CN109941795B - Towel slitting and processing equipment - Google Patents

Abstract

The invention relates to towel slitting processing equipment which structurally comprises a rack, an uncoiling mechanism, a cloth spreading mechanism, a transverse cutting device and a single cutting device. The uncoiling mechanism, the cloth spreading mechanism, the transverse cutting device and the single cutting device are arranged on the rack. The coiled cloth is arranged on the uncoiling mechanism and is driven to output by the uncoiling mechanism, the output cloth passes through the cloth unfolding mechanism, the cloth is unfolded by the cloth unfolding mechanism, the unfolded cloth enters the transverse cutting device to be cut into a plurality of transverse strips, and the cut cloth strips enter the single cutting device along the length direction of the cloth strips to be cut into single towels. The invention can process cloth into single towels through one device, and can directly convey the single towels cut by the invention to the next procedure for further processing through the conveying belt, thereby improving the production efficiency and being suitable for mass production in factories.

Description

Towel slitting and processing equipment

Technical Field

The invention relates to towel production equipment, in particular to towel slitting and processing equipment.

Background

Along with the development of social economy, the living standard of people is increasingly improved, and the requirements on service industries such as catering, tourism and the like are synchronously improved. While enjoying the service, some consumables: for example, the consumption of convenient towels, disposable wet towels (hereinafter, referred to as towels) and the like is greatly improved.

At present, towel processing equipment is relatively behind the market demand, towels are produced by cutting a whole towel cloth into standard sizes by a machine, but subsequent defective products are picked, stacked orderly, folded, soaked, bagged and the like are basically completed by workers manually, so that the labor added value and the labor efficiency are extremely low due to a large amount of labor consumption. Although the existing towel splitting machine can complete the splitting processing of the towels, the single towel cannot be directly split, and the single towel can be obtained only by two devices through twice splitting. The existing towel splitting machine is completely independent for processing equipment of each subsequent process, the split towel needs to be completed by manual participation when being turned over among equipment, and efficiency can not be maximized.

Disclosure of Invention

The invention aims to provide towel slitting and processing equipment to solve the problems that an existing towel slitting machine cannot directly process a single towel and cannot directly convey the slit towel to the next process.

The invention is realized by the following steps: a towel slitting processing device comprises:

a frame for supporting the components and the spread cloth;

the uncoiling mechanism is arranged on the rack and used for mounting a cloth roll and conveying cloth to the cloth uncoiling mechanism;

the cloth spreading mechanism is arranged on the rack and used for outputting the cloth conveyed by the uncoiling mechanism after the cloth is flattened;

the transverse cutting device is arranged on the rack and used for conveying the cloth output by the cloth spreading mechanism to a cutting position and transversely cutting the cloth into a plurality of strips; and

and the single cutting device is arranged on the rack, is positioned on one side or two sides of the transverse cutting device, and is used for conveying the cloth strips cut by the transverse cutting device to a cutting position along the length direction of the cloth strips and cutting the cloth strips into single towels.

The transverse cutting device comprises a cloth pulling mechanism, a transverse cloth pressing mechanism and a transverse ultrasonic cutting mechanism; the cloth pulling mechanism is arranged in the cloth output direction, the transverse ultrasonic cutting mechanisms are a plurality of and are respectively arranged above each cutting position, a transverse cloth pressing mechanism is arranged on one side of each transverse ultrasonic cutting mechanism, and a space for accommodating the cloth pulling mechanism and the cloth is reserved below each transverse cloth pressing mechanism.

The single-block cutting device comprises a cloth strip distribution mechanism, a cloth strip conveying mechanism, a single-block cloth pressing mechanism and a single-block ultrasonic cutting mechanism; cloth conveying mechanism is located lateral of transverse cutting device, just cloth conveying mechanism corresponds each other with quantity and the position of cloth, cloth distribution mechanism is located cloth conveying mechanism top, just a part of cloth distribution mechanism is located in the transverse cutting device, monolithic ultrasonic cutting mechanism set up in the terminal top of cloth conveying mechanism, monolithic cloth pressing mechanism set up in cloth conveying mechanism's top and be close to monolithic ultrasonic cutting mechanism.

The cloth spreading mechanism comprises a first clamp, a first guide rail and a first ball screw, the first guide rail and the first ball screw are installed on the rack and are arranged along the output direction of cloth, the end portion of the first guide rail and the end portion of the first ball screw are close to the cloth spreading mechanism, and the first clamp is sleeved on the first guide rail and driven by the first ball screw.

The transverse ultrasonic cutting mechanism has the same structure as the single ultrasonic cutting mechanism, and comprises an upper cutting guide rail, a lower cutting guide rail, an upper cutting wheel bracket, a lower cutting wheel bracket, an upper ultrasonic cutting wheel, a lower ultrasonic cutting wheel, a distribution wheel and a distribution rubber wheel; the upper cutting guide rail and the lower cutting guide rail are arranged on the rack, the upper cutting guide rail and the lower cutting guide rail are respectively positioned at the upper side and the lower side of the plane where the cloth is positioned, and the directions of the upper cutting guide rail and the lower cutting guide rail are both vertical to the output direction of the cloth; the upper cutting wheel support is arranged at the lower part of the upper cutting guide rail, the lower cutting wheel support is arranged at the upper part of the lower cutting guide rail, the upper ultrasonic cutting wheel is arranged on the upper cutting wheel support, the lower ultrasonic cutting wheel is arranged on the lower cutting wheel support, the upper ultrasonic cutting wheel is in contact with the lower ultrasonic cutting wheel, distribution wheels are respectively arranged at the front side and the rear side of the upper ultrasonic cutting wheel on the upper cutting wheel support, and distribution rubber wheels are respectively arranged at the front side and the rear side of the lower ultrasonic cutting wheel on the lower cutting wheel support; the two ends of the distribution wheel are conical, the distribution wheel is made of hard materials, the distribution rubber wheel is cylindrical, and the surface of the distribution rubber wheel is made of flexible materials.

The cloth distribution mechanism comprises a second clamp, a second guide rail, a second ball screw and a cloth supporting rod, the second guide rail is installed on the rack above the cloth conveying mechanism through the second ball screw, the direction of the second guide rail is consistent with the conveying direction of the cloth, the second guide rail is extended out of one end of the second ball screw, the end portion of the cloth conveying mechanism enters the transverse cutting device, the other end of the cloth conveying mechanism is located above the cloth conveying mechanism, the second clamp is sleeved on the second guide rail and driven by the second ball screw, and the cloth supporting rod is arranged on the rack, close to the transverse cutting device, of the cloth conveying mechanism.

The cloth strip conveying mechanism comprises a driving roller, a driven roller and a conveying belt, the driving roller and the driven roller are installed on the rack, the conveying belt is installed on the driving roller and the driven roller, and the conveying direction of the conveying belt is consistent with the length direction of the cloth strips.

Exhibition cloth mechanism includes exhibition cloth roller, cloth feed roller and exhibition cloth motor, exhibition cloth roller the cloth roller and the cloth feed roller is all installed and is being close to horizontal cutting device in the frame, exhibition cloth roller is located the cloth roller with below between the cloth feed roller be equipped with vertical spout in the frame at exhibition cloth roller both ends, install in vertical spout at the both ends of exhibition cloth roller, exhibition cloth motor is installed and is being close to the cloth roller in the frame, the cloth roller with the cloth feed roller by exhibition cloth motor drive is rotatory install one-way bearing on the cloth feed roller makes it can't overturn.

The uncoiling mechanism comprises an uncoiling roller and an uncoiling motor, the uncoiling roller is installed on the rack and used for installing coiled cloth, the uncoiling motor is installed on the rack close to the uncoiling roller, and the uncoiling motor drives the uncoiling roller to rotate.

The transverse cloth pressing mechanism and the single cloth pressing mechanism are identical in structure and comprise a horizontal cloth pressing rod and a vertical guide rod, the vertical guide rod is fixed on the rack and located beside the cutting position, the horizontal cloth pressing rod is arranged at the lower end of the vertical guide rod, and the vertical guide rod is driven by a driving device to move up and down to drive the horizontal cloth pressing rod to move up and down.

When the towel cloth cutting machine works, coiled towel cloth is arranged on the uncoiling mechanism, the uncoiling roller is driven by the uncoiling motor to output the cloth, the output cloth passes through the cloth unfolding mechanism to keep an unfolded and tensioned state, the cloth output from the cloth unfolding mechanism is pulled to a cutting position by the cloth pulling mechanism, transverse ultrasonic cutting mechanisms are arranged above the cutting positions, a transverse cloth pressing mechanism is arranged beside each transverse ultrasonic cutting mechanism, and after the transverse cloth pressing mechanisms press the cloth, each transverse ultrasonic cutting mechanism starts to cut the cloth into a plurality of cloth strips. The cut cloth strips are pulled to each cloth strip conveying mechanism by the cloth strip distributing mechanism, the cloth strips are conveyed forwards by a certain length by the conveying belt of the cloth strip conveying mechanism each time, when the end portions of the cloth strips extend out of the conveying belt by the set length, the single cloth pressing mechanism and the single ultrasonic cutting mechanism which are positioned at the tail ends of the conveying belt compress the cloth strips and cut the extending cloth materials, and therefore the whole cloth strips are cut into a plurality of towels. And the cut single towel is conveyed to the next procedure through a conveying belt arranged behind the cloth strip conveying mechanism, and the next processing is completed.

The invention can process cloth into single towels through one device, and can directly convey the single towels cut by the invention to the next procedure for further processing through the conveying belt, thereby improving the production efficiency and being suitable for mass production in factories.

Drawings

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

FIG. 2 is a schematic structural diagram of the unwinding mechanism, the spreading mechanism and the transverse cutting mechanism of the present invention.

Fig. 3 is a schematic diagram of the operation of the spreading mechanism of the present invention.

Fig. 4 is a schematic diagram of the operation of the cloth spreading mechanism of the present invention.

FIG. 5 is a schematic view of the monoblock cutting mechanism of the present invention.

Fig. 6 is a schematic structural view of the cloth strip dispensing mechanism of the present invention.

FIG. 7 is a schematic structural view of a transverse ultrasonic cutting mechanism and a monolithic ultrasonic cutting mechanism of the present invention.

In the figure: 1. a frame; 2. an uncoiling mechanism; 3. a cloth spreading mechanism; 4. a transverse cutting device; 5. a single block cutting device; 6. a vertical guide rod; 7. a horizontal cloth pressing rod; 8. cutting the guide rail; 9. An upper cutting wheel support; 10. an ultrasonic cutting wheel is arranged; 11. a distribution wheel; 12. a lower cutting guide rail; 13. a lower cutting wheel support; 14. a lower ultrasonic cutting wheel; 15. distributing rubber wheels; 2-1, an uncoiling roller; 2-2, an uncoiling motor; 3-1, cloth roller; 3-2, spreading rollers; 3-3, a cloth feeding roller; 3-4, spreading a motor; 3-5, a chute; 4-1, a cloth pulling mechanism; 4-2, a transverse ultrasonic cutting mechanism; 4-3, a transverse cloth pressing mechanism; 4-1-1, a first ball screw; 4-1-2, a first guide rail; 4-1-3, a first clamp; 5-1, a cloth strip distribution mechanism; 5-2, conveying belt; 5-3, a single cloth pressing mechanism; 5-4, a single ultrasonic cutting mechanism; 5-1-1, a second ball screw; 5-1-2, a second guide rail; 5-1-3, a second clamp; 5-1-4, a cloth supporting rod;

Detailed Description

As shown in fig. 1, the present invention comprises a frame 1, an unwinding mechanism 2, a spreading mechanism 3, a transverse cutting device 4, and a single-block cutting device 5. The cloth spreading device comprises a rack 1, an uncoiling mechanism 2, a cloth spreading mechanism 3, a transverse cutting device 4 and a single cutting device 5, wherein the uncoiling mechanism 2, the cloth spreading mechanism 3, the transverse cutting device 4 and the single cutting device 5 are arranged on the rack 1, the uncoiling mechanism 2 is arranged at one end of the rack 1, the transverse cutting device 4 is arranged above the rack 1, the cloth spreading mechanism 3 is arranged between the uncoiling mechanism 2 and the transverse cutting device 4, the single cutting devices 5 are arranged on two sides of the rack 1, and the single cutting devices 5 and. The cloth of lapping is installed on unwinding mechanism 2 and is exported by the drive of unwinding mechanism 2, and the cloth of output passes through cloth spreading mechanism 3, and cloth spreading mechanism 3 carries out the exhibition flat processing to the cloth, and the cloth after the exhibition is flat gets into horizontal cutting device 4 and is cut into a plurality of horizontal stripes, and the cloth that has cut gets into monolithic cutting device 5 along cloth length direction and is cut into the monolithic towel.

As shown in fig. 1 and 2, the transverse cutting device 4 comprises a cloth pulling mechanism 4-1, a transverse cloth pressing mechanism 4-3 and a transverse ultrasonic cutting mechanism 4-2; the cloth pulling mechanism 4-1 is arranged in the cloth output direction, the transverse ultrasonic cutting mechanisms 4-2 are a plurality of and are respectively arranged above each cutting position, one side of each transverse ultrasonic cutting mechanism 4-2 is provided with a transverse cloth pressing mechanism 4-3, and a space for accommodating the cloth pulling mechanism 4-1 and cloth to pass is reserved below the transverse cloth pressing mechanism 4-3. The cloth stretching mechanism 4-1 stretches the cloth output by the cloth spreading mechanism 3 from an inlet to the position below the whole transverse cutting device 4, so that the cloth reaches a cutting position, then the transverse cloth pressing mechanism 4-3 compresses the cloth, and the transverse ultrasonic cutting mechanism 4-2 is started to transversely cut the cloth, so that the cloth is cut into a plurality of cloth strips.

As shown in FIG. 2, the uncoiling mechanism 2 comprises an uncoiling roller 2-1 and an uncoiling motor 2-2, the uncoiling roller 2-1 is transversely installed on the rack 1, the uncoiling motor 2-2 is installed beside a rotating shaft of the uncoiling roller 2-1, and the uncoiling motor 2-2 drives the uncoiling roller 2-1 to rotate.

As shown in fig. 2 and 3, the spreading mechanism 3 includes a cloth roller 3-1, a spreading roller 3-2, a cloth feeding roller 3-3, and a spreading motor 3-4. The cloth roller 3-1, the cloth spreading roller 3-2, the cloth feeding roller 3-3 and the cloth spreading motor 3-4 are transversely and horizontally arranged on the frame 1 and are positioned at the inlet of the transverse cutting device 4. The cloth spreading motor 3-4 drives the cloth roller 3-1 and the cloth feeding roller 3-3 to rotate, vertical sliding grooves 3-5 are formed in the machine frame at two ends of the cloth spreading roller 3-2, the cloth spreading roller 3-2 is installed in the vertical sliding grooves 3-5 in the machine frame 1, the cloth spreading roller 3-2 can slide up and down in the sliding grooves 3-5, a small gap is reserved between the cloth feeding roller 3-3 and a horizontal working surface on the machine frame 1, and the gap can just accommodate one layer of cloth to pass through. The cloth rolling roller 3-1 rotates under the driving of the cloth spreading motor 3-4 and drives cloth to advance, the cloth firstly passes below the cloth spreading roller 3-2 and then passes below the cloth feeding roller 3-3, the cloth spreading roller 3-2 exerts downward force on the cloth under the action of self gravity to flatten the cloth, two ends of the cloth feeding roller 3-3 are mounted on the frame 1 through one-way bearings, only single-layer cloth can be contained below the cloth feeding roller 3-3 to pass through, and the cloth is fed into the transverse cutting device 4 forwards by the rotation of the cloth feeding roller 3-3.

As shown in fig. 2 and 4, the cloth spreading mechanism 4-1 includes a first clamp 4-1-3, a first guide rail 4-1-2 and a first ball screw 4-1-1, the first guide rail 4-1-2 and the first ball screw 4-1-1 are mounted on the frame 1 and are both arranged along the cloth output direction, the end portions of the first guide rail 4-1-2 and the first ball screw 4-1-1 are close to the cloth spreading mechanism 3, and the first clamp 4-1-3 is sleeved on the first guide rail 4-1-2 and is driven by the first ball screw.

As shown in fig. 2, the transverse cloth pressing mechanism 4-3 includes a vertical guide bar 6 and a horizontal cloth pressing bar 7. Vertical guide arm 6 wears to connect in frame 1, reciprocates through drive arrangement drive it, and horizontal compress pole 7 sets up in the lower extreme of vertical guide arm 6, and horizontal compress pole 7 reciprocates along with vertical guide arm 6's removal. The structure of the single cloth pressing mechanism 5-3 (shown in fig. 5) is the same as that of the transverse cloth pressing mechanism 4-3.

As shown in fig. 5, the single block cutting device 5 includes a cloth dispensing mechanism 5-1, a cloth conveying mechanism, a single block cloth pressing mechanism 5-3, and a single block ultrasonic cutting mechanism 5-4. The cloth strip conveying mechanisms are positioned on one side or two sides of the transverse cutting device 4, in the embodiment, the cloth strip distributing mechanisms 5-1 are distributed on two sides of the transverse cutting device 4 in a staggered mode, and the number and the positions of the cloth strip conveying mechanisms and the cloth strips correspond to each other. The cloth strip distributing mechanism 5-1 is positioned above the cloth strip conveying mechanism, one part of the cloth strip distributing mechanism 5-1 is positioned in the transverse cutting device 4, the single ultrasonic cutting mechanism 5-4 is arranged above the tail end of the cloth strip conveying mechanism, and the single cloth pressing mechanism 5-3 is arranged above the cloth strip conveying mechanism and close to the single ultrasonic cutting mechanism 5-4.

As shown in fig. 5 and 6, the cloth strip distributing mechanism 5-1 includes a second clamp 5-1-3, a second guide rail 5-1-2, a second ball screw 5-1-1 and a cloth supporting rod 5-1-4, the second guide rail 5-1-2 and the second ball screw 5-1-1 are installed on the frame 1 above the cloth strip conveying mechanism, the directions of the second guide rail 5-1-2 and the second ball screw 5-1-1 are consistent with the conveying direction of the cloth strips, one end of the second guide rail 5-1-2 and one end of the second ball screw 5-1-1 extend out of the end of the cloth strip conveying mechanism and enter the transverse cutting device 4, the other end is above the cloth strip conveying mechanism, the second clamp 5-1-3 is sleeved on the second guide rail 5-1-2 and is driven by the second ball screw, the cloth supporting rods 5-1-4 are arranged on the frame 1 at one end of the cloth strip conveying mechanism close to the transverse cutting device 4, when the second clamp 5-1-3 drives the cloth strips to pass over the cloth supporting rods 5-1-4, the cloth supporting rods 5-1-4 are automatically lifted, and the lifted positions of the cloth supporting rods 5-1-4 are slightly higher than the conveying belt 5-2 of the cloth strip conveying mechanism, so that the cloth strips are rolled and leveled by the cloth supporting rods 5-1-4.

As shown in fig. 7, the transverse ultrasonic cutting mechanism 4-2 has the same structure as the single ultrasonic cutting mechanism 5-4, and includes an upper cutting guide rail 8, a lower cutting guide rail 12, an upper cutting wheel support 9, a lower cutting wheel support 13, an upper ultrasonic cutting wheel 10, a lower ultrasonic cutting wheel 14, a distribution wheel 11 and a distribution rubber wheel 15; the upper cutting guide rail 8 and the lower cutting guide rail 12 are arranged on the rack 1, the upper cutting guide rail 8 and the lower cutting guide rail 12 are respectively positioned at the upper side and the lower side of the plane where the cloth is positioned, and the directions of the upper cutting guide rail 8 and the lower cutting guide rail 12 are both vertical to the output direction of the cloth; an upper cutting wheel support 9 is installed in a sliding mode and can be connected to the lower portion of an upper cutting guide rail 8 in a swinging mode, a lower cutting wheel support 13 is installed in a sliding mode and can be connected to the upper portion of a lower cutting guide rail 12 in a swinging mode, an upper ultrasonic cutting wheel 10 is installed on the upper cutting wheel support 9, a lower ultrasonic cutting wheel 14 is installed on the lower cutting wheel support 13, the upper ultrasonic cutting wheel 10 and the lower ultrasonic cutting wheel 14 are in contact with each other, distribution wheels 11 are installed on the upper cutting wheel support 9 on the front side and the rear side of the upper ultrasonic cutting wheel 10 respectively, and distribution rubber wheels 15 are installed on the lower cutting wheel support 13 on the front side and the rear side of the upper ultrasonic cutting wheel 14 respectively; the two ends of the distribution wheel 11 are conical, the distribution wheel 11 is made of hard materials, the distribution rubber wheel 15 is cylindrical, and the surface of the distribution rubber wheel is made of flexible materials.

When the upper cutting wheel support 9 and the lower cutting wheel support 13 move along the upper cutting guide rail 8 and the lower cutting guide rail 12 respectively during cutting, cloth is clamped between the upper ultrasonic cutting wheel 10 and the lower ultrasonic cutting wheel 14, and when the upper cutting wheel support 9 and the lower cutting wheel support 13 move forwards, the upper cutting wheel support 9 and the lower cutting wheel support 13 incline backwards in the moving direction at the same time, so that the distribution wheel 11 and the distribution rubber wheel 15 on the rear side of the moving direction on the upper cutting wheel support 9 and the lower cutting wheel support 13 are in contact with each other through the cut cloth. Because the two ends of the distribution wheel 11 are conical, and the distribution rubber wheel 15 is made of flexible materials, when the distribution wheel 11 is in contact with the distribution rubber wheel 15, the distribution rubber wheel 15 is deformed due to extrusion, so that the cut cloth is completely separated along the cutting seam.

When the towel cloth cutting machine works, coiled towel cloth is arranged on an uncoiling mechanism 2, an uncoiling roller is driven by an uncoiling motor 2-2 to output the cloth, the output cloth passes through a cloth unfolding mechanism 3 to keep an unfolded and tensioned state, the cloth output from the cloth unfolding mechanism 3 is pulled to a cutting position by a cloth pulling mechanism 4-1, a transverse ultrasonic cutting mechanism 4-2 is arranged above each cutting position, a transverse cloth pressing mechanism 4-3 is arranged beside each transverse ultrasonic cutting mechanism 4-2, and each transverse ultrasonic cutting mechanism 4-2 starts to cut the cloth into a plurality of cloth strips after the transverse cloth pressing mechanism 4-3 presses the cloth. The cut cloth strips are pulled to each cloth strip conveying mechanism by the cloth strip distributing mechanism 5-1, the cloth strips are conveyed forwards by the conveying belt 5-2 of the cloth strip conveying mechanism for a certain length each time, when the end portions of the cloth strips extend out of the conveying belt 5-2 for a set length, the single cloth pressing mechanism 5-3 and the single ultrasonic cutting mechanism 5-4 which are positioned at the tail end of the conveying belt 5-2 compress the cloth strips and cut the extending cloth, and therefore the whole cloth strips are cut into a plurality of towels. And the cut single towel is conveyed to the next procedure through a conveying belt 5-2 arranged behind the cloth strip conveying mechanism, and the next processing is finished.

Claims (9)

1. The utility model provides a processing equipment is cut to towel which characterized in that includes:

a frame for supporting the components and the spread cloth;

the uncoiling mechanism is arranged on the rack and used for mounting a cloth roll and conveying cloth to the cloth uncoiling mechanism;

the cloth spreading mechanism is arranged on the rack and used for outputting the cloth conveyed by the uncoiling mechanism after the cloth is flattened;

the transverse cutting device is arranged on the rack and used for conveying the cloth output by the cloth spreading mechanism to a cutting position and transversely cutting the cloth into a plurality of strips, and the transverse cutting device comprises a cloth pulling mechanism, a transverse cloth pressing mechanism and a transverse ultrasonic cutting mechanism; and

the single-block cutting device is arranged on the rack, is positioned on one side or two sides of the transverse cutting device, and is used for conveying the cloth strips cut by the transverse cutting device to a cutting position along the length direction of the cloth strips and cutting the cloth strips into single blocks of towels;

the transverse ultrasonic cutting mechanism has the same structure as the single ultrasonic cutting mechanism, and comprises an upper cutting guide rail, a lower cutting guide rail, an upper cutting wheel bracket, a lower cutting wheel bracket, an upper ultrasonic cutting wheel, a lower ultrasonic cutting wheel, a distribution wheel and a distribution rubber wheel; the upper cutting guide rail and the lower cutting guide rail are arranged on the rack, the upper cutting guide rail and the lower cutting guide rail are respectively positioned at the upper side and the lower side of the plane where the cloth is positioned, and the directions of the upper cutting guide rail and the lower cutting guide rail are both vertical to the output direction of the cloth; the upper cutting wheel support is slidably mounted and can be connected to the lower portion of the upper cutting guide rail in a swinging mode, the lower cutting wheel support is slidably mounted and can be connected to the upper portion of the lower cutting guide rail in a swinging mode, the upper ultrasonic cutting wheel is mounted on the upper cutting wheel support, the lower ultrasonic cutting wheel is mounted on the lower cutting wheel support, the upper ultrasonic cutting wheel and the lower ultrasonic cutting wheel are in mutual contact, distribution wheels are mounted on the upper cutting wheel support and on the front side and the rear side of the upper ultrasonic cutting wheel respectively, and distribution rubber wheels are mounted on the lower cutting wheel support and on the front side and the rear side of the lower ultrasonic cutting wheel respectively; the two ends of the distribution wheel are conical, the distribution wheel is made of hard materials, the distribution rubber wheel is cylindrical, and the surface of the distribution rubber wheel is made of flexible materials.

2. The towel slitting processing device according to claim 1, characterized in that the cloth pulling mechanism is arranged in the cloth output direction, the plurality of transverse ultrasonic cutting mechanisms are respectively arranged above each cutting position, a transverse cloth pressing mechanism is arranged on one side of each transverse ultrasonic cutting mechanism, and a space for accommodating the cloth pulling mechanism and the cloth is reserved below the transverse cloth pressing mechanisms.

3. The towel slitting processing device according to claim 1, characterized in that the cloth strip conveying mechanism is located on the side of the transverse cutting device, the number and the positions of the cloth strip conveying mechanism and the cloth strips correspond to each other, the cloth strip dispensing mechanism is located above the cloth strip conveying mechanism, a part of the cloth strip dispensing mechanism is located in the transverse cutting device, the single ultrasonic cutting mechanism is arranged above the tail end of the cloth strip conveying mechanism, and the single cloth pressing mechanism is arranged above the cloth strip conveying mechanism and close to the single ultrasonic cutting mechanism.

4. The towel slitting processing device according to claim 2, characterized in that the spreading mechanism includes a first clamp, a first guide rail and a first ball screw, the first guide rail and the first ball screw are mounted on the frame and are arranged along the output direction of the cloth, the end portions of the first guide rail and the first ball screw are close to the spreading mechanism, and the first clamp is sleeved on the first guide rail and is driven by the first ball screw.

5. The towel slitting processing device according to claim 3, wherein the cloth strip distributing mechanism comprises a second clamp, a second guide rail, a second ball screw and a cloth supporting rod, the second guide rail and the second ball screw are mounted on the rack above the cloth strip conveying mechanism, the directions of the second guide rail and the second ball screw are consistent with the conveying direction of the cloth strips, one end of the second guide rail and one end of the second ball screw extend out of the end of the cloth strip conveying mechanism and enter the transverse cutting device, the other end of the second guide rail and the second ball screw are located above the cloth strip conveying mechanism, the second clamp is sleeved on the second guide rail and driven by the second ball screw, and the cloth supporting rod is arranged on the rack at one end, close to the transverse cutting device, of the cloth strip conveying mechanism.

6. The towel slitting processing device according to claim 3, wherein the cloth strip conveying mechanism comprises a driving roller, a driven roller and a conveying belt, the driving roller and the driven roller are installed on the rack, the conveying belt is installed on the driving roller and the driven roller, and the conveying direction of the conveying belt is consistent with the length direction of the cloth strips.

7. The towel slitting processing equipment according to claim 1, characterized in that, the exhibition cloth mechanism includes exhibition cloth roller, advances cloth roller and exhibition cloth motor, the exhibition cloth roller the cloth roller and advance the cloth roller and all install and be close to horizontal cutting device in the frame, the exhibition cloth roller is located the cloth roller with advance below between the cloth roller be equipped with vertical spout in the frame at exhibition cloth roller both ends, install in vertical spout at the both ends of exhibition cloth roller, the exhibition cloth motor is installed and is close to the cloth roller in the frame, the cloth roller with advance the cloth roller by exhibition cloth motor drive is rotatory advance to go up the one-way bearing of installation and make it can't overturn.

8. The towel slitting processing device according to claim 1, wherein the unwinding mechanism includes an unwinding roller and an unwinding motor, the unwinding roller is mounted on the frame and used for mounting rolled cloth, the unwinding motor is mounted on the frame near the unwinding roller, and the unwinding motor drives the unwinding roller to rotate.

9. The towel slitting processing equipment according to any one of claims 2 or 3, wherein the transverse cloth pressing mechanism and the single cloth pressing mechanism are identical in structure and both comprise a horizontal cloth pressing rod and a vertical guide rod, the vertical guide rod is fixed on the rack, the vertical guide rod is located beside a cutting position, the horizontal cloth pressing rod is arranged at the lower end of the vertical guide rod, and the vertical guide rod is driven by a driving device to move up and down so as to drive the horizontal cloth pressing rod to move up and down.

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