CN113106740B

CN113106740B - Non-woven fabrics processing guillootine for facial mask

Info

Publication number: CN113106740B
Application number: CN202110422572.9A
Authority: CN
Inventors: 姚斌; 江典存
Original assignee: Zhejiang Jiecheng New Material Technology Co ltd
Current assignee: Zhejiang Jiecheng New Material Technology Co ltd
Priority date: 2021-04-20
Filing date: 2021-04-20
Publication date: 2022-01-11
Anticipated expiration: 2041-04-20
Also published as: CN113106740A

Abstract

The invention discloses a non-woven fabric processing and cutting machine for a mask, and relates to the technical field of non-woven fabric processing, wherein the cutting machine comprises a non-woven fabric processing and cutting machine for the mask, and the non-woven fabric processing and cutting machine comprises a rack, a conveying roller, a cutting mechanism, an adjusting and driving mechanism and a length counting control system; the two conveying rollers are rotatably arranged on the rack through a rotating shaft, and convey the non-woven fabric through the cutting mechanism in a rotating friction mode; the cutting mechanism is arranged on the rack and transversely cuts the non-woven fabric in a mode of transversely pressing by a cutter; the length metering control system is used for metering the length of the non-woven fabric conveyed by the conveying roller; the adjusting and driving mechanism is arranged on the rack and used for respectively providing driving force for transversely pressing and cutting the cloth and conveying the cloth by the conveying rotary roller according to the metering result of the length metering control system. Its whole operation is automatic to be accomplished, cuts the non-woven fabrics according to predetermineeing length, cuts the accuracy, and work efficiency is higher.

Description

Non-woven fabrics processing guillootine for facial mask

Technical Field

The invention relates to the technical field of non-woven fabric processing, in particular to a non-woven fabric processing and cutting machine for a mask.

Background

The facial mask is a category of skin care products, is a carrier of the beauty care products, and is applied on the face for beautifying functions such as moisturizing, whitening, anti-aging, grease balancing and the like; the mask paper in the mask is made of some cloth, and the cloth mainly comprises non-woven fabric, silk, all cotton, terylene, blended yarn, tencel, biological fiber and the like; the non-woven fabrics adopted by the mask need to be cut according to the size.

The existing device for cutting the non-woven fabric uses a cutter to vertically cut the non-woven fabric in motion, the non-woven fabric with a preset width is cut, when the non-woven fabric is transversely cut, the length of the non-woven fabric is measured manually, and then the non-woven fabric is transversely cut by operating a cutting machine to obtain the non-woven fabric with a required length, but the non-woven fabric is cut by manually operating the cutting machine, so that the efficiency is low, and the cutting operation is complex.

Disclosure of Invention

The invention aims to provide a non-woven fabric processing and cutting machine for a facial mask, which aims to solve the problems of low efficiency and complex cutting operation of a manual operation machine.

In order to achieve the purpose, the invention provides the following technical scheme:

a non-woven fabric processing and cutting machine for a facial mask comprises a rack, a conveying roller, a cutting mechanism, an adjusting and driving mechanism and a length counting control system; and

the two conveying rotating rollers are rotatably arranged on the rack, and convey the non-woven fabric through the cutting mechanism in a rotating friction mode;

the cutting mechanism is arranged on the rack and transversely cuts the non-woven fabric in a mode of transversely pressing by a cutter;

the length metering control system is used for metering the length of the non-woven fabric conveyed by the conveying roller and controlling and adjusting the motion state of the driving mechanism according to the set cutting length;

the adjusting driving mechanism is arranged on the rack and comprises a driving assembly and an adjusting pushing assembly, the adjusting pushing assembly is used for pushing the driving assembly to the side part of the cutting mechanism or the side part of the conveying roller according to the metering result of the length metering control system, and the adjusting driving mechanism is used for respectively transversely pressing and cutting cloth for the cutting mechanism and conveying the cloth for the conveying roller to provide driving force in an alternate conversion mode.

On the basis of the technical scheme, the invention also provides the following optional technical scheme:

in one alternative: adjust actuating mechanism and include installation jib, drive assembly and regulation promotion subassembly, installation jib middle part is rotated through the pivot and is installed in the frame, adjust the promotion subassembly setting in the frame and be used for push-and-pull installation jib to revolute the rotation of axes and keep steady state after adjusting, adjust the promotion subassembly and still be connected with the length counting control system and move under its control, drive assembly sets up the one end of keeping away from the regulation promotion subassembly at the installation jib, drive assembly is used for ordering about corresponding transport roller transport non-woven fabrics or cuts out the non-woven fabrics of cutting the mechanism after the installation jib rotates.

In one alternative: the drive assembly comprises at least one support arm and a drive unit, the support arm is fixed at the end part of the installation lifting rod, the support arms are at least one pair, the drive unit is arranged on the support arm, and the drive unit is used for driving the conveying rotating roller to move when the support arm is close to the conveying rotating roller or driving the cutting mechanism to move when the support arm is close to the cutting mechanism.

In one alternative: the driving unit comprises a driving part, a driving part and a driven part; the driving part and the driving part are both arranged on the support arm, and the driving part is used for driving the driving part to move; the two driven parts are respectively arranged on the cutting mechanism and the conveying roller; when the driving component is close to the cutting mechanism, the driving part is in transmission fit with the driven part arranged on the cutting mechanism; when the driving component is close to the conveying roller; the driving part is in transmission fit with the driven part arranged on the conveying roller.

In one alternative: the adjusting and driving mechanism further comprises a damping limiting assembly, the damping limiting assembly comprises an arc-shaped pressing plate and a side connecting rod, one end of the arc-shaped pressing plate is fixed on the side portion of the installing hanging rod, the other end of the arc-shaped pressing plate is of an arc-shaped structure, the side portion of the arc-shaped pressing plate is fixed on the side wall of the side connecting rod, and the end face, facing the conveying rotating roller, of the arc-shaped pressing plate is provided with an abrasion increasing protrusion.

In one alternative: the length measuring control system comprises a central processing module and at least one pressure sensor, wherein the pressure sensor is arranged on the outer wall of the conveying roller and is used for generating a pressure sensing signal when the outer wall of the conveying roller is abutted against the non-woven fabric; the central processing module is used for receiving the pressure sensing signal transmitted by the pressure sensor, measuring the passing length of the non-woven fabric and comparing the passing length with the set length; and controlling and adjusting the motion state of the driving mechanism according to the comparison result.

In one alternative: the cutting mechanism comprises a reset component, a cutting part and a bearing part, the bearing part is fixed on the rack, one end of the bearing part extends to the non-woven fabric discharging part of the conveying rotary roller, the cutting part is connected with the adjusting driving mechanism through a transmission part and moves towards the direction of the bearing part under the condition that the adjusting driving mechanism provides driving force, and the reset component is used for driving the cutting part to move away from the direction of the bearing part and reset when the adjusting driving mechanism stops driving the cutting part.

In one alternative: still be provided with at least one on the guide arm and press the material subassembly, press the material subassembly and be used for compressing tightly the non-woven fabrics avris when the cutter cuts the non-woven fabrics.

In one alternative: the inclined supporting plate is provided with a cutting through groove corresponding to the upper cutter, one end of the cutting through groove is flush with the end face of the inclined supporting plate, a lower cutter assembly is installed in the cutting through groove and comprises a connecting unit and at least one lower cutter, and the lower cutter is installed on the connecting unit and extends into the cutting through groove.

Compared with the prior art, the invention has the following beneficial effects:

utilize the length of meter control system control regulation actuating mechanism to make the drive assembly who adjusts among the actuating mechanism be close to carry the commentaries on classics roller and for carrying the length that changes the roller and provide power and carry the non-woven fabrics, carry when non-woven fabrics length reaches certain length, adjust actuating mechanism and keep away from to carry and change the roller and be close to and cut the mechanism, and carry the commentaries on classics roller and stop carrying the non-woven fabrics, drive assembly drive cuts the mechanism and carries out the cross-cutting of the formula of pressing and cutting and tailor the non-woven fabrics, its whole operation is automatic to be accomplished, cut the non-woven fabrics according to predetermineeing length, it is accurate to cut, work efficiency is higher.

Drawings

Fig. 1 is a schematic view of the overall structure of a cutting machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an adjustment driving mechanism in one embodiment of the invention.

Fig. 3 is a schematic structural view of a lower cutter assembly according to an embodiment of the present invention.

Notations for reference numerals: the device comprises a frame 1, a non-woven fabric 2, a conveying roller 3, a rib 33, a cutting mechanism 5, a material pressing assembly 6, an elastic telescopic pressure rod 61, a pressing roller 62, an adjusting driving mechanism 8, an installation hanging rod 81, a driving assembly 82, a supporting arm 820, a driving part 821, a driving part 822, a driven gear 823, a rack 824, an adjusting pushing assembly 84, a pushing telescopic rod 841, a damping limiting assembly 85, an arc-shaped pressure plate 851, a side connecting rod 852, a connecting sleeve 842, a pressure sensor 9, a central processing module 10, a lower cutter assembly 11, a cutting through groove 110, an installation plate 111, a lower cutter 112, a threaded connection hole 113 and a fastening bolt 114.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments; in the drawings or the description, the same reference numerals are used for similar or identical parts, and the shape, thickness or height of each part may be enlarged or reduced in practical use. The examples are given solely for the purpose of illustration and are not intended to limit the scope of the invention. Any obvious modifications or variations can be made to the present invention without departing from the spirit or scope of the present invention.

In one embodiment, as shown in fig. 1, a non-woven fabric processing and cutting machine for a facial mask comprises a frame 1, a conveying roller 3, a cutting mechanism 5, an adjusting and driving mechanism 8 and a length measuring control system; the two conveying rollers 3 are rotatably arranged on the rack 1, and the two conveying rollers 3 convey the non-woven fabric 2 through the cutting mechanism 5 in a rotating friction mode; the cutting mechanism 5 is arranged on the frame 1 and transversely cuts the non-woven fabric 2 in a mode of transversely pressing by a cutter; the length metering control system is used for metering the length of the non-woven fabric 2 conveyed by the conveying roller 3 and controlling and adjusting the motion state of the driving mechanism 8 according to the set cutting length; the adjusting driving mechanism 8 is arranged on the machine frame 1, the adjusting driving mechanism 8 comprises a driving component 82 and an adjusting pushing component 84, and the adjusting pushing component 84 is used for pushing the driving component 82 to the side part of the cutting mechanism 5 or the side part of the conveying rotating roller 3 according to the metering result of the length counting control system, so that the cloth is transversely cut by the cutting mechanism 5 and the cloth is conveyed by the conveying rotating roller 3 in an alternative conversion mode to provide driving force.

In the implementation process of the embodiment, firstly, the adjusting pushing assembly 84 in the adjusting driving mechanism 8 pushes the driving assembly 82 to the side of the conveying roller 3, the driving assembly 82 provides driving force for the conveying roller 3, the two conveying rollers 3 clamp the non-woven fabric 2 and rotate, and then the non-woven fabric 2 is conveyed to pass through the cutting mechanism 5; the length measuring control system measures the length of the non-woven fabric 2 conveyed by the conveying mechanism, when the length of the non-woven fabric 2 passing through the cutting mechanism 8 reaches the preset length set by the length measuring control system, the length measuring control system controls and adjusts the pushing assembly 84 to push the driving assembly 82 to the side part of the cutting mechanism 5 and enable the driving assembly 82 to be separated from the conveying roller 3, the driving assembly 82 provides driving force for the cutting mechanism 5 to cut the non-woven fabric 2, and the conveying roller 3 stops conveying the non-woven fabric 2 under the action of no driving force; the cutting mechanism 5 transversely cuts the non-woven fabric 2 under the action of driving force, so that the preset length of the non-woven fabric 2 at the cutting position can be realized; the whole cutting action is automatically finished, manual operation is not needed, the efficiency is high, the cutting length is constant, as an embodiment, the left, right, upper and lower positions of all parts shown in the attached drawings are only one arrangement mode, and the specific positions are set according to specific requirements;

in one embodiment, the adjusting driving mechanism 8 may be a cylinder and a motor controlled by a length-counting control system, and in this embodiment, as shown in fig. 1 and 2, a preferred solution is provided, the adjusting driving mechanism 8 includes a mounting boom 81, a middle portion of the mounting boom 81 is rotatably mounted on the frame 1 through a rotating shaft 83, an adjusting pushing assembly 84 is disposed on the frame 1 and is used for pushing and pulling the mounting boom 81 to rotate around the rotating shaft 83 and keep a stable state after adjustment, the adjusting pushing assembly 84 is further connected with the length-counting control system and moves under the control of the length-counting control system, the driving assembly 82 is disposed at one end of the mounting boom 81 far from the adjusting pushing assembly 84, and the driving assembly 82 is used for driving a corresponding conveying roller 3 to convey the non-woven fabric 2 or the non-woven fabric 2 is cut by the cutting mechanism 5 after the mounting boom 81 rotates; in the implementation process of the embodiment, the adjusting and pushing assembly 84 pushes and pulls the mounting suspension rod 81 to rotate around the rotating shaft 83, the driving assembly 82 at the other end of the mounting suspension rod 81 is close to the conveying roller 3 or the cutting mechanism 5, and when the driving assembly 82 is close to the conveying roller 3, the conveying roller 3 is driven to rotate and roll and convey the non-woven fabric 2; when the driving component 82 is close to the cutting mechanism 5, the driving component 82 drives the cutting mechanism 5 to move and transversely press and cut the non-woven fabric 2; thereby realizing the unified control of the conveying roller 3 and the cutting mechanism 5.

In one embodiment, as shown in fig. 1 and 2, the driving assembly 82 includes at least one arm 820, the arm 820 is fixed to the end of the mounting boom 81, and a driving unit is disposed on the arm 820, and the driving unit is used for driving the transferring roller 3 to move when the arm 820 is close to the transferring roller 3 or driving the cutting mechanism 5 to move when the arm is close to the cutting mechanism 5; in the implementation process of the embodiment, the support arm 820 approaches the conveying roller 3 or the cutting mechanism 5 along with the rotation of the mounting suspension rod 81, and the driving unit 82 drives the conveying roller 3 and the cutting mechanism 5 to move when approaching the two;

in one embodiment, as shown in fig. 1 and 2, the driving unit includes a driving part 821, a driving part 822, and a driven part; the driving part 821 and the driving part 822 are both arranged on the support arm 820 and are used for driving the driving part 822 to move; the two driven parts are respectively arranged on the cutting mechanism 5 and the conveying roller 3; when the driving component 82 is close to the cutting mechanism 5, the driving part is in transmission fit with the driven part arranged on the cutting mechanism 5; when the driving assembly 82 is close to the delivery roller 3; the driving part 822 is matched with a driven part arranged on the conveying roller 3 in a transmission way; in this embodiment, the driving member 821 may be a motor; the driven part arranged on the cutting mechanism 5 is a rack 824, the driven part on the conveying rotating roller 3 is a driven gear 823, and the driving part 822 is a driving gear; in the implementation of the present embodiment, when the driving assembly 82 approaches the conveying roller 3; the driving gear is engaged with a driven gear 823 provided in the transport roller 3, and the transport roller 3 is rotated by the driving member 821 to transport the nonwoven fabric 2; when the driving component 82 is close to the cutting mechanism 5, the driving gear 822 is meshed with the rack 824, and under the driving of the motor, the driving gear drives the rack 824 to move and drives the cutting mechanism 5 to move to transversely cut the non-woven fabric;

in one embodiment, as shown in fig. 2, the adjusting and pushing assembly 84 comprises a pushing telescopic rod 841 and a connecting sleeve 842, the connecting sleeve 842 is slidably sleeved on one end of the mounting suspension rod 81 far away from the driving assembly 82, the pushing telescopic rod 841 is fixed on the machine frame 1 and the telescopic end of the pushing telescopic rod 841 is hinged with the side of the connecting sleeve 842; one end of the mounting hanger rod 81 is pushed and pulled to rotate around the rotating shaft 83 by pushing the expansion of the expansion link 841 and the sliding of the connecting sleeve 842 on the mounting hanger rod 81; in this embodiment, the telescopic pushing rod 841 is one of the prior art, such as an air cylinder, a hydraulic cylinder, etc.

In one embodiment, as shown in fig. 2, the adjusting driving mechanism 8 further comprises a damping limiting assembly 85, the damping limiting assembly 85 comprises an arc-shaped pressure plate 851 and a side connecting rod 852, one end of the arc-shaped pressure plate 851 is fixed on the side portion of the mounting hanger rod 81, the other end of the arc-shaped pressure plate 851 is in an arc-shaped structure, the side portion of the arc-shaped pressure plate 851 is fixed on the side wall of the side connecting rod 852, and the end surface of the arc-shaped pressure plate 851 facing the conveying roller 3 is provided with an abrasive increasing protrusion; in the implementation process of the embodiment, when the driving assembly 82 rotates away from the conveying roller 3, the damping limiting assembly 85 of the driving assembly is close to the conveying roller 3 and enables the end surface of the side connecting rod 852 to be pressed against the outer wall of the conveying roller 3, the rotation of the conveying roller 3 due to inertia is limited by using the friction force between the damping limiting assembly and the conveying roller, the conveying roller 3 stops rotating in time to drive the non-woven fabric 2, and the preparation of the conveying length of the non-woven fabric 2 can be ensured.

In one embodiment, as shown in fig. 1, a plurality of ribs 33 are provided on each of the two transport rollers 3; in the embodiment, the ribs 33 are provided to increase the holding force with the nonwoven fabric 2 so as to stably convey the nonwoven fabric 2.

In one embodiment, as shown in fig. 1, the length-measuring control system comprises a central processing module 10 and at least one pressure sensor 9, wherein the pressure sensor 9 is arranged on the outer wall of the conveying roller 3 and is used for generating a pressure sensing signal when the outer wall of the conveying roller 3 abuts against the non-woven fabric 2; the central processing module 10 is used for receiving the pressure sensing signal transmitted by the pressure sensor 9, measuring the passing length of the non-woven fabric 2 and comparing the measured length with the set length; controlling and adjusting the motion state of the driving mechanism 8 according to the comparison result; in this embodiment, the length-measuring control system may also sense the rotation speed of the feeding roller 3 and a timer, and then measure the length of the nonwoven fabric 2 according to the rotation speed and time of 31 and compare the measured length with the set length;

in one embodiment, as shown in fig. 1, a preferred cutting mechanism 5 is provided;

the cutting mechanism comprises a reset component, a cutting part and a bearing part 55, the bearing part is fixed on the frame, one end of the bearing part extends to the non-woven fabric discharging position of the conveying rotary roller, the cutting part is connected with the adjusting driving mechanism through a transmission part and moves towards the direction of the bearing part under the driving force provided by the adjusting driving mechanism, and the reset component is used for driving the cutting part to move away from the direction of the bearing part and reset when the adjusting driving mechanism stops driving the cutting part; in the implementation process of the embodiment, the non-woven fabric 2 is conveyed by the conveying roller 3 and is laid on the bearing member 55 in a sliding manner, when cutting is needed, the adjusting driving mechanism 8 provides a driving force for moving the cutting part, the cutting part moves towards the bearing member 55, the bearing member 55 is close to the non-woven fabric 2 and cuts downwards to transversely cut the non-woven fabric 2, the non-woven fabric is cut at one time, and the cut port is flat; wherein, the bearing member 55 is an inclined plate;

in one embodiment, as shown in fig. 1, the cutting member includes a guide rod 51 and an upper cutter 52; the guide rod 51 penetrates through the machine frame 1 in a sliding mode and is connected with the resetting component, the upper cutter 52 is arranged at one end, close to the bearing piece 55, of the guide rod 51, and the driven piece on the cutting mechanism 5 is arranged on the guide rod 51; in the implementation process of the embodiment, when the driven member is driven by the driving member 822, the guide rod 51 is driven to move toward the bearing member 55, and the upper cutter 52 moves along with the guide rod and cuts the non-woven fabric 2 transversely;

in one embodiment, as shown in fig. 1, the resetting assembly comprises a resetting elastic piece 53 and a fixing plate 54, the resetting elastic piece 53 surrounds the end of the guide rod 51 far away from the upper cutter 52, the fixing plate 54 is arranged at the top end of the guide rod 51, one end of the resetting elastic piece 53 is connected with the fixing plate 54, and the other end of the resetting elastic piece 53 is connected with the frame 1; in the implementation process of the embodiment, after the upper cutter 52 cuts the non-woven fabric, when the adjusting and driving mechanism 8 stops driving the guide rod 51 to move, the resilience of the reset elastic member 53 drives the guide rod 51 to move back and reset; in the present embodiment, the return spring 53 may be a spring, an arch bar, or the like, which has resilience.

In one embodiment, as shown in fig. 1, at least one pressing assembly 6 is further disposed on the guide rod 51, the pressing assembly 6 is used for pressing the side of the non-woven fabric 2 when the cutting knife 52 cuts the non-woven fabric, the pressing assembly 6 may also be a flexible elastic pressing plate, and preferably, the pressing assembly 6 includes an elastic flexible pressing rod 61 and a pressing roller 62, one end of the elastic flexible pressing rod 61, which is far away from the inclined support plate 55, is fixedly connected with the side of the guide rod 51, and the pressing roller 62 is disposed at one end of the elastic flexible pressing rod 61, which is close to the inclined support plate 55; in this embodiment, when the guide rod 51 is driven by the adjusting driving mechanism 8 to move close to the inclined supporting plate 55 to cut the non-woven fabric 2, the pressing roller 62 contacts the non-woven fabric 2 on the inclined supporting plate 55 and presses the non-woven fabric, so that the non-woven fabric 2 does not move due to the cutting force when the non-woven fabric 2 is cut, and the neatness of the cut port is ensured.

In one embodiment, as shown in fig. 1 and 3, a cutting through slot 110 corresponding to the upper cutter 52 is provided on the inclined support plate 55, and one end of the cutting through slot 110 is flush with the end surface of the inclined support plate 55, a lower cutter assembly 11 is installed in the cutting through slot 110, the lower cutter assembly 11 includes a connecting unit and at least one lower cutter 112, the lower cutter 112 is installed on the connecting unit and extends into the cutting through slot 110, in the implementation process of the embodiment, when the upper cutter 52 in the cutting mechanism 5 cuts the non-woven fabric 2, the upper cutter 52 and the lower cutter 112 are close to each other and are misaligned to realize scissor-type cutting, so that the resistance of cutting is reduced by avoiding single-cutter cutting.

In one embodiment, as shown in fig. 1 and 3, the connecting unit includes a mounting plate 111, the lower cutter 112 is fixed on the mounting plate 111, at least one threaded connecting hole 113 is formed on each of the side wall of the mounting plate 111 and the side wall of the cutting through slot 110 far from the inclined supporting plate 55, the threaded connecting holes 113 on the mounting plate 111 and the side wall of the cutting through slot 110 correspond to each other and are threadedly connected through a fastening bolt 114, and the mounting plate 111 can be detached and the lower cutter 112 can be detached from the inside of the cutting through slot 110 for replacement through threaded cooperation between the fastening bolt 114 and the threaded connecting hole 113; the connecting unit can also be in buckle connection, and the buckle connection can be quickly disassembled and assembled by utilizing the elastic buckling of the buckle and the buckle groove. The connecting unit is used for dismounting and mounting the lower cutter 112, as long as dismounting and mounting of the lower cutter 112 are realized, so the connecting unit is not limited.

In the above embodiment, a non-woven fabric processing and cutting machine for facial mask is provided, wherein the non-woven fabric 2 is sent to the cutting mechanism 5 through the extrusion rotation of the two conveying rollers 3, the length of the non-woven fabric 2 is recorded by using the length counting control system, the conveying rollers 3 are driven to stop rotating according to the preset length, the cutting mechanism 5 is controlled to transversely cut the non-woven fabric 2 in a moving and pressing manner, the manual measurement control is not needed, the processing is automatic, the efficiency is high, and the cutting ports are cut neatly.

The above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present disclosure, and all the changes or substitutions should be covered within the scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims

1. A non-woven fabric processing and cutting machine for a mask comprises a rack, a conveying roller and a cutting mechanism, and is characterized by further comprising an adjusting and driving mechanism and a length counting control system; and

the conveying rollers are at least one pair and are rotatably arranged on the rack, wherein the pair of conveying rollers conveys the non-woven fabric through the cutting mechanism in a rotating friction mode;

the cutting mechanism is arranged on the rack, transversely cuts the non-woven fabric in a mode of transversely pressing by a cutter, and resets after the cutting is finished;

the adjusting driving mechanism is arranged on the rack and comprises a driving component and an adjusting pushing component, the adjusting pushing component is used for pushing the driving component to the side part of the cutting mechanism or the side part of the conveying roller according to the metering result of the length metering control system, and the adjusting pushing component is used for respectively providing driving force for transversely pressing and cutting cloth for the cutting mechanism and conveying the cloth for the conveying roller in an alternative conversion mode;

the adjusting driving mechanism further comprises a mounting hanging rod;

the middle part of the mounting suspender is rotatably mounted on the rack through a rotating shaft, the adjusting and pushing assembly is arranged on the rack and used for pushing and pulling the mounting suspender to rotate around the rotating shaft and keep a stable state after adjustment, and the adjusting and pushing assembly is also connected with the length counting control system and moves under the control of the length counting control system;

the driving assembly is arranged at one end of the mounting suspender, which is far away from the adjusting and pushing assembly, and is used for driving the corresponding conveying roller to convey the non-woven fabric or cutting the non-woven fabric by the cutting mechanism after the mounting suspender rotates;

the length measuring control system comprises a central processing module and at least one pressure sensor, wherein the pressure sensor is arranged on the outer wall of the conveying roller and is used for generating a pressure sensing signal when the outer wall of the conveying roller is abutted against the non-woven fabric;

the central processing module is used for receiving the pressure sensing signal transmitted by the pressure sensor, measuring the passing length of the non-woven fabric and comparing the passing length with the set length, and controlling and adjusting the motion state of the driving mechanism according to the comparison result.

2. The non-woven fabric processing and cutting machine for facial masks according to claim 1, wherein the driving assembly comprises at least one pair of arms fixed to ends of the mounting hanging rod and a driving unit disposed on the arms for driving the conveying roller to move when the arms are close to the conveying roller or driving the cutting mechanism to move when the arms are close to the cutting mechanism.

3. The non-woven fabric processing and cutting machine for facial masks according to claim 2, wherein the driving unit comprises a driving member, a driving member and a driven member; the driving part and the driving part are both arranged on the support arm, and the driving part is used for driving the driving part to move; the two driven parts are respectively arranged on the cutting mechanism and the conveying roller; when the driving component is close to the cutting mechanism, the driving part is in transmission fit with the driven part arranged on the cutting mechanism; when the driving component is close to the conveying roller; the driving part is in transmission fit with the driven part arranged on the conveying roller.

4. The non-woven fabric processing and cutting machine for the facial mask as claimed in claim 1, wherein the adjusting and driving mechanism further comprises a damping limiting component, the damping limiting component comprises an arc-shaped pressing plate and a side connecting rod, one end of the arc-shaped pressing plate is fixed on the side portion of the mounting hanger rod, the other end of the arc-shaped pressing plate is of an arc-shaped structure, the side portion of the arc-shaped pressing plate is fixed on the side connecting rod side wall, and an abrasion increasing protrusion is arranged on the end face, facing the conveying roller, of the arc-shaped pressing plate.

5. The non-woven fabric processing and cutting machine for the facial mask as claimed in claim 1, wherein the cutting mechanism comprises a guide rod, an upper cutter, an inclined support plate and a reset assembly, the inclined support plate is fixed on the frame, one end of the inclined support plate extends to the non-woven fabric discharging position of the conveying roller, the guide rod vertically slides and penetrates through the frame, the upper cutter is arranged at one end of the guide rod facing the inclined support plate, the reset assembly is arranged at one end far away from the upper cutter, the side part of the guide rod is connected to the adjusting driving mechanism and moves towards the inclined support plate under the driving force provided by the adjusting driving mechanism, and the reset assembly is used for driving the adjusting driving mechanism to move away from the inclined support plate and reset when the adjusting driving mechanism stops driving the guide rod; the cutting mechanism comprises a reset component, a cutting part and a bearing part, the bearing part is fixed on the rack, one end of the bearing part extends to the non-woven fabric discharging part of the conveying rotary roller, the cutting part is connected with the adjusting driving mechanism through a transmission part and moves towards the direction of the bearing part under the condition that the adjusting driving mechanism provides driving force, and the reset component is used for driving the cutting part to move away from the direction of the bearing part and reset when the adjusting driving mechanism stops driving the cutting part.

6. The non-woven fabric processing and cutting machine for facial masks according to claim 5, wherein the guide rod is further provided with at least one pressing component, and the pressing component is used for pressing the side of the non-woven fabric when the cutting knife cuts the non-woven fabric.

7. The non-woven fabric processing and cutting machine for facial masks according to claim 6, wherein the inclined support plate is provided with a cutting through groove corresponding to the upper cutter, one end of the cutting through groove is flush with the end surface of the inclined support plate, the cutting through groove is internally provided with a lower cutter assembly, the lower cutter assembly comprises a connecting unit and at least one lower cutter, and the lower cutter is arranged on the connecting unit and extends into the cutting through groove.