CN112777351A - Non-woven fabrics guider is used in gauze mask production and processing - Google Patents

Abstract

The invention discloses a non-woven fabric guiding device for mask production and processing, which belongs to the technical field of non-woven fabric processing and comprises a processing table, a material placing device, a guiding device, a feeding device, a clamping device and a cutting device, wherein the processing table is arranged on a horizontal plane, a conveying mechanism is arranged on the processing table, the material placing device is arranged at one end of the processing table, the guiding device is arranged on the top of the processing table and positioned beside the material placing device, the feeding device is clamped in the middle of the processing table, the clamping device is arranged on two sides of the conveying mechanism and arranged on the processing table, and the cutting device is arranged right above the processing table and arranged on the processing table. According to the invention, through the mutual operation among the devices, the non-woven fabrics with different thicknesses can be guided, and the applicability is wide, so that the subsequent processing effect on the non-woven fabrics is improved, and the quality of processed products is improved.

Description

Non-woven fabrics guider is used in gauze mask production and processing

Technical Field

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

Background

Nonwoven fabrics (also known as nonwovens, the name of english: nonwoven fabrics or nonwoven fabrics) are composed of oriented or random fibers. It is called a cloth because of its appearance and certain properties. The non-woven fabric has the characteristics of moisture resistance, air permeability, flexibility, light weight, no combustion supporting, easy decomposition, no toxicity or irritation, rich color, low price, recycling and the like. If polypropylene (pp material) granules are mostly adopted as raw materials, the non-woven fabric is produced by a continuous one-step method of high-temperature melting, spinning, laying a line and hot-pressing coiling, and the non-woven fabric has a plurality of application fields and is used.

In prior art, the gauze mask needs to adopt the non-woven fabrics to process, the non-woven fabrics can adopt guider when adding man-hour, current non-woven fabrics guider's structure is generally all comparatively simple, the direction effect is not good, and present non-woven fabrics appears the phenomenon that tensile force changes easily when the transmission, and the position of non-woven fabrics takes place the skew easily, can produce certain damage to the non-woven fabrics, it is relatively poor to lead to non-woven fabrics product quality controllability, thereby influence the quality of processing out the product.

Disclosure of Invention

The embodiment of the invention provides a non-woven fabric guiding device for mask production and processing, which aims to solve the technical problems in the background technology.

The embodiment of the invention adopts the following technical scheme: the utility model provides a non-woven fabrics guider is used in gauze mask production and processing, includes processing platform, blowing device, guider, material feeding unit, clamping device and cutting device, the processing platform sets up on the horizontal plane, processing bench installs conveying mechanism, the blowing device sets up the one end at the processing platform, guider sets up on the top of processing platform and is located the blowing device side, the material feeding unit card is established in the middle of the processing platform, clamping device sets up and installs on the processing platform in conveying mechanism's both sides, cutting device sets up directly over the processing platform and installs on the processing platform.

Further, the discharging device comprises a mounting plate, a discharging motor, a material shaft cylinder, a discharging shaft, two mounting blocks, two pushing electric cylinders, two shaft seats, two limiting shafts and four discharging springs, the mounting plate is arranged at the end part of the processing table, the discharging motor is arranged on one side wall of the mounting plate, the material shaft cylinder and the discharging shaft are respectively arranged on the other side wall of the mounting plate, one end of the material shaft cylinder is connected with a main shaft of the discharging motor, the two mounting blocks are symmetrically clamped on the processing table, the two pushing electric cylinders are respectively arranged in the two mounting blocks, the telescopic ends of the two pushing electric cylinders are vertically arranged downwards, the two shaft seats are respectively arranged on the telescopic ends of the two pushing electric cylinders, the two ends of one limiting shaft are respectively arranged on the two shaft seats, the two ends of the other limiting shaft are respectively arranged on the processing table, the four discharging springs are respectively arranged at the bottoms of the two shaft seats in pairs, and the other ends of the four discharging springs are respectively arranged on the two mounting blocks.

Further, the guiding device comprises a guiding motor, a screw rod, a rectangular frame, a hinging seat, two side plates, two sliding blocks, two hinging strips, three upper guiding shafts and four lower guiding shafts, the two side plates are symmetrically arranged on the processing table and are positioned at the sides of the two mounting blocks, two ends of the screw rod are respectively arranged on the inner side walls of the two side plates, the guiding motor is arranged on the outer side wall of one side plate, a main shaft of the guiding motor is connected with one end of the screw rod, the rectangular frame is arranged between the two side plates and is in sliding fit with the two side plates, the hinging seat is arranged on the top of the rectangular frame, the two sliding blocks are symmetrically sleeved on the screw rod, one ends of the two hinging strips are respectively arranged on the two sliding blocks, the other ends of the two hinging strips are respectively hinged on the hinging seat, the four lower guiding shafts are equidistantly arranged on the processing table, the three upper guide shafts are arranged in the rectangular frame at equal intervals and are opposite to the lower guide shaft below.

Further, material feeding unit includes braced frame seat, cylinder, a feed cylinder, feeding motor, two spacing electric jar, two square pieces and four spacing springs, braced frame seat card is established in the middle of the processing platform and is located the rectangle frame side, be equipped with two rectangular holes on the braced frame seat, the cylinder is installed in braced frame seat, two spacing electric jar sets up respectively on the top of braced frame seat and the flexible end of two spacing electric jar all runs through the braced frame seat and extends to two rectangular holes, two square piece sets up respectively in two rectangular holes and installs on the flexible end of two spacing electric jar, install respectively on two square pieces at the both ends of feed cylinder, feeding motor sets up on a lateral wall of braced frame seat and feeding motor's main shaft is connected with the one end of feed cylinder, four the one end of spacing spring is installed respectively in the bottom of two rectangular holes and the other end of four spacing springs is installed respectively in the bottom of two square pieces .

Further, the clamping device comprises a rectangular seat, a rotating gear, a clamping motor, two sliding cylinders with tooth angles, two clamping plates, a plurality of fixed blocks, a plurality of vertical bars, a plurality of fixed rods and a plurality of connecting rods, wherein the rectangular seat is arranged at the bottom of the processing table, the rotating gear is arranged in the rectangular seat, the clamping motor is arranged on one outer side wall of the rectangular seat, a main shaft of the clamping motor penetrates through the rectangular seat and is connected with the rotating gear, the two sliding cylinders are respectively arranged in the rectangular seat and are in sliding fit with the rectangular seat, the two sliding cylinders are both meshed with the rotating gear, the fixed blocks are symmetrically arranged on two side walls of the processing table, one ends of the vertical bars are respectively hinged to the fixed blocks, the two vertical bars are respectively connected with the two sliding cylinders, the two clamping plates are symmetrically arranged on the processing table and are positioned beside the supporting frame seat, the two ends of the fixed rods are respectively arranged on the two clamping plates and the vertical bars, and the connecting rods are respectively fixed on the two adjacent vertical bars.

Further, cutting device includes diaphragm, buffering part, cutter, two risers, two racks, two cuts off motor and two and cuts off the gear, two the riser symmetry sets up on the processing platform, every be equipped with the breach on the riser, the breach sliding fit on diaphragm and two risers is established in the middle of two risers to the diaphragm card, the cutter sets up in the bottom of diaphragm and just to the processing platform, buffering part sets up in the both sides of cutter and installs on the diaphragm, two the rack sets up respectively on the lateral wall of two risers and two racks are connected with the both ends of diaphragm respectively, two cut off the motor setting on the lateral wall of two risers, two cut off the gear set up respectively on two main shafts that cut off the motor and two cut off the gear mesh with two racks respectively.

Furthermore, the buffer part comprises two buffer plates and a plurality of buffer springs, the buffer springs are arranged on two sides of the cutter respectively, one ends of the buffer springs are arranged at the bottom of the transverse plate, and the two buffer plates are arranged at the bottoms of the buffer springs respectively.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, when the non-woven fabric is guided, the non-woven fabric in a roll is sleeved on a feed shaft cylinder, a discharging motor works to enable the non-woven fabric to be attached to the surface of a discharging shaft, then the non-woven fabric penetrates through the middle of two limiting shafts and is pulled to a feeding device through a guiding device to feed, when the non-woven fabric penetrates through the middle of the two limiting shafts, two shaft seats are driven to move downwards through the work of two pushing electric cylinders, the limiting shafts on the two shaft seats slowly move downwards through the four discharging springs, the non-woven fabric can be limited in the discharging process, the follow-up non-woven fabric guiding effect is improved, and the non-woven fabric can be automatically discharged.

Secondly, when the non-woven fabric is placed on the four lower guide shafts by the placing device, the guide motor works to drive the screw rod to rotate, two sliding blocks on the screw rod can be driven to move relatively at the same time, one ends of two hinged strips are respectively arranged on the two sliding blocks, and the other ends of the two hinged strips are respectively hinged on the hinged seat, so that the rectangular frame can be driven to move downwards, three upper guide shafts can be driven to move downwards, the non-woven fabric can be guided, the subsequent processing effect on the non-woven fabric is improved, the non-woven fabrics with different thicknesses can be guided, and the non-woven fabric placing device is wide in applicability.

Thirdly, in the invention, after the non-woven fabric is guided, two limit electric cylinders work simultaneously to drive two square blocks to move downwards, a feeding barrel and a feeding motor can be driven to move downwards, the feeding barrel is enabled to have a buffering effect in contact with the non-woven fabric through four limit springs, the non-woven fabric can be protected, the non-woven fabric is prevented from being crushed, the non-woven fabric can be attached to the surface of the non-woven fabric when the feeding barrel is pressed, the feeding barrel is driven to rotate through the work of the feeding motor, the non-woven fabric with good guiding is fed, the position of the non-woven fabric in the feeding process can not be deviated, and the non-woven fabric with different thicknesses can be fed.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a partial perspective view of the present invention;

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

FIG. 5 is a schematic perspective view of the feeding device of the present invention;

FIG. 6 is a schematic perspective view of the clamping device of the present invention;

fig. 7 is a schematic perspective view of the cutting device of the present invention.

Reference numerals

The machining table 1, the conveying mechanism 10, the discharging device 2, the mounting plate 20, the discharging motor 21, the material shaft cylinder 22, the discharging shaft 23, the mounting block 24, the pushing electric cylinder 25, the shaft seat 26, the limiting shaft 27, the discharging spring 28, the guiding device 3, the guiding motor 30, the lead screw 31, the rectangular frame 32, the hinge seat 33, the side plate 34, the sliding block 35, the hinge strip 36, the upper guiding shaft 37, the lower guiding shaft 38, the feeding device 4, the supporting frame seat 40, the roller 41, the feeding cylinder 42, the feeding motor 43, the limiting electric cylinder 44, the square block 45, the limiting spring 46, the clamping device 5, the rectangular seat 50, the rotating gear 51, the clamping motor 52, the sliding cylinder 53, the clamping plate 54, the fixing block 55, the vertical strip 56, the fixing rod 58, the connecting rod 57, the cutting device 6, the transverse plate 60, the cutter 61, the vertical plate 62, the rack 63, the cutting motor 64, the cutting gear 65, the buffer component 7, the buffer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 7, an embodiment of the present invention provides a non-woven fabric guiding device for mask production and processing, including a processing table 1, a material placing device 2, a guiding device 3, a feeding device 4, a clamping device 5 and a cutting device 6, wherein the processing table 1 is disposed on a horizontal plane, the processing table 1 is provided with a conveying mechanism 10, the material placing device 2 is disposed at one end of the processing table 1, the guiding device 3 is disposed on the top of the processing table 1 and located at a side of the material placing device 2, the feeding device 4 is clamped in the middle of the processing table 1, the clamping device 5 is disposed at two sides of the conveying mechanism 10 and mounted on the processing table 1, and the cutting device 6 is disposed directly above the processing table 1 and mounted on the processing table 1.

Specifically, the discharging device 2 comprises a mounting plate 20, a discharging motor 21, a material shaft cylinder 22, a discharging shaft 23, two mounting blocks 24, two pushing electric cylinders 25, two shaft seats 26, two limiting shafts 27 and four discharging springs 28, wherein the mounting plate 20 is arranged at the end of the processing table 1, the discharging motor 21 is arranged on one side wall of the mounting plate 20, the material shaft cylinder 22 and the discharging shaft 23 are respectively arranged on the other side wall of the mounting plate 20, one end of the material shaft cylinder 22 is connected with a main shaft of the discharging motor 21, the two mounting blocks 24 are symmetrically clamped on the processing table 1, the two pushing electric cylinders 25 are respectively arranged in the two mounting blocks 24, the telescopic ends of the two pushing electric cylinders 25 are vertically arranged downwards, the two shaft seats 26 are respectively arranged on the telescopic ends of the two pushing electric cylinders 25, two ends of one limiting shaft 27 are respectively arranged on the two shaft seats 26, another the both ends of spacing axle 27 are installed respectively on processing platform 1, four two liang settings are in the bottom of two axle beds 26 respectively to blowing spring 28, and four the other end of blowing spring 28 sets up respectively on two installation pieces 24, when leading to the non-woven fabrics, at first establish the non-woven fabrics cover of lapping on feed shaft section of thick bamboo 22, blowing motor 21 works, laminate the non-woven fabrics on blowing axle 23 surface, pass again in the middle of two spacing axles 27, draw to material feeding unit 4 through guider 3 and pay-off, when passing through in the middle of two spacing axles 27, drive two axle beds 26 downstream through the work of two promotion electric jar 25, and through four blowing springs 28 that set up, make spacing axle 27 on two axle beds 26 slowly downstream, can be spacing to the non-woven fabrics in the in-process of blowing, the follow-up effect to the non-woven fabrics direction has been improved, and can carry out the blowing to the non-woven fabrics automatically.

Specifically, the guiding device 3 includes a guiding motor 30, a screw rod 31, a rectangular frame 32, an articulated seat 33, two side plates 34, two sliding blocks 35, two articulated strips 36, three upper guiding shafts 37 and four lower guiding shafts 38, two side plates 34 are symmetrically arranged on the processing table 1 and located at the sides of the two mounting blocks 24, two ends of the screw rod 31 are respectively installed on the inner side walls of the two side plates 34, the guiding motor 30 is arranged on the outer side wall of one of the side plates 34 and the main shaft of the guiding motor 30 is connected with one end of the screw rod 31, the rectangular frame 32 is arranged in the middle of the two side plates 34 and the rectangular frame 32 is in sliding fit with the two side plates 34, the articulated seat 33 is installed on the top of the rectangular frame 32, the two sliding blocks 35 are symmetrically sleeved on the screw rod 31, one ends of the two articulated strips 36 are respectively installed on the two sliding blocks 35 and the other ends of the two articulated strips 36 are respectively articulated seat, four lower guiding axle 38 equidistant setting is on processing platform 1, it is three go up the equidistant setting of guiding axle 37 and just to lower guiding axle 38 below in rectangle frame 32, when blowing device 2 puts the non-woven fabrics to four lower guiding axle 38 on, drive lead screw 31 through direction motor 30 work and rotate, can drive two slider 35 relative motion simultaneously on the lead screw 31, because two articulated 36 one ends are installed respectively on two slider 35, two articulated 36 other ends articulate respectively on articulated seat 33, so can drive rectangle frame 32 downstream, then can drive three upward guiding axle 37 downstream, the realization leads to the non-woven fabrics, follow-up processing effect to the non-woven fabrics has been improved, and can both lead to the non-woven fabrics of different thickness, and wide applicability.

Specifically, the feeding device 4 includes a supporting frame seat 40, a roller 41, a feeding barrel 42, a feeding motor 43, two limiting electric cylinders 44, two square blocks 45 and four limiting springs 46, the supporting frame seat 40 is clamped in the middle of the processing table 1 and located beside the rectangular frame 32, two rectangular holes are formed in the supporting frame seat 40, the roller 41 is installed in the supporting frame seat 40, the two limiting electric cylinders 44 are respectively arranged on the top of the supporting frame seat 40, the telescopic ends of the two limiting electric cylinders 44 extend into the two rectangular holes through the supporting frame seat 40, the two square blocks 45 are respectively arranged in the two rectangular holes and installed on the telescopic ends of the two limiting electric cylinders 44, two ends of the feeding barrel 42 are respectively installed on the two square blocks 45, the feeding motor 43 is arranged on an outer side wall of the supporting frame seat 40, and a main shaft of the feeding motor 43 is connected with one end of the feeding barrel 42, four the bottom at two rectangular holes is installed respectively to spacing spring 46's one end and the other end of four spacing spring 46 installs respectively in the bottom of two square blocks 45, after the non-woven fabrics direction, two spacing electric jar 44 simultaneous workings drive two square blocks 45 downstream, can drive feed cylinder 42 and feeding motor 43 downstream, through four spacing spring 46 that set up, make feed cylinder 42 and non-woven fabrics contact have the effect of a buffering, can protect the non-woven fabrics, avoid crushing the non-woven fabrics, it can to laminate the non-woven fabrics surface when feed cylinder 42, rethread feeding motor 43 work drives feed cylinder 42 and rotates, realize carrying out the pay-off to the well non-woven fabrics of direction, and the position of the in-process non-woven fabrics of pay-off can not take place the skew, and can both carry out the pay-off to the non-woven fabrics of different thickness.

Specifically, the clamping device 5 includes a rectangular seat 50, a rotating gear 51, a clamping motor 52, two sliding barrels 53 with tooth angles, two clamping plates 54, a plurality of fixing blocks 55, a plurality of vertical bars 56, a plurality of fixing rods 58 and a plurality of connecting rods 57, the rectangular seat 50 is arranged at the bottom of the processing table 1, the rotating gear 51 is arranged in the rectangular seat 50, the clamping motor 52 is arranged on one outer side wall of the rectangular seat 50, a main shaft of the clamping motor 52 penetrates through the rectangular seat 50 to be connected with the rotating gear 51, the two sliding barrels 53 are respectively arranged in the rectangular seat 50 and are in sliding fit with the rectangular seat 50, the two sliding barrels 53 are respectively meshed with the rotating gear 51, the fixing blocks 55 are symmetrically arranged on two side walls of the processing table 1, one ends of the vertical bars 56 are respectively hinged to the fixing blocks 55, and the two vertical bars 56 are respectively connected with the two sliding barrels 53, two the clamp plate 54 symmetry sets up on processing platform 1 and is located the side of support frame seat 40, and is a plurality of the both ends of dead lever 58 are installed respectively on two clamp plates 54 and a plurality of vertical retort 56, and is a plurality of connecting rod 57 is fixed respectively on two adjacent vertical retort 56, when material feeding unit 4 carries toward conveying mechanism 10, drive rotating gear 51 through the work of clamp motor 52 and rotate, can drive two slide drums 53 relative motion with rotating gear 51 engaged with, then can drive two vertical retort 56 that are connected with two slide drums 53 rotatory, because if a connecting rod 57 fixes respectively on two adjacent vertical retort 56, so can drive other vertical retort 56 rotatory, thereby drive two clamp plates 54 relative motion simultaneously, realize pressing from both ends to the non-woven fabrics and press from both sides tightly, thereby the position takes place the skew when having avoided the non-woven fabrics to convey.

Specifically, the cutting device 6 includes a transverse plate 60, a buffer part 7, a cutter 61, two vertical plates 62, two racks 63, two cutting motors 64 and two cutting gears 65, the two vertical plates 62 are symmetrically arranged on the processing table 1, a notch is arranged on each vertical plate 62, the transverse plate 60 is clamped between the two vertical plates 62, the transverse plate 60 is in sliding fit with the notches on the two vertical plates 62, the cutter 61 is arranged at the bottom of the transverse plate 60 and faces the processing table 1, the buffer parts 7 are arranged on two sides of the cutter 61 and are arranged on the transverse plate 60, the two racks 63 are respectively arranged on the outer side walls of the two vertical plates 62, the two racks 63 are respectively connected with two ends of the transverse plate 60, the two cutting motors 64 are arranged on the outer side walls of the two vertical plates 62, the two cutting gears 65 are respectively arranged on the main shafts of the two cutting motors 64, and the two cutting gears 65 are respectively meshed with the two racks 63, when carrying to suitable length and needing to cut off, cut off motor 64 work through two and drive two and cut off gear 65 rotations, can drive two racks 63 with two gear 65 mesh that cut off, then can drive diaphragm 60 downstream to and cutter 61 and buffer unit 7 downstream, realize cutting off the non-woven fabrics, buffer unit 7 through the setting can fix a position the non-woven fabrics before the non-woven fabrics cuts off, thereby improved and cut off the effect.

Specifically, buffer component 7 includes two buffer boards 70 and a plurality of buffer spring 71, and is a plurality of buffer spring 71 sets up respectively in the both sides of cutter 61, and is a plurality of buffer spring 71's one end is installed in the bottom of diaphragm 60, two buffer board 70 sets up respectively in the bottom of a plurality of buffer spring 71, can cut off the advance line location to the non-woven fabrics through two buffer boards 70 and a plurality of buffer spring 71 that set up.

The working principle of the invention is as follows: when guiding the non-woven fabric, firstly, the coiled non-woven fabric is sleeved on the material shaft cylinder 22, the discharging motor 21 works, the non-woven fabric is attached to the surface of the discharging shaft 23, then passes through the middle of the two limiting shafts 27 and is pulled to the feeding device 4 through the guiding device 3 for feeding, when passing through the middle of the two limiting shafts 27, the two shaft seats 26 are driven to move downwards through the work of the two pushing electric cylinders 25, the limiting shafts 27 on the two shaft seats 26 slowly move downwards through the arranged four discharging springs 28, when passing through the guiding device 3, the lead screw 31 is driven to rotate through the work of the guiding motor 30, the two sliding blocks 35 on the lead screw 31 are driven to simultaneously move relatively, because one ends of the two hinged strips 36 are respectively arranged on the two sliding blocks 35, and the other ends of the two hinged strips 36 are respectively hinged on the hinged seats 33, the rectangular frame 32 is driven to move downwards, will drive three upper guiding shafts 37 to move downwards to realize the guiding of the non-woven fabric, after guiding, two spacing electric cylinders 44 will work simultaneously to drive two square blocks 45 to move downwards to drive the feeding barrel 42 and the feeding motor 43 to move downwards, through the four spacing springs 46, the feeding barrel 42 and the non-woven fabric contact has a buffer function, can protect the non-woven fabric, avoid crushing the non-woven fabric, when the feeding barrel 42 is attached to the surface of the non-woven fabric, then the feeding barrel 42 is driven to rotate through the work of the feeding motor 43, realize the feeding of the guided non-woven fabric to the conveying mechanism 10, during conveying, the clamping motor 52 works to drive the rotating gear 51 to rotate, will drive two sliding barrels 53 engaged with the rotating gear 51 to move relatively, will drive two vertical bars 56 connected with the two sliding barrels 53 to rotate, because if each connecting rod 57 is fixed on two adjacent vertical bars 56 respectively, so can drive other vertical retort 56 rotatoryly, thereby drive two clamp plates 54 simultaneous relative motion, the realization is pressed from both sides tightly the both ends of non-woven fabrics, when carrying to suitable length needs to cut off, cut off motor 64 work through two and drive two and cut off gear 65 rotations, can drive and two rack 63 that cut off gear 65 and mesh move down, then can drive diaphragm 60 downstream, and cutter 61 and buffer unit 7 downstream, the realization is cut off the non-woven fabrics, buffer unit 7 through setting up can fix a position the non-woven fabrics before the non-woven fabrics cuts off, thereby cut off the effect has been improved.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a non-woven fabrics guider is used in gauze mask production and processing which characterized in that: including processing platform (1), blowing device (2), guider (3), material feeding unit (4), clamping device (5) and cutting device (6), processing platform (1) sets up on the horizontal plane, install conveying mechanism (10) on processing platform (1), blowing device (2) set up the one end at processing platform (1), guider (3) set up on the top of processing platform (1) and are located blowing device (2) side, material feeding unit (4) card is established in the middle of processing platform (1), clamping device (5) set up and install on processing platform (1) in the both sides of conveying mechanism (10), cutting device (6) set up directly over processing platform (1) and install on processing platform (1).

2. The non-woven fabric guide device for mask manufacturing according to claim 1, wherein: the discharging device (2) comprises a mounting plate (20), a discharging motor (21), a material shaft cylinder (22), a discharging shaft (23), two mounting blocks (24), two pushing electric cylinders (25), two shaft seats (26), two limiting shafts (27) and four discharging springs (28), wherein the mounting plate (20) is arranged at the end part of the processing table (1), the discharging motor (21) is arranged on one side wall of the mounting plate (20), the material shaft cylinder (22) and the discharging shaft (23) are respectively arranged on the other side wall of the mounting plate (20), one end of the material shaft cylinder (22) is connected with a main shaft of the discharging motor (21), the two mounting blocks (24) are symmetrically clamped on the processing table (1), the two pushing electric cylinders (25) are respectively arranged in the two mounting blocks (24), and the telescopic ends of the two pushing electric cylinders (25) are vertically and downwards arranged, the two shaft seats (26) are respectively provided with two telescopic ends for pushing the electric cylinder (25), two ends of one limiting shaft (27) are respectively arranged on the two shaft seats (26), two ends of the other limiting shaft (27) are respectively arranged on the processing table (1), four discharging springs (28) are respectively arranged at the bottoms of the two shaft seats (26) in pairs, and the other ends of the four discharging springs (28) are respectively arranged on the two mounting blocks (24).

3. The non-woven fabric guide device for mask manufacturing according to claim 2, wherein: the guide device (3) comprises a guide motor (30), a screw rod (31), a rectangular frame (32), an articulated seat (33), two side plates (34), two sliding blocks (35), two articulated strips (36), three upper guide shafts (37) and four lower guide shafts (38), wherein the side plates (34) are symmetrically arranged on the processing table (1) and positioned at the sides of the two mounting blocks (24), the two ends of the screw rod (31) are respectively arranged on the inner side walls of the two side plates (34), the guide motor (30) is arranged on the outer side wall of one side plate (34) and a main shaft of the guide motor (30) is connected with one end of the screw rod (31), the rectangular frame (32) is arranged between the two side plates (34) and is in sliding fit with the two side plates (34), the articulated seat (33) is arranged on the top of the rectangular frame (32), two slider (35) symmetry cover is established on lead screw (31), two the one end of articulated strip (36) is installed respectively on two slider (35) and the other end of two articulated strip (36) articulates respectively on articulated seat (33), four down guiding axle (38) equidistant setting is on processing platform (1), three go up the equidistant setting of guiding axle (37) and just to lower guiding axle (38) of below in rectangular frame (32).

4. The non-woven fabric guide device for mask manufacturing according to claim 3, wherein: the feeding device (4) comprises a supporting frame seat (40), a roller (41), a feeding barrel (42), a feeding motor (43), two limiting electric cylinders (44), two square blocks (45) and four limiting springs (46), wherein the supporting frame seat (40) is clamped in the middle of the processing table (1) and located beside the rectangular frame (32), two rectangular holes are formed in the supporting frame seat (40), the roller (41) is installed in the supporting frame seat (40), the two limiting electric cylinders (44) are respectively arranged on the top of the supporting frame seat (40), the telescopic ends of the two limiting electric cylinders (44) penetrate through the supporting frame seat (40) and extend into the two rectangular holes, the two square blocks (45) are respectively arranged in the two rectangular holes and installed on the telescopic ends of the two limiting electric cylinders (44), two ends of the feeding barrel (42) are respectively installed on the two square blocks (45), the feeding motor (43) is arranged on one outer side wall of the supporting frame seat (40), a main shaft of the feeding motor (43) is connected with one end of the feeding barrel (42), one ends of the four limiting springs (46) are respectively installed at the bottoms of the two rectangular holes, and the other ends of the four limiting springs (46) are respectively installed at the bottoms of the two square blocks (45).

5. The non-woven fabric guide device for mask manufacturing according to claim 4, wherein: the clamping device (5) comprises a rectangular seat (50), a rotating gear (51), a clamping motor (52), two sliding cylinders (53) with tooth angles, two clamping plates (54), a plurality of fixing blocks (55), a plurality of vertical bars (56), a plurality of fixing rods (58) and a plurality of connecting rods (57), wherein the rectangular seat (50) is arranged at the bottom of the machining table (1), the rotating gear (51) is arranged in the rectangular seat (50), the clamping motor (52) is arranged on one outer side wall of the rectangular seat (50), a spindle of the clamping motor (52) penetrates through the rectangular seat (50) to be connected with the rotating gear (51), the two sliding cylinders (53) are respectively arranged in the rectangular seat (50) and are in sliding fit with the rectangular seat (50), the two sliding cylinders (53) are both meshed with the rotating gear (51), the fixing blocks (55) are symmetrically arranged on two side walls of the machining table (1), a plurality of on articulated a plurality of fixed blocks (55) respectively of one end of vertical retort (56) and wherein two vertical retort (56) are connected with two slide drums (53) respectively, two clamp plate (54) symmetry sets up on processing platform (1) and is located the side of support frame seat (40), and is a plurality of install respectively at the both ends of dead lever (58) on two clamp plate (54) and a plurality of vertical retort (56), and is a plurality of connecting rod (57) are fixed respectively on two adjacent vertical retort (56).

6. The non-woven fabric guide device for mask manufacturing according to claim 5, wherein: the cutting device (6) comprises a transverse plate (60), a buffering part (7), a cutter (61), two vertical plates (62), two racks (63), two cutting motors (64) and two cutting gears (65), wherein the two vertical plates (62) are symmetrically arranged on the processing table (1), each vertical plate (62) is provided with a notch, the transverse plate (60) is clamped between the two vertical plates (62) and the notches of the transverse plate (60) and the two vertical plates (62) are in sliding fit, the cutter (61) is arranged at the bottom of the transverse plate (60) and just faces the processing table (1), the buffering part (7) is arranged at two sides of the cutter (61) and is arranged on the transverse plate (60), the two racks (63) are respectively arranged on the outer side walls of the two vertical plates (62) and the two racks (63) are respectively connected with two ends of the transverse plate (60), the two cutting motors (64) are arranged on the outer side walls of the two vertical plates (62), the two cutting gears (65) are respectively arranged on the main shafts of the two cutting motors (64), and the two cutting gears (65) are respectively meshed with the two racks (63).

7. The non-woven fabric guide device for mask manufacturing according to claim 6, wherein: the buffer component (7) comprises two buffer plates (70) and a plurality of buffer springs (71), the buffer springs (71) are arranged on two sides of the cutter (61) respectively, one ends of the buffer springs (71) are arranged at the bottom of the transverse plate (60), and the two buffer plates (70) are arranged at the bottoms of the buffer springs (71) respectively.

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