CN220826332U - Yarn cutting compound machine for tire cord fabric - Google Patents

Abstract

The utility model provides a yarn cutting compound machine of tire cord fabric, which comprises a slitting and laminating mechanism, wherein the slitting and laminating mechanism comprises a cutting device and a conveying device, the cutting device is used for cutting rubber material into a first rubber material belt and a second rubber material belt, the conveying device comprises a first belt dividing roller shaft and a second belt dividing roller shaft which are synchronously driven at two intervals, a first guide component and a second guide component which are arranged at intervals are connected at the rear end of the conveying device according to a procedure, and a laminating transmission component is connected at the rear end of the second guide component according to the procedure; the first guide component and the second guide component are both arranged on the slitting and laminating mechanism in a transversely movable way, so that the positions of the first guide component and the second guide component which are arranged in parallel or the positions of the first guide component and the second guide component which are arranged in a staggered way can be switched; the first sizing material belt is conveyed to the first guide assembly through the first belt dividing roller shaft, the second sizing material belt is conveyed to the second guide assembly through the second belt dividing roller shaft, and the processing of single-layer curtain cloth and double-layer curtain cloth is realized through the first guide assembly and the second guide assembly.

Description

Yarn cutting compound machine for tire cord fabric

Technical Field

The utility model relates to the technical field of tire processing, in particular to a yarn cutting compound machine for tire cord fabrics.

Background

The Chinese patent document CN106994791A discloses a tire cord fabric yarn cutting and slitting integrated machine, which comprises a slitting mechanism, wherein the slitting mechanism comprises a slitting mechanism bracket, a centering device, an electronic deviation correcting device and a multi-station quick-change cutter; the centering device is arranged on the right side of the slitting mechanism, the centering device is driven to move by the extension of the air cylinder, the electronic deviation correcting device is positioned on the left side of the centering device, the multi-station quick-change cutter is positioned on the leftmost side of the upper surface of the slitting mechanism, and the cutting position precision of curtain cloth can be ensured.

The service life of the tire can be prolonged due to the increase of the thickness of the rubber material in the cord fabric by superposition, but the cost of the tire can be increased. However, according to different vehicle types, such as bicycles, motorcycles, automobiles, trucks and the like, due to different use scenes, customers can measure and select suitable tires between the service life of the tires and the price of the tires, and the tires with sufficient cost or relatively high requirements on the service lives of the tires can be manufactured by using the double-layer rubber compound, the tires with low cost or relatively low requirements on the service lives of the tires can be manufactured by using the single-layer rubber compound.

Therefore, the slitting and laminating mechanism in the yarn cutting and laminating machine of the tire curtain cloth needs to be improved, so that the slitting and laminating mechanism can not only produce the curtain cloth with single-layer thickness, but also produce the curtain cloth with double-layer thickness to meet different use requirements of clients, but the slitting mechanism in the yarn cutting and slitting integrated machine of the tire curtain cloth disclosed in the patent document can not meet the requirements.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model aims to provide a yarn cutting compound machine for tire cord fabrics, which aims to overcome the problems of the prior art.

The utility model is realized by the following technical scheme:

The yarn cutting compound machine for the tire cord fabric comprises a slitting laminating mechanism, wherein the slitting laminating mechanism comprises a cutting device and a conveying device, the cutting device is used for cutting rubber materials into a first rubber material belt and a second rubber material belt, the conveying device comprises a first belt dividing roller shaft and a second belt dividing roller shaft which are synchronously driven at two intervals, a first guide component and a second guide component which are arranged at intervals are connected at the rear end of the second belt dividing roller shaft according to a procedure, and a laminating transmission component is connected at the rear end of the second guide component according to the procedure; the first guide component and the second guide component are both arranged on the slitting and laminating mechanism in a transversely movable way, so that the positions of the first guide component and the second guide component which are arranged in parallel or the positions of the first guide component and the second guide component which are arranged in a staggered way can be switched; the first sizing material belt is conveyed to the first guide assembly through a first belt dividing roller shaft, the second sizing material belt is conveyed to the second guide assembly through a second belt dividing roller shaft, and when the first guide assembly and the second guide assembly are arranged in parallel, the first sizing material belt and the second sizing material belt are conveyed to the laminated transmission assembly in a vertically overlapped state; when the first guide assembly and the second guide assembly are arranged in a staggered mode, the first sizing material belt and the second sizing material belt are conveyed to the laminated transmission assembly in a mutually non-interference state.

Further, divide strip stromatolite mechanism to include the crossbeam, but first guide assembly includes the support body, but sliding connection between support body and the crossbeam, but the support body is provided with the guide cylinder that is the upwards interval of arc and arranges, and guide cylinder is provided with two limit for width boards along its symmetry, and two limit for width boards pass through positive and negative tooth ball screw subassembly and are connected with the support body.

Further, the slitting and laminating mechanism further comprises a detection device, wherein the detection device comprises an upper photoelectric coupler and a lower photoelectric coupler which are arranged at intervals up and down, the upper photoelectric coupler and the lower photoelectric coupler comprise a reflective photoelectric switch and a reflective lens, and the reflective photoelectric switch and the reflective lens are respectively arranged at the lower ends of the second slitting roller shaft and the first guide component; when the free falling of the sizing material conveyed by the cutting device is not blocked by the reflective photoelectric switch of the upper photoelectric coupler, the cutting device continuously cuts and conveys the sizing material; and after the reflective photoelectric switch of the lower photoelectric coupler is shielded by the glue, the cutting device stops cutting and conveying the glue.

Further, the rear end of the slitting and laminating mechanism is connected with a winding mechanism according to a procedure, the winding mechanism comprises a frame, a conveying belt, at least two winding shafts and at least two lining cloth discharging shafts, the conveying belt is arranged on the frame, the sizing material and the lining cloth are synchronously wound on the winding shafts, and the sizing material and the lining cloth are adhered to form a curtain cloth through rotation of the winding shafts.

Further, the curtain cloth is sleeved on the periphery of the winding shaft, the curtain cloth is abutted to the conveying belt, and the lining cloth discharging shaft is rotatably arranged on the top side of the winding mechanism.

Further, at least two tensioning shafts which are vertically arranged at intervals are arranged between the winding shaft and the lining cloth discharging shaft, the lining cloth is discharged through the lining cloth discharging shaft and is connected to the tensioning shafts in a staggered and wound mode, and finally the lining cloth and the sizing material are wound on the winding shaft synchronously.

Further, the lining cloth discharging shaft is rotatably arranged on the top side of the winding mechanism through a bearing seat, a brake block is fixedly arranged on the top side of the winding mechanism, and a brake device which is clamped with the brake block is fixedly arranged on the top side of the winding mechanism and provides constant friction force for the lining cloth discharging shaft through the brake block.

Further, a sliding seat is arranged at one end of the winding shaft, the winding shaft is arranged on the frame of the winding mechanism in a lifting and sliding manner through the sliding seat, the winding mechanism is provided with a pulley assembly, the pulley assembly comprises a fixed pulley and a rope rotating around the fixed pulley, one end of the rope is connected with the sliding seat, and the other end of the rope is connected with a balancing weight.

Further, the winding mechanism further comprises an air cylinder, and the air cylinder is used for pushing the sliding seat to move upwards.

Further, the cutting device comprises a feeding mechanism, wherein the feeding mechanism is arranged at the front end of the slitting and laminating mechanism and is used for conveying sizing materials to the cutting device, and the feeding mechanism comprises a conveying surface and a conveying roller shaft which is arranged above the conveying surface and horizontally arranged with the cutting device.

The beneficial effects of the utility model are as follows: the first guide component and the second guide component are both arranged on the slitting and laminating mechanism in a transversely movable way, so that the positions of the first guide component and the second guide component which are arranged in parallel or the positions of the first guide component and the second guide component which are arranged in a staggered way can be switched; when the double-layer sizing material is needed to be adhered, the first guiding component and the second guiding component are adjusted to be arranged in parallel, when the single-layer sizing material is needed to be adhered, the first guiding component and the second guiding component are arranged in a staggered mode, and the first sizing material belt and the second sizing material belt are conveyed to the laminated transmission component in a non-interference state.

Drawings

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is a side view of the present utility model.

Fig. 3 is a perspective view of the slitting and laminating mechanism of the present utility model.

Fig. 4 is a perspective view of a first alignment assembly according to the present utility model.

Fig. 5 is another perspective view of the first alignment assembly of the present utility model.

Fig. 6 is a top view of the first guide assembly and the second guide assembly of the present utility model in a parallel arrangement.

FIG. 7 is a top view of the first and second alignment assemblies of the present utility model in an staggered arrangement.

Fig. 8 is a perspective view of the winding mechanism of the present utility model.

Wherein the above figures include the following reference numerals:

The feeding mechanism 1, the conveying surface 11, the conveying roller shaft 12, the slitting lamination mechanism 2, the cutting device 21, the cutting knife 211, the cutting roller 212, the first slitting roller shaft 22, the second slitting roller shaft 23, the first guide assembly 24, the frame 241, the screw rod 242, the sliding rail 243, the sliding block 244, the hand wheel 245, the guide cylinder 246, the width limiting plate 247, the front and back tooth ball screw assembly 248, the second guide assembly 25, the lamination transmission assembly 26, the roller 261, the cross beam 27, the detection device 28, the upper photoelectric coupler 281, the reflective photoelectric switch 2811, the reflective lens 2812, the lower photoelectric coupler 282, the stop piece 29, the winding mechanism 3, the conveying belt 31, the winding shaft 32, the sliding seat 321, the balancing weight 322, the cylinder 323, the fixed pulley 324, the rope 325, the lining discharging shaft 33, the brake block 331, the brake 332, the bearing seat 333, the shaft 34, the first sizing belt A1 and the second sizing belt A2.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model.

In the description of the present utility model, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature.

Referring to fig. 1 to 8, a yarn cutting compound machine for tire cord fabric is provided with a feeding mechanism 1, a slitting and laminating mechanism 2 and a winding mechanism 3 which are sequentially connected in sequence according to the working procedure.

The slitting and laminating mechanism 2 comprises a cutting device 21 and a conveying device, the cutting device 21 is used for cutting the sizing material into a first sizing material belt A1 and a second sizing material belt A2, the cutting device 21 comprises a cutting knife 211 and a cutting roller 212, and the sizing material is divided into the first sizing material belt A1 and the second sizing material belt A2 by the cutting knife 211 through the cutting device 21.

The conveying device comprises a first belt dividing roller shaft 22 and a second belt dividing roller shaft 23 which are synchronously driven at intervals, a first guide component 24 and a second guide component 25 which are arranged at intervals are connected with the rear end of the second belt dividing roller shaft 23 according to the procedure, and a laminated driving component 26 is connected with the rear end of the second guide component 25 according to the procedure; the first guide component 24 and the second guide component 25 are both arranged on the slitting and laminating mechanism 2 in a transversely movable manner, so that the positions of the first guide component 24 and the second guide component 25 can be switched between the positions of parallel arrangement or staggered arrangement; the first sizing material belt A1 is conveyed to the first guide assembly 24 through the first belt dividing roller shaft 22, the second sizing material belt A2 is conveyed to the second guide assembly 25 through the second belt dividing roller shaft 23, and when the first guide assembly 24 and the second guide assembly 25 are arranged in parallel, the first sizing material belt A1 and the second sizing material belt A2 are conveyed to the laminated transmission assembly 26 in a vertically overlapped state; when the first guide assembly 24 and the second guide assembly 25 are arranged in a staggered manner, the first adhesive tape A1 and the second adhesive tape A2 are fed to the laminated transmission assembly 26 in a state of not interfering with each other.

The slitting lamination mechanism 2 comprises a cross beam 27, the first guide assembly 24 comprises a frame body 241, the cross beam 27 is fixedly provided with a hand-operated ball screw 242 nut pair, the hand-operated ball screw 242 nut pair comprises a screw 242, a sliding rail 243, a sliding block 244 and a hand wheel 245, the sliding rail 243 is fixedly arranged on the cross beam 27, the sliding block 244 can move on the sliding rail 243 along the length direction of the screw 242 through rotation of the hand wheel 245, the sliding block 244 is fixedly connected with the frame body 241 so as to realize sliding connection between the frame body 241 and the cross beam 27, the frame body 241 is provided with guide cylinders 246 which are arranged at intervals upwards in an arc shape, the guide cylinders 246 are symmetrically provided with two limited wide plates 247 along the central axis, the two limited wide plates 247 are connected with the frame body 241 through positive and negative tooth ball screw assemblies 248, the positive and negative tooth ball screw assemblies 248 are in the prior art, and the positive and negative tooth ball screw assemblies 248 can synchronously drive the limited wide plates 247 to move towards the central axis direction of the guide cylinders 246 or away from the central axis direction through the positive and negative tooth ball screw assemblies 248, so that the width of sizing material is adapted. The second alignment assembly 25 is identical to the first alignment assembly 24 in that: the second guiding assembly 25 is connected behind the first guiding assembly 24 according to the procedure, and the second guiding assembly 25 is lower than the first guiding assembly 24 in horizontal height, which is arranged at different positions of the slitting and laminating mechanism 2, so that the first adhesive tape A1 and the second adhesive tape A2 are conveniently conveyed to the laminating transmission assembly 26 in a vertically overlapped state.

The slitting and laminating mechanism 2 further comprises a detection device 28, wherein the detection device 28 comprises an upper photoelectric coupler 281 and a lower photoelectric coupler 282 which are arranged at intervals up and down, the upper photoelectric coupler 281 and the lower photoelectric coupler 282 respectively comprise a reflective photoelectric switch 2811 and a reflective lens 2812, and the reflective photoelectric switch 2811 and the reflective lens 2812 are respectively arranged at the lower ends of the second slitting roller shaft 23 and the first correcting component 24; when the free falling of the sizing material conveyed by the cutting device 21 is not blocked by the reflective photoelectric switch 2811 of the upper photoelectric coupler 281, the sizing material is continuously cut and conveyed by the cutting device 21; when the reflective photoelectric switch 2811 of the lower photoelectric coupler 282 is shielded by the glue, the cutting device 21 stops cutting and conveying the glue, so that a storage section is formed between the second belt dividing roller shaft 23 and the first guide assembly 24, when the first glue belt A1 and the second glue belt A2 are conveyed to the laminated transmission assembly 26 in a vertically overlapped state, the storage section can ensure that the first glue belt A1 and the second glue belt A2 conveyed to the laminated transmission assembly 26 are sufficiently supplied, and the first glue belt A1 and the second glue belt A2 cannot be smoothly overlapped due to too slow conveying of the glue by the cutting device 21. The lower end of the second belt dividing roller shaft 23 is provided with a stopper preventing the stock storage section from swinging backward.

Similarly, a detecting device 28 is also arranged between the cutting device 21 and the feeding mechanism 1, and the detecting device in the position is used for sufficiently feeding the packaging and cutting device 21 during cutting, so that the situation that the cutting knife 211 breaks due to the fact that the sizing material is tightly stretched when the cutting device 21 cuts the sizing material because the sizing material conveyed by the feeding mechanism 1 is too slow is avoided.

The laminated transmission assembly 26 comprises a plurality of rollers 261 which are horizontally arranged at intervals, and a driving roller which is arranged in front of the rollers 261, wherein the driving roller is connected with a motor which is used for enabling the driving roller to stably rotate, the motor can be controlled to start and stop by the detection device 28, and the first adhesive tape A1 and the second adhesive tape A2 can be conveyed on the laminated transmission assembly 26 in a parallel arrangement state or in an up-down overlapped state.

The rear end of the slitting and laminating mechanism 2 is connected with a winding mechanism 3 according to the working procedure, and the winding mechanism 3 is used for bonding and winding the sizing material and the lining cloth. The winding mechanism 3 comprises a frame, a conveyer belt 31, at least two winding shafts 32 and at least two lining cloth discharging shafts 33, wherein the conveyer belt 31, the at least two winding shafts 32 and the at least two lining cloth discharging shafts 33 are arranged on the frame, the sizing material and the lining cloth are synchronously wound on the winding shafts 32, and the sizing material and the lining cloth are adhered to form a curtain cloth through rotation of the winding shafts 32. In the utility model, the number of the winding shafts 32 is two, the number of the lining cloth discharging shafts 33 is four, the redundant two lining cloth discharging shafts 33 can be used as spare, the spare lining cloth discharging shafts 33 can facilitate the storage of lining cloth, and the spare lining cloth discharging shafts 33 can also be used as replacement when the lining cloth discharging shafts 33 in use are damaged.

When the first guide component 24 and the second guide component 25 are arranged in parallel, only one winding shaft 32 and one lining cloth discharging shaft 33 are matched, so that the winding operation of the curtain cloth is completed; when the first adhesive tape A1 and the second adhesive tape A2 are in a vertically overlapped state, the two winding shafts 32 and the two lining cloth discharging shafts 33 are matched with each other to independently complete the winding operation of the curtain cloth.

The outer periphery of the winding shaft 32 is sleeved with a curtain fabric, the curtain fabric is abutted against the conveying belt 31, and the lining cloth discharging shaft 33 is rotatably arranged on the top side of the winding mechanism 3.

At least two tensioning shafts 34 which are vertically arranged at intervals are arranged between the winding shaft 32 and the lining cloth discharging shaft 33, the lining cloth is discharged through the lining cloth discharging shaft 33 and is staggered and wound on the tensioning shafts 34, and finally, the lining cloth and the sizing material are synchronously wound on the winding shaft 32.

The lining cloth discharging shaft 33 is rotatably arranged on the top side of the winding mechanism 3 through a bearing seat 333, the brake block 331 is fixedly arranged on the lining cloth discharging shaft 33, the brake 332 clamped with the brake block 331 is fixedly arranged on the top side of the winding mechanism 3, and the brake 332 provides constant friction force for the lining cloth discharging shaft 33 through the brake block 331, so that the lining cloth discharging shaft 33 can be prevented from rotating too fast due to external force.

The winding shaft 32 one end is provided with slide 321, makes winding shaft 32 liftable slidingly set up in the frame of winding mechanism 3 through slide 321, and winding mechanism 3 is provided with pulley assembly, and pulley assembly includes fixed pulley 324 and winds fixed pulley 324 pivoted rope 325, and slide 321 is connected to rope 325 one end, and the other end is connected with balancing weight 322, and balancing weight 322 is 1:0.9 to 1:1.1 with the weight ratio of slide 321. The meaning of balancing weight 322 setting is: when the curtain cloth wound by the winding shaft 32 is increased more and more, the diameter is increased, in order to ensure that the outermost periphery of the curtain cloth is always attached to the conveying belt 31, if the balancing weights 322 are not arranged, the winding of the curtain cloth cannot overcome the weight of the sliding blocks 244 to enable the winding shaft 32 to be lifted, the weight of the curtain cloth plus the balancing weights 322 is completely pressed on the conveying belt 31 to enable the conveying belt 31 to be incapable of smoothly running and conveying, and when the weight between the balancing weights 322 and the sliding seat 321 is close, the winding of the curtain cloth only needs to overcome static friction force between the sliding seat 321 and the winding mechanism 3, so that the winding shaft 32 can be lifted.

The rolling mechanism 3 further comprises an air cylinder 323, the air cylinder 323 is used for pushing the sliding seat 321 to move upwards, after the rolling work of the curtain cloth is completed, the air cylinder 323 jacks up the sliding seat 321, the periphery of the curtain cloth can be separated from the conveying belt 31, and the curtain cloth can be conveniently taken down from the rolling mechanism 3.

The feeding mechanism 1 is arranged at the front end of the slitting and laminating mechanism 2, the feeding mechanism 1 is used for conveying rubber to the cutting device 21, the height difference between the cutting device 21 and the ground surface on which the yarn cutting compound machine for tire curtain cloth is placed is about 1.4 meters to 2 meters, the height difference is used as a containing space of a storage section of the rubber material, the conveying roller shaft 12 of the feeding mechanism 1 and the cutting device 21 are approximately in the same horizontal plane so that the cutting device 21 is convenient for cutting the rubber material, and therefore the feeding mechanism 1 comprises a conveying surface 11 and the conveying roller shaft 12 which is arranged above the conveying surface 11 and horizontally arranged with the cutting device 21, the height of the conveying surface 11 from the ground surface is 0.5 meter to 1 meter, and the height difference between the conveying surface 11 and the conveying roller shaft 12 can save materials.

As shown in fig. 6, when the double-layer curtain fabric is required, the first guide component 24 and the second guide component 25 are adjusted to be arranged in parallel, that is, the width limiting plates 247 of the first guide component 24 and the width limiting plates 247 of the second guide component 25 are adjusted to be equidistant in parallel from the top view, so that the conveying tracks of the first adhesive tape A1 and the second adhesive tape A2 are conveyed in an up-down overlapped state. As shown in fig. 7, when a single ply is required, the first guide assembly 24 and the second guide assembly 25 are staggered, and the first adhesive tape A1 and the second adhesive tape A2 are conveyed to the laminated transmission assembly 26 in a non-interfering state. Therefore, the first guide component 24 and the second guide component 25 on the yarn cutting compound machine of the tire cord fabric can be adjusted to process cord fabrics with different thicknesses according to the requirements of customers, so that one machine can be used for two purposes.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. The utility model provides a tire cord fabric cut yarn compounding machine, includes slitting stromatolite mechanism (2), and slitting stromatolite mechanism (2) include cutting device (21) and conveyor, and cutting device (21) are used for cutting the sizing material into first sizing material area (A1) and second sizing material area (A2), its characterized in that:

the conveying device comprises a first belt dividing roller shaft (22) and a second belt dividing roller shaft (23) which are synchronously driven at intervals, a first guide component (24) and a second guide component (25) which are arranged at intervals are connected at the rear end of the second belt dividing roller shaft (23) according to the procedure, and a laminated driving component (26) is connected at the rear end of the second guide component (25) according to the procedure;

The first guide component (24) and the second guide component (25) are both arranged on the slitting and laminating mechanism (2) in a transversely movable way, so that the positions of the first guide component (24) and the second guide component (25) which can be arranged in parallel or staggered are switched;

The first sizing material belt (A1) is conveyed to the first guide assembly (24) through a first belt dividing roller shaft (22), the second sizing material belt (A2) is conveyed to the second guide assembly (25) through a second belt dividing roller shaft (23), and when the first guide assembly (24) and the second guide assembly (25) are arranged in parallel, the first sizing material belt (A1) and the second sizing material belt (A2) are conveyed to the laminated transmission assembly (26) in an up-down overlapped state; when the first guide assembly (24) and the second guide assembly (25) are arranged in a staggered mode, the first adhesive material belt (A1) and the second adhesive material belt (A2) are conveyed to the laminated transmission assembly (26) in a non-interference state.

2. A tire cord fabric yarn cutting compound machine as in claim 1, wherein: the slitting and laminating mechanism (2) comprises a cross beam (27), the first guide assembly (24) comprises a frame body (241), the frame body (241) and the cross beam (27) are connected in a sliding mode, the frame body (241) is provided with guide cylinders (246) which are arranged in an arc-shaped upward interval mode, the guide cylinders (246) are symmetrically provided with two width limiting plates (247) along the axes of the guide cylinders, and the two width limiting plates (247) are connected with the frame body (241) through positive and negative tooth ball screw assemblies (248).

3. A tire cord fabric yarn cutting compound machine as in claim 1, wherein: the slitting and laminating mechanism (2) further comprises a detection device (28), the detection device (28) comprises an upper photoelectric coupler (281) and a lower photoelectric coupler (282) which are arranged at intervals up and down, the upper photoelectric coupler (281) and the lower photoelectric coupler (282) comprise a reflective photoelectric switch (2811) and a reflective lens (2812), and the reflective photoelectric switch (2811) and the reflective lens (2812) are respectively arranged at the lower ends of the second slitting roller shaft (23) and the first correcting component (24); when the free falling of the sizing material conveyed by the cutting device (21) is not blocked by a reflective photoelectric switch (2811) of an upper photoelectric coupler (281), the sizing material is continuously cut and conveyed by the cutting device (21); when the reflective photoelectric switch (2811) of the lower photoelectric coupler (282) is shielded by the glue, the cutting device (21) stops cutting and conveying the glue.

4. A tire cord fabric yarn cutting compound machine according to any one of claims 1 to 3, wherein: the rear end of the slitting and laminating mechanism (2) is connected with a winding mechanism (3) according to a process, the winding mechanism (3) comprises a frame, a conveying belt (31) arranged on the frame, at least two winding shafts (32) and at least two lining cloth discharging shafts (33), the sizing material and the lining cloth are synchronously wound on the winding shafts (32), and the sizing material and the lining cloth are adhered and formed into curtain cloth through rotation of the winding shafts (32).

5. The tire cord fabric yarn cutting composite machine of claim 4, wherein: the curtain cloth is sleeved on the periphery of the winding shaft (32), the curtain cloth is abutted to the conveying belt (31), and the lining cloth discharging shaft (33) is rotatably arranged on the top side of the winding mechanism (3).

6. The tire cord fabric yarn cutting composite machine of claim 5, wherein: at least two tensioning shafts (34) which are vertically arranged at intervals are arranged between the winding shaft (32) and the lining cloth discharging shaft (33), the lining cloth is discharged through the lining cloth discharging shaft (33) and is connected with the tensioning shafts (34) in a staggered and wound mode, and finally the lining cloth and sizing material are wound on the winding shaft (32) synchronously.

7. The tire cord fabric yarn cutting composite machine of claim 6, wherein: the lining cloth discharging shaft (33) is rotatably arranged on the top side of the winding mechanism (3) through a bearing seat (333), the brake block (331) is fixedly arranged on the top side of the winding mechanism (3), a brake (332) clamped with the brake block (331) is fixedly arranged on the top side of the winding mechanism (3), and the brake (332) provides constant friction force for the lining cloth discharging shaft (33) through the brake block (331).

8. The tire cord fabric yarn cutting composite machine of claim 4, wherein: the winding mechanism is characterized in that a sliding seat (321) is arranged at one end of the winding shaft (32), the winding shaft (32) is arranged on the frame of the winding mechanism (3) in a lifting sliding mode through the sliding seat (321), the winding mechanism (3) is provided with a pulley assembly, the pulley assembly comprises a fixed pulley (324) and a rope (325) rotating around the fixed pulley (324), one end of the rope 325 is connected with the sliding seat (321), and the other end of the rope 325 is connected with a balancing weight (322).

9. The tire cord fabric yarn cutting composite machine of claim 8, wherein: the winding mechanism (3) further comprises an air cylinder (323), and the air cylinder (323) is used for pushing the sliding seat (321) to move upwards.

10. A tire cord fabric yarn cutting compound machine according to any one of claims 1 to 3, wherein: still include feeding mechanism (1), feeding mechanism (1) set up in the front end of slitting stromatolite mechanism (2), feeding mechanism (1) are used for the sizing material to carry to cutting device (21), feeding mechanism (1) include conveying face (11) and set up in conveying face (11) top and with cutting device (21) are horizontal arrangement's conveying roller (12).