CN219010783U

CN219010783U - Horizontal cord fabric yarn cutting machine

Info

Publication number: CN219010783U
Application number: CN202223436647.8U
Authority: CN
Inventors: 林明川; 林佰令
Original assignee: Xiamen Haosheng Mechanical And Electrical Engineering Co ltd
Current assignee: Xiamen Haosheng Mechanical And Electrical Engineering Co ltd
Priority date: 2022-12-21
Filing date: 2022-12-21
Publication date: 2023-05-12
Anticipated expiration: 2032-12-21

Abstract

The utility model discloses a horizontal curtain fabric yarn cutting machine which comprises a release traction mechanism, a cutting conveying mechanism, a switching mechanism, a butt joint conveying mechanism, a deviation correcting and slitting mechanism, a centering mechanism, a laminating mechanism and a winding mechanism; the cutting conveying mechanism, the switching mechanism, the butt joint conveying mechanism, the deviation correcting and slitting mechanism, the centering mechanism, the attaching mechanism and the winding mechanism are sequentially arranged according to the process steps. The utility model combines the working procedures of unreeling, cutting, slitting, attaching, reeling and the like into a production line according to the working sequence of each section, and has the advantage of high automation degree. In addition, the knife felt roller in the deviation rectifying and strip dividing mechanism is composed of the knife felt shaft and the plurality of knife felt small rollers, and after the surface of the knife felt roller is easily damaged, one of the knife felt small rollers is mainly replaced, so that the knife felt roller can be continuously used, and the cost is greatly saved.

Description

Horizontal cord fabric yarn cutting machine

Technical Field

The utility model relates to a tire cord fabric processing machine, in particular to a horizontal cord fabric yarn cutting machine.

Background

When the tire cord fabric is cut, the cutting knife needs to be inclined at a certain angle, so that the cut cord fabric is at a certain angle and width, and the tire cord fabric is convenient to splice. The existing tire cord fabric yarn cutting machine needs to be manually overlapped and then split after cord fabric cutting, so that the degree of automation is low. In addition, after the curtain cloth after cutting is centered, the curtain cloth is conveyed to a slitting mechanism for slitting the curtain cloth, and as a knife felt roller in the slitting mechanism is matched with a cutter for use, the surface of the knife felt roller is easy to damage and needs to be replaced, and the production cost is high.

Disclosure of Invention

The utility model aims to provide a horizontal curtain cloth yarn cutting machine with high automation degree and low cost.

In order to achieve the above object, the technical solution of the present utility model is:

the utility model relates to a horizontal curtain fabric yarn cutting machine which comprises a release traction mechanism, a cutting conveying mechanism, a switching mechanism, a butt joint conveying mechanism, a correction and slitting mechanism, a centering mechanism, a laminating mechanism and a winding mechanism; the cutting conveying mechanism, the switching mechanism, the butt joint conveying mechanism, the deviation correcting and slitting mechanism, the centering mechanism, the laminating mechanism and the winding mechanism are sequentially arranged according to the process steps;

the release traction mechanism comprises a release frame, a material roll release mechanism, a cloth laying release mechanism, a plurality of transition guide rollers and a traction mechanism; the material roll release mechanism, the cloth laying release mechanism, the plurality of transition guide rollers and the traction mechanism are all arranged on the release frame;

the deviation rectifying and slitting mechanism comprises a slitting rack, a deviation rectifying roller, a pneumatic cutter, a cutter felt roller, a cutter motor, a cutter chain wheel group, two slitting discharging rollers, a slitting cutter and a slitting cutter rest; the deviation correcting roller is rotatably arranged at the feeding end of the slitting machine frame, the pneumatic cutter is arranged in the middle of the slitting machine frame and abuts against the cutter felt roller for slitting curtain cloth, the cutter felt roller is rotatably arranged on the slitting machine frame, the cutter motor is arranged on the slitting machine frame, the output shaft of the cutter motor is respectively connected with the cutter felt roller and one ends of the two slitting discharging rollers through the cutter chain wheel group, the cutter felt roller and the two slitting discharging rollers are driven to rotate, the two slitting discharging rollers are rotatably arranged at the discharging end of the slitting machine frame, and the two slitting discharging rollers are respectively used for conveying adhesive tapes and backing cloths; the slitting knife is arranged on the slitting rack through a slitting knife rest, is positioned between the knife felt roller and the slitting discharging roller and is used for further separating the curtain cloth.

The material roll release mechanism comprises a material roll motor, a material roll speed reducer, a material roll belt pulley group, a material roll driving wheel, a driving wheel seat, a material roll driven wheel, a driven wheel seat and a material roll driven wheel assembly; the material roll motor and the material roll speed reducer are both arranged on the release frame, the material roll motor is connected with the material roll driving wheel through the material roll speed reducer and the material roll belt wheel set, the material roll driving wheel is rotatably arranged on the driving wheel seat, the driving wheel seat is arranged on one side of the release frame, the driven wheel seat is arranged on the other side of the release frame, the material roll driven wheel is rotatably arranged on the driven wheel seat and is opposite to the material roll driving wheel, and the two material roll driven wheel assemblies are arranged on the release frame and are opposite to each other;

the material roll driven wheel assembly comprises two material roll driven wheels, a material roll lifting frame, a material roll lifting guide rail and a material roll air cylinder; the two material roll driven wheels are rotatably arranged on the material roll lifting frame and are oppositely arranged, the two material roll driven wheels are respectively positioned right below the material roll driving wheel or the material roll driven wheel, the material roll lifting frame is slidingly connected to the material roll lifting guide rail, the material roll lifting guide rail is arranged on the release frame, the cylinder body of the material roll cylinder is fixed on the release frame, the rod end of the piston rod of the material roll cylinder is connected with the bottom of the material roll lifting frame, and the material roll lifting frame is driven to move up and down;

the cloth laying release mechanism comprises a cloth laying motor, a cloth laying speed reducer, a cloth laying belt pulley group, a cloth laying driving wheel seat, a cloth laying driven wheel seat and two groups of cloth laying driven wheel assemblies; the cloth laying motor and the cloth laying speed reducer are both arranged on the release frame, the cloth laying motor is connected with the cloth laying driving wheel through the cloth laying speed reducer and the cloth laying belt pulley group, the cloth laying driving wheel is rotatably arranged on the cloth laying driving wheel seat, the cloth laying driving wheel seat is arranged on one side of the release frame, the cloth laying driven wheel seat is arranged on the other side of the release frame, the cloth laying driven wheel is rotatably arranged on the cloth laying driven wheel seat and is opposite to the cloth laying driving wheel, and the two groups of cloth laying driven wheel assemblies are arranged on the release frame and are opposite to each other.

The cloth lining driven wheel assembly comprises two cloth lining driven wheels and cloth lining installation seats, the two cloth lining driven wheels are rotatably installed on the cloth lining installation seats and oppositely arranged, the two cloth lining driven wheels are respectively located under the cloth lining driving wheels or the cloth lining driven wheels, and the cloth lining installation seats are fixed on the release rack.

The traction mechanism comprises a traction motor and a traction guide roller; the traction motor is arranged on the release frame, an output shaft of the traction motor is connected with one end of the traction guide roller, and the traction guide roller is rotatably arranged on the release frame.

The cutting conveying mechanism comprises a cutting rack, a cutting conveying belt and a cutting mechanism; the cutting conveyor belt is arranged on the cutting frame, and the cutting mechanism is arranged in the middle of the cutting frame;

the cutting mechanism comprises a cutting seat, a cutting translation motor, a cutting translation screw rod, a translation guide rail, a rotating motor, a rotating screw rod, a cutter rest, a rotating shaft, a cutter guide rail, a cutter seat, a cutter motor, a cutter translation belt pulley group, a cutter translation connecting rod, a rotating screw rod seat, a cutter mounting plate and a cutter rotation belt pulley group;

the cutting seat is connected to the translation guide rail in a sliding way and positioned below the cutting conveying belt, the translation guide rail is fixed on the cutting rack, the cutting translation motor is arranged on the cutting rack, and an output shaft of the cutting translation motor is connected with the cutting seat through a cutting translation screw rod to drive the cutting seat to move back and forth; the rotary motor is installed on the cutting seat, the output shaft of the rotary motor is connected with one end of the rotary screw rod, the other end of the rotary screw rod is in threaded connection with the rotary screw rod seat fixed on the cutter rest, the middle part of the cutter rest is rotatably sleeved at the upper end of the rotating shaft, the wheel on the bottom of the cutter rest is slidably connected on the sliding plate on the top surface of the cutting seat, the lower end of the rotating shaft is fixed on the cutting seat, the cutter translation motor is fixed on the cutter rest, the cutter translation motor is connected with the cutter seat through the cutter translation belt pulley group, the cutter translation chain pulley group and the cutter translation connecting rod, the cutter seat is slidably connected on the cutter guide rail, the cutter guide rail is fixed on the top of the cutter rest, the cutter motor is installed on the cutter seat, the cutter motor is connected with the rotating shaft on the cutter through the cutter rotation belt pulley group, the cutter is rotatably installed on the lower part of the cutter mounting plate, and the upper end of the cutter mounting plate is fixed on the cutter seat.

The switching mechanism comprises a manipulator and a sucker; the sucking disc is fixedly arranged at the free end of the manipulator.

The butt joint conveying mechanism comprises a butt joint rack, a butt joint conveying belt, a butt joint driving roller and a butt joint motor; the butt joint conveyer belt is installed at the feed end of butt joint frame, and the rotatable discharge end at the butt joint frame of butt joint drive roller, butt joint motor fixed mounting just the output shaft of butt joint motor is connected with the one end of butt joint drive roller at the discharge end of butt joint frame, and the drive is connected the drive roller rotatory.

The centering mechanism comprises a centering frame, a guide mechanism and a plurality of deviation correcting rollers; the guide mechanism is arranged at the feeding end of the centering frame, and the deviation correcting rollers are rotatably arranged at the discharging end of the centering frame.

The laminating mechanism comprises a laminating frame, a plurality of laminating guide rollers, a laminating motor, laminating rollers, a laminating belt pulley group, a laminating cylinder, a laminating roller and a laminating frame; the laminating guide rollers are arranged on the laminating frame and located at the feeding end of the laminating frame, the laminating motor is arranged on the laminating frame, an output shaft of the laminating motor is connected with one end of the laminating roller through a laminating belt wheel set, the driving laminating roller rotates, the laminating roller is rotatably arranged at the discharging end of the laminating frame, a fixing body of the laminating cylinder is fixed on the laminating frame, a rod end of a piston rod of the laminating cylinder is connected with one end of the laminating roller through a laminating frame, the laminating roller is located above the laminating roller, and the laminating cylinder drives the laminating frame to move up and down and enable the laminating roller to be laminated on the laminating roller.

The winding mechanism comprises a winding rack, a winding guide mechanism, a plurality of winding guide rollers, a finished product winding mechanism, a cloth laying guide mechanism and a deviation correcting frame; the winding guide mechanism is arranged at the feeding end of the winding frame, the winding guide rollers are rotatably arranged above the winding frame, the finished product winding mechanism is arranged at the discharging end of the winding frame, and the cloth laying guide mechanism is arranged in the middle of the winding frame;

the finished product winding mechanism comprises a finished product winding motor, a finished product winding reduction gearbox and a finished product winding shaft; the finished product winding motor is fixed on the winding frame, and an output shaft of the finished product winding motor is connected with one end of a finished product winding shaft through a finished product winding reduction gearbox;

the winding guide mechanism comprises a winding guide seat, a winding guide screw rod, a left winding guide plate, a right winding guide plate, a plurality of left winding guide rods and a plurality of right winding guide rods; the winding guide screw rod is rotatably arranged on the winding guide seat, the left winding guide plate and the right winding guide plate are in threaded connection with the winding guide screw rod through screw nuts, and a plurality of left winding guide rods and a plurality of right winding guide rods are respectively and fixedly arranged on the left winding guide plate and the right winding guide plate.

The knife felt roller comprises a knife felt shaft and a plurality of knife felt small rollers; the cutter felt small rollers are sleeved on the cutter felt shafts.

The deviation rectifying and slitting mechanism further comprises a material guiding mechanism, wherein the material guiding mechanism is arranged at the feeding end of the slitting rack and is positioned at the feeding side of the deviation rectifying roller; the material guiding mechanism comprises two material guiding plates, a material guiding screw rod and a material guiding handle; the guide screw is rotatably arranged on the slitting frame, two guide plates are oppositely arranged, the inner sides of the two guide plates are in threaded connection with the guide screw through screw nuts, and the guide handle is fixedly sleeved at one end of the guide screw.

Two pneumatic cutters are arranged in the deviation rectifying and slitting mechanism, one pneumatic cutter is in a working state, and the other pneumatic cutter is in a standby state.

After the scheme is adopted, the utility model has the following advantages:

1. the utility model combines the working procedures of unreeling, cutting, slitting, attaching, reeling and the like into a production line according to the working sequence of each section, and has the advantage of high automation degree.

2. The knife felt roller in the deviation rectifying and strip dividing mechanism consists of the knife felt shaft and the plurality of knife felt small rollers, and after the surface of the knife felt roller is easily damaged, one of the knife felt small rollers is mainly replaced, so that the knife felt roller can be continuously used, and the cost is greatly saved.

3. The deviation rectifying and slitting mechanism is provided with the deviation rectifying roller, so that the centering of the material strips can be well ensured, and the product quality is high.

4. The rolling mechanism provided by the utility model is provided with the deviation correcting frame and the rolling deviation correcting mechanism, so that the adhesive tape has good centering effect and high rolling quality.

The utility model will be further described with reference to the drawings and the specific examples.

Drawings

FIG. 1 is a top view of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is an isometric view of the present utility model;

FIG. 4 is an isometric view of the release traction mechanism of the present utility model;

FIG. 5 is a forward isometric view of the cutoff conveyor of the present utility model;

FIG. 6 is a rear view of the cutoff conveyor of the present utility model;

FIG. 7 is a front isometric view of the docking and delivery mechanism, deviation rectifying and stripping mechanism, centering mechanism, and laminating mechanism of the present utility model;

FIG. 8 is a rear isometric view of the docking and delivery mechanism, deviation rectifying and stripping mechanism, centering mechanism, and laminating mechanism of the present utility model;

FIG. 9 is an isometric view of a winding mechanism of the present utility model;

fig. 10 is a bottom view of the cutoff conveyor of the present utility model.

Detailed Description

As shown in figures 1-3, the utility model relates to a horizontal curtain fabric yarn cutting machine, which comprises a releasing traction mechanism 1, a cutting conveying mechanism 2, a switching mechanism 3, a butt joint conveying mechanism 4, a deviation rectifying and slitting mechanism 5, a centering mechanism 6, a laminating mechanism 7 and a winding mechanism 8.

The cutting conveying mechanism 2, the switching mechanism 3, the butt joint conveying mechanism 4, the deviation correcting and slitting mechanism 5, the centering mechanism 6, the attaching mechanism 7 and the winding mechanism 8 are sequentially arranged according to the process steps.

As shown in fig. 4, the release traction mechanism 1 comprises a release frame 11, a material roll release mechanism 12, a cloth liner release mechanism 13, a plurality of transition guide rollers 14 and a traction mechanism 15; the material roll release mechanism 12, the cloth laying release mechanism 13, the plurality of transition guide rollers 14 and the traction mechanism 15 are all arranged on the release frame 11.

The material roll release mechanism 12 comprises a material roll motor 121, a material roll speed reducer 122, a material roll belt wheel group 123, a material roll driving wheel 124, a driving wheel seat 125, a material roll driven wheel 126, a driven wheel seat 127 and a material roll driven wheel assembly 128; the material roll motor 121 and the material roll speed reducer 122 are both arranged on the release frame 11, the material roll motor 121 is connected with the material roll driving wheel 124 through the material roll speed reducer 122 and the material roll belt wheel group 123, the material roll driving wheel 124 is rotatably arranged on the driving wheel seat 125, the driving wheel seat 125 is arranged on one side of the release frame 11, the driven wheel seat 127 is arranged on the other side of the release frame 11, the material roll driven wheel 126 is rotatably arranged on the driven wheel seat 127, the material roll driven wheel 126 is opposite to the material roll driving wheel 124, and two sets of material roll driven wheel assemblies 128 are arranged on the release frame 11 and opposite to each other;

the roll driven wheel assembly 128 comprises two roll driven wheels 1281, a roll lifting frame 1282, a roll lifting rail 1283 and a roll cylinder 1284; the two material roll driven wheels 1281 are rotatably installed on the material roll lifting frame 1282 and are oppositely arranged, the two material roll driven wheels 1281 are respectively positioned under the material roll driving wheel 124 or the material roll driven wheel 126, the material roll lifting frame 1282 is slidingly connected on the material roll lifting guide rail 1283, the material roll lifting guide rail 1283 is installed on the release frame 11, the cylinder body of the material roll cylinder 1284 is fixed on the release frame 11, the rod end of the piston rod of the material roll cylinder 1284 is connected with the bottom of the material roll lifting frame 1283, and the material roll lifting frame 1283 is driven to move up and down;

the cloth laying release mechanism 13 comprises a cloth laying motor 131, a cloth laying speed reducer 132, a cloth laying belt pulley group 133, a cloth laying driving wheel 134, a cloth laying driving wheel seat 135, a cloth laying driven wheel 136, a cloth laying driven wheel seat 137 and two groups of cloth laying driven wheel assemblies 138; the cloth laying motor 131 and the cloth laying decelerator 132 are both arranged on the release frame, the cloth laying motor 131 is connected with the cloth laying driving wheel 134 through the cloth laying decelerator 132 and the cloth laying belt pulley group 133, the cloth laying driving wheel 134 is rotatably arranged on the cloth laying driving wheel seat 135, the cloth laying driving wheel seat 135 is arranged on one side of the release frame 11, the cloth laying driven wheel seat 137 is arranged on the other side of the release frame 11, the cloth laying driven wheel 136 is rotatably arranged on the cloth laying driven wheel seat 137, the cloth laying driven wheel 136 is opposite to the cloth laying driving wheel 134, and the two groups of cloth laying driven wheel assemblies 138 are arranged on the release frame 11 and opposite to each other.

The cloth driving wheel assembly 138 includes two cloth driving wheels 1381 and cloth mounting bases 1382, the two cloth driving wheels 1381 are rotatably mounted on the cloth mounting bases 1382 and are opposite to each other, the two cloth driving wheels 1381 are respectively located under the cloth driving wheels 134 or the cloth driven wheels 136, and the cloth mounting bases 1382 are fixed on the releasing frame 11.

The traction mechanism 15 comprises a traction motor 151 and a traction guide roller 152; the traction motor 151 is mounted on the release frame 11, an output shaft of the traction motor 151 is connected with one end of the traction guide roller 152, and the traction guide roller 152 is rotatably mounted on the release frame 11.

As shown in fig. 5, 6 and 10, the cutting and conveying mechanism 2 includes a cutting frame 21, a cutting conveyor 22 and a cutting mechanism 23; the cutting conveyor belt 22 is arranged on the cutting frame 21, and the cutting mechanism 23 is arranged in the middle of the cutting frame 21;

the cutting mechanism 23 comprises a cutting seat 231, a cutting translation motor 232, a cutting translation screw 233, a translation guide rail 234, a rotary motor 235, a rotary screw 236, a cutter frame 237, a rotary shaft 238, a cutter guide rail 239, a cutter seat 240, a cutter motor 241, a cutter translation motor 242, a cutter translation belt pulley set 243, a cutter translation belt pulley set 244, a cutter translation link 245, a rotary screw seat 246, a cutter 247, a cutter mounting plate 248, and a cutter rotary belt pulley set 249;

the cutting seat 231 is slidably connected to the translation guide rail 234 and is positioned below the cutting conveyor belt 22, the translation guide rail 234 is fixed on the cutting frame 21, the cutting translation motor is installed on the cutting frame 21, and an output shaft of the cutting translation motor is connected with the cutting seat 231 through a cutting translation screw rod to drive the cutting seat 231 to move back and forth; the rotary motor 235 is installed on the cutting seat 231, the output shaft of the rotary motor 235 is connected with one end of the rotary screw 236, the other end of the rotary screw 236 is in threaded connection with a rotary screw seat 246 fixed on the cutter holder 237, the middle part of the cutter holder 237 is rotatably sleeved on the upper end of a rotating shaft 238, a wheel 2371 on the bottom of the cutter holder 237 is slidably connected on a sliding plate 2311 on the top surface of the cutting seat 231, the lower end of the rotating shaft 238 is fixed on the cutting seat 231, a cutter translation motor 242 is fixed on the cutter holder 237, the cutter translation motor 242 is connected with the cutter seat 240 through a cutter translation belt pulley group 243, a cutter translation chain pulley group 244 and a cutter translation connecting rod 245, the cutter seat 240 is slidably connected on a cutter guide 239, the cutter guide 239 is fixed on the top of the cutter holder 237, the cutter motor 241 is installed on the cutter seat 240, the cutter motor 241 is connected with the rotating shaft on the cutter 247 through a cutter rotation belt pulley group, the cutter 247 is rotatably installed on the lower part of a cutter mounting plate 248, and the upper end of the mounting plate 248 is fixed on the cutter seat 240.

The switching mechanism 3 comprises a manipulator 31 and a sucker 32; the sucking disc 32 is fixedly arranged at the free end of the manipulator 31.

As shown in fig. 6 to 8, the docking and conveying mechanism 4 includes a docking frame 41, a docking and conveying belt 42, a docking driving roller 43, and a docking motor 44; the butt joint conveyer belt 42 is installed at the feed end of butt joint frame 41, and butt joint drive roller 43 rotatable mounting is at the discharge end of butt joint frame 41, and butt joint motor 44 fixed mounting is at the discharge end of butt joint frame 41 and the output shaft of butt joint motor 44 is connected with the one end of butt joint drive roller 43, drives butt joint drive roller 43 rotation.

The deviation rectifying and slitting mechanism 5 comprises a slitting frame 51, a deviation rectifying roller 52, a pneumatic cutter 53, a cutter felt roller 54, a cutter motor 55, a cutter chain wheel set 56, two slitting discharging rollers 57, slitting cutters 58, a slitting cutter rest 59 and a material guiding mechanism 510; the deviation correcting roller 52 is rotatably arranged at the feeding end of the slitting machine frame 51, the pneumatic cutter 53 is arranged in the middle of the slitting machine frame 51, the pneumatic cutter 53 is abutted against the cutter felt roller 54 for slitting curtain cloth, the cutter felt roller 54 is rotatably arranged on the slitting machine frame 51, the cutter motor 55 is arranged on the slitting machine frame 51, the output shaft of the cutter motor 55 is respectively connected with the cutter felt roller 54 and one end of the two slitting discharging rollers 57 through the cutter chain wheel group 56, the cutter felt roller 54 and the two slitting discharging rollers 57 are driven to rotate, the two slitting discharging rollers 57 are rotatably arranged at the discharging end of the slitting machine frame 51, and the two slitting discharging rollers 57 are respectively used for conveying adhesive tapes and backing cloths; the slitting knife 58 is mounted on the slitting frame 51 by a slitting knife rest 59 and the slitting knife 58 is located between the knife felt roller 54 and the slitting take-off roller 57 for further separating the curtain.

The knife felt roller 54 comprises a knife felt shaft 541 and a plurality of knife felt small rollers 542; the plurality of knife felt small rollers 542 are sleeved on the knife felt shaft 541.

The material guiding mechanism 510 is arranged at the feeding end of the slitting machine frame 51 and is positioned at the feeding side of the deviation correcting roller 52; the material guiding mechanism 510 comprises two material guiding plates 5101, a material guiding screw 5102 and a material guiding handle 5103; the material guide screw 5102 is rotatably installed on the slitting frame 51, two material guide plates 5101 are oppositely arranged, the inner sides of the two material guide plates 5101 are in threaded connection with the material guide screw 5102 through screw nuts, and the material guide handle 5103 is fixedly sleeved at one end of the material guide screw 5102.

Two pneumatic cutters 53 are arranged in the deviation rectifying and slitting mechanism 5, one pneumatic cutter 53 is in a working state, and the other pneumatic cutter 53 is in a standby state.

The centering mechanism 6 comprises a centering frame 61, a guide mechanism 62 (the guide mechanism 62 has the same structure as a guide mechanism 510 in the deviation rectifying and slitting mechanism 5), and a plurality of deviation rectifying rollers 63; the guide mechanism 62 is installed at the feeding end of the centering frame 61, and the plurality of deviation correcting rollers 63 are rotatably installed at the discharging end of the centering frame 61.

The laminating mechanism 7 comprises a laminating frame 71, a plurality of laminating guide rollers 72, a laminating motor 73, laminating rollers 74, a laminating belt pulley group 75, a laminating cylinder 76, a laminating roller 77 and a laminating frame 78; the laminating guide rollers 72 are installed on the laminating frame 71 and located at the feeding end of the laminating frame 71, the laminating motor 73 is installed on the laminating frame 71, the output shaft of the laminating motor 73 is connected with one end of the laminating roller 74 through the laminating belt wheel group 75, the laminating roller 74 is driven to rotate, the laminating roller 74 is rotatably installed at the discharging end of the laminating frame 71, the fixing body of the laminating air cylinder 76 is fixed on the laminating frame 71, the rod end of the piston rod of the laminating air cylinder 76 is connected with one end of the laminating roller 77 through the laminating frame 78, the laminating roller 76 is located above the laminating roller 74, and the laminating air cylinder 76 drives the laminating frame 78 to move up and down and enables the laminating roller 77 to be laminated on the laminating roller 74.

As shown in fig. 9, the winding mechanism 8 includes a winding frame 81, a winding guide mechanism 82, a plurality of winding guide rollers 83, a finished product winding mechanism 84, a cloth liner unwinding mechanism 85, a deviation correcting frame 86, and a winding deviation correcting mechanism 87; the winding guide mechanism 82 is installed at the feeding end of the winding frame 81, the winding guide rollers 83 are rotatably installed above the winding frame 81, the finished product winding mechanism 84 is installed at the discharging end of the winding frame 81, and the cloth-backing guide mechanism 85 is installed in the middle of the winding frame 81; the winding deviation correcting mechanism 87 is arranged on the winding frame 81 and is positioned on the feeding side of the finished product winding mechanism 84;

the finished product winding mechanism 84 comprises a finished product winding motor 841, a finished product winding reduction box 842 and a finished product winding shaft 843; the finished product winding motor 841 is fixed on the winding frame 81, and an output shaft of the finished product winding motor 841 is connected with one end of a finished product winding shaft 843 through a finished product winding reduction gearbox 842;

the winding deviation correcting mechanism 87 consists of an electric eye (rim detection of cloth liner), a deviation correcting executing mechanism and a controller. The correction working principle is that an electric eye detects the edge of the cloth liner in real time on line, feeds back the deviation of the hot cloth to the controller, and the controller informs the correction executing mechanism to execute corresponding actions in real time according to the feedback condition so as to enable the cloth liner to move back to the original correct position.

The cloth liner guiding and opening mechanism 85 has the same structure as the finished product winding mechanism 84, and comprises a cloth liner guiding and opening motor, a cloth liner guiding and opening speed reducing box and a cloth liner guiding and opening shaft; the cloth liner unwinding motor is fixed on the winding frame 81, and an output shaft of the cloth liner unwinding motor is connected with one end of a cloth liner unwinding shaft through a cloth liner unwinding speed reducing box.

The winding guide mechanism 82 includes a winding guide seat 821, a winding guide screw 822, a left winding guide plate (not shown), a right winding guide plate 824, a plurality of left winding guide rods 825, and a plurality of right winding guide rods 826; the winding guide screw 822 is rotatably installed on the winding guide seat 821, the left winding guide plate and the right winding guide plate 824 are in threaded connection with the winding guide screw 822 through screw nuts, and a plurality of left winding guide rods 825 and a plurality of right winding guide rods 826 are respectively and fixedly installed on the left winding guide plate and the right winding guide plate 824.

The working principle of the utility model is as follows:

as shown in fig. 1 and 2, the releasing traction mechanism 1 separates the sizing material and the backing cloth in the stub bar coil material 10, the sizing material is sent out and the backing cloth is rolled at the same time, the sizing material is cut into sheet-shaped films in the cutting conveying mechanism 2 and is sent into the switching mechanism 3 by the switching mechanism 3, the switching mechanism 3 bonds the films with opposite warps and wefts together to form strip-shaped adhesive tapes, the adhesive tapes are sent into the deviation rectifying and slitting mechanism 5, the deviation rectifying and slitting mechanism 5 divides the adhesive tapes into two fine adhesive tapes, the two fine adhesive tapes are sent into the centering mechanism 6 for deviation rectifying, and then sent into the laminating mechanism 7, the laminating mechanism 7 laminates the two fine adhesive tapes together to prepare finished adhesive tapes, the finished adhesive tapes are sent into the rolling mechanism 8, and the rolling mechanism 8 pads the backing cloth below the finished adhesive tapes and rolls the finished adhesive tapes with the backing cloth.

The foregoing description is only illustrative of the preferred embodiments of the present utility model, and is not intended to limit the scope of the utility model, i.e., the equivalent changes and modifications to the utility model as described in the claims and specification should be considered as falling within the scope of the utility model.

Claims

1. A horizontal curtain cloth yarn cutting machine is characterized in that: the device comprises a release traction mechanism, a cutting conveying mechanism, a switching mechanism, a butt joint conveying mechanism, a correction and slitting mechanism, a centering mechanism, a laminating mechanism and a winding mechanism; the cutting conveying mechanism, the switching mechanism, the butt joint conveying mechanism, the deviation correcting and slitting mechanism, the centering mechanism, the laminating mechanism and the winding mechanism are sequentially arranged according to the process steps;

2. The horizontal ply yarn cutting machine of claim 1, characterized in that: the release traction mechanism comprises a release frame, a material roll release mechanism, a cloth laying release mechanism, a plurality of transition guide rollers and a traction mechanism; the material roll release mechanism, the cloth laying release mechanism, the plurality of transition guide rollers and the traction mechanism are all arranged on the release frame;

the cloth laying release mechanism comprises a cloth laying motor, a cloth laying speed reducer, a cloth laying belt pulley group, a cloth laying driving wheel seat, a cloth laying driven wheel seat and two groups of cloth laying driven wheel assemblies; the cloth laying motor and the cloth laying speed reducer are both arranged on the release frame, the cloth laying motor is connected with the cloth laying driving wheel through the cloth laying speed reducer and the cloth laying belt pulley group, the cloth laying driving wheel is rotatably arranged on the cloth laying driving wheel seat, the cloth laying driving wheel seat is arranged on one side of the release frame, the cloth laying driven wheel seat is arranged on the other side of the release frame, the cloth laying driven wheel is rotatably arranged on the cloth laying driven wheel seat and is opposite to the cloth laying driving wheel, and the two groups of cloth laying driven wheel assemblies are arranged on the release frame and are opposite to each other;

3. The horizontal ply yarn cutting machine of claim 1, characterized in that: the traction mechanism comprises a traction motor and a traction guide roller; the traction motor is arranged on the release frame, an output shaft of the traction motor is connected with one end of the traction guide roller, and the traction guide roller is rotatably arranged on the release frame.

4. The horizontal ply yarn cutting machine of claim 1, characterized in that: the cutting conveying mechanism comprises a cutting rack, a cutting conveying belt and a cutting mechanism; the cutting conveyor belt is arranged on the cutting frame, and the cutting mechanism is arranged in the middle of the cutting frame;

5. The horizontal ply yarn cutting machine of claim 1, characterized in that: the switching mechanism comprises a manipulator and a sucker; the sucking disc is fixedly arranged at the free end of the manipulator.

6. The horizontal ply yarn cutting machine of claim 1, characterized in that: the butt joint conveying mechanism comprises a butt joint rack, a butt joint conveying belt, a butt joint driving roller and a butt joint motor; the butt joint conveyer belt is installed at the feed end of butt joint frame, and the rotatable discharge end at the butt joint frame of butt joint drive roller, butt joint motor fixed mounting just the output shaft of butt joint motor is connected with the one end of butt joint drive roller at the discharge end of butt joint frame, and the drive is connected the drive roller rotatory.

7. The horizontal ply yarn cutting machine of claim 1, characterized in that: the centering mechanism comprises a centering frame, a guide mechanism and a plurality of deviation correcting rollers; the guide mechanism is arranged at the feeding end of the centering frame, and the deviation correcting rollers are rotatably arranged at the discharging end of the centering frame.

8. The horizontal ply yarn cutting machine of claim 1, characterized in that: the laminating mechanism comprises a laminating frame, a plurality of laminating guide rollers, a laminating motor, laminating rollers, a laminating belt pulley group, a laminating cylinder, a laminating roller and a laminating frame; the laminating guide rollers are arranged on the laminating frame and located at the feeding end of the laminating frame, the laminating motor is arranged on the laminating frame, an output shaft of the laminating motor is connected with one end of the laminating roller through a laminating belt wheel set, the driving laminating roller rotates, the laminating roller is rotatably arranged at the discharging end of the laminating frame, a fixing body of the laminating cylinder is fixed on the laminating frame, a rod end of a piston rod of the laminating cylinder is connected with one end of the laminating roller through a laminating frame, the laminating roller is located above the laminating roller, and the laminating cylinder drives the laminating frame to move up and down and enable the laminating roller to be laminated on the laminating roller.

9. The horizontal ply yarn cutting machine of claim 1, characterized in that: the winding mechanism comprises a winding rack, a winding guide mechanism, a plurality of winding guide rollers, a finished product winding mechanism, a cloth laying guide mechanism and a deviation correcting frame; the winding guide mechanism is arranged at the feeding end of the winding frame, the winding guide rollers are rotatably arranged above the winding frame, the finished product winding mechanism is arranged at the discharging end of the winding frame, and the cloth laying guide mechanism is arranged in the middle of the winding frame;

10. The horizontal ply yarn cutting machine of claim 1, characterized in that: the knife felt roller comprises a knife felt shaft and a plurality of knife felt small rollers; the cutter felt small rollers are sleeved on the cutter felt shafts.

11. The horizontal ply yarn cutting machine of claim 1, characterized in that: the deviation rectifying and slitting mechanism further comprises a material guiding mechanism, wherein the material guiding mechanism is arranged at the feeding end of the slitting rack and is positioned at the feeding side of the deviation rectifying roller; the material guiding mechanism comprises two material guiding plates, a material guiding screw rod and a material guiding handle; the guide screw is rotatably arranged on the slitting frame, two guide plates are oppositely arranged, the inner sides of the two guide plates are in threaded connection with the guide screw through screw nuts, and the guide handle is fixedly sleeved at one end of the guide screw.

12. The horizontal ply yarn cutting machine of claim 1 or 11, characterized in that: two pneumatic cutters are arranged in the deviation rectifying and slitting mechanism, one pneumatic cutter is in a working state, and the other pneumatic cutter is in a standby state.