread ends are wound on the thread roller (5) according to the rotating direction of the thread roller, the change-over switch is switched to a high-speed gear, the thread roller (5) is driven to rotate at a high speed through the spindle transmission system (3), and the twisting and the filament winding are started;

the steel collar lifting system (2) controls all steel collars to lift synchronously, so that synchronous wire arrangement is realized, the rotating speed of the spindle transmission system (3) needs to be reduced correspondingly along with the increase of the diameter of the drawn wire, the lifting speed of the steel collar needs to be reduced correspondingly, and the speed matching of the spindle transmission system and the steel collar is realized through a PLC;

after the thread roller (5) is fully wound, a foot switch is stepped down, the spindle stops rotating, the thread is cut off, the thread head is pulled by hand and wound on the standby thread roller (5) running at a low speed, then the change-over switch is switched to a high-speed gear, and the twisting and the thread winding of a new thread roller (5) are started.

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