CN214569624U - Non-woven fabrics flattens and carries and decides mechanism - Google Patents

Abstract

The utility model belongs to the technical field of non-woven fabric production equipment, in particular to a non-woven fabric flattening conveying and cutting mechanism, which comprises a feeding flattening component, a cutting component and a discharging flattening component, wherein the cutting component comprises a cutting frame, a cutting motor, a cutter fixing frame and a cutting hob, the cutting frame comprises a top sliding frame and a side fixing frame, the cutter fixing frame comprises a slide block, a driving plate and a cutter fixing plate, the surface of the top sliding frame is provided with a slide rail, when cutting, the feeding flattening component receives the non-woven fabric and rolls the non-woven fabric and conveys the non-woven fabric towards the cutting component, the non-woven fabric passes through the cutting component and then enters the discharging flattening component, the cutting motor is started and drives the slide block to slide along the surface of the slide rail and drive the cutting hob to roll and cut the surface of the non-woven fabric, after the cutting, the feeding flattening component continues to transmit the non-woven fabric, the discharging flattening component transmits the cut non-woven fabric, can effectively promote the cutting efficiency of non-woven fabrics and the cutting precision of non-woven fabrics through above setting.

Description

Non-woven fabrics flattens and carries and decides mechanism

Technical Field

The utility model belongs to the technical field of non-woven fabrics production facility, especially, relate to a mechanism is decided in non-woven fabrics flattening transport.

Background

Nonwoven fabrics, also known as non-woven fabrics, needle punched cotton, and the like, 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. For example, the polypropylene fiber is produced by adopting polypropylene granules as raw materials through a continuous one-step method of high-temperature melting, spinning, laying a line and hot-pressing coiling.

After the non-woven fabric is produced, the non-woven fabric generally needs to be cut into a specified length according to a manufactured product, the existing non-woven fabric is generally cut manually, on one hand, the manual cutting consumes a large amount of manpower and material resources, and on the other hand, the cutting precision of the non-woven fabric is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mechanism is decided in non-woven fabrics flattening transport aims at solving the non-woven fabrics among the prior art and tailors the lower technical problem of the in-process consumption a large amount of manpower and materials of precision with tailorring.

In order to achieve the above object, the non-woven fabric flattening conveying and cutting mechanism provided by the embodiment of the present invention comprises a feeding flattening assembly, a cutting assembly and a discharging flattening assembly, wherein the cutting assembly comprises a cutting frame, a cutting motor, a cutter fixing frame and a cutting hob, the cutting frame comprises a top sliding frame and a side fixing frame fixed at two ends of the top sliding frame, the cutter fixing frame comprises a slider, a driving plate and a cutter fixing plate, the surface of the top sliding frame is provided with a slide rail, the slider is slidably connected to the surface of the slide rail, the driving plate is fixed on the top surface of the slide rail, the cutter fixing plate is fixed at one side of the driving plate away from the top sliding frame, the cutting hob is rotatably connected to the bottom of the cutter fixing plate, the cutting motor is fixed on the top sliding frame and is used for driving the slider to slide along the surface of the slide rail, the feeding flattening component is located on one side of the cutting frame and used for rolling the non-woven fabric entering the cutting component, and the discharging flattening component is located on the other side of the cutting component and used for rolling the non-woven fabric outputting the cutting component.

Optionally, the cutting assembly further comprises two proximity switches, wherein the two proximity switches are fixed at two ends of the top sliding frame, and the two proximity switches are used for sensing the driving plate.

Optionally, the cutter fixing frame further comprises a hinge and a limiting support rod, one side of the hinge is fixed to the top of the driving plate, the other side of the hinge is fixed to the top of the cutter fixing plate, and the limiting support rod penetrates through the cutter fixing plate and is fixedly connected with the driving plate.

Optionally, the cutting assembly further comprises a transmission belt, transmission fixing frames are respectively fixed at two ends of the top sliding frame, transmission shafts are arranged on the transmission fixing frames and fixedly connected with a crankshaft of the cutting motor, belt pulleys are fixed on the surfaces of the transmission shafts, two end sleeves of the transmission belt are arranged on the surfaces of the belt pulleys, and the drive plate is fixed on the transmission belt.

Optionally, the cutting assembly further comprises a limiting frame, the limiting frame comprises a first limiting plate, a second limiting plate and two side plates which are arranged oppositely, the first limiting plate and the second limiting plate are arranged oppositely and are located below the top sliding frame, a limiting conveying channel is arranged between the first limiting plate and the second limiting plate, and the side plates are fixed at two ends of the first limiting plate respectively.

Optionally, the limiting frame further comprises a lifting cylinder, the lifting cylinder is fixed on the bottom surface of the top sliding frame, and the second limiting plate is fixed on the driving end of the lifting cylinder.

Optionally, the feeding flattening assembly comprises a feeding fixing frame, a first rolling motor and two feeding compression rollers, the feeding fixing frame is located on one side of the cutting frame, the two feeding compression rollers are rotatably connected to the feeding fixing frame, and the first rolling motor is fixed to the feeding fixing frame and is in driving connection with one of the feeding compression rollers.

Optionally, the feeding flattening assembly further comprises a feeding adjusting cylinder, a first feeding adjusting block and a second feeding adjusting block, the first feeding adjusting block is fixed on the feeding fixing frame, the second feeding adjusting block is arranged opposite to the first feeding adjusting block and is connected with the feeding fixing frame in a sliding mode, the feeding adjusting cylinder is fixed on the feeding fixing frame and is connected with the second feeding adjusting block in a driving mode, and the feeding press rollers are respectively connected with the first feeding adjusting block and the second feeding adjusting block in a rotating mode.

Optionally, the ejection of compact subassembly that flattens includes business turn over material mount, second roll-in motor and two ejection of compact compression rollers, the ejection of compact mount is located the opposite side of cutting frame, two ejection of compact compression roller rotate connect in on the ejection of compact mount, the second roll-in motor be fixed in on the ejection of compact mount and with one of them ejection of compact compression roller drive is connected.

Optionally, the feeding flattening assembly further comprises a discharging adjusting cylinder, a first discharging adjusting block and a second discharging adjusting block, the first discharging adjusting block is fixed on the discharging fixing frame, the second discharging adjusting block is arranged relative to the first discharging adjusting block and is in sliding connection with the discharging fixing frame, the discharging adjusting cylinder is fixed on the discharging fixing frame and is in driving connection with the second discharging adjusting block, and the discharging compression rollers are respectively connected with the first discharging adjusting block and the second discharging adjusting block in a rotating manner.

The embodiment of the utility model provides an above-mentioned one or more technical scheme in the non-woven fabrics flattening transport cutting mechanism have one of following technological effect at least: the cutting mechanism comprises a feeding flattening component, a cutting component and a discharging flattening component, the cutting component comprises a cutting frame, a cutting motor, a cutter fixing frame and a cutting hob, the cutting frame comprises a top sliding frame and a side fixing frame, the side fixing frame can provide convenience for fixing the cutting frame and the rack, the cutter fixing frame comprises a sliding block, a driving plate and a cutter fixing plate, a sliding rail is arranged on the surface of the top sliding frame, the driving plate and the cutter fixing plate are connected to the surface of the sliding rail in a sliding mode through the sliding block, the cutter fixing plate is convenient for fixing the cutting hob, the cutting motor is fixed on the top sliding frame, when the cutting is carried out, the feeding flattening component receives the non-woven fabric, rolls the non-woven fabric and conveys the non-woven fabric towards the cutting component, the non-woven fabric enters the discharging flattening component after passing through the cutting component, the cutting motor is started to drive the sliding block to slide along the surface of the sliding rail, and drives the cutting hob to roll on the surface of the non-woven fabric and carry out cutting, accomplish the cutting back, the feeding flattens the subassembly and continues to transmit into the non-woven fabrics, and the ejection of compact flattens the non-woven fabrics of subassembly after will cutting and spreads, can effectively promote the cutting efficiency of non-woven fabrics and the cutting precision of non-woven fabrics through above setting.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a non-woven fabric cutting apparatus provided by an embodiment of the present invention.

Fig. 2 is another schematic structural diagram of a non-woven fabric cutting apparatus according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a cutting mechanism of a non-woven fabric cutting apparatus provided by the embodiment of the present invention.

Fig. 4 is another schematic structural diagram of a cutting mechanism of a non-woven fabric cutting apparatus according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a cutter fixing frame and a cutting hob of the non-woven fabric cutting device provided by the embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a discharging mechanism of a non-woven fabric cutting device provided by the embodiment of the present invention.

Fig. 7 is a schematic structural diagram of the connection assembly and the rotating frame of the non-woven fabric cutting device provided by the embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

10-frame 11-transition support frame 12-transition support plate

13-limiting plate 14-limiting fixed block 20-discharging mechanism

21-discharging frame 22-discharging motor 23-air expansion shaft

24-rotating frame 25-connecting assembly 30-cutting mechanism

40-material guiding mechanism 41-material guiding frame 42-material guiding plate

43-air rod fixing frame 44-material guiding air rod 50-discharging flattening assembly

51-discharge fixing frame 52-second rolling motor 53-discharge press roller

54-discharging adjusting cylinder 55-first discharging adjusting block 56-second discharging adjusting block

60-cutting assembly 61-cutting frame 62-cutting motor

63-cutter fixing frame 64-cutting hob 65-approach switch

66-transmission belt 67-limiting frame 70-feeding flattening assembly

71-feeding fixed frame 72-first rolling motor 73-feeding press roller

74-feed adjusting cylinder 75-first feed adjusting block 76-second feed adjusting block

121-transition cambered surface 131-open cambered surface 211-bottom frame

212-side frame 213-supporting foot 214-motor supporting plate

221-reducer 241-fixing seat 242-hinged frame

243-lock rod 244-fixing sleeve 251-support frame

252-connecting shaft 253-connecting wheel 254-key groove

255-clamping bulge 611-top sliding frame 612-side fixing frame

613-slide rail 614-transmission fixing frame 615-transmission shaft

616-pulley 631-slider 632-drive plate

633-cutter fixing plate 634-hinge 635-limit supporting rod

671 first limit plate 672, second limit plate 673, side plate

674, a limiting conveying channel 675, a lifting cylinder 10a and non-woven fabrics.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

In an embodiment of the present invention, a non-woven fabric cutting apparatus is provided, which includes a frame 10, a discharging mechanism 20, a cutting mechanism 30, and a guiding mechanism 40, wherein the discharging mechanism 20 includes a discharging frame 21, a discharging motor 22, and an expanding shaft 23, the discharging frame 21 is located at one side of the frame 10, the discharging motor 22 is fixed on the discharging frame 21, the expanding shaft 23 is fixed on a shaft of the discharging motor 22, the cutting mechanism 30 includes a cutting frame 61, a cutting motor 62, and a cutting hob 64, the cutting frame 10 is fixed on the frame 10, the cutting motor 62 is fixed on the cutting frame 61 and is used for driving the cutting hob 64 to move along a surface of the frame 10, the guiding mechanism 40 includes a guiding frame 41 and a guiding plate 42, the guiding frame 41 is fixed on the frame 10 and is located at one side of the cutting frame 61 away from the discharging frame 21, the material guide plate 42 is rotatably connected to the material guide frame 41 and is used for guiding the cut non-woven fabric 10 a.

Specifically, the non-woven fabric cutting equipment comprises a rack 10, a discharging mechanism 20, a cutting mechanism 30 and a material guiding mechanism 40, wherein the discharging mechanism 20 comprises a discharging frame 21, a discharging motor 22 and an air expanding shaft 23, the discharging frame 21 is positioned on one side of the rack 10, the discharging motor 22 is fixed on the discharging frame 21 and drives the air expanding shaft 23 to rotate, the air expanding shaft 23 can be used for rolling a non-woven fabric 10a to be cut, the middle part of the air expanding shaft 23 can be bulged after being inflated, the deviation of the non-woven fabric 10a is effectively prevented, during cutting, the discharging motor 22 is started to drive the air expanding shaft 23 to rotate so as to discharge the cutting mechanism 30, the cutting mechanism 30 comprises a cutting frame 61, a cutting motor 62 and a cutting hob 64, the cutting rack 10 is fixed on the rack 10, the cutting motor 62 is fixed on the cutting frame 61, during cutting, the cutting motor 62 is started to drive the cutting hob 64 to move to cut the non-woven fabric 10a, the material guiding mechanism 40 comprises a material guiding frame 41 and a material guiding plate 42, the material guiding frame 41 is fixed on one side, away from the material guiding frame 21, of the rack 10, the material guiding plate 42 is rotatably connected onto the material guiding frame 41, the non-woven fabric 10a is further conveyed onto the material guiding plate 42 after being cut, the material guiding plate 42 is inclined, the cut non-woven fabric 10a slides along the surface of the material guiding plate 42, the material guiding of the non-woven fabric 10a is completed, the automatic cutting of the non-woven fabric 10a can be achieved through the structure, a large amount of manpower and material resources are saved, and the cutting precision of the non-woven fabric 10a is improved.

The utility model discloses a further embodiment, blowing frame 21 includes underframe 211 and two relative side bearer 212 that set up, the bottom of underframe 211 is provided with four supporting legss 213, side bearer 212 is fixed in the both sides of underframe 211, one of them the top of side bearer 212 is provided with motor support plate 214, the drive end of blowing motor 22 is provided with reduction gear 221, reduction gear 221 is fixed in on the motor support plate 214, blowing motor 22 is fixed in on the reduction gear 221 and with reduction gear 221 transmission is connected, physiosis axle 23 with reduction gear 221 transmission is connected. Specifically, the supporting legs 213 can support the material placing frame 21, the side frame 212 can be used for fixing the air expansion shaft 23, the motor supporting plate 214 can be used for fixing the speed reducer 221, and finally the material placing motor 22 and the material placing frame 21 are fixed, and the material placing motor 22 can better control the material placing of the material placing mechanism 20 through the arrangement of the speed reducer 221.

In another embodiment of the present invention, the discharging mechanism 20 further includes two opposite rotating frames 24, two of the rotating frames 24 are respectively fixed on two tops of the side frames 212, and two ends of the inflatable shaft 23 are respectively located in the two rotating frames 24 and rotatably connected to the rotating frames 24. Specifically, the two rotating frames 24 are arranged to provide convenience for the rotation connection of the air inflation shaft 23 and the material placing frame 21.

In another embodiment of the present invention, the rotating frame 24 includes a fixing seat 241, an articulated frame 242, a locking rod 243 and a fixing sleeve 244, the fixing seat 241 is fixed on the side frame 212, one end of the articulated frame 242 is hinged to the side frame 212, the locking rod 243 is passed through the other end of the articulated frame 242 and is connected with the fixing seat 241 by screw threads, the fixing sleeve 244 is fixed on the articulated frame 242 and between the fixing seats 241, two ends of the inflatable shaft 23 are respectively arranged in the fixing sleeve 244 and are rotatably connected with the fixing sleeve 244.

Specifically, the fixing seat 241 fixes the rotating frame 24 and the side frame 212, the hinge frame 242 can rotate relative to the fixing seat 241 to clamp the fixing sleeve 244 between the hinge frame 242 and the fixing seat 241, the lock rod 243 can lock the hinge frame 242 and the fixing seat 241, two ends of the inflatable shaft 23 are arranged in the fixing sleeve 244 to be capable of rotating, the position of the fixing sleeve 244 can be adjusted conveniently through the arrangement, and convenience is provided for discharging of the non-woven fabric 10 a.

In another embodiment of the present invention, the discharging mechanism 20 further includes a connecting assembly 25, the connecting assembly 25 includes a supporting frame 251, a connecting shaft 252 and a connecting wheel 253, the supporting frame 251 is fixed on the motor supporting plate 214 and is located on one side of the speed reducer 221, one end of the connecting shaft 252 passes through the supporting frame 251 and is connected to the speed reducer 221 in a transmission manner, the other end of the connecting shaft 252 is located on one side of the end portion of the inflatable shaft 23, the connecting wheel 253 is located between the inflatable shaft 23 and the connecting shaft 252 and is fixedly connected to the inflatable shaft 23 and the connecting shaft 252, and the connecting wheel 253 is sleeved on the surface of the connecting shaft 252 and is fixedly connected to the connecting shaft 252.

Specifically, the connecting shaft 252 can connect the inflatable shaft 23 with the speed reducer 221, the support frame 251 supports the connecting shaft 252, and the connecting wheel 253 can fix the connecting shaft 252 and the inflatable shaft 23, so that transmission between the discharging motor 22 and the inflatable shaft 23 is finally realized.

In another embodiment of the present invention, the surface of the connecting shaft 252 and the end of the inflatable shaft 23 close to the connecting shaft 252 are both provided with a key groove 254, the inside of the connecting wheel 253 is provided with a clamping protrusion 255 adapted to the key groove 254, and the clamping protrusion 255 is located in the key groove 254 and clamped with the key groove 254. Specifically, the connection wheel 253 is finally fixed to the connection shaft 252 and the inflatable shaft 23 through the matching of the key groove 254 and the clamping protrusion 255, so that the connection between the connection shaft 252 and the inflatable shaft 23 is realized.

In another embodiment of the present invention, the frame 10 is close to the one end of the material placing frame 21 is fixed with the transition support frame 11, the top of the transition support frame 251 is provided with two transition support plates 12, the transition support plate 12 is close to one side of the material placing frame 21 is provided with the transition arc surface 121, the transition arc surface 121 court the bottom direction of the transition support frame 11 extends. In particular, the transition arc 121 may prevent the non-woven fabric 10a from being scratched when being transferred to the frame 10.

The utility model discloses an in another embodiment, two the outside of transition backup pad 12 all is provided with limiting plate 13, the surface of transition support frame 11 is provided with spacing fixed block 14, spacing fixed block 14 one side with limiting plate 13 fixed connection, limiting plate 13 another side with the connection can be dismantled to transition support frame 11. Specifically, the limiting plate 13 can be limited on two sides of the non-woven fabric 10a, convenience is provided for transmission of the non-woven fabric 10a, the limiting plate 13 and the transition support frame 11 are fixed by the limiting fixing block 14, and convenience can be provided for position adjustment of the limiting plate 13, so that the non-woven fabric 10a is suitable for transmission of the non-woven fabrics 10a with different sizes.

In another embodiment of the present invention, two of the limiting plates 13 are close to one end of the material placing frame 21 and are provided with an open arc surface 131, and the open arc surface 131 faces away from the direction of the material placing frame 21. Specifically, the open arc surface 131 can increase the distance between the two limiting plates 13, so as to facilitate the input of the non-woven fabric 10a, and prevent the limiting plates 13 from scratching the non-woven fabric 10 a.

In another embodiment of the present invention, the material guiding mechanism 40 further includes a gas rod fixing frame 43 and two material guiding gas rods 44, the gas rod fixing frame 43 is fixed on the frame 10 and located below the material guiding plate 42, the material guiding plate 42 is close to one end of the material guiding frame 41 and the material guiding frame 41 are rotatably connected, the fixed end of the material guiding gas rod 44 is hinged to the gas rod fixing frame 43, the driving end of the material guiding gas rod 44 is hinged to one end of the material guiding frame 41, and the material guiding plate 42 is far away from the driving end of the material guiding frame 44. Specifically, the material guide plate 42 is driven by two material guide air rods 44 to rotate, so that convenience is provided for material guiding of the material guide plate 42.

In another embodiment of the present invention, the cutting mechanism 30 includes a feeding flattening component 70, a cutting component 60 and a discharging flattening component 50, the cutting component 60 includes a cutting frame 61, a cutting motor 62, a cutter fixing frame 63, a cutting hob cutter 64, the cutting frame 61 includes a top sliding frame 611 and is fixed on the side fixing frame 612 at both ends of the top sliding frame 611, the cutter fixing frame 63 includes a slider 631, a driving plate 632 and a cutter fixing plate 633, the surface of the top sliding frame 611 is provided with a slide rail 613, the slider 631 is connected to the surface of the slide rail 613 in a sliding manner, the driving plate 632 is fixed on the top surface of the slide rail 613, the cutter fixing plate 633 is fixed on the driving plate 632 is far away from one side of the top sliding frame 611, the cutting hob cutter 64 is connected to the bottom of the cutter fixing plate 633 in a rolling manner, the cutting motor 62 is fixed to the top sliding frame 611 and is used for driving the slider 631 is along the one side of the slide rail 613 The surface of the non-woven fabric is slid, the feeding flattening component 70 is positioned at one side of the cutting frame 61 and is used for rolling the non-woven fabric 10a entering the cutting component 60, and the discharging flattening component 50 is positioned at the other side of the cutting component 60 and is used for rolling the non-woven fabric 10a outputting the cutting component 60.

Specifically, the cutting mechanism 30 includes a feeding flattening assembly 70, a cutting assembly 60 and a discharging flattening assembly 50, the cutting assembly 60 includes a cutting frame 61, a cutting motor 62, a cutter fixing frame 63 and a cutting hob 64, the cutting frame 61 includes a top sliding frame 611 and a side fixing frame 612, the side fixing frame 612 can facilitate fixing of the cutting frame 61 and the rack 10, the cutter fixing frame 63 includes a slider 631, a driving plate 632 and a cutter fixing plate 633, a sliding rail 613 and a cutter fixing plate 633 are arranged on the surface of the top sliding frame 611 and are slidably connected to the surface of the sliding rail 613 through the slider 631, the cutter fixing plate 633 facilitates fixing of the cutting hob 64, the cutting motor 62 is fixed on the top sliding frame 611, during cutting, the feeding flattening assembly 70 receives the non-woven fabric 10a and rolls the non-woven fabric 10a and conveys the non-woven fabric towards the cutting assembly 60, and enters the discharging flattening assembly 50 after passing through the cutting assembly 60, the cutting motor 62 is started and drives the sliding block 631 to slide along the surface of the sliding rail 613, and drives the cutting hob 64 to roll and cut on the surface of the non-woven fabric 10a, after cutting, the feeding flattening component 70 continues to transmit the non-woven fabric 10a, the discharging flattening component 50 transmits the cut non-woven fabric 10a, and the cutting efficiency of the non-woven fabric 10a and the cutting precision of the non-woven fabric 10a can be effectively improved through the above arrangement.

In another embodiment of the present invention, the cutting assembly 60 further comprises two proximity switches 65, two proximity switches 65 are fixed at both ends of the top carriage 611, and two proximity switches are used for sensing the driving plate 632. Specifically, when proximity switch 65 senses that drive plate 632 is approaching, cutting motor 62 stops running, and simultaneously, cutting hob 64 completes the cutting of one station, and when cutting motor 62 restarts, cutting hob 64 will cut the next station.

In another embodiment of the present invention, the cutter fixing frame 63 further includes a hinge 634 and a limit support rod 635, one side of the hinge 634 is fixed to the top of the driving plate 632, the other side of the hinge 634 is fixed to the top of the cutter fixing plate 633, and the limit support rod 635 passes through the cutter fixing plate 633 and is fixedly connected to the driving plate 632. Specifically, the distance between the cutter fixing plate 633 and the driving plate 632 can be changed by changing the size of the hinge 634 through the above arrangement, so that the position of the cutting hob 64 is adjusted, and the cutting accuracy of the non-woven fabric 10a is improved.

In another embodiment of the present invention, the cutting assembly 60 further includes a transmission belt 66, the two ends of the top sliding frame 611 are respectively fixed with a transmission fixing frame 614, the transmission fixing frame 614 is provided with a transmission shaft 615, the transmission shaft 615 is fixedly connected with the crankshaft of the cutting motor 62, the surface of the transmission shaft 615 is fixed with a belt pulley 616, the two end covers of the transmission belt 66 are disposed on the surface of the belt pulley 616, and the driving plate 632 is fixed on the transmission belt 66. Specifically, when the cutting motor 62 is started, the transmission shaft 615 is driven to rotate, the transmission shaft 615 rotates to drive the belt pulley 616 to rotate, the belt pulley 616 drives the transmission belt 66 to run, and finally the sliding block 631 is driven to slide along the surface of the sliding rail 613, so that the automatic cutting of the cutting assembly 60 is realized.

In another embodiment of the present invention, the cutting assembly 60 further includes a limiting frame 67, the limiting frame 67 includes a first limiting plate 671, a second limiting plate 672 and two relatively disposed side plates 673, the first limiting plate 671 and the second limiting plate 672 are relatively disposed and all located below the top sliding frame 611, a limiting conveying passage 674 is disposed between the first limiting plate 671 and the second limiting plate 672, and the two side plates 673 are respectively fixed at two ends of the first limiting plate 671. Specifically, before cutting, the nonwoven fabric 10a passes through the limiting conveying passage 674 between the first limiting plate 671 and the second limiting plate 672, so that the nonwoven fabric 10a is limited, the cutting of the nonwoven fabric 10a is facilitated, and the cutting precision of the nonwoven fabric 10a is improved.

In another embodiment of the present invention, the stop block 67 further comprises a lifting cylinder 675, the lifting cylinder 675 is fixed on the bottom surface of the top sliding frame 611, and the second stop plate 672 is fixed on the driving end of the lifting cylinder 675. Specifically, the second limiting plate 672 can be driven to lift by starting the lifting cylinder 675, so that the height of the limiting conveying passage 674 is adjusted, and the limiting frame 67 is suitable for conveying the non-woven fabrics 10a with different thicknesses.

In another embodiment of the present invention, the feeding flattening assembly 70 includes a feeding fixing frame 71, a first rolling motor 72 and two feeding rollers 73, the feeding fixing frame 71 is located on one side of the cutting frame 61, two feeding rollers 73 are rotatably connected to the feeding fixing frame 71, the first rolling motor 72 is fixed to the feeding fixing frame 71 and is connected to one of the feeding rollers 73 in a driving manner. Specifically, during the transportation, the non-woven fabrics 10a that treats cutting passes between two feeding compression rollers 73, and first roll-in motor 72 starts to drive one of them feeding compression roller 73 and rolls, and this feeding compression roller 73 rolls and drives another feeding compression roller 73 and rolls, finally drives non-woven fabrics 10a and advances, realizes the flattening and the transport of the non-woven fabrics 10a that treats cutting towards cutting assembly 60.

In another embodiment of the present invention, the feeding flattening assembly 70 further includes a feeding adjusting cylinder 74, a first feeding adjusting block 75 and a second feeding adjusting block 76, the first feeding adjusting block 75 is fixed on the feeding fixing frame 71, the second feeding adjusting block 76 is relatively disposed to the first feeding adjusting block 75 and slidably connected to the feeding fixing frame 71, the feeding adjusting cylinder 74 is fixed on the feeding fixing frame 71 and drivingly connected to the second feeding adjusting block 76, two feeding press rollers 73 are respectively rotatably connected to the first feeding adjusting block 75 and the inside of the second feeding adjusting block 76. Specifically, the distance between the two feeding rollers 73 can be adjusted by the feeding adjustment cylinder 74, which facilitates the conveyance of the nonwoven fabric 10 a.

In another embodiment of the present invention, the discharging flattening assembly 50 includes a feeding and discharging fixing frame 51, a second roller press 52 and two discharging rollers 53, the discharging fixing frame 51 is located on the other side of the cutting frame 61, two discharging rollers 53 are rotatably connected to the discharging fixing frame 51, the second roller press 52 is fixed to the discharging fixing frame 51 and is connected to one of the discharging rollers 53 in a driving manner. Specifically, the cut nonwoven fabric 10a passes through between the two feeding press rollers 73, the second rolling motor 52 is started to drive one of the discharging press rollers 53 to roll, the other feeding and discharging press roller 53 is driven to roll when the discharging press roller 53 rolls, and finally the nonwoven fabric 10a is driven to advance, so that the flattening and the output of the cut nonwoven fabric 10a are realized.

In another embodiment of the present invention, the feeding flattening assembly 70 further includes an ejection of compact adjusting cylinder 54, a first ejection of compact adjusting block 55 and a second ejection of compact adjusting block 56, the first ejection of compact adjusting block 55 is fixed in on the ejection of compact mount 51, the second ejection of compact adjusting block 56 with the first ejection of compact adjusting block 55 set up relatively and with ejection of compact mount 51 sliding connection, the ejection of compact adjusting cylinder 54 is fixed in on the ejection of compact mount 51 and with the drive of second ejection of compact adjusting block 56 is connected, two the ejection of compact compression roller 53 rotate respectively connect in first ejection of compact adjusting block 55 with the inside of second ejection of compact adjusting block 56. Specifically, the distance between the two discharge rollers 53 can be adjusted by the discharge adjusting cylinder 54, which facilitates the conveyance of the nonwoven fabric 10 a.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a mechanism is decided in non-woven fabrics flattening transport which characterized in that: comprises a feeding flattening component, a cutting component and a discharging flattening component, wherein the cutting component comprises a cutting frame, a cutting motor, a cutter fixing frame and a cutting hob, the cutting frame comprises a top sliding frame and side fixing frames fixed at two ends of the top sliding frame, the cutter fixing frame comprises a sliding block, a driving plate and a cutter fixing plate, a sliding rail is arranged on the surface of the top sliding frame, the sliding block is connected on the surface of the sliding rail in a sliding manner, the driving plate is fixed on the top surface of the sliding rail, the cutter fixing plate is fixed on one side, away from the top sliding frame, of the driving plate, the cutting hob is connected at the bottom of the cutter fixing plate in a rolling manner, the cutting motor is fixed on the top sliding frame and is used for driving the sliding block to slide along the surface of the sliding rail, the feeding flattening component is positioned on one side of the cutting frame and is used for rolling the non-woven fabric entering the cutting component, the discharging flattening component is located on the other side of the cutting component and used for rolling the non-woven fabric output by the cutting component.

2. The non-woven fabric flattening, conveying and cutting mechanism according to claim 1, characterized in that: the cutting assembly further comprises two proximity switches, the two proximity switches are fixed at two ends of the top sliding frame, and the two proximity switches are used for sensing the driving plate.

3. The non-woven fabric flattening, conveying and cutting mechanism according to claim 1, characterized in that: the cutter fixing frame further comprises a hinge and a limiting support rod, one side of the hinge is fixed to the top of the driving plate, the other side of the hinge is fixed to the top of the cutter fixing plate, and the limiting support rod penetrates through the cutter fixing plate and is fixedly connected with the driving plate.

4. The non-woven fabric flattening, conveying and cutting mechanism according to claim 1, characterized in that: the cutting assembly further comprises a transmission belt, transmission fixing frames are fixed at two ends of the top sliding frame respectively, transmission shafts are arranged on the transmission fixing frames and fixedly connected with a machine shaft of the cutting motor, belt pulleys are fixed on the surfaces of the transmission shafts, the two ends of the transmission belt are sleeved on the surfaces of the belt pulleys, and the drive plate is fixed on the transmission belt.

5. The non-woven fabric flattening, conveying and cutting mechanism according to claim 1, characterized in that: the cutting assembly further comprises a limiting frame, the limiting frame comprises a first limiting plate, a second limiting plate and two side plates which are arranged oppositely, the first limiting plate and the second limiting plate are arranged oppositely and are located below the top sliding frame, a limiting conveying channel is arranged between the first limiting plate and the second limiting plate, and the side plates are fixed at two ends of the first limiting plate respectively.

6. The non-woven fabric flattening, conveying and cutting mechanism according to claim 5, characterized in that: the limiting frame further comprises a lifting cylinder, the lifting cylinder is fixed on the bottom surface of the top sliding frame, and the second limiting plate is fixed on the driving end of the lifting cylinder.

7. The non-woven fabric flattening, conveying and cutting mechanism according to any one of claims 1 to 6, characterized in that: the feeding flattening assembly comprises a feeding fixing frame, a first rolling motor and two feeding compression rollers, wherein the feeding fixing frame is located on one side of the cutting frame, the feeding compression rollers are rotationally connected to the feeding fixing frame, and the first rolling motor is fixed on the feeding fixing frame and is in driving connection with one of the feeding compression rollers.

8. The non-woven fabric flattening, conveying and cutting mechanism according to claim 7, characterized in that: the feeding flattening assembly further comprises a feeding adjusting cylinder, a first feeding adjusting block and a second feeding adjusting block, the first feeding adjusting block is fixed on the feeding fixing frame, the second feeding adjusting block is arranged relative to the first feeding adjusting block and is in sliding connection with the feeding fixing frame, the feeding adjusting cylinder is fixed on the feeding fixing frame and is in driving connection with the second feeding adjusting block, and the feeding compression rollers are respectively connected with the first feeding adjusting block and the second feeding adjusting block in a rotating mode.

9. The non-woven fabric flattening, conveying and cutting mechanism according to any one of claims 1 to 6, characterized in that: the discharging flattening assembly comprises a feeding and discharging fixing frame, a second rolling motor and two discharging compression rollers, the discharging fixing frame is located on the other side of the cutting frame, the discharging compression rollers are rotatably connected to the discharging fixing frame, the second rolling motor is fixed to the discharging fixing frame and one of the discharging compression rollers is in driving connection with the discharging compression roller.

10. The non-woven fabric flattening, conveying and cutting mechanism according to claim 9, characterized in that: the feeding flattening assembly further comprises a discharging adjusting cylinder, a first discharging adjusting block and a second discharging adjusting block, the first discharging adjusting block is fixed on the discharging fixing frame, the second discharging adjusting block is arranged relative to the first discharging adjusting block and is in sliding connection with the discharging fixing frame, the discharging adjusting cylinder is fixed on the discharging fixing frame and is in driving connection with the second discharging adjusting block, and the discharging compression rollers are respectively and rotatably connected with the first discharging adjusting block and the second discharging adjusting block.

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