CN109052047B

CN109052047B - Monofilament drafting heat-setting digital oiling wire bonding machine and wire bonding process

Info

Publication number: CN109052047B
Application number: CN201810955163.3A
Authority: CN
Inventors: 龙军
Original assignee: Dongguan Zebra Thread Co ltd
Current assignee: Dongguan Zebra Thread Co ltd
Priority date: 2018-08-21
Filing date: 2018-08-21
Publication date: 2023-10-13
Anticipated expiration: 2038-08-21
Also published as: CN109052047A

Abstract

The invention relates to the technical field of textile machinery, in particular to a monofilament drafting heat setting digital oiling wire-bonding machine and a wire-bonding process.

Description

Monofilament drafting heat-setting digital oiling wire bonding machine and wire bonding process

Technical Field

The invention relates to the technical field of textile machinery, in particular to a monofilament drafting heat setting digital oiling wire bonding machine and a wire bonding process.

Background

In the textile industry, after removing harmful yarn defects of part of yarns after twisting and dyeing, the yarns are required to pass through a certain uniform tension, high-temperature setting and quantitative digital oiling, and each yarn is wound on the outer circumference of a bobbin by driving a heating tension wheel to rotate and transversely reciprocate, so that a fine sewing thread capable of being directly used by sewing equipment is manufactured.

However, the existing yarn winding machine only has a simple winding function, the oiling is uneven, the quality defect exists in the sewing thread manufactured by the traditional process, most sewing thread users need to soak the whole thread into the oiling agent before using the sewing thread, the whole thread is fished out and drained for reuse, the efficiency is low, the labor is wasted, and the sewing is not smooth.

Disclosure of Invention

The invention aims to provide a monofilament drafting heat setting digital oiling wire bonding machine which aims at overcoming the defects of the prior art, integrally solves the quality defect of a sewing thread, realizes efficient forming, has uniform density of a finished product, shortens the working procedure, and can be directly used on sewing equipment without wire bonding forming.

The invention is realized through the following technical scheme that the digital oiling wire bonding machine comprises a panel, wherein a yarn wire bonding mechanism, a tension wheel set and a wire winding device are sequentially arranged on the front surface of the panel, the wire winding wheel set comprises a wire winding wheel positioned on the right side of the yarn wire bonding mechanism, a yarn buffer is arranged on the left side of the yarn wire bonding mechanism, the tension wheel set is positioned above the yarn wire bonding mechanism, the tension wheel set comprises a first tension wheel and a second tension wheel which is arranged opposite to the first tension wheel, the digital oiling device is positioned above the tension wheel set, the digital oiling device comprises an oiling device and a meter wheel, the wire winding device is positioned above the digital oiling device, the wire winding device comprises a coil stock roller mechanism and a pressing roller mechanism, the coil stock roller mechanism comprises a rotating shaft, the pressing roller mechanism comprises a pressing roller, a gap is arranged between the pressing roller and the rotating shaft, and the back surface of the panel is sequentially provided with a first driving mechanism for simultaneously driving the pressing roller and the rotating shaft and a second driving mechanism simultaneously for driving the first tension wheel and the second tension wheel to rotate.

Preferably, a tension sensor for controlling the constant tension of the yarn is arranged below the digital oiling device.

Preferably, the yarn feeding mechanism comprises a supporting plate, one end of the supporting plate is fixedly connected with the panel, a wire inlet hole is formed in the other end of the supporting plate, a first support, a wire passing frame and a second support are sequentially arranged in the middle of the supporting plate, and wire passing holes are formed in the first support and the second support.

Preferably, an arc-shaped sliding rail is arranged between the coil stock roller mechanism and the pressing roller mechanism, the pressing roller mechanism further comprises a sliding base, the sliding base is provided with a rotating module and a rotating module self-locking structure, the lower end of the rotating module is provided with a sliding rod, the sliding rod is in sliding connection with the arc-shaped sliding rail, and the pressing roller is arranged on the right side of the sliding base.

Preferably, the first driving mechanism comprises a first motor, a first driving wheel, a first driven wheel and a second driven wheel, wherein a motor shaft of the first motor is in driving connection with the first driving wheel, the first driven wheel and the second driven wheel are in transmission connection through a synchronous belt, the sliding base is provided with a third driven wheel and an auxiliary roller, the third driven wheel is in transmission connection with the first driven wheel through the synchronous belt, and the auxiliary roller is in transmission connection with the third driven wheel and the pressing roller through the synchronous belt respectively; the second driven wheel is in driving connection with one end of the rotating shaft.

Preferably, the second driving mechanism comprises a second motor, a second driving wheel, a fourth driven wheel, a fifth driven wheel and a sixth driven wheel, wherein a motor shaft of the second motor is in driving connection with the second driving wheel, the fourth driven wheel, the fifth driven wheel and the sixth driven wheel are in transmission connection through synchronous belts, the fourth driven wheel is in coaxial transmission connection with the reel, the fifth driven wheel is in coaxial transmission connection with the first tension wheel, and the sixth driven wheel is in coaxial transmission connection with the second tension wheel.

Preferably, a first auxiliary guide wire reel is arranged right above the reel; a second auxiliary wire guide winding wheel is arranged right below the first tension wheel; and a third auxiliary wire guide winding wheel is arranged right below the second tension wheel.

Preferably, the middle part of the rotating shaft is provided with two annular empty slots, the annular empty slots are internally provided with pressing springs, the rotating shaft is internally provided with a push rod for controlling the pressing springs to expand or compress, and one end of the push rod extends out of the rotating shaft and is connected with a control rod for driving the push rod to stretch in the rotating shaft.

Preferably, the outer circumferential surface of the pressing roller is provided with a yarn guide groove.

A monofilament stretching, heat setting, oiling and wire bonding process comprises the following steps: A. arranging a wire pipe on the outer circumference of the rotating shaft; B. starting yarn feeding from a yarn feeding mechanism, sequentially winding a reel, a first tension wheel, a second tension wheel, a yarn buffer, a tension sensor and a digital oiler, and finally passing through a gap between a pressing roller and a yarn cylinder and winding the yarn cylinder on the outer circumferential surface of the yarn cylinder; C. the first driving mechanism drives the pressing roller and the rotating shaft to rotate simultaneously, and the second driving mechanism drives the winding wheel, the first tension wheel and the second tension wheel to rotate simultaneously, so that the yarns obtain a plurality of transmission powers and start winding; D. the digital oiling device digitally controls oiling on the surface of the yarn, increases the oil content of the yarn, ensures that the yarn has high-speed sewing characteristics and is better suitable for intelligent sewing; E. the clamping hook of the yarn buffer vibrates up and down, yarn passes through the clamping hook, and the clamping hook adjusts up and down displacement according to the paying-off length in the yarn winding process, so that the buffer of the yarn length allowance is realized; F. obtaining the finished sewing thread.

The invention has the beneficial effects that: the utility model provides a digital machine of taking turns to of oiling of filament stretching heat setting, includes the panel, yarn mechanism, reel group, tension wheelset, digital device of taking turns to have set gradually in the front of panel, the reel group is including the reel that is located yarn mechanism right side of taking turns to, yarn mechanism's left side is provided with yarn buffer, tension wheelset is located yarn mechanism's top of taking turns to, tension wheelset includes first tension wheel and the second tension wheel that sets up relatively with first tension wheel, digital device of taking turns to is located tension wheelset's top, digital device of taking turns to includes the oiler and meters the wheel. The coiling device is located above the digital oiling device, the coiling device comprises a coiling roller mechanism and a pressing roller mechanism, the coiling roller mechanism comprises a rotating shaft, the pressing roller mechanism comprises a pressing roller, an interval is arranged between the pressing roller and the rotating shaft, a first driving mechanism for simultaneously driving the pressing roller and the rotating shaft and a second driving mechanism for simultaneously driving the coiling wheel, the first tension wheel and the second tension wheel to rotate are sequentially arranged on the back surface of the panel, yarns start to be wound from the yarn winding mechanism, then sequentially wind the coiling wheel, the first tension wheel, the second tension wheel, the yarn buffer, the tension sensor and the digital oiling device, finally pass through the interval between the pressing roller and the yarn barrel and wind the outer circumferential surface of the yarn barrel, the first driving mechanism simultaneously drives the pressing roller and the rotating shaft to rotate, the second driving mechanism simultaneously drives the coiling wheel, the first tension wheel and the second tension wheel to enable the yarns to obtain a plurality of transmission power, the yarns to be stretched, the yarns are heat-shaped, the yarns are enabled to be kept stable and are kept uniform when the yarns are polished, the working time is greatly improved, the working efficiency is greatly improved, and the working time is shortened.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a schematic perspective view of the yarn feeding mechanism of the present invention.

Fig. 4 is a schematic partial structure of the winding device of the present invention.

Fig. 5 is a schematic structural view of a first driving mechanism of the present invention.

Fig. 6 is a schematic structural view of a second driving mechanism of the present invention.

Fig. 7 is a schematic perspective view of a winding drum mechanism according to the present invention.

Fig. 8 is a schematic structural view of one embodiment of the pressing roller of the present invention.

Fig. 9 is a schematic structural view of another embodiment of the pressing roller of the present invention.

Detailed Description

The invention will be further described with reference to fig. 1 to 9, and the detailed description thereof.

As shown in fig. 1 to 2, the monofilament stretching and heat setting digital oiling wire bonding machine comprises a panel 1, a yarn oiling mechanism 2, a winding wheel set 3, a tension wheel set 4, a digital oiling device 7 and a wire coiling device 5 are sequentially arranged on the front surface of the panel 1, the winding wheel set 3 comprises a winding wheel 31 positioned on the right side of the yarn oiling mechanism 2, a yarn buffer 6 is arranged on the left side of the yarn oiling mechanism 2, the tension wheel set 4 is positioned above the yarn oiling mechanism 2, the tension wheel set 4 comprises a first tension wheel 41 and a second tension wheel 42 which is arranged opposite to the first tension wheel 41, the digital oiling device 7 is positioned above the tension wheel set 4, the digital oiling device comprises an oiling device and a meter wheel, the wire coiling device 5 is positioned above the digital oiling device 7, the wire coiling device 5 comprises a wire coiling mechanism 51 and a pressing roller mechanism 52, the wire coiling mechanism 51 comprises a rotating shaft 511, the pressing roller mechanism 52 comprises a pressing roller 521, the pressing roller 521 and the pressing roller mechanism and the second tension wheel 41 are arranged opposite to the first tension wheel 41, and the second tension wheel 521 are sequentially arranged between the pressing roller 521 and the panel 41, and the second tension roller 511 are driven to rotate, and the second tension roller 521 are driven to rotate simultaneously.

In this embodiment, the spool is arranged on the outer circumference of the rotating shaft 511, the yarn starts to be wound from the yarn winding mechanism 2, then sequentially winds around the reel 31, the first tension wheel 41, the second tension wheel 42 and the yarn buffer 6, the digital oiler 7 finally passes through the interval between the pressing roller 521 and the yarn drum, and winds around the outer circumference surface of the yarn drum, the first driving mechanism simultaneously drives the pressing roller 521 and the rotating shaft 511 to rotate, the second driving mechanism simultaneously drives the reel 31, the first tension wheel 41 and the second tension wheel 42 to rotate, so that the yarn obtains a plurality of transmission powers, and the reel 31, the first tension wheel 41 and the second tension wheel 42 are arranged in a triangular distribution, so that the yarn can be ensured to relatively stable during high-speed rotation, traction and heat setting, and the digital oiling and winding are uniform in density, so that the product quality is improved, the working time is shortened, and the working efficiency is improved.

In the invention, the yarn buffer 6 is provided with the clamping hook which can vibrate up and down, yarn passes through the clamping hook, the clamping hook adjusts up and down displacement according to the paying-off length in the yarn winding process, and the buffer of the yarn length allowance is realized.

In the present invention, a heating device is provided in each of the first tension pulley 41 and the second tension pulley 42 to iron the yarn and prevent the yarn from bending.

In this embodiment, a first auxiliary reel 32 is disposed directly above the reel 31; a second auxiliary reel 43 is provided directly under the first tension pulley 41; a third auxiliary reel 44 is disposed right under the second tension reel 42, and the first auxiliary reel 32, the first auxiliary reel 43, and the third auxiliary reel 44 function to increase the tension of the yarn, and it is necessary to wind 8 to 12 times around the reels 31 and 32, the first and second tension reels 41 and 43, and the second and third auxiliary reels 42 and 44, respectively.

In the embodiment, the digital oiling device 7 digitally controls oiling on the surface of the yarn, increases the oil content of the yarn, ensures that the yarn has high-speed sewing characteristics and is better suitable for intelligent sewing.

In this embodiment, a tension sensor 8 is disposed below the digital oiling device 7, and the tension sensor 8 is used for detecting a tension value of the yarn and feeding back to the controller to adjust the rotation speed of the motor, thereby ensuring constant tension of the yarn.

As shown in fig. 3, in this embodiment, the yarn feeding mechanism 2 includes a support plate 21, one end of the support plate 21 is fixedly connected with the panel 1, a wire inlet hole 22 is provided at the other end of the support plate 21, a first bracket 23, a wire passing frame 24 and a second bracket 25 are sequentially provided at the middle part of the support plate 21, the first bracket 23 and the second bracket 25 are both provided with a wire passing hole 26, the yarn passes through the wire inlet hole 22 from the bottom of the support plate 21 to the upper end of the support plate 21, then passes through the first bracket 23, the wire passing frame 24 and the second bracket 25 once, and then winds around the reel 31, and the wire passing frame 24 can effectively limit the wire feeding direction of the yarn.

As shown in fig. 4, in this embodiment, an arc-shaped sliding rail 53 is disposed between the material rolling roller mechanism 51 and the abutting roller mechanism 52, the abutting roller mechanism 52 further includes a sliding base 522, the sliding base 522 is provided with a rotating module 523 and a rotating module self-locking structure 524, the lower end of the rotating module 524 is provided with a sliding rod 525, the sliding rod 525 is slidably connected with the arc-shaped sliding rail 53, the abutting roller 521 is disposed on the right side of the sliding base 522, the yarn passes through the interval between the abutting roller 521 and the yarn drum, and after winding on the outer circumferential surface of the yarn drum, the sliding base 522 is driven to swing towards the yarn drum, the sliding rod 525 slides along the arc-shaped sliding rail 53, the abutting roller 521 abuts against the yarn drum, and when the abutting roller 521 and the yarn drum abut against and rotate, the first driving mechanism can simultaneously drive the abutting roller 521 and the rotating shaft 511 (the rotating shaft 511 drives the yarn drum to rotate), so as to uniformly wind the yarn onto the surface of the yarn drum, thereby being beneficial to improving the uniformity of winding of the yarn onto the yarn drum.

When the pressing roller 521 presses the yarn cylinder, the sliding rod 525 slides to the highest position of the arc-shaped sliding rail 53, at the moment, the bottom surface of the sliding rod 525 and the groove surface of the arc-shaped sliding rail 53 are in a mutually abutting state, and generate larger friction force, so that the sliding base 522 can be effectively prevented from resetting under the action of the friction force, and the aim of self-locking is achieved; when the sliding base 522 is reset, the fixed state of the rotating module 523 needs to be released by the rotating module self-locking structure 524, so that the rotating module 523 can rotate, then the bottom surface of the sliding rod 525 is separated from the groove surface of the arc-shaped sliding rail 53 by external force, the friction force is released, and the sliding base 522 can slide along the arc-shaped sliding rail 53 to reset, and the pressing roller 521 is separated from the yarn barrel.

As shown in fig. 5, in this embodiment, the first driving mechanism includes a first motor 91, a first driving wheel 92, a first driven wheel 93, and a second driven wheel 94, where a motor shaft of the first motor 91 is in driving connection with the first driving wheel 92, the first driven wheel 93, and the second driven wheel 94 are in driving connection with each other through a synchronous belt, the sliding base 522 is provided with a third driven wheel and an auxiliary roller, the third driven wheel is in driving connection with the first driven wheel 93 through a synchronous belt, and the auxiliary roller is in driving connection with the third driven wheel and the pressing roller 521 through synchronous belts, respectively; the second driven wheel 94 is in driving connection with one end of the rotating shaft 511, and drives the first driving wheel 92, the first driven wheel 93 and the second driven wheel 94 to rotate through the first motor 91, the first driven wheel 93 and the second driven wheel 94 then drive the pressing roller 521 and the rotating shaft 511 to rotate, and when the pressing roller 521 and the yarn drum are in pressing rotation, the yarn can be uniformly wound on the surface of the yarn drum, so that the uniformity of winding of the yarn on the yarn drum is improved.

As shown in fig. 6, in this embodiment, the second driving mechanism includes a second motor 95, a second driving wheel 96, a fourth driven wheel 97, a fifth driven wheel 98 and a sixth driven wheel 99, where a motor shaft of the second motor 95 is in driving connection with the second driving wheel 96, the fourth driven wheel 97, the fifth driven wheel 98 and the sixth driven wheel 99 are in driving connection with the reel 31 through a synchronous belt, the fourth driven wheel 97 is in coaxial driving connection with the reel 31, the fifth driven wheel 98 is in coaxial driving connection with the first tension wheel 41, the sixth driven wheel 99 is in coaxial driving connection with the second tension wheel 42, the second driving wheel 96, the fourth driven wheel 97, the fifth driven wheel 98 and the sixth driven wheel 99 are driven to rotate through the second motor 95, the fourth driven wheel 97 drives the reel 31 to coaxially rotate, the fifth driven wheel 98 drives the first tension wheel 41 to coaxially rotate, and the sixth driven wheel 99 drives the second tension wheel 42 to coaxially rotate.

In this embodiment, as shown in fig. 7, two annular empty slots are provided in the middle of the rotating shaft 511, a pressing spring 5111 is provided in the annular empty slots, a push rod for controlling the pressing spring 5111 to expand or compress is provided in the rotating shaft 511, one end of the push rod extends out of the rotating shaft 511 and is connected with a control rod 5112 for driving the push rod to expand or contract in the rotating shaft 511, the push rod is pushed by the control rod 5112, the pressing spring 5111 is compressed, the yarn tube is sleeved on the outer circumference of the rotating shaft 511, the push rod is pushed by the control rod 5112, the pressing spring 5111 expands, the pressing spring 5111 presses the inner circumference of the yarn tube, and the yarn tube is fixed.

As shown in fig. 8, in this embodiment, the surface of the roller body of the pressing roller 521 does not have a yarn guiding groove 5211, and the pressing roller 521 (matched with a straight cylindrical yarn cylinder) is adopted to make the yarn reciprocate transversely, so that the density among the wound yarns is relatively small, the gap between the yarns is large, and the bonding machine is suitable for bonding small finished product sewing yarns; as shown in fig. 9, in this embodiment, the surface of the barrel body of the pressing roller 521 is provided with a yarn guiding groove 5211, and with this structure, the pressing roller 521 (matching with the Y-shaped bobbin) reciprocates along the yarn guiding groove 5211, the density between the wound yarns is relatively large, the gap between the yarns is small, and the finished sewing thread can be directly used on the sewing machine.

A monofilament stretching, heat setting, oiling and wire bonding process comprises the following steps: A. a spool is provided at the outer circumference of the rotating shaft 511; B. starting yarn feeding from the yarn feeding mechanism 2, sequentially winding the yarn around the reel 31, the first tension pulley 41, the second tension pulley 42, the yarn buffer 6, the tension sensor 8 and the digital oiler 7, and finally passing through the interval between the pressing roller 521 and the yarn cylinder and winding the yarn cylinder on the outer circumferential surface of the yarn cylinder; C. the first driving mechanism drives the pressing roller 521 and the rotating shaft 511 to rotate simultaneously, and the second driving mechanism drives the reel 31, the first tension wheel 41 and the second tension wheel 42 to rotate simultaneously, so that the yarns obtain a plurality of transmission powers and start winding; D. the digital oiling device 7 digitally controls oiling to the surface of the yarn, increases the oil content of the yarn, ensures that the yarn has high-speed sewing characteristics and is better suitable for intelligent sewing; E. the clamping hook of the yarn buffer 6 vibrates up and down, yarn passes through the clamping hook, the clamping hook adjusts up and down displacement according to the paying-off length in the yarn winding process, and the buffer of the yarn length allowance is realized; F. obtaining the finished sewing thread.

When the surface of the roll body of the pressing roll 521 does not have the yarn guiding groove 5211 in the step C, the yarn does a transverse reciprocating motion by adopting the pressing roll 521 (matched with the straight cylindrical yarn cylinder), the density among the wound yarns is relatively smaller, the gap between the yarns is larger, and the method is suitable for a wire bonding machine to bond small finished product sewing yarns.

As another embodiment, when the drum surface of the pressing roller in the step C is provided with the yarn guiding groove 5211, the pressing roller 521 (matched with the Y-shaped yarn tube) adopting the structure transversely reciprocates along the yarn guiding groove 5211, the density between the wound yarns is relatively large, the gap between the yarns is small, and the finished sewing thread can be directly used on a sewing machine.

The foregoing is merely exemplary of the present invention, and those skilled in the art should not be considered as limiting the invention, since modifications may be made in the specific embodiments and application scope of the invention in light of the teachings of the present invention.

Claims

1. The utility model provides a digital wire bonding machine that oils of monofilament draft heat setting, includes panel, its characterized in that: the front of the panel is sequentially provided with a yarn feeding mechanism, a winding wheel set, a tension wheel set, a digital oiling device and a winding device, wherein the winding wheel set comprises a winding wheel positioned on the right side of the yarn feeding mechanism, the left side of the yarn feeding mechanism is provided with a yarn buffer, the yarn buffer is provided with a clamping hook capable of vibrating up and down, the tension wheel set is positioned above the yarn feeding mechanism, the tension wheel set comprises a first tension wheel and a second tension wheel which is arranged opposite to the first tension wheel, the digital oiling device is positioned above the tension wheel set, the digital oiling device comprises an oiling device and a meter counting wheel, the winding device is positioned above the digital oiling device, the winding device comprises a material rolling roller mechanism and a pressing roller mechanism, the material rolling roller mechanism comprises a rotating shaft, the pressing roller mechanism comprises a pressing roller, the back of the panel is sequentially provided with a first driving mechanism for simultaneously driving the pressing roller and the rotating shaft to rotate and a second driving mechanism for simultaneously driving the reel, the first tension wheel and the second tension wheel to rotate, the yarn feeding mechanism comprises a supporting plate, one end of the supporting plate is fixedly connected with the panel, the other end of the supporting plate is provided with a wire inlet hole, the middle of the supporting plate is sequentially provided with a first bracket, a wire passing frame and a second bracket, the first bracket and the second bracket are respectively provided with a wire passing hole, an arc-shaped slide rail is arranged between the coil stock roller mechanism and the pressing roller mechanism, the pressing roller mechanism further comprises a sliding base, the sliding base is provided with a rotating module and a rotating module self-locking structure, the lower end of the rotating module is provided with a sliding rod, the sliding rod is in sliding connection with the arc-shaped slide rail, the pressing roller is arranged on the right side of the sliding base, and a tension sensor for controlling constant tension of yarns is arranged below the digital oiling device.

2. The monofilament draft heat setting digital oiling and wire bonding machine according to claim 1, wherein: the first driving mechanism comprises a first motor, a first driving wheel, a first driven wheel and a second driven wheel, wherein a motor shaft of the first motor is in driving connection with the first driving wheel, the first driven wheel and the second driven wheel are in transmission connection through a synchronous belt, the sliding base is provided with a third driven wheel and an auxiliary roller, the third driven wheel is in transmission connection with the first driven wheel through the synchronous belt, and the auxiliary roller is in transmission connection with the third driven wheel and the pressing roller through the synchronous belt respectively; the second driven wheel is in driving connection with one end of the rotating shaft.

3. The monofilament draft heat setting digital oiling and wire bonding machine according to claim 1, wherein: the second driving mechanism comprises a second motor, a second driving wheel, a fourth driven wheel, a fifth driven wheel and a sixth driven wheel, wherein a motor shaft of the second motor is in driving connection with the second driving wheel, the fourth driven wheel, the fifth driven wheel and the sixth driven wheel are in transmission connection through synchronous belts, the fourth driven wheel is in coaxial transmission connection with the reel, the fifth driven wheel is in coaxial transmission connection with the first tension wheel, and the sixth driven wheel is in coaxial transmission connection with the second tension wheel.

4. The monofilament draft heat setting digital oiling and wire bonding machine according to claim 1, wherein: a first auxiliary reel is arranged right above the reel; a second auxiliary winding wheel is arranged right below the first tension wheel; a third auxiliary reel is arranged right below the second tension wheel.

5. The monofilament draft heat setting digital oiling and wire bonding machine according to claim 1, wherein: the middle part of pivot is provided with two annular empty slots, be provided with in the annular empty slot and support the pressure spring, the pivot is inside to be provided with and to be used for controlling to support the push rod that the pressure spring expanded or compressed, the outside that the pivot was stretched out to the one end of push rod and be connected with the control rod that is used for driving the push rod and stretches out and draw back in the pivot.

6. The monofilament draft heat setting digital oiling and wire bonding machine according to claim 1, wherein: the outer circumferential surface of the pressing roller is provided with a yarn guide groove.

7. A filament drawing heat setting and oiling process using the filament drawing heat setting digital oiling and bonding machine according to any one of claims 1 to 6, which is characterized in that: the method comprises the following steps:

A. arranging a wire pipe on the outer circumference of the rotating shaft;

B. starting yarn feeding from a yarn feeding mechanism, sequentially winding a reel, a first tension wheel, a second tension wheel, a yarn buffer, a tension sensor and a digital oiler, and finally passing through a gap between a pressing roller and a yarn cylinder and winding the yarn cylinder on the outer circumferential surface of the yarn cylinder;

C. the first driving mechanism drives the pressing roller and the rotating shaft to rotate simultaneously, and the second driving mechanism drives the winding wheel, the first tension wheel and the second tension wheel to rotate simultaneously, so that the yarns obtain a plurality of transmission powers and start winding;

D. the digital oiling device digitally controls oiling on the surface of the yarn, increases the oil content of the yarn, ensures that the yarn has high-speed sewing characteristics and is better suitable for intelligent sewing;

E. the clamping hook of the yarn buffer vibrates up and down, yarn passes through the clamping hook, and the clamping hook adjusts up and down displacement according to the paying-off length in the yarn winding process, so that the buffer of the yarn length allowance is realized;

F. obtaining the finished sewing thread.