CN109809233B

CN109809233B - Towel cutting machine

Info

Publication number: CN109809233B
Application number: CN201910285063.9A
Authority: CN
Inventors: 赵英宝; 李峰
Original assignee: Hebei Nyquis Technology Co ltd
Current assignee: Hebei Nyquis Technology Co ltd
Priority date: 2019-04-10
Filing date: 2019-04-10
Publication date: 2021-05-04
Anticipated expiration: 2039-04-10
Also published as: CN109809233A

Abstract

The invention relates to a towel splitting machine which structurally comprises a rack, an uncoiling mechanism, a cloth spreading and cutting mechanism and a plurality of slitting and processing mechanisms. The cloth cutting mechanism is installed between the uncoiling mechanism and the cloth spreading and cutting mechanism, the cloth output by the uncoiling mechanism is cut into a plurality of cloth strips after being flattened and cut by the cloth spreading and cutting mechanism and is continuously output forwards, and the cutting direction of the cloth strips is consistent with the conveying direction of the cloth strips. The cut cloth strips are conveyed to a strip processing mechanism, and are conveyed forwards by the strip processing mechanism and are cut into single towel blocks. 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 cutting machine

Technical Field

The invention relates to towel production equipment, in particular to a towel splitting machine.

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 a towel splitting machine, which solves the problems that the existing towel splitting machine cannot directly process a single towel and cannot directly convey the split towel to the next process.

The invention is realized by the following steps: a towel cutting machine comprising:

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 and cutting mechanism is arranged on the rack, is positioned at the output end of the uncoiling mechanism and is used for spreading and cutting the cloth conveyed by the uncoiling mechanism into a plurality of cloth strips and then outputting the cloth strips; and

and the strip processing mechanisms are arranged on the rack, are positioned at the output end of the cloth spreading and cutting mechanism and are used for conveying the cut cloth strips forwards and cutting the cloth strips into single towel blocks.

The cloth spreading and cutting mechanism comprises a cloth roller, a cloth spreading roller, an ultrasonic cutting knife group, a cloth feeding roller and a cloth spreading motor; exhibition cloth roller the cloth roller ultrasonic cutting wheelset and advance the cloth roller and all install and be close to divide strip processing mechanism in the frame, just the cloth roller the ultrasonic cutting wheelset and advance the cloth roller and be located same horizontal plane, ultrasonic cutting knife tackle is located the cloth roller with advance between the cloth roller, the exhibition cloth roller is located ultrasonic cutting knife tackle with below between the cloth roller be equipped with vertical spout in the frame of exhibition cloth roller both sides, install in vertical spout at the both ends of exhibition cloth roller, the exhibition cloth motor is installed and is being close to the cloth roller in the frame, the cloth roller with advance the cloth roller by exhibition cloth motor drive is rotatory it can't overturn to install one-way bearing on advancing the cloth roller.

The slitting processing mechanism comprises a first conveying belt, a second conveying belt, a cloth supporting rod, a cloth pressing rod and a single ultrasonic cutting wheel set; the first conveying belt and the second conveying belt are respectively installed on the frame, the first conveying belt is connected with the second conveying belt in an end-to-end mode, the single ultrasonic cutting wheel set is arranged between the first conveying belt and the second conveying belt, the cloth pressing rods are arranged on two sides of the single ultrasonic cutting wheel set, and the cloth supporting rods are arranged at the input end of the first conveying belt and are higher than the upper plane of the first conveying belt.

The single ultrasonic cutting wheel set 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 uncoiling mechanism comprises an uncoiling roller, an uncoiling motor, a correcting roller and a correcting motor; the decoiling roller is arranged on the rack and used for mounting coiled cloth, the decoiling motor is arranged on the rack close to the decoiling roller, and the decoiling motor drives the decoiling roller to rotate; the correcting roller and the correcting motor are arranged on the rack above the uncoiling roller, and the correcting roller is driven by the correcting motor.

Ultrasonic cutting knife tackle includes the pivot, is located go up the lower pivot of pivot below, install go up epaxial a plurality of break bars of going up and install pivot a plurality of lower break bars down, go up the break bar with the position of break bar corresponds each other down, just go up the break bar with break bar evenly distributed down.

The strip processing mechanisms are divided into an upper group and a lower group, the two groups of strip processing mechanisms are staggered left and right, a cloth feeding roller is arranged at the input end of each group of strip processing mechanisms, and a plurality of cloth strips cut by the ultrasonic cutting knife group are output to the upper group and the lower group of strip processing mechanisms in a staggered mode.

When the ultrasonic cutting device works, coiled cloth is arranged on the uncoiling roller, the cloth is output by the driving of the uncoiling motor, the output cloth is corrected by the correcting roller, and the positions of two sides of the cloth are adjusted, so that burrs on two sides of the cloth are uniform when the cloth is cut at the ultrasonic cutting knife set. The cloth that the unwinding mechanism output is through the exhibition flat processing back of spreading out the cloth roller by ultrasonic cutting knife tackle along its length direction cutting become the cloth of a plurality of aequilate, the crisscross forward or upwards output of these a plurality of cloth, the cloth of forward output gets into in a set of branch strip processing mechanism in the place ahead, the cloth of upwards output gets into in a set of branch strip processing mechanism of top, a set of branch strip processing mechanism in the place ahead and a set of branch strip processing mechanism of top stagger the position of a cloth each other. The cloth strips entering the strip dividing processing mechanism are conveyed forwards through the first conveying belt, the cloth strips stop advancing when reaching a cutting position, the cloth strips are pressed tightly through the cloth pressing rod and cannot be deformed when being cut, then the cloth strips are cut through the single ultrasonic cutting wheel set, the single towel block is cut off, and the cut towel block is conveyed forwards continuously to the next working procedure through the second conveying belt.

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 view of the spread cutting mechanism of the present invention.

FIG. 3 is a schematic view of the slitting process mechanism of the present invention.

FIG. 4 is a schematic view of the construction of a monolithic ultrasonic cutting wheel assembly of the present invention.

In the figure: 1. a frame; 2. an uncoiling motor; 3. unwinding the roller; 4. correcting the motor; 5. a correcting roller; 6. a spreading motor; 7. a cloth spreading roller; 8. a cloth roller; 9. an ultrasonic cutting knife set; 10. a cloth feeding roller; 11. a slitting processing mechanism; 1-1, a chute; 9-1, an upper rotating shaft; 9-2, mounting a cutter wheel; 9-3, a lower rotating shaft; 9-4, a lower cutter wheel; 11-1, a first conveyor belt; 11-2, a second conveyer belt; 11-3, a cloth supporting rod; 11-4, a single ultrasonic cutting wheel set; 11-5, pressing cloth rods; 11-4-1, cutting the guide rail; 11-4-2, an upper cutting wheel bracket; 11-4-3, arranging an ultrasonic cutting wheel; 11-4-4, a distribution wheel; 11-4-5, lower cutting guide rails; 11-4-6, a lower cutting wheel bracket; 11-4-7, arranging an ultrasonic cutting wheel; 11-4-8 and rubber wheels.

Detailed Description

As shown in fig. 1, the present invention includes a frame 1, an unwinding mechanism, a spreading and cutting mechanism, and a plurality of slitting processing mechanisms 11. Unwinding mechanism, exhibition cloth cutting mechanism and branch strip processing mechanism 11 all install in frame 1, and unwinding mechanism installs the rear end in frame 1, and branch strip processing mechanism 11 installs in the front portion of frame 1, and exhibition cloth cutting mechanism installs between unwinding mechanism and exhibition cloth cutting mechanism, and the cloth of unwinding mechanism output is divided into a plurality of cloth and continues to export forward through exhibition cloth cutting mechanism's exhibition flat and cutting processing back, and the cutting direction of cloth is unanimous with the direction of delivery of cloth. The cut cloth strips are conveyed to the strip processing mechanism 11, and are conveyed forwards by the strip processing mechanism 11 and are cut into single towel blocks.

Wherein, unwinding mechanism includes unwinding roller 3, unwinding motor 2, correction roller 5 and correction motor 4. The uncoiling roller 3 is horizontally arranged on the rack 1, the uncoiling roller 3 is positioned at the rear end of the rack 1, coiled towel cloth is arranged on the uncoiling roller 3, the uncoiling motor 2 is arranged on the rack 1 close to the uncoiling roller 3, and the uncoiling roller 3 is driven to rotate by the uncoiling motor 2. The correcting roller 5 and the correcting motor 4 are arranged on the rack 1 above the decoiling roller 3, the correcting roller 5 is driven by the correcting motor 4, the correcting roller 5 does not exceed the highest end of the decoiling roller 3, the position of the correcting roller 5 is a little before the decoiling roller 3, the cloth passes through the correcting roller 5 after being output from the decoiling roller 3, and the correcting roller 5 corrects the left and right positions of the cloth to ensure that the cloth is aligned with the cutting position.

As shown in fig. 1 and 2, the spreading and cutting mechanism includes a cloth roller 8, a spreading roller 7, an ultrasonic cutting blade group 9, a cloth feeding roller 10, and a spreading motor. The cloth spreading roller 7, the cloth rolling roller 8, the ultrasonic cutting wheel set and the cloth feeding roller 10 are all horizontally arranged on the rack 1 close to the slitting processing mechanism 11, the cloth rolling roller 8, the ultrasonic cutting wheel set and the cloth feeding roller 10 are located on the same horizontal plane, the ultrasonic cutting knife set 9 is located between the cloth rolling roller 8 and the cloth feeding roller 10, and the cloth spreading roller 7 is located below the ultrasonic cutting knife set 9 and the cloth rolling roller 8. The ultrasonic cutting knife group 9 comprises an upper rotating shaft 9-1, a lower rotating shaft 9-3 positioned below the upper rotating shaft 9-1, a plurality of upper knife flywheel 9-2 arranged on the upper rotating shaft 9-1 and a plurality of lower knife flywheel 9-4 arranged on the lower rotating shaft 9-3, the positions of the upper knife flywheel 9-2 and the lower knife flywheel 9-4 are mutually corresponding, and the upper knife flywheel 9-2 and the lower knife flywheel 9-4 are uniformly distributed. The frame 1 on both sides of the spreading roller 7 is provided with vertical chutes 1-1, both ends of the spreading roller 7 are installed in the vertical chutes 1-1, the spreading roller 7 can slide downwards along the chutes 1-1 under the action of self gravity, and the cloth finishes flattening treatment under the downward pressing action of the spreading roller 7. The cloth spreading motor is installed on the frame 1 close to the cloth roller 8, the cloth roller 8 and the cloth feeding roller 10 are driven to rotate by the cloth spreading motor, the cloth feeding roller 10 is provided with a one-way bearing to prevent the cloth from being overturned, and the flattened cloth enters the space between the cloth feeding roller 10 and the plane of the machine after being cut by the ultrasonic cutting wheel set and is conveyed forwards through the cloth feeding roller 10.

As shown in fig. 1, the plurality of slitting processing mechanisms 11 are divided into two groups, an upper group and a lower group, the two groups of slitting processing mechanisms 11 are staggered from left to right, a cloth feeding roller 10 is arranged at the input end of each group of slitting processing mechanisms 11, and a plurality of cloth strips cut by the ultrasonic cutting knife group 9 are output to the upper group and the lower group of slitting processing mechanisms 11 in a staggered manner. In the present embodiment, the number of the slitting processing mechanisms 11 is eight, the upper and lower groups are four, the upper four slitting processing mechanisms 11 are simultaneously offset to one side by a certain distance, the center of each upper slitting processing mechanism 11 is located at the side edge of the lower slitting processing mechanism 11, the ultrasonic cutting knife group 9 cuts the cloth into eight cloth strips, one cloth strip is output upwards to the upper slitting processing mechanism 11 every other cloth strip in the eight cloth strips, the remaining four cloth strips are output to the lower slitting processing mechanism 11, and each cloth strip corresponds to one slitting processing mechanism 11.

As shown in FIG. 3, the slitting treatment mechanism 11 comprises a first conveyor belt 11-1, a second conveyor belt 11-2, a cloth supporting rod 11-3, a cloth pressing rod 11-5 and a single ultrasonic cutting wheel set 11-4. The first conveying belt 11-1 and the second conveying belt 11-2 are horizontally arranged on the rack 1 respectively, the first conveying belt 11-1 and the second conveying belt 11-2 are connected end to end, the single ultrasonic cutting wheel set 11-4 is arranged between the first conveying belt 11-1 and the second conveying belt 11-2, the cloth pressing rods 11-5 are arranged on two sides of the single ultrasonic cutting wheel set 11-4, and the cloth supporting rods 11-3 are arranged above the input end of the first conveying belt 11-1. The cloth pressing rod 11-5 is arranged on the rack 1 above the slitting processing mechanism 11 through a vertical rod, and the vertical rod moves up and down to drive the cloth pressing rod 11-5 to move up and down. The cloth supporting rod 11-3 is arranged at the input end of the first conveying belt 11-1, the cloth supporting rod 11-3 is higher than the upper plane of the first conveying belt 11-1, the cloth supporting rod 11-3 is driven by a driving element to move up and down, and when cloth strips pass through the cloth supporting rod 11-3 and enter the first conveying belt 11-1, the cloth supporting rod 11-3 is lifted, so that the cloth strips are rolled up and leveled.

As shown in FIG. 4, the single ultrasonic cutting wheel set 11-4 comprises an upper cutting guide rail 11-4-1, a lower cutting guide rail 11-4-5, an upper cutting wheel support 11-4-2, a lower cutting wheel support 11-4-6, an upper ultrasonic cutting wheel 11-4-3, a lower ultrasonic cutting wheel 11-4-7, a distribution wheel 11-4-4 and a distribution rubber wheel 11-4-8. The upper cutting guide rail 11-4-1 and the lower cutting guide rail 11-4-5 are arranged on the rack 1, the upper cutting guide rail 11-4-1 and the lower cutting guide rail 11-4-5 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 11-4-1 and the lower cutting guide rail 11-4-5 are both vertical to the output direction of the cloth. An upper cutting wheel bracket 11-4-2 is arranged at the lower part of an upper cutting guide rail 11-4-1, a lower cutting wheel bracket 11-4-6 is arranged at the upper part of a lower cutting guide rail 11-4-5, an upper ultrasonic cutting wheel 11-4-3 is arranged on the upper cutting wheel bracket 11-4-2, a lower ultrasonic cutting wheel 11-4-7 is arranged on the lower cutting wheel bracket 11-4-6, the upper ultrasonic cutting wheel 11-4-3 is mutually contacted with the lower ultrasonic cutting wheel 11-4-7, the front and the rear sides of the upper ultrasonic cutting wheel 11-4-3 on the upper cutting wheel bracket 11-4-2 are respectively provided with a distribution wheel 11-4-4, the front and the rear sides of the upper ultrasonic cutting wheel 11-4-7 and the lower ultrasonic cutting wheel bracket 11-4-6 are respectively provided with a distribution rubber wheel 11 4-8. The two ends of the distribution wheel 11-4-4 are conical, the distribution wheel 11-4-4 is made of hard materials, the distribution rubber wheel 11-4-8 is cylindrical, and the surface of the distribution rubber wheel is made of flexible materials. When the single ultrasonic cutting wheel set 11-4 moves along one direction, the upper cutting wheel support 11-4-2 and the lower cutting wheel support 11-4-6 are inclined towards the rear of the moving direction, the distribution wheel 11-4-4 and the distribution rubber wheel 11-4-8 behind the moving direction are pressed on the cloth, the cloth is cut by the ultrasonic cutting wheel to form a cutting gap, then the distribution wheel 11-4-4 and the distribution rubber wheel 11-4-8 are pressed at the gap of the cloth, as the two ends of the distribution wheel 11-4-4 are conical, the distribution rubber wheel 11-4-8 is made of flexible material, the distribution rubber wheel 11-4-8 can deform under the action of pressure, and in the deformation process, the distribution rubber wheel 11-4-8 can completely separate the cloth at the two sides of the gap, thereby finishing the cutting processing of the cloth strips.

When the ultrasonic cutting device works, coiled cloth is arranged on the uncoiling roller 3, the cloth is output by the driving of the uncoiling motor 2, the output cloth is corrected by the correcting roller 5, and the positions of two sides of the cloth are adjusted, so that burrs on two sides of the cloth are uniform when the cloth is cut at the ultrasonic cutting knife set 9. The cloth that unwinding mechanism output is through the flattening of spreading out cloth roller 7 after being handled by ultrasonic cutting knife tackle 9 along its length direction cutting become the cloth of a plurality of aequilate, and the crisscross forward or upwards output of this a plurality of cloth, the cloth of forward output gets into in a set of branch strip processing mechanism 11 in the place ahead, the cloth of upwards output gets into in a set of branch strip processing mechanism 11 of top, a set of branch strip processing mechanism 11 in the place ahead and a set of branch strip processing mechanism 11 of top stagger the position of a cloth each other. The cloth strip entering the strip dividing processing mechanism 11 is conveyed forwards through the first conveying belt 11-1, the cloth strip stops advancing when reaching a cutting position, the cloth strip is pressed through the cloth pressing rod 11-5 so as not to deform during cutting, then the cloth strip is cut through the single ultrasonic cutting wheel set 11-4 to cut a single towel block, and the cut towel block is conveyed forwards continuously to the next working procedure through the second conveying belt 11-2.

Claims

1. The utility model provides a towel cutting machine which characterized in that includes:

a frame for supporting the components and the spread cloth;

the slitting processing mechanisms are arranged on the rack, are positioned at the output end of the cloth spreading and cutting mechanism and are used for conveying the cut cloth forward and cutting the cloth into single towel blocks, and each slitting processing mechanism comprises a first conveying belt, a second conveying belt, a cloth supporting rod, a cloth pressing rod and a single ultrasonic cutting wheel set;

the single ultrasonic cutting wheel set 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;

2. The towel splitting machine of claim 1, wherein the first conveyor belt and the second conveyor belt are respectively mounted on a frame, the first conveyor belt and the second conveyor belt are connected end to end, the single ultrasonic cutting wheel set is disposed between the first conveyor belt and the second conveyor belt, the cloth pressing rod is disposed on two sides of the single ultrasonic cutting wheel set, and the cloth supporting rod is disposed at an input end of the first conveyor belt and is higher than an upper plane of the first conveyor belt.

3. The towel splitting machine of claim 1, wherein said unwind mechanism comprises an unwind roller, an unwind motor, a correction roller, and a correction motor; the decoiling roller is arranged on the rack and used for mounting coiled cloth, the decoiling motor is arranged on the rack close to the decoiling roller, and the decoiling motor drives the decoiling roller to rotate; the correcting roller and the correcting motor are arranged on the rack above the uncoiling roller, and the correcting roller is driven by the correcting motor.

4. The towel splitting machine according to claim 1, wherein said ultrasonic cutting knife group comprises an upper rotating shaft, a lower rotating shaft located below said upper rotating shaft, a plurality of upper knife wheels mounted on said upper rotating shaft and a plurality of lower knife wheels mounted on said lower rotating shaft, said upper knife wheels and said lower knife wheels are located corresponding to each other and uniformly distributed.

5. The towel splitting machine according to claim 1, wherein said plurality of slitting processing mechanisms are divided into two groups, an upper group and a lower group, said two groups of slitting processing mechanisms are staggered from left to right, a cloth feeding roller is provided at an input end of each group of slitting processing mechanisms, and a plurality of cloth strips cut by said ultrasonic cutting knife group are output to said two groups of slitting processing mechanisms in a staggered manner.