CN208577807U - Combination plant is led in a kind of drawing-off spinning - Google Patents

Abstract

The utility model belongs to Spinning Equipmentss technical field more particularly to combination plant is led in a kind of drawing-off spinning.The equipment includes the melt extruded machine set gradually by production technology, filament spinning component, cooling component, the component that oils, drafting component and up- coiler, oil component, drafting component and up- coiler is vertically set gradually, fibre bundle after the component that oils oils enters drafting component along first direction, fibre bundle enters in up- coiler in a second direction after drafting component drawing-off, and second direction and first direction are arranged in parallel.The utility model can reduce the turning angle that fibre bundle enters drafting component and goes out from drafting component, so as to avoid fibre bundle from generating broken end in drawing-off, to improve product quality so that drawing point is effectively controlled.

Description

Combination plant is led in a kind of drawing-off spinning

Technical field

The utility model belongs to Spinning Equipmentss technical field more particularly to combination plant is led in a kind of drawing-off spinning.

Background technique

Currently, the enterprise of produced worldwide tow is concentrated mainly on China, South Korea, Japan and France, since tow has Therefore the feature that total output is small but profit is high has broad application prospects.

Polyamide fibre 6 (66) is in actual production, and fibre bundle after lotion oils need to turn 90 ° and sequentially enter multipair drawing-off In roller, enters finally into up- coiler and wind.

In the process of implementing the utility model, it is found by the applicant that in the prior art the prior art has at least the following problems:

In the prior art, since fibre bundle need to turn 90 ° of first counter extensioin rollers entered in multipair draw roll, through multipair After draw roll drawing-off, is entered in up- coiler turning 90 °, cause tensioning angle of fibre bundle when through draw roll excessive, cause Fibre bundle shakes on the first counter extensioin roller, and drawing point is caused to be unable to control, and fibre bundle often occurs and causes together Drawing-off broken end, influences product quality.

Utility model content

In view of the above-mentioned problems of the prior art, the utility model provide it is a kind of can improve product quality drawing-off spinning lead Combination plant.

The utility model achieves the above object through the following technical schemes:

Combination plant is led in a kind of drawing-off spinning, and the equipment includes the melt extruded machine set gradually by production technology, spinning Component, cooling component, the component that oils, drafting component and up- coiler, the component that oils, the drafting component and the volume It is vertically set gradually around machine, the fibre bundle after the component that oils oils enters the drafting component along first direction, fine Dimension tow enters in the up- coiler in a second direction after the drafting component drawing-off, the second direction and described first Direction is arranged in parallel.

Further, the drafting component includes holding roller, the first counter extensioin roller group, the second counter extensioin roller group and the Three counter extensioin roller groups, wherein

The underface for holding roller and being located at the output section of the component that oils；

The first counter extensioin roller group includes rotationally the first draw roll and the second draw roll, first draw roll position In the right side of the underface for holding roller, second draw roll is located at the surface of first draw roll；

The second counter extensioin roller group is located at the horizontal right side of the first counter extensioin roller group, the second counter extensioin roller group Including rotationally third draw roll and the 4th draw roll, the level that the third draw roll is located at first draw roll is right Side, the 4th draw roll are located at the left side of the surface of the third draw roll；

The third counter extensioin roller group is located at the top of the second counter extensioin roller group, and the third counter extensioin roller group includes Rotationally the 5th draw roll and the 6th draw roll, the 5th draw roll is located at the surface of the third draw roll, described 6th draw roll is located at the horizontal left side of the 5th draw roll, and the 6th draw roll is located at the input unit of the up- coiler Surface；

After the fibre bundle that oiled component treated vertically enters the gripping roller, described first is successively bypassed The first draw roll and the second draw roll, the third draw roll and the 4th drawing-off of the second counter extensioin roller group of counter extensioin roller group The 5th draw roll and the 6th draw roll of roller, the third counter extensioin roller group, finally vertically enter in the up- coiler and twine Around；

Described is vertically the first direction and the second direction.

Further, the first counter extensioin roller group, the second counter extensioin roller group and the third counter extensioin roller group In draw roll be hot-rolling.

Further, the filament spinning component includes thermal-insulating body, spinning manifold, feed pipe, distribution pipe, delivery pump, conveying Branch pipe and filator, wherein the spinning manifold is arranged in the thermal-insulating body, one end of the feed pipe and described molten Melt the output end connection of extruder, the other end of the feed pipe successively protrudes into the thermal-insulating body and the spinning manifold Interior, the distribution pipe, delivery pump, delivery branch pipe and filator are arranged in the spinning manifold, the distribution pipe setting There are two, one end of two distribution pipes is connected with the other end of the feed pipe, the other end of two distribution pipes It is provided with the delivery pump, each delivery pump is connected to by multiple delivery branch pipes with the filator, the spinning Device has multiple first filament mouths, and the bottom of the thermal-insulating body is provided with multiple second filament mouths, second filament mouth and First filament mouth corresponds, and second filament mouth is correspondingly arranged at the underface of first filament mouth.

Further, the filament spinning component further includes annealer and slow cooling chamber, and the slow cooling chamber is arranged described Between filator and the bottom of the thermal-insulating body, the slow cooling chamber is vertically penetrated through, the top and bottom of the slow cooling chamber Portion is connected with first filament mouth with second filament mouth respectively；The output section of the annealer and the slow cooling chamber It is connected, the fibre bundle that filament spinning component is produced can be heated in this way, it is prevented to be directly cooled generation quality Problem.

Further, the cooling component includes blowing cabinet, air inlet cylinder and blowing duct, wherein the blow box Multiple harness cord holes are provided at the top of body, the blowing bottom of box is provided with hole and wind net, and the wind net is arranged in institute The horizontal side of through hole is stated, the lower section of the wind net is arranged in the air inlet cylinder, and the blowing duct setting passes through described The underface in hole.

Further, the blowing cabinet has wind-guiding side wall, and the wind-guiding side wall is close to the wind net, the wind-guiding side Wall and the wind net setting at an acute angle.

Further, the equipment further includes melt suction unit, the melt suction unit include water inlet pipe, injection connect Head, absorption tube and delivery pipe, wherein the jet-sub is mounted on the end of the water inlet pipe, setting in the jet-sub There is spray-hole, rotationally valve body, one end of the absorption tube and the described spray of the delivery pipe are provided in the spray-hole It penetrates connector to be connected, the other end of the absorption tube extends to the intracorporal top of the blow box.

Further, filter layer, the top and bottom point of the filter layer are vertically provided in the blow box body Top and the wind for not being connected to the wind-guiding side wall are online.

Further, the component that oils includes oil panel, mounting bracket, rotary electric machine, the first oil tanker, the second oil Wheel, jackscrew stick, the first silk pressing stick and the second silk pressing stick, wherein the rotary electric machine is fixed in the mounting bracket, The panel that oils vertically is fixedly mounted in the mounting bracket, and first oil tanker and the second oil tanker are rotatably mounted It oiling on panel described, the central axis of the central axis of first oil tanker and second oil tanker is located on same vertical line, For the output end of the rotary electric machine by wheel belt and the transmission connection of first oil tanker and second oil tanker, the jackscrew stick is solid Fixed setting oils on panel described, and the jackscrew stick is arranged between first oil tanker and second oil tanker, the top Silk stick is arranged on the inside of fibre bundle, and the first silk pressing stick and the second silk pressing stick are successively set on described from top to bottom The lower section of second oil tanker, the first silk pressing stick and the second silk pressing stick are fixedly mounted in the mounting bracket, institute It states the first silk pressing stick and the second silk pressing stick is arranged on the outside of fibre bundle.

The beneficial effects of the utility model are:

Combination plant is led in a kind of drawing-off spinning of the utility model, since the fibre bundle after the component that oils oils is along first Direction enters drafting component, and fibre bundle enters in up- coiler in a second direction after drafting component drawing-off, second direction It is arranged in parallel with first direction, can thus reduce turn that fibre bundle enters drafting component and goes out from drafting component Dog-ear degree, so as to avoid fibre bundle from generating broken end in drawing-off, to improve product so that drawing point is effectively controlled Quality.

Detailed description of the invention

It, below will be to required in embodiment description in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing to be used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some realities of the utility model Example is applied, it for those of ordinary skill in the art, without creative efforts, can also be according to these attached drawings Obtain other attached drawings.

Fig. 1 is that the structural schematic diagram for leading combination plant is spun in a kind of drawing-off of the utility model embodiment；

Fig. 2 is the structural schematic diagram of the filament spinning component of the utility model embodiment；

Fig. 3 is the structural schematic diagram of the filament spinning component of the utility model embodiment；

Fig. 4 is the structural schematic diagram of the filament spinning component of the utility model embodiment；

Fig. 5 is the structural schematic diagram of the cooling unit of the utility model embodiment；

Fig. 6 is the structural schematic diagram of the cooling unit of the utility model embodiment；

Fig. 7 is the structural schematic diagram of the melt suction unit of the utility model embodiment；

Fig. 8 is the structural schematic diagram of the melt suction unit of the utility model embodiment；

Fig. 9 is the structural schematic diagram of the component that oils of the utility model embodiment；

Figure 10 is the adjustable angle schematic diagram of draw roll in the drafting component of the utility model embodiment.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1 is that the structural schematic diagram for leading combination plant is spun in a kind of drawing-off of the utility model embodiment, referring to Fig. 1, this reality It include the melt extruded machine 1 by production technology and vertically set gradually with the equipment of new embodiment, filament spinning component 2, cooling Component 3, the component 4 that oils, drafting component 5 and up- coiler 6.

The melt extruded machine 1 of the utility model embodiment is raw material to be processed into molten condition from solid-state, and be delivered to It is formed in filament spinning component 2.

In the utility model embodiment, melt force sensor can be housed in the head of extruder 1, can detecte molten The pressure value of body, after melt pressure reaches certain value, 1 motor of extruder automatically speeds up or slows down according to the melt pressure of setting, To guarantee that 1 head pressure of extruder is constant.

Fig. 2-Fig. 4 is the structural schematic diagram of the filament spinning component of the utility model embodiment, and in conjunction with Fig. 2-Fig. 4, this is practical new The filament spinning component 2 of type embodiment may include thermal-insulating body 2.1, spinning manifold 2.2, feed pipe 2.3, distribution pipe 2.4, delivery pump 2.5, delivery branch pipe 2.6 and filator 2.7.

In conjunction with Fig. 2, the spinning manifold 2.2 of the utility model embodiment is arranged in thermal-insulating body 2.1, to guarantee in spinning Raw material in cabinet 2.2 is in a molten state, prevents its solidification.

In conjunction with Fig. 2, the distribution pipe 2.4, delivery pump 2.5, delivery branch pipe 2.6 and filator of the utility model embodiment 2.7 are arranged in spinning manifold 2.2, and there are two the settings of distribution pipe 2.4, and one end of two distribution pipes 2.4 is and feed pipe 2.3 Other end connection, the other end of two distribution pipes 2.4 is provided with delivery pump 2.5, and each delivery pump 2.5 is by multiple defeated Branch pipe 2.6 is sent to be connected to filator 2.7, filator 2.7 has multiple first filament mouths, and the bottom of thermal-insulating body 2.1 is provided with Multiple second filament mouths, the second filament mouth and the first filament mouth correspond, and the second filament mouth is correspondingly arranged at the first filament mouth Underface.

When implementing, raw material in a molten state enters two distribution pipes through feed pipe, then by delivery pump and Delivery branch pipe enters in filator, filator by Raw material processing at multiple fibre bundles, and pass through the first filament mouth and second Filament mouth is delivered to downwards in cooling component 3.

The filator 2.7 of the utility model embodiment due to multiple first filament mouths, can disposably process At multiple fibre bundles, yield can thus be significantly increased.

Further, in conjunction with Fig. 3, the filament spinning component of the utility model embodiment can also include annealer 2.8 and slow cooling Chamber 2.9, slow cooling chamber 2.9 are arranged between filator 2.7 and the bottom of thermal-insulating body 2.1, and slow cooling chamber 2.9 is vertically Perforation, the top and bottom of slow cooling chamber 2.9 are connected with the first filament mouth and the second filament mouth respectively；Annealer 2.8 it is defeated Portion is connected with slow cooling chamber 2.9 out, can heat in this way to the fibre bundle that filament spinning component is produced, and then reduces The freezing point of fibre bundle reduces the pre-orientation degree of fibre bundle, improves the leading property of melt fiber tow.

Fig. 5 is the structural schematic diagram of the cooling unit of the utility model embodiment, and Fig. 6 is the cold of the utility model embodiment But the structural schematic diagram of unit, in conjunction with Fig. 1, Fig. 5 and Fig. 6, the cooling component of the utility model embodiment includes blowing cabinet 3.1, cylinder 3.2 and blowing duct 3.3 are entered the wind, wherein be provided with multiple harness cord holes at the top of blowing cabinet 3.1, cabinet 3.1 of drying Bottom is provided with hole and wind net 3.4, and the horizontal side of through hole is arranged in wind net 3.4, and air inlet cylinder 3.2 is arranged in wind net The underface of through hole is arranged in 3.4 lower section, blowing duct 3.3, and air inlet cylinder 3.2 can be with the output section phase of blowing device Connection, the output section of blowing device is blown into cooling wind into blow box body by entering the wind cylinder 3.2, and then will pass through blowing cabinet Fibre bundle cools down.

The blowing device of the utility model embodiment can be hair dryer etc., and the utility model embodiment is to blowing device Type is herein with no restrictions.

In addition, multiple harness cord holes, through hole and blowing duct of the utility model embodiment are located on same vertical direction, To realize passing through for fibre bundle.

In conjunction with Fig. 5, the blowing cabinet 3.1 of the utility model embodiment has wind-guiding side wall 3.5, and wind-guiding side wall 3.5 is close Wind net 3.4, wind-guiding side wall 3.5 and the setting at an acute angle of wind net 3.4 can make to be oriented to 3.5 innings of guiding roles of side wall in this way, with more Cooling wind is efficiently introduced, realizes the rapid cooling of fibre bundle.

In conjunction with Fig. 5, filter layer 3.6, filter layer are vertically provided in the blowing cabinet 3.1 of the utility model embodiment 3.6 top and bottom are connected on the top and wind net 3.4 of wind-guiding side wall 3.5.Filter layer 3.6 can direct and fiber The cooling wind that tow carries out heat exchange is filtered, and is avoided having and is infiltrated impurity on the fibre bundle of the condition of high temperature, influences fiber The quality of tow.

Further, first filter layer 3.6 of the utility model embodiment can be from horizontally into cabinet successively Porous filter plate, filter screen and the cellular board of setting are combined into, in this way can be from outside to inside to different size of impurity mistake Filter.

Further, in conjunction with Fig. 6, the blowing cabinet 3.1 of the utility model embodiment also has side wall 3.7, the side wall 3.7 It is oppositely arranged with wind-guiding side wall 3.5, two fans can be set on side wall 3.7 relatively and openable door, it not only can be to case Internal portion is observed, and when phenomena such as fibre bundle knotting occurs in the inside of cabinet, can be operated to fibre bundle.

Fiber not only can be improved due to being to cool down using air cooling way to fibre bundle in the utility model embodiment The cooling effect of tow can also improve the spinning speed of equipment, improve the yield of finished fiber tow.

It should be noted that the cabinet and blowing duct of cooling component can be set more in the utility model embodiment Group, quantity can be rationally arranged according to the temperature of fibre bundle to be cooled, the utility model embodiment to this with no restriction.

Further, since the fibre bundle being discharged from the second filament mouth can be mixed with melt, it is based on this, the utility model is real It applies example and is also provided with melt suction unit 7, Fig. 7 is the structural schematic diagram of the melt suction unit of the utility model embodiment, Fig. 8 For the structural schematic diagram of the melt suction unit for the utility model embodiment, in conjunction with Fig. 1, Fig. 7 and Fig. 8, melt suction is filled Setting 7 includes water inlet pipe 7.1, jet-sub 7.2, absorption tube 7.3 and delivery pipe 7.4, wherein jet-sub 7.2 is mounted on into water The end of pipe 7.1 is provided with spray-hole in jet-sub 7.2, rotationally valve body 7.5, absorption tube 7.3 is provided in spray-hole One end be connected to delivery pipe 7.4 and jet-sub 7.2, the other end of absorption tube 7.3 extend to blowing cabinet 3.1 in Top.

When implementing, water inlet pipe is pumped into water body, and the impact of water body rotates valve body in spray-hole, and then generates negative pressure, It is sucked by the melt that fibre bundle is mixed with by absorption tube, meanwhile, water body can be flowed into row from spray-hole and the intracorporal gap of valve It puts in pipe, melt and water mixing, and is drained into recyclable device by delivery pipe, to prevent the pollution to working environment, subtracted Few wash number, and tow end rate is reduced, improve product quality.

In the utility model embodiment, in conjunction with Fig. 8, the other end of absorption tube 7.3 can connect an absorbing cover 7.6, To increase inhalation area.

In the utility model embodiment, in conjunction with Fig. 8, a vapour hood 7.7 can be set at the top of absorbing cover 7.5, The vapour hood 7.7 can discharge steam, and melt is made to be in gaseous state, prevent melt crystallization, and then block pipeline.

In conjunction with Fig. 7 and Fig. 8, the melt suction unit 7 of the utility model embodiment is also provided with a bleeder 7.8, which is also connected with one end of absorption tube 7.3, and bleeder 7.8 and delivery pipe 7.4 cooperate, and makes Melt is discharged comprehensively.

Specifically, the delivery pipe of the utility model embodiment can be vertically arranged, and bleeder can and absorption tube Flush setting.

In the utility model embodiment, melt suction unit 7 and wind-guiding side wall 3.5 are oppositely arranged, to avoid the two work When interfere.

Fig. 9 is the structural schematic diagram of the component that oils of the utility model embodiment, in conjunction with Fig. 9, the utility model embodiment The component 4 that oils may include oil panel 4.1, mounting bracket 4.2, rotary electric machine 4.3, the first oil tanker 4.4, the second oil tanker 4.5, jackscrew stick 4.6, the first silk pressing stick 4.7 and the second silk pressing stick 4.8, wherein rotary electric machine 4.3 is fixed at installation branch On frame 4.2, the panel 4.1 that oils vertically is fixedly mounted in mounting bracket 4.2, and the first oil tanker 4.4 and the second oil tanker 4.5 can It is rotatably mounted at and oils on panel 4.1, the central axis of the central axis of the first oil tanker 4.4 and the second oil tanker 4.5 is located at same perpendicular On straight line, the output end of rotary electric machine 4.3 passes through wheel belt and the transmission connection of the first oil tanker 4.4 and the second oil tanker 4.5, jackscrew stick 4.6 are fixed at and oil on panel 4.1, and jackscrew stick 4.6 is arranged between the first oil tanker 4.4 and the second oil tanker 4.5, jackscrew stick 4.6 are arranged on the inside of fibre bundle, and the first silk pressing stick 4.7 and the second silk pressing stick 4.8 are successively set on the second oil from top to bottom The lower section of wheel 4.5, the first silk pressing stick 4.7 and the second silk pressing stick 4.8 are fixedly mounted in mounting bracket 4.2, the first silk pressing Stick 4.7 and the second silk pressing stick 4.8 are arranged on the outside of fibre bundle.

Further, first oil tanker 4.4, the second oil tanker 4.5 of the utility model embodiment can be installed by bearing On corresponding position.

In conjunction with Fig. 9, the component 4 that oils of the utility model embodiment can also include being mounted on the to oil on panel 4.1 One swab case 4.9 and the second swab case 4.10, wherein the first swab case 4.9 is located at 4.4 lower section of the first oil tanker, the second swab case 4.10 are located at 4.4 lower section of the first oil tanker, for access oil.

When implementing, fibre bundle successively passes through the first oil tanker 4.4, the second oil tanker 4.5, jackscrew stick 4.6, the first silk pressing stick 4.7 and second silk pressing stick 4.8 complete the process that oils of fibre bundle in the process.And jackscrew stick 4.6, the first silk pressing The setting of stick 4.7 and the second silk pressing stick 4.8 guarantees the tensioning of fibre bundle during making fibre bundle oil.

The utility model embodiment due to being provided with two oil tankers from top to bottom, to carry out on double times to fibre bundle Oil can increase the convergence of melt fiber after the above-mentioned component 5 that oils oils, and antistatic property reduces rubbing for melt fiber stretching Coefficient is wiped, the tensile property of melt fiber is improved.

In the utility model embodiment, the fibre bundle after the component that oils oils enters the drawing-off along first direction Component, fibre bundle enter in up- coiler 6 in a second direction after drafting component drawing-off, and second direction is parallel with first direction Setting, to improve in background technique, due to the tensioning angle excessive the problem of causing of fibre bundle when through draw roll.

Since the production technology of the fibre bundle of the utility model embodiment is vertically arranged, the utility model is real Apply example is vertically above-mentioned first direction and second direction.

Further, in conjunction with Fig. 1, the drafting component of the utility model embodiment includes holding roller 5.1, the first counter extensioin Roller group, the second counter extensioin roller group and third counter extensioin roller group, wherein

The underface that roller 5.1 is located at the output section for the component 4 that oils is held, to play sub-wire and gripping；

First counter extensioin roller group includes rotationally the first draw roll 5.2 and the second draw roll 5.3, the first draw roll 5.2 Positioned at the right side for the underface for holding roller 5.1, the second draw roll 5.3 is located at the surface of the first draw roll 5.2；

Second counter extensioin roller group is located at the horizontal right side of the first counter extensioin roller group, and the second counter extensioin roller group includes rotationally Third draw roll 5.4 and the 4th draw roll 5.5, third draw roll 5.4 are located at the horizontal right side of the first draw roll 5.2, and the 4th leads Stretch the left side that roller 5.5 is located at the surface of third draw roll 5.4；

Third counter extensioin roller group is located at the top of the second counter extensioin roller group, and third counter extensioin roller group includes the rotationally the 5th Draw roll 5.6 and the 6th draw roll 5.7, the 5th draw roll 5.6 are located at the surface of third draw roll 5.4, the 6th draw roll 5.7 are located at the horizontal left side of the 5th draw roll 5.6, and the 6th draw roll 5.7 is located at the surface of the input unit of up- coiler 6.

The fibre bundle that oiled component treated vertically enters hold roller 5.1 after, successively lead around first Dui Stretch the first draw roll 5.2 and the second draw roll 5.3, the third draw roll 5.4 and the 4th drawing-off of the second counter extensioin roller group of roller group The 5th draw roll 5.6 and the 6th draw roll 5.7 of roller 5.5, third counter extensioin roller group, finally vertically enter in up- coiler 6 Winding, therefore, can reduce the turning angle that fibre bundle enters drafting component and goes out from drafting component, so as to So that drawing point is effectively controlled, avoids fibre bundle from generating broken end in drawing-off, to improve product quality.

In addition, in the prior art, each pair of draw roll in drafting component, usually chilling roller and hot-rolling are collocated with each other use, The tensioning caused in this way to fibre bundle is insufficient, uneven heating, causes the physical property of fibre bundle to differ larger, fracture Intensity is low, is not able to satisfy the requirement of later process, and the utility model embodiment improves this.

The draw roll of each pair of drawing-off roller group is all made of hot-rolling by the utility model embodiment, and is cold due to holding roller Roller when fibre bundle moves in drafting component, two-stage drawing-off (first cold drawing-off, then hot gas spring) can be carried out to fibre bundle, is made The elongation of fibre bundle and internal structure are stabilized, and are effectively eliminated its internal drafting stress, are improved fibre bundle Shape stability, and the breaking strength of fibre bundle is improved, reduce the end breakage rate of fibre bundle.

The hot-rolling held in roller 5.1 and drawing-off roller group in conjunction with Fig. 1, in the drafting component 5 of the utility model embodiment It can be installed on drawing-off panel 5.8.

In the utility model embodiment, the angle of first draw roll of each pair of drawing-off roller group that fibre bundle first bypasses can It adjusts, i.e. the first draw roll 5.2 of the first counter extensioin roller group, the third draw roll 5.4 of the second counter extensioin roller group and third are to leading Stretch the adjustable angle of the 5th draw roll 5.6 of roller group.

Figure 10 is the adjustable angle schematic diagram of draw roll in the drafting component of the utility model embodiment.In conjunction with Fig. 1 and figure 10, each pair of drawing-off roller group of the utility model embodiment further includes the first drawing-off motor, the second drawing-off motor 5.9 and Method for Installation Orchid 5.10, the first drawing-off motor is fixedly mounted on drawing-off panel 5.8, and the first drawing-off motor is arranged in first draw roll On output section, the second drawing-off motor 5.9 is mounted on drawing-off panel 5.8 by mounting flange 5.10, is set on mounting flange 5.10 It is equipped with a mounting hole 5.11 and kidney slot 5.12, the mounting hole 5.11 on mounting flange 5.10 passes through shaft and the second drawing-off electricity Machine 5.9 connects, and the kidney slot 5.12 on mounting flange 5.10 is connected by movably screw and the second drawing-off motor 5.9, this Sample can be such that the second drawing-off motor 5.9 rotates with carrying out low-angle in 5.10 Shangrao mounting hole 5.11 of mounting flange, to make the The angle of one draw roll is adjusted, to guarantee that fibre bundle in the tensile force of drafting component, after rotateing in place, passes through kidney-shaped Screw on hole can fix again the second drawing-off motor 5.9.

The first drawing-off motor of the utility model embodiment can be directly fixed on drawing-off panel by correspondingly flange.

In addition, each drawing-off roller surface is covered with ceramic layer in the utility model embodiment, to improve the rub resistance of hot-rolling Property, improve the service life of hot-rolling.

Embodiment provided above is the better embodiment of the utility model, only is used to facilitate to illustrate the utility model, and It is non-to impose any limitation on the present invention, have usually intellectual in any technical field, if not departing from In the range of the mentioned technical characteristic of the utility model, locally changes or repair using made by the utility model disclosed technology content The equivalent embodiment of decorations, and without departing from the technical characteristics of the utility model content, still fall within the utility model technical characteristic In the range of.

Claims (10)

1. combination plant is led in a kind of drawing-off spinning, which is characterized in that the equipment includes that the melting set gradually by production technology is squeezed Press (1), filament spinning component (2), cooling component (3), the component that oils (4), drafting component (5) and up- coiler (6), through the group that oils Fibre bundle after part (4) oils enters the drafting component (5) along first direction, and fibre bundle is led through the drafting component It is entered in a second direction after stretching in the up- coiler (6), the second direction and the first direction are arranged in parallel.

2. combination plant is led in a kind of drawing-off spinning according to claim 1, which is characterized in that the drafting component includes holding Roller (5.1), the first counter extensioin roller group, the second counter extensioin roller group and third counter extensioin roller group, wherein

The underface for holding roller (5.1) and being located at the output section of the component (4) that oils；

The first counter extensioin roller group includes rotationally the first draw roll (5.2) and the second draw roll (5.3), and described first leads The right side that roller (5.2) are located at the underface for holding roller (5.1) is stretched, second draw roll (5.3) is located at described first The surface of draw roll (5.2)；

The second counter extensioin roller group is located at the horizontal right side of the first counter extensioin roller group, and the second counter extensioin roller group includes Rotationally third draw roll (5.4) and the 4th draw roll (5.5), the third draw roll (5.4) are located at first drawing-off The horizontal right side of roller (5.2), the 4th draw roll (5.5) are located at the left side of the surface of the third draw roll (5.4)；

The third counter extensioin roller group is located at the top of the second counter extensioin roller group, and the third counter extensioin roller group includes that can turn The 5th draw roll (5.6) of dynamic ground and the 6th draw roll (5.7), the 5th draw roll (5.6) are located at the third draw roll (5.4) surface, the 6th draw roll (5.7) are located at the horizontal left side of the 5th draw roll (5.6), and the described 6th leads Stretch the surface that roller (5.7) are located at the input unit of the up- coiler (6)；

After the fibre bundle that oiled component treated vertically enters the gripping roller (5.1), successively around described the The first draw roll (5.2) of a pair of of drawing-off roller group and the third draw roll of the second draw roll (5.3), the second counter extensioin roller group (5.4) and the 4th draw roll (5.5), the 5th draw roll (5.6) of the third counter extensioin roller group and the 6th draw roll (5.7), Finally vertically enter winding in the up- coiler (6)；

Described is vertically the first direction and the second direction.

3. combination plant is led in a kind of drawing-off spinning according to claim 2, which is characterized in that the first counter extensioin roller group, Draw roll in the second counter extensioin roller group and the third counter extensioin roller group is hot-rolling.

4. combination plant is led in a kind of drawing-off spinning according to claim 1-3, which is characterized in that the filament spinning component Including thermal-insulating body (2.1), spinning manifold (2.2), feed pipe (2.3), distribution pipe (2.4), delivery pump (2.5), delivery branch pipe (2.6) and filator (2.7), wherein spinning manifold (2.2) setting in the thermal-insulating body (2.1), it is described into One end of expects pipe (2.3) is connected with the output end of the melt extruded machine (1), and the other end of the feed pipe (2.3) is successively stretched Enter in the thermal-insulating body (2.1) and the spinning manifold (2.2), the distribution pipe (2.4), delivery pump (2.5), conveying branch Pipe (2.6) and filator (2.7) are arranged in the spinning manifold (2.2), and there are two distribution pipe (2.4) settings, One end of two distribution pipes (2.4) is connected with the other end of the feed pipe (2.3), two distribution pipes (2.4) The other end be provided with the delivery pump (2.5), each delivery pump (2.5) by multiple delivery branch pipes (2.6) and Filator (2.7) connection, the filator (2.7) have multiple first filament mouths, the bottom of the thermal-insulating body (2.1) Multiple second filament mouths are provided with, second filament mouth and first filament mouth correspond, second filament mouth pair The underface of first filament mouth should be set.

5. combination plant is led in a kind of drawing-off spinning according to claim 4, which is characterized in that the filament spinning component further includes delaying Cooler (2.8) and slow cooling chamber (2.9), the slow cooling chamber (2.9) are arranged in the filator (2.7) and the thermal-insulating body (2.1) between bottom, the slow cooling chamber (2.9) is vertically penetrated through, the top and bottom difference of the slow cooling chamber (2.9) It is connected with first filament mouth with second filament mouth；The output section of the annealer (2.8) and the slow cooling chamber (2.9) it is connected.

6. combination plant is led in a kind of drawing-off spinning according to claim 1-3, which is characterized in that the cooling component Including blowing cabinet (3.1), air inlet cylinder (3.2) and blowing duct (3.3), wherein setting at the top of the blowing cabinet (3.1) There are multiple harness cord holes, blowing cabinet (3.1) bottom is provided with hole and wind net (3.4), wind net (3.4) setting In the horizontal side of the through hole, air inlet cylinder (3.2) is arranged in the lower section of the wind net (3.4), the blowing duct (3.3) underface of the through hole is set.

7. combination plant is led in a kind of drawing-off spinning according to claim 6, which is characterized in that blowing cabinet (3.1) tool Have wind-guiding side wall (3.5), the wind-guiding side wall (3.5) is close to the wind net (3.4), the wind-guiding side wall (3.5) and the wind Net (3.4) setting at an acute angle.

8. combination plant is led in a kind of drawing-off spinning according to claim 7, which is characterized in that the equipment further includes that melt is taken out It inhales device (7), the melt suction unit (7) includes water inlet pipe (7.1), jet-sub (7.2), absorption tube (7.3) and discharge It manages (7.4), wherein the jet-sub (7.2) is mounted on the end of the water inlet pipe (7.1), and the jet-sub (7.2) is interior It is provided with spray-hole, is provided with rotationally valve body (7.5) in the spray-hole, one end of the absorption tube (7.3) and described The described jet-sub (7.2) of delivery pipe (7.4) is connected, and the other end of the absorption tube (7.3) extends to the blow box Top in body (3.1).

9. combination plant is led in a kind of drawing-off spinning according to claim 8, which is characterized in that in the blowing cabinet (3.1) It is vertically provided with filter layer (3.6), is connected to the wind-guiding side wall at the top and bottom of the filter layer (3.6) (3.5) on top and the wind net (3.4).

10. combination plant is led in a kind of drawing-off spinning according to claim 1-3, which is characterized in that the group that oils Part (4) includes oil panel (4.1), mounting bracket (4.2), rotary electric machine (4.3), the first oil tanker (4.4), the second oil tanker (4.5), jackscrew stick (4.6), the first silk pressing stick (4.7) and the second silk pressing stick (4.8), wherein the rotary electric machine (4.3) is solid Fixed to be arranged on the mounting bracket (4.2), the panel that oils (4.1) is vertically fixedly mounted on the mounting bracket (4.2) on, first oil tanker (4.4) and the second oil tanker (4.5) be installed in rotation on it is described oil on panel (4.1), institute The central axis of the central axis and second oil tanker (4.5) of stating the first oil tanker (4.4) is located on same vertical line, the rotation electricity The output end of machine (4.3) passes through wheel belt and the transmission connection of first oil tanker (4.4) and second oil tanker (4.5), the top Silk stick (4.6) oils on panel (4.1) described in being fixed at, and the jackscrew stick (4.6) is arranged in first oil tanker (4.4) Between second oil tanker (4.5), the jackscrew stick (4.6) is arranged on the inside of fibre bundle, the first silk pressing stick (4.7) And the second silk pressing stick (4.8) is successively set on the lower section of second oil tanker (4.5), first silk pressing from top to bottom Stick (4.7) and the second silk pressing stick (4.8) are fixedly mounted on the mounting bracket (4.2), the first silk pressing stick (4.7) and the second silk pressing stick (4.8) is arranged on the outside of fibre bundle.