CN113638217A

CN113638217A - Quantitative cutting equipment and method applied to non-woven fabric wet tissue

Info

Publication number: CN113638217A
Application number: CN202110940305.0A
Authority: CN
Inventors: 陈凯; 孙晓彤; 黄强
Original assignee: Individual
Current assignee: Tianjin Kangsen Biological Technology Co ltd
Priority date: 2021-08-17
Filing date: 2021-08-17
Publication date: 2021-11-12
Anticipated expiration: 2041-08-17
Also published as: CN113638217B

Abstract

The invention belongs to the technical field of non-woven fabric wet tissues, and particularly relates to quantitative cutting equipment and a quantitative cutting method applied to the non-woven fabric wet tissues, wherein the cutting equipment comprises a rack, a guide roller, a rolling cutting module, a conveying module and a controller; the guide roller is rotatably connected to the upper end of the rack; the conveying module is arranged between the guide roller and the rack and comprises a transmission shaft, a driving motor and a conveying belt; the number of the transmission shafts is two, and the two transmission shafts are rotatably connected with the inner wall of the rack; according to the invention, through the arrangement of the water outlet holes, liquid is sprayed to the cutting plate from the water outlet holes, and in the process of cutting the multilayer superposed non-woven wet tissue by the cutting plate, the liquid can flow onto the multilayer superposed non-woven wet tissue along the cutting plate, so that the liquid enters the multilayer superposed non-woven wet tissue, thereby supplementing the liquid lost in the multilayer superposed non-woven wet tissue, improving the content of the liquid in the multilayer superposed non-woven wet tissue, and further improving the using effect of the non-woven wet tissue.

Description

Quantitative cutting equipment and method applied to non-woven fabric wet tissue

Technical Field

The invention belongs to the technical field of non-woven fabric wet tissues, and particularly relates to quantitative cutting equipment and a quantitative cutting method applied to the non-woven fabric wet tissues.

Background

The wet tissue is divided into two types according to the materials: the utility model provides a wet strength paper, one kind is the non-woven fabrics, most wet piece of cloth all is with the non-woven fabrics, subdivide the word, the most water thorn non-woven fabrics of raw materials non-woven fabrics, especially in hot summer, wet piece of cloth is more by extensive use, the water content is few in the wet piece of cloth, make the wet piece of cloth take out just must use immediately, otherwise wet piece of cloth is very easy dry, make the wet piece of cloth can't carry out the moistness to the face, and wipe and also relatively more painstakingly, so in summer, the wet piece of cloth that thickness is big and the water content is high is more keen by consumers.

For example, a chinese patent with application number CN202021368394.3 discloses a wet towel cutting device, the technical scheme adjusts the position of a slide block in a slide groove by rotating an adjusting bolt, drives a cutter head to move in the through groove, and the cutter head rotates to the position opposite to an invagination groove and enters the invagination groove by the rotation of an upper cutting roller and a lower cutting roller, thereby realizing the cutting of wet towels with different lengths, convenient adjustment and high cutting precision; but this technical scheme does not consider completely because the wet piece of cloth of non-woven fabrics is the multilayer superimposed at the in-process of cutting, so when the cutting board cuts the wet piece of cloth of non-woven fabrics of multilayer superimposed, the cutting board extrudees the wet piece of cloth of non-woven fabrics of multilayer superimposed, make the liquid of the wet piece of cloth extrusion department of multilayer superimposed flow to around, especially in hot summer, liquid outflow and with external hot air contact, make liquid accelerate to volatilize, thereby make the liquid content in the wet piece of cloth of non-woven fabrics reduce, make the result of use of the wet piece of cloth of non-woven fabrics reduce, and then cause this technical scheme's limitation.

In view of the above, in order to overcome the above technical problems, the present invention provides a device and a method for quantitatively cutting a nonwoven wet tissue, which solve the above technical problems.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides quantitative cutting equipment and a cutting method applied to non-woven fabric wet tissues.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to quantitative cutting equipment applied to non-woven wet tissues, which comprises a rack, a guide roller, a rolling cutting module, a conveying module and a controller, wherein the guide roller is arranged on the rack; the guide roller is rotatably connected to the upper end of the rack; the conveying module is arranged between the guide roller and the rack and comprises a transmission shaft, a driving motor and a conveying belt; the number of the transmission shafts is two, and the two transmission shafts are rotatably connected with the inner wall of the rack; the driving motor is fixedly connected to the outer wall of the rack, and an output shaft of the driving motor is fixedly connected with one of the transmission shafts; the conveying belt is in transmission connection with the transmission shaft, and a conveying plate is arranged between the conveying belt and the transmission shaft; the conveying plate is fixedly connected with the inner wall of the frame; the rolling cutting module is positioned above the conveying belt and comprises a roller and a cutting plate; the cutting plate is arranged on the outer wall of the roller; the roller is rotationally connected with the inner wall of the rack; the outer wall of the rack is fixedly connected with a servo motor; an output shaft of the servo motor is fixedly connected with the roller; a first cavity is formed in the roller, and a water outlet hole is formed in the outer wall of the roller; the water outlet hole is communicated with the first cavity, and the water outlet hole is inclined towards the cutting plate; a liquid inlet pipe is fixedly arranged on one side of the rack, which is far away from the servo motor; the liquid inlet pipe penetrates through the rack and is communicated with the first cavity; the controller is used for controlling the automatic operation of the non-woven fabric wet tissue cutting equipment;

in the prior art, because the non-woven wet tissue is laminated in multiple layers in the slitting process, when the multi-layer laminated non-woven wet tissue is slit by the cutting plate, the cutting plate extrudes the multi-layer laminated non-woven wet tissue, so that liquid at the extrusion part of the multi-layer laminated non-woven wet tissue flows to the periphery, and particularly in hot summer, the liquid flows out and contacts with external hot air, so that the volatilization of the liquid is accelerated, the liquid content in the non-woven wet tissue is reduced, and the use effect of the non-woven wet tissue is further reduced;

when the multi-layer stacked non-woven wet tissue cutting machine works, a worker guides a plurality of layers of stacked non-woven wet tissues to the upper end of a conveying belt through a guide roller at the upper end of a rack, a servo motor is controlled by a controller to drive a transmission shaft to transmit, the transmission shaft drives the plurality of layers of stacked non-woven wet tissues to move towards a cutting plate through the conveying belt, the conveying belt is made of PVC fiber materials, the conveying belt has the characteristics of cutting resistance and good air permeability, the controller drives a roller to rotate through controlling the driving motor, the roller drives the cutting plate to cut the plurality of layers of stacked non-woven wet tissues, the transmission speed of the driving motor and the transmission speed of the servo motor are set to be the same, when a cutter cuts the plurality of layers of stacked non-woven wet tissues quantitatively, the cutter and the plurality of layers of stacked non-woven wet tissues can move synchronously, at the moment, the controller controls liquid to be conveyed into a first cavity from a liquid inlet pipe and sprayed to the cutting plate through a water outlet hole, so that the liquid flows to the non-woven wet tissue which is cut along the cutting plate, thereby supplementing the content of the liquid at the part of the non-woven wet tissue which is extruded by the cutting plate;

according to the invention, through the arrangement of the water outlet holes, liquid is sprayed to the cutting plate from the water outlet holes, and in the process of cutting the multilayer superposed non-woven wet tissue by the cutting plate, the liquid can flow onto the multilayer superposed non-woven wet tissue along the cutting plate, so that the liquid enters the multilayer superposed non-woven wet tissue, thereby supplementing the liquid lost in the multilayer superposed non-woven wet tissue, improving the content of the liquid in the multilayer superposed non-woven wet tissue, and further improving the using effect of the non-woven wet tissue.

Preferably, the outer wall of the roller is provided with a first groove; the cutting plate is connected in the first groove in a sliding and sealing mode, and the cutting plate is fixedly connected with the bottom of the first groove through a first spring; an arc-shaped cavity is formed in the roller; the arc-shaped cavity is used for communicating the first groove with the first cavity; the water outlet hole is communicated with the first groove; the side wall of the cutting plate is provided with a through hole; when the cutting device works, when the roller drives the cutting plate to cut the non-woven wet tissue, the cutting plate is contacted with the non-woven wet tissue stacked in multiple layers and cuts the non-woven wet tissue, at the moment, the cutting plate is contacted with the conveyer belt, the conveyer belt is enabled to block the cutting plate under the support of the conveyer belt, the cutting plate is enabled to compress the spring to slide towards the bottom of the groove, so that the through hole enters the groove under the drive of the cutting plate, the through hole is enabled to communicate the water outlet hole with the arc-shaped cavity, liquid enters the water outlet hole from the arc-shaped cavity through the through hole and is sprayed to the cutting plate through the water outlet hole, the liquid flows into the non-woven wet tissue stacked in multiple layers along the cutting plate, the cutting plate resets under the action of gravity and the restoring force of the spring after cutting is finished, the through hole extends out of the groove, so that the cutting plate separates the arc-shaped cavity from the water outlet hole, the liquid is prevented from flowing out, when the cutter rotates to the upper end of the roller under the drive of the roller, the cutter can not completely enter the first groove under the action of the first spring, so that the through hole is prevented from entering the first groove and communicating the arc-shaped cavity with the water outlet hole, liquid is prevented from flowing out, and waste of the liquid is reduced; according to the invention, through the mutual matching of the through hole and the first spring, when the cutting plate cuts the multilayer superposed non-woven wet tissues, the through hole can communicate the arc-shaped cavity with the water outlet hole, so that liquid is supplemented to the extruded multilayer superposed non-woven wet tissues, and after the cutting plate is cut, the cutting plate is reset under the action of the restoring force of the first spring, so that the cutting plate drives the through hole to extend out of the first groove, the arc-shaped cavity and the water outlet hole are separated by the cutting plate, the liquid waste caused by liquid outflow is avoided, and the actual application effect of the invention is further improved.

Preferably, the upper end of the conveying plate is provided with an air hole, and a second cavity is formed in the conveying plate; the air hole is communicated with the second cavity; a pressure plate is connected in the second cavity in a sliding and sealing manner; the pressing plate is fixedly connected with the cavity bottom of the second cavity through a second spring, and the upper end of the pressing plate is fixedly connected with a pressing block; one end of the pressing block, which is far away from the pressing plate, penetrates through the second cavity; when the roller drives the cutting plate to cut the non-woven fabric wet tissue, the cutting plate is firstly contacted with the pressing block, so that the cutting plate slides along the upper end surface of the pressing block, meanwhile, the cutting plate can push the pressing block to press the pressure plate to press the spring to move towards the cavity bottom of the cavity, at the moment, extruded liquid in the multi-layer stacked non-woven fabric wet tissue enters the cavity through the air hole, until the cutting plate moves to the center of the roller, at the moment, the cutting plate is separated from the upper end surface of the pressing block, so that the pressing plate drives the pressing block to reset under the restoring force of the spring, the pressing plate pushes gas in the cavity to be sprayed out from the air hole, on one hand, the multi-layer stacked non-woven fabric wet tissue which is cut by the cutting plate and extruded together can be loosened under the action of gas blowing, so that the liquid can be conveniently immersed into the multi-layer stacked non-woven fabric wet tissue, on the other hand, the gas can blow the multi-layer stacked non-woven fabric wet tissue which is cut by the cutting plate to be separated from the side wall of the cutting plate, the multilayer overlapped non-woven fabric wet tissue is prevented from being adhered to the side wall of the cutting plate under the tension action of water, and then the liquid entering the second cavity is sprayed out from the air holes under the pushing of the pressing plate, so that the liquid is immersed from the lower end of the multilayer overlapped non-woven fabric wet tissue, the immersion effect of the liquid is improved, the humidity of the multilayer overlapped non-woven fabric wet tissue is increased, the waste of the liquid is reduced, and the practical application effect of the invention is improved.

Preferably, one end of the cutting plate, which is far away from the roller, is provided with a second groove; a cutter is connected in the second groove in a sliding manner; the cutter is fixedly connected with the bottom of the second groove through a third spring; when the cutting device works, when the roller drives the cutting plate to cut the multilayer superposed non-woven wet tissues, the cutting plate is contacted with the pressing block, so that the cutting plate pushes the pressing block to enter the cavity II, the cutter on the cutting plate is contacted with the multilayer superposed non-woven wet tissues, the cutter can limit the multilayer superposed non-woven wet tissues, the cutter and the multilayer superposed non-woven wet tissues synchronously move along with the rotation of the roller, the cutter compresses the spring III to move in the groove II under the blocking of the conveying plate until the cutter is contacted with the groove bottom of the groove II, the compression amount of the spring III by the cutter is the maximum, the cutting force of the cutter on the multilayer superposed non-woven wet tissues under the restoring force action of the spring III is the maximum, so that the multilayer superposed non-woven wet tissues are cut off under the cutting pressure of the cutter, the roller continuously rotates along with the cutting plate, and the cutter pushes the cutting plate to enter the groove I under the blocking of the conveying plate, at the moment, the liquid flows out through the water outlet hole and supplements the liquid in the multi-layer superposed non-woven wet tissue at the cutting position; according to the invention, through the arrangement of the cutter, on one hand, the cutter can be firstly contacted with the multilayer superposed non-woven wet tissues and is limited, so that the cutter can quantitatively cut the multilayer superposed non-woven wet tissues, on the other hand, the cutter can cut the multilayer superposed non-woven wet tissues before supplementing water to the multilayer superposed non-woven wet tissues at the extrusion part, so that the toughness of the multilayer superposed non-woven wet tissues is prevented from being increased due to the supplement of liquid, the cutting effect of the cutter on the multilayer superposed non-woven wet tissues is further reduced, and the practical application effect of the invention is improved.

Preferably, a one-way valve is installed in the air hole; the one-way valves on two sides of the center of the roller are opposite in direction; when the cutting device is used for cutting the multilayer superposed non-woven fabric wet tissues, the cutter extrudes the multilayer superposed non-woven fabric wet tissues, so that liquid extruded by the cutter in the multilayer superposed non-woven fabric wet tissues flows into the cavity II from the air hole in the left side of the center of the roller, and after the cutter cuts the multilayer superposed non-woven fabric wet tissues, redundant liquid in the multilayer superposed non-woven fabric wet tissues at the extrusion part can also flow into the cavity II from the air hole in the left side of the center of the roller until the cutting plate passes through the center of the roller, and gas and liquid in the cavity II are sprayed out from the right side of the center of the roller under the pushing of the pressing plate, so that the blowing effect of the gas in the cavity II on the multilayer superposed non-woven fabric wet tissues is improved, the separation of the multilayer superposed non-woven fabric wet tissues cut by the cutting plate from the side walls of the cutting plate is accelerated, and the loosening effect of the multilayer superposed non-woven fabric wet tissues blown by the gas is improved, the water absorption effect of the loosened wet tissue is increased, and the liquid stored in the second cavity is more effectively sprayed to and absorbed by the loosened multi-layer overlapped non-woven fabric wet tissue, so that the liquid in the second cavity is fully utilized, the liquid amount in the multi-layer overlapped non-woven fabric wet tissue at the extruded part is improved, and the actual application effect of the invention is further improved.

A quantitative cutting method applied to non-woven fabric wet tissue is suitable for the quantitative cutting equipment of the non-woven fabric wet tissue, and comprises the following steps:

s1: before work, workers clean the conveying plate and the non-woven fabric scraps left on the conveying belt, comprehensively check the cutting equipment to ensure that all parts are normal, and then control the cutting equipment to operate through a controller to ensure that all parts of the cutting equipment can operate normally;

s2: the method comprises the following steps that a worker puts a non-woven fabric roll into folding equipment, so that the folding equipment folds a single-layer non-woven fabric into a multi-layer superposed non-woven fabric, the folded multi-layer superposed non-woven fabric is conveyed to humidifying equipment through a conveying device, the multi-layer superposed non-woven fabric is humidified to form a multi-layer superposed non-woven fabric wet tissue, the multi-layer superposed non-woven fabric wet tissue is conveyed to cutting equipment to be quantitatively cut and cut, and finally the cut multi-layer superposed non-woven fabric wet tissue is packaged;

s3: the working personnel guides the humidified multilayer superposed non-woven wet tissue onto the conveying belt through the guide roller, the controller controls the driving motor to drive the conveying belt through the transmission shaft to convey the multilayer superposed non-woven wet tissue, the controller controls the servo motor to drive the cutting plate to cut and cut the multilayer superposed non-woven wet tissue through the roller at the moment, so that the cutting plate pushes the pressing plate to push the pressing plate to move into the second cavity, and the cutter extrudes and cuts the multilayer superposed non-woven wet tissue at the moment;

s4: when the cutter cuts and cuts the multilayer superposed non-woven wet tissue; make the interior liquid outflow of multilayer stack non-woven fabrics wet piece of cloth and flow into No. two cavities through the left gas pocket of roller, when the cutter cuts off multilayer stack non-woven fabrics wet piece of cloth, the cutter promotes the cutting plate and gets into a recess, make the through-hole with arc cavity and gas pocket intercommunication, thereby make the liquid that lets in a cavity by the feed liquor pipe spout to the cutting plate through the apopore, and flow to multilayer stack non-woven fabrics wet piece of cloth along the cutting plate, until the cutting plate crosses the roller center, the clamp plate resets under the effect of No. two spring restoring forces, make the gaseous and the liquid blowout of roller right side from the cavity of clamp plate promotion No. two cavities, and the cutting plate rotates along with the roller, make the cutting plate drive the through-hole under a spring action and reset, make liquid stop flowing from the apopore.

The invention has the following beneficial effects:

1. according to the cutting device used in the invention, through the arrangement of the water outlet holes, liquid is sprayed to the cutting plate from the water outlet holes, and in the process that the cutting plate cuts the multilayer superposed non-woven fabric wet tissue, the liquid can flow onto the multilayer superposed non-woven fabric wet tissue along the cutting plate, so that the liquid enters the multilayer superposed non-woven fabric wet tissue, the liquid lost in the multilayer superposed non-woven fabric wet tissue is supplemented, the content of the liquid in the multilayer superposed non-woven fabric wet tissue is improved, and the use effect of the non-woven fabric wet tissue is further improved.

2. According to the cutting device, the through hole is matched with the first spring, so that when the cutting plate cuts the multilayer superposed non-woven wet tissues, the arc-shaped cavity can be communicated with the water outlet hole through the through hole on the cutting plate, liquid is supplemented to the extruded multilayer superposed non-woven wet tissues, and after the cutting plate is cut, the cutting plate is reset under the action of the restoring force of the first spring, so that the cutting plate drives the through hole to extend out of the first groove, the arc-shaped cavity is separated from the water outlet hole by the cutting plate, liquid waste caused by liquid outflow is avoided, and the actual application effect of the cutting device is improved.

3. According to the cutting device used in the invention, through the arrangement of the cutter, on one hand, the cutter can be firstly limited with the multilayer superposed non-woven wet tissues, so that the cutter can quantitatively cut the multilayer superposed non-woven wet tissues, on the other hand, the cutter can be firstly cut before replenishing water to the multilayer superposed non-woven wet tissues at the extrusion part, so that the toughness of the multilayer superposed non-woven wet tissues is prevented from being increased due to the replenishment of liquid, the cutting effect of the cutter on the multilayer superposed non-woven wet tissues is further reduced, and the practical application effect of the cutting device is improved.

Drawings

The invention is further described with reference to the following figures and embodiments.

FIG. 1 is a flow chart of a cropping method of the present invention;

FIG. 2 is a perspective view of a cutting apparatus used in the present invention;

FIG. 3 is a schematic diagram of the construction of a cropping device used in the present invention;

FIG. 4 is an enlarged view at A in FIG. 3;

FIG. 5 is an enlarged view at B in FIG. 3;

in the figure: 1. a frame; 11. a guide roller; 12. a conveying plate; 121. air holes; 122. a cavity II; 123. pressing a plate; 124. a second spring; 125. briquetting; 126. a one-way valve; 13. a liquid inlet pipe; 2. a roll-cutting module; 21. a roller; 211. a first cavity; 212. a water outlet hole; 213. a first groove; 214. a first spring; 215. an arc-shaped cavity; 216. a through hole; 22. cutting a plate; 221. a second groove; 222. a cutter; 223. a third spring; 23. a servo motor; 3. a delivery module; 31. a drive shaft; 32. a drive motor; 33. and (5) conveying the belt.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 5, the quantitative cutting device for the non-woven wet tissue, provided by the invention, comprises a frame 1, a guide roller 11, a rolling cutting module 2, a conveying module 3 and a controller; the guide roller 11 is rotatably connected to the upper end of the frame 1; the conveying module 3 is arranged between the guide roller 11 and the frame 1, and the conveying module 3 comprises a transmission shaft 31, a driving motor 32 and a conveying belt 33; the number of the transmission shafts 31 is two, and the two transmission shafts 31 are rotatably connected with the inner wall of the rack 1; the driving motor 32 is fixedly connected to the outer wall of the frame 1, and an output shaft of the driving motor 32 is fixedly connected with one of the transmission shafts 31; the conveying belt 33 is in transmission connection with the transmission shaft 31, and a conveying plate 12 is arranged between the conveying belt 33 and the transmission shaft 31; the conveying plate 12 is fixedly connected with the inner wall of the frame 1; the rolling cutting module 2 is positioned above the conveying belt 33, and the rolling cutting module 2 comprises a roller 21 and a cutting plate 22; the cutting plate 22 is arranged on the outer wall of the roller 21; the roller 21 is rotationally connected with the inner wall of the frame 1; the outer wall of the rack 1 is fixedly connected with a servo motor 23; an output shaft of the servo motor 23 is fixedly connected with the roller 21; a first cavity 211 is formed in the roller 21, and a water outlet hole 212 is formed in the outer wall of the roller 21; the water outlet hole 212 is communicated with the first cavity 211, and the water outlet hole 212 is inclined towards the cutting plate 22; a liquid inlet pipe 13 is fixedly arranged on one side of the frame 1 far away from the servo motor 23; the liquid inlet pipe 13 penetrates through the frame 1 and is communicated with the first cavity 211; the controller is used for controlling the automatic operation of the non-woven fabric wet tissue cutting equipment;

in the prior art, because the non-woven wet tissue is laminated in multiple layers in the slitting process, when the multi-layer laminated non-woven wet tissue is slit by the cutting plate 22, the cutting plate 22 extrudes the multi-layer laminated non-woven wet tissue, so that liquid at the extrusion part of the multi-layer laminated non-woven wet tissue flows to the periphery, and particularly in hot summer, the liquid flows out and contacts with external hot air, so that the volatilization of the liquid is accelerated, the liquid content in the non-woven wet tissue is reduced, and the use effect of the non-woven wet tissue is further reduced;

when the multi-layer stacked non-woven wet tissue cutting machine works, a worker guides a plurality of layers of stacked non-woven wet tissues to the upper end of the conveying belt 33 through the guide roller 11 at the upper end of the machine frame 1, the controller controls the servo motor 23 to drive the transmission shaft 31 to transmit, the transmission shaft 31 drives the plurality of layers of stacked non-woven wet tissues to move towards the cutting plate 22 through the conveying belt 33, the conveying belt 33 is made of PVC fiber materials, the conveying belt 33 has the characteristics of cutting resistance and good air permeability, the controller controls the driving motor 32 to drive the roller 21 to rotate through controlling the driving motor 32, the roller 21 drives the cutting plate 22 to cut the plurality of layers of stacked non-woven wet tissues, the driving speeds of the driving motor 32 and the servo motor 23 are set to be the same, when the cutter 222 cuts the plurality of layers of stacked non-woven wet tissues quantitatively, the cutter 222 and the plurality of layers of stacked non-woven wet tissues can move synchronously, at the moment, the controller controls liquid to be conveyed into the first cavity 211 from the liquid inlet pipe 13, liquid enters the first cavity 211 and is sprayed to the cutting plate 22 through the water outlet hole 212, so that the liquid flows to the cut nonwoven wet tissue along the cutting plate 22, and the content of the liquid at the position, pressed by the cutting plate 22, of the nonwoven wet tissue is supplemented;

according to the invention, through the arrangement of the water outlet hole 212, liquid is sprayed to the cutting plate 22 from the water outlet hole 212, and in the process that the cutting plate 22 cuts the multilayer superposed non-woven wet tissue, the liquid can flow along the cutting plate 22 to the plurality of layers of non-woven wet tissues, so that the liquid enters the multilayer superposed non-woven wet tissues, the liquid lost in the multilayer superposed non-woven wet tissues is supplemented, the content of the liquid in the multilayer superposed non-woven wet tissues is increased, and the use effect of the non-woven wet tissues is further improved.

As an embodiment of the present invention, the outer wall of the roller 21 is provided with a first groove 213; the cutting plate 22 is connected in the first groove 213 in a sliding and sealing manner, and the cutting plate 22 is fixedly connected with the groove bottom of the first groove 213 through a first spring 214; an arc-shaped cavity 215 is formed in the roller 21; the arc-shaped cavity 215 is used for communicating the first groove 213 with the first cavity 211; the water outlet hole 212 is communicated with the first groove 213; the side wall of the cutting plate 22 is provided with a through hole 216; when the cutting plate 22 is driven by the roller 21 to cut the non-woven wet tissue, the cutting plate 22 contacts with the multiple layers of stacked non-woven wet tissues and cuts the non-woven wet tissues, at this time, the cutting plate 22 contacts with the conveying belt 33, the conveying belt 33 blocks the cutting plate 22 under the support of the conveying plate 12, the cutting plate 22 compresses the first spring 214 to slide towards the bottom of the first groove 213, so that the through hole 216 enters the first groove 213 under the drive of the cutting plate 22, the through hole 216 communicates the water outlet hole 212 with the arc-shaped cavity 215, liquid enters the water outlet hole 212 from the arc-shaped cavity 215 through the through hole 216 and is sprayed to the cutting plate 22 through the water outlet hole 212, the liquid flows into the multiple layers of stacked non-woven wet tissues along the cutting plate 22, the cutting plate 22 is reset under the action of gravity and the restoring force of the first spring 214 after cutting, the through hole 216 extends out of the first groove 213, and the cutting plate 22 cuts the arc-shaped cavity 215 from the water outlet hole 212, the liquid is prevented from flowing out, when the cutter 222 is driven by the roller 21 to rotate to the upper end of the roller 21, the cutter 222 cannot completely enter the first groove 213 under the action of the first spring 214, so that the through hole 216 is prevented from entering the first groove 213 and communicating the arc-shaped cavity 215 with the water outlet hole 212, the liquid is prevented from flowing out, and the waste of the liquid is reduced; according to the invention, through the mutual matching of the through hole 216 and the first spring 214, when the cutting plate 22 cuts the multilayer superposed non-woven wet tissues, the through hole 216 can communicate the arc-shaped cavity 215 with the water outlet hole 212, so that the extruded multilayer superposed non-woven wet tissues are supplemented by liquid, and after the cutting plate 22 is cut, the cutting plate 22 is reset under the restoring force of the first spring 214, so that the cutting plate 22 drives the through hole 216 to extend out of the first groove 213, the cutting plate 22 separates the arc-shaped cavity 215 from the water outlet hole 212, the liquid waste caused by the liquid outflow is avoided, and the actual application effect of the invention is improved.

As an embodiment of the present invention, the upper end of the conveying plate 12 is provided with an air hole 121, and the conveying plate 12 is provided with a second cavity 122; the air hole 121 is communicated with the cavity II 122; a pressure plate 123 is connected in the second cavity 122 in a sliding and sealing manner; the pressing plate 123 is fixedly connected with the cavity bottom of the second cavity 122 through a second spring 124, and the upper end of the pressing plate 123 is fixedly connected with a pressing block 125; one end of the pressing block 125, which is far away from the pressing plate 123, penetrates through the cavity II 122; when the cutting device works, when the roller 21 drives the cutting plate 22 to cut the non-woven wet tissue, the cutting plate 22 firstly contacts with the pressing block 125, so that the cutting plate 22 slides along the upper end face of the pressing block 125, meanwhile, the cutting plate 22 can push the pressing block 125 to enter the second cavity 122, so that the pressing block 125 pushes the pressing plate 123 to press the second spring 124 to move towards the cavity bottom of the second cavity 122, at the moment, the liquid extruded in the multi-layer superposed non-woven wet tissue enters the second cavity 122 through the air holes 121, until the cutting plate 22 moves to the center of the roller 21, at the moment, the cutting plate 22 is separated from the upper end face of the pressing block 125, so that the pressing plate 123 drives the pressing block 125 to reset under the restoring force of the second spring 124, so that the pressing plate 123 pushes the gas in the second cavity 122 to be sprayed out from the air holes 121, on the one hand, the multi-layer superposed non-woven wet tissue which is cut by the cutting plate 22 and extruded together can be loosened under the blowing of the air, thereby facilitating the liquid to be immersed in the multi-layer superposed non-woven fabric, on the other hand, the gas can blow the non-woven wet tissue which is cut off by the cutting plate 22 and stacked in multiple layers to be separated from the side wall of the cutting plate 22, the non-woven wet tissue stacked in multiple layers is prevented from being adhered to the side wall of the cutting plate 22 under the tension action of water, and then the liquid entering the second cavity 122 is sprayed out from the air holes 121 under the pushing of the pressing plate 123, so that the liquid is immersed from the lower end of the non-woven wet tissue stacked in multiple layers, the immersion effect of the liquid is improved, the humidity of the non-woven wet tissue stacked in multiple layers is increased, the waste of the liquid is reduced, and the practical application effect of the invention is improved.

As an embodiment of the invention, a second groove 221 is formed at one end of the cutting plate 22 away from the roller 21; a cutter 222 is connected in the second groove 221 in a sliding manner; the cutter 222 is fixedly connected with the bottom of the second groove 221 through a third spring 223; when the cutting device works, when the roller 21 drives the cutting plate 22 to cut the multiple layers of superposed non-woven wet tissues, the cutting plate 22 is in contact with the pressing block 125, so that the cutting plate 22 pushes the pressing block 125 to enter the cavity 122 II, at the same time, the cutter 222 on the cutting plate 22 is in contact with the multiple layers of superposed non-woven wet tissues, so that the cutter 222 can limit the multiple layers of superposed non-woven wet tissues, and along with the rotation of the roller 21, the cutter 222 and the multiple layers of superposed non-woven wet tissues synchronously move, at the same time, the cutter 222 compresses the third spring 223 to move towards the second groove 221 under the blocking of the conveying plate 12 until the cutter 222 is in contact with the groove bottom of the second groove 221, the compression amount of the third spring 223 by the cutter 222 is maximum, so that the cutting force of the cutter 222 on the multiple layers of superposed non-woven wet tissues is maximum under the restoring force of the third spring 223, and the multiple layers of superposed non-woven wet tissues are cut off under the cutting force of the cutter 222, as the roller 21 continues to rotate, the cutter 222 pushes the cutting plate 22 into the first groove 213 under the blocking of the conveying plate 12, and at the moment, the liquid flows out through the water outlet hole 212 and supplements the liquid in the multi-layer superposed non-woven wet tissue at the cutting position; according to the invention, through the arrangement of the cutter 222, on one hand, the cutter 222 can be firstly contacted with the multilayer superposed non-woven wet tissues and limited, so that the cutter 222 can quantitatively cut the multilayer superposed non-woven wet tissues conveniently, on the other hand, the cutter 222 can cut the multilayer superposed non-woven wet tissues before replenishing water to the multilayer superposed non-woven wet tissues at the extrusion position, so that the toughness of the multilayer superposed non-woven wet tissues is prevented from being increased due to liquid replenishment, the cutting effect of the cutter 222 on the multilayer superposed non-woven wet tissues is further reduced, and the actual application effect of the invention is improved.

In one embodiment of the present invention, a check valve 126 is installed in the air hole 121; the one-way valves 126 on both sides of the center of the roller 21 face oppositely; when the cutting knife 222 cuts the multiple layers of superposed non-woven wet tissues in operation, the cutting knife 222 extrudes the multiple layers of superposed non-woven wet tissues, so that liquid extruded by the cutting knife 222 in the multiple layers of superposed non-woven wet tissues flows into the second cavity 122 from the air hole 121 on the left side of the center of the roller 21, and after the multiple layers of superposed non-woven wet tissues are cut by the cutting knife 222, redundant liquid in the multiple layers of superposed non-woven wet tissues at the extruded part can also flow into the second cavity 122 from the air hole 121 on the left side of the center of the roller 21 until the cutting plate 22 passes through the center of the roller 21, and gas and liquid in the second cavity 122 are sprayed out from the right side of the center of the roller 21 under the push of the pressing plate 123, so that the blowing effect of the gas in the second cavity 122 on the multiple layers of superposed non-woven wet tissues is improved, the separation of the multiple layers of superposed non-woven tissues cut by the cutting plate 22 from the side walls of the cutting plate 22 is accelerated, and the loosening effect of the multiple layers of the superposed non-woven tissues extruded by the gas is improved, the water absorption effect of the loosened wet tissue is increased, and the liquid stored in the second cavity 122 is more effectively sprayed to and absorbed by the loosened multi-layer overlapped non-woven wet tissue, so that the liquid in the second cavity 122 is fully utilized, the liquid amount in the squeezed part of the multi-layer overlapped non-woven wet tissue is improved, and the practical application effect of the invention is further improved.

s1: before working, workers clean the conveying plate 12 and the conveying belt 33 of the residual non-woven fabric scraps, comprehensively check the cutting equipment to ensure that all parts are normal, and then control the cutting equipment to operate through a controller to ensure that all parts of the cutting equipment can normally operate;

s3: the worker guides the humidified multilayer superposed non-woven wet tissue to the conveying belt 33 through the guide roller 11, the controller controls the driving motor 32 to drive the conveying belt 33 through the transmission shaft 31 to convey the multilayer superposed non-woven wet tissue, the controller controls the servo motor 23 to drive the cutting plate 22 through the roller 21 to cut and cut the multilayer superposed non-woven wet tissue, so that the cutting plate 22 pushes the pressing block 125 to push the pressing plate 123 to move into the second cavity 122, and the cutter 222 extrudes and cuts the multilayer superposed non-woven wet tissue;

s4: when the cutter 222 cuts and cuts the multilayer superposed non-woven wet tissue; the liquid in the multilayer superposed non-woven wet tissue flows out and flows into the cavity II 122 through the air hole 121 on the left side of the roller 21, when the cutter 222 cuts the multilayer superposed non-woven wet tissue, the cutter 222 pushes the cutting plate 22 to enter the groove I213, the through hole 216 communicates the arc-shaped cavity 215 with the air hole 121, so that the liquid which is introduced into the cavity I211 through the liquid inlet pipe 13 is sprayed to the cutting plate 22 through the water outlet hole 212 and flows along the cutting plate 22 to the multilayer superposed non-woven wet tissue until the cutting plate 22 passes through the center of the roller 21, the pressing plate 123 is reset under the restoring force of the spring II 124, the pressing plate 123 pushes the gas and the liquid in the cavity II 122 to be sprayed out from the air hole 121 on the right side of the roller 21, the cutting plate 22 rotates along with the roller 21, and the cutting plate 22 drives the through hole 216 to reset under the action of the spring I214, so that the liquid stops flowing out from the water outlet hole 212.

The specific working process is as follows:

the staff guides the multilayer stacked non-woven wet tissue to the upper end of the conveying belt 33 through the guide roller 11 at the upper end of the rack 1, then the servo motor 23 is controlled by the controller to drive the transmission shaft 31 to transmit, so that the transmission shaft 31 drives the multilayer stacked non-woven wet tissue to move towards the cutting plate 22 through the conveying belt 33, the conveying belt 33 is made of PVC fiber material, the conveying belt 33 has the characteristics of cutting resistance and good ventilation, the controller drives the roller 21 to rotate through controlling the driving motor 32, the roller 21 drives the cutting plate 22 to cut the multilayer stacked non-woven wet tissue, the driving speeds of the driving motor 32 and the servo motor 23 are set to be the same, when the cutter 222 cuts the multilayer stacked non-woven wet tissue quantitatively, the cutter 222 and the multilayer stacked non-woven wet tissue can move synchronously, at the moment, the controller controls liquid to be conveyed into the first cavity 211 from the liquid inlet pipe 13, liquid enters the first cavity 211 and is sprayed to the cutting plate 22 through the water outlet hole 212, so that the liquid flows to the cut nonwoven wet tissue along the cutting plate 22, and the content of the liquid at the position, pressed by the cutting plate 22, of the nonwoven wet tissue is supplemented; when the roller 21 drives the cutting plate 22 to cut the nonwoven wet tissue, the cutting plate 22 contacts with the multiple layers of nonwoven wet tissue and cuts the nonwoven wet tissue, at this time, the cutting plate 22 contacts with the conveyer belt 33, so that the conveyer belt 33 blocks the cutting plate 22 under the support of the conveyer plate 12, the cutting plate 22 compresses the first spring 214 to slide toward the bottom of the first groove 213, so that the through hole 216 enters the first groove 213 under the driving of the cutting plate 22, the through hole 216 communicates the water outlet hole 212 with the arc-shaped cavity 215, so that the liquid enters the water outlet hole 212 from the arc-shaped cavity 215 through the through hole 216 and is sprayed toward the cutting plate 22 through the water outlet hole 212, the liquid flows into the multiple layers of nonwoven wet tissue along the cutting plate 22, the cutting plate 22 is reset under the action of gravity and the restoring force of the first spring 214 after cutting, the through hole 216 extends out of the first groove 213, so that the cutting plate 22 cuts the arc-shaped cavity 215 off the water outlet hole 212, avoid liquid to flow out, when cutter 222 rotated to roller 21 upper end under the drive of roller 21, cutter 222 was under the effect of spring 214 for cutter 222 can't get into groove 213 No. one completely, thereby avoided through-hole 216 to get into groove 213 No. one and with arc cavity 215 and apopore 212 intercommunication, and then avoided liquid to flow out, reduced the waste of liquid.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a be applied to wet piece of cloth ration of non-woven fabrics and tailor equipment, includes frame (1), guide roller (11), hobbing module (2), transport module (3) and controller, its characterized in that: the guide roller (11) is rotatably connected to the upper end of the rack (1); the conveying module (3) is arranged between the guide roller (11) and the rack (1), and the conveying module (3) comprises a transmission shaft (31), a driving motor (32) and a conveying belt (33); the number of the transmission shafts (31) is two, and the two transmission shafts (31) are rotatably connected with the inner wall of the rack (1); the driving motor (32) is fixedly connected to the outer wall of the rack (1), and an output shaft of the driving motor (32) is fixedly connected with one of the transmission shafts (31); the conveying belt (33) is in transmission connection with the transmission shaft (31), and a conveying plate (12) is arranged between the conveying belt (33) and the transmission shaft (31); the conveying plate (12) is fixedly connected with the inner wall of the rack (1); the rolling and cutting module (2) is positioned above the conveying belt (33), and the rolling and cutting module (2) comprises a roller (21) and a cutting plate (22); the cutting plate (22) is arranged on the outer wall of the roller (21); the roller (21) is rotationally connected with the inner wall of the rack (1); the outer wall of the rack (1) is fixedly connected with a servo motor (23); an output shaft of the servo motor (23) is fixedly connected with the roller (21); a first cavity (211) is arranged in the roller (21), and a water outlet hole (212) is formed in the outer wall of the roller (21); the water outlet hole (212) is communicated with the first cavity (211), and the water outlet hole (212) is inclined towards the cutting plate (22); a liquid inlet pipe (13) is fixedly installed on one side, far away from the servo motor (23), of the rack (1); the liquid inlet pipe (13) penetrates through the rack (1) and is communicated with the first cavity (211); the controller is used for controlling the automatic operation of the non-woven fabric wet tissue cutting equipment.

2. The quantitative cutting device applied to the non-woven wet tissue as claimed in claim 1, wherein: the outer wall of the roller (21) is provided with a first groove (213); the cutting plate (22) is connected in the first groove (213) in a sliding and sealing mode, and the cutting plate (22) is fixedly connected with the bottom of the first groove (213) through a first spring (214); an arc-shaped cavity (215) is formed in the roller (21); the arc-shaped cavity (215) is used for communicating the first groove (213) with the first cavity (211); the water outlet hole (212) is communicated with the first groove (213); the side wall of the cutting plate (22) is provided with a through hole (216).

3. The quantitative cutting device applied to the non-woven fabric wet tissue as claimed in claim 2, characterized in that: the upper end of the conveying plate (12) is provided with an air hole (121), and a second cavity (122) is formed in the conveying plate (12); the air hole (121) is communicated with the second cavity (122); a pressure plate (123) is connected in the second cavity (122) in a sliding and sealing manner; the pressing plate (123) is fixedly connected with the cavity bottom of the second cavity (122) through a second spring (124), and the upper end of the pressing plate (123) is fixedly connected with a pressing block (125); one end of the pressing block (125) far away from the pressing plate (123) penetrates through the second cavity (122).

4. The quantitative cutting device applied to the non-woven fabric wet tissue as claimed in claim 3, characterized in that: a second groove (221) is formed in one end, far away from the roller (21), of the cutting plate (22); a cutter (222) is connected in the second groove (221) in a sliding manner; the cutter (222) is fixedly connected with the bottom of the second groove (221) through a third spring (223).

5. The quantitative cutting device applied to the non-woven fabric wet tissue as claimed in claim 4, wherein: a one-way valve (126) is arranged in the air hole (121); the one-way valves (126) on the two sides of the center of the roller (21) face opposite directions.

6. A quantitative cutting method applied to non-woven fabric wet wipes, which is suitable for the quantitative cutting equipment of the non-woven fabric wet wipes in any one of claims 1 to 5, and is characterized in that: the method comprises the following steps:

s1: before work, workers clean the conveying plate (12) and the non-woven fabric scraps left on the conveying belt (33), comprehensively check the cutting equipment to ensure that all parts are normal, and control the cutting equipment to run through a controller to ensure that all parts of the cutting equipment can run normally;

s3: the humidified multilayer superposed non-woven wet tissue is guided onto a conveying belt (33) by a guide roller (11) by a worker, the conveying belt (33) is driven by a driving motor (32) controlled by a controller through a transmission shaft (31) to convey the multilayer superposed non-woven wet tissue, the controller controls a servo motor (23) to drive a cutting plate (22) through a roller (21) to cut and cut the multilayer superposed non-woven wet tissue, so that the cutting plate (22) pushes a pressing block (125) to push a pressing plate (123) to move into a second cavity (122), and the cutter (222) extrudes and cuts the multilayer superposed non-woven wet tissue;

s4: when the cutter (222) cuts and cuts the multilayer superposed non-woven wet tissue; so that the liquid in the multilayer superposed non-woven wet tissue flows out and flows into the second cavity (122) through the air hole (121) on the left side of the roller (21), when the cutter (222) cuts off the multilayer superposed non-woven wet tissue, the cutter (222) pushes the cutting plate (22) to enter the first groove (213), the through hole (216) communicates the arc-shaped cavity (215) with the air hole (121), so that the liquid introduced into the first cavity (211) from the liquid inlet pipe (13) is sprayed to the cutting plate (22) through the water outlet hole (212), and flows along the cutting plate (22) at most laminated non-woven wet tissues until the cutting plate (22) crosses the center of the roller (21), the pressing plate (123) is reset under the restoring force of the second spring (124), so that the pressing plate (123) pushes the gas and the liquid in the second cavity (122) to be sprayed out from the air hole (121) on the right side of the roller (21), and the cutting plate (22) rotates along with the roller (21), so that the cutting plate (22) drives the through hole (216) to reset under the action of the first spring (214), and the liquid stops flowing out of the water outlet hole (212).