CN114294928B - Drying treatment machine for preparing regenerated protein cellulose fibers - Google Patents

Abstract

The invention relates to the technical field of fiber preparation and production, in particular to a drying treatment machine for regenerated protein cellulose fiber preparation. The invention can solve the problems that the existing machine usually directly dries the fibers by hot air when drying the regenerated protein cellulose fibers, and the hot air can not directly dry the internal fibers, thereby reducing the fiber drying speed and the like. The drawing device adopted by the drying treatment machine for preparing the regenerated protein cellulose fibers can be used for drawing the fibers up and down, so that gaps among the fibers are increased, the inside and the outside of the fibers are quickly dried at the same time, and the drying rate of the fibers is improved.

Description

Drying treatment machine for preparing regenerated protein cellulose fibers

Technical Field

The invention relates to the technical field of fiber preparation and production, in particular to a drying treatment machine for preparing regenerated protein cellulose fibers.

Background

Regenerated protein cellulose fiber is a category of artificial fiber, and refers to fiber prepared by dissolving protein extracted from natural substances such as milk, soybean, peanut, corn and the like as raw materials in a proper solvent; the fiber production comprises oiling, opening, washing, drying, weighing and the like.

At present, when the existing machine dries the regenerated protein cellulose fiber, the following defects generally exist: 1. the existing regenerated protein cellulose fibers are generally conveyed in a rolling transmission mode, and are directly dried by hot air in the conveying process, so that the drying purpose is achieved, but the hot air cannot directly dry the internal fibers by using the method, so that the drying rate of the fibers is reduced; 2. the existing regenerated protein cellulose fiber can compress the opened fiber again when the fiber is conveyed by adopting a rolling conveying mode, and can not be subjected to secondary opening treatment in the conveying process, so that the loosening degree of the fiber is reduced.

Disclosure of Invention

The technical problem to be solved is that the invention provides a drying treatment machine for preparing regenerated protein cellulose fiber, which can solve the problems existing in the drying of the regenerated protein cellulose fiber.

According to the technical scheme, the drying machine for preparing the regenerated protein cellulose fibers comprises a drying box, limiting blocks, pulling devices, a driving motor, a blocking device and an air inlet device, wherein the drying box is of a rectangular structure, the two limiting blocks are symmetrically arranged on the inner wall of the drying box close to the left end up and down, the pulling devices are arranged on the right sides of the two limiting blocks and connected with the drying box, the two pulling devices are symmetrically distributed up and down, the output shaft of the driving motor is arranged at the rear end of the upper pulling device on the drying box, the driving motor is fixedly connected with the drying box through a motor frame, the blocking device is symmetrically arranged on the inner wall of the drying box close to the right end up and down, and the air inlet device is arranged at the upper end of the drying box.

The dragging device comprises a rotary rod, connecting rings, connecting plates, arc-shaped guide blocks, cylindrical rods, a cam ring, a rectangular plate, a dragging mechanism and a rotary gear, wherein the front side wall and the rear side wall of the drying box are jointly and rotatably connected with the rotary rod, the two ends of the rotary rod are respectively in through fit with the front side wall and the rear side wall of the drying box, the outer surface of the rotary rod is rotatably connected with a plurality of connecting rings, the connecting rings are far away from two ends of the symmetry center of the rotary rod, the connecting plates are installed at one ends of the connecting rings, the connecting rings are fixedly connected with the inner wall of the drying box, the arc-shaped guide blocks are installed at the positions, close to the right sides, of the front ends of the connecting rings, a slope is arranged on the arc-shaped guide blocks, a plurality of cylindrical rods which are circumferentially and uniformly distributed are installed in the middle of the front ends of the cylindrical rods, the cam ring is installed at the front ends of the rectangular plates, the rectangular plates are fixedly connected with the rotary rod, the dragging mechanism is installed at one end, the rotary gear is installed at the front end of the rotary rod, the two rotary gears mesh.

The dragging mechanism comprises a rectangular block, a sliding strip, a square plate, a connecting spring, a traction rod, a reset spring, a guide rod and a grabbing plate, wherein the rectangular block is installed at one end, far away from the rotating rod, of the rectangular plate, a rectangular through hole is formed in the middle of the rectangular block, the sliding strip penetrates through the rectangular through hole in a sliding mode, the square plate is installed at one end, close to the cam ring, of the sliding strip, a steel ball is rotatably connected to one end, close to the cam ring, of the square plate, the connecting spring is symmetrically installed between one end, far away from the cam ring, of the square plate and the rectangular block in a left-right mode, a cylindrical groove is formed in one end, far away from the square plate, of the sliding strip, the traction rod is connected inside the cylindrical groove in a sliding mode, the reset spring is fixedly connected between one end, close to the square plate, of the traction rod and the end, close to the square plate, of the guide rod and the sliding strip slide up and down in a penetrating mode, the rectangular opening is formed in one end, far away from the square plate, of the sliding strip, the grabbing plate is connected between the front side wall and the rear side wall of the rectangular opening in a rotating mode through the torsion spring, and the steel wire rope is fixedly connected between the grabbing plate and the traction rod.

As a preferred technical scheme, the blocking device comprises blocking blocks, scraping plates and supporting springs, the blocking blocks are symmetrically arranged on the inner wall of the drying box at the position close to the right end up and down, an inclined surface is arranged on one side of the blocking blocks close to the rotating rod, the supporting springs are fixedly connected on the inclined surface, the scraping plates are fixedly connected to one ends of the supporting springs far away from the inclined surface, and the right end of the scraping plates is rotatably connected with the blocking blocks through hinges.

As a preferred technical scheme of the invention, the air inlet device comprises an air pump, a connecting pipe and an air inlet frame, the air pump is mounted at the upper end of the drying box, the connecting pipe is symmetrically mounted at the front end and the rear end of the air pump, the air inlet frame is mounted at the lower end of the connecting pipe, the air inlet frame is fixedly connected with the side wall of the drying box, and the air inlet frame is communicated with the drying box.

As a preferred technical scheme of the invention, the upper wall of the drying box is symmetrically provided with exhaust holes in the front and back directions, and the wall of each exhaust hole is provided with a filter plate.

As a preferable technical scheme of the invention, a plurality of grabbing rods are arranged on the grabbing plate, and a semicircular bulge is arranged at one end of each grabbing rod, which is far away from the grabbing plate.

As a preferable technical scheme of the invention, one end of the scraping plate, which is far away from the baffle block, is provided with a plurality of strip-shaped openings, and the strip-shaped openings are in sliding fit with the grabbing rod.

As a preferable technical scheme of the invention, an arc-shaped groove is formed in one end, close to the pulling device, of the limiting block, an inclined angle surface is formed in one end, far away from the pulling device, of the limiting block, and the distance between the upper inclined angle surface and the lower inclined angle surface is gradually reduced from left to right.

As a preferred technical scheme of the invention, the outer surface of the guide rod is rotatably connected with a rolling sleeve, and the rolling sleeve is in sliding fit with the slope surface on the arc-shaped guide block.

The drying machine for preparing the regenerated protein cellulose fibers has the beneficial effects that 1, the pulling device adopted by the drying machine for preparing the regenerated protein cellulose fibers can pull the fibers up and down, so that gaps among the fibers are increased, the inside and the outside of the fibers are dried quickly at the same time, and the drying speed of the fibers is improved.

2. The drawing device adopted by the regenerated protein cellulose fiber preparation and drying treatment machine provided by the invention can be used for drawing the fiber again, so that the loosening degree of the fiber is improved, the drawn fiber can be blocked, and the phenomenon of fiber breakage is avoided.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a perspective view of the present invention from a first perspective.

Fig. 2 is a perspective view of the present invention from a second perspective.

Fig. 3 is a front view of the present invention.

Fig. 4 is a left side view of the present invention.

Fig. 5 is a cross-sectional view a-a of fig. 3 of the present invention.

Fig. 6 is a cross-sectional view of B-B of fig. 3 in accordance with the present invention.

Fig. 7 is a cross-sectional view of C-C of fig. 4 in accordance with the present invention.

Fig. 8 is an enlarged view of the invention at N in fig. 5.

Fig. 9 is an enlarged view at X in fig. 7 of the present invention.

Fig. 10 is an enlarged view of the invention at D in fig. 7.

FIG. 11 is a schematic view of the structure of the rotating lever, connecting ring, connecting plates, arc-shaped guide blocks, cylindrical lever, cam ring, rectangular plate and pulling mechanism of the present invention.

Fig. 12 is a schematic view of the construction of the scraping plate of the present invention.

In the figure: 1. a drying oven; 2. a limiting block; 3. a pulling device; 31. rotating the rod; 32. a connecting ring; 33. connecting plates; 34. an arc-shaped guide block; 35. a cylindrical rod; 36. a cam ring; 37. a rectangular plate; 38. a pulling mechanism; 381. a rectangular block; 382. a slide bar; 383. a square plate; 384. a connecting spring; 385. a draw bar; 386. a return spring; 387. a guide bar; 388. grabbing a plate; 39. a rotating gear; 4. a drive motor; 5. a blocking device; 51. a separating block; 52. scraping the plate; 53. a support spring; 6. an air intake device; 61. an air pump; 62. a connecting pipe; 63. an air inlet frame.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Referring to fig. 1-4, a regenerated protein cellulose fiber preparation drying process machinery, include drying cabinet 1, stopper 2, drag device 3, driving motor 4, separate fender device 5 and air inlet unit 6, drying cabinet 1 be the rectangle structure, two stopper 2 are installed to the upper and lower symmetry near the left end department of 1 inner wall of drying cabinet, two stopper 2 right-hand all is provided with and pulls device 3, pulls device 3 and drying cabinet 1 and is connected, two drag device 3 longitudinal symmetry and distribute, and the upside that is located on drying cabinet 1 pulls the output shaft that device 3 rear end installed driving motor 4, and driving motor 4 passes through motor frame and drying cabinet 1 fixed connection, and 1 inner wall of drying cabinet is close to right-hand member department longitudinal symmetry and installs and separate fender device 5, and air inlet unit 6 is installed to 1 upper end of drying cabinet.

Referring to fig. 7, stopper 2 on be close to the one end of dragging device 3 and be provided with the arc wall, the one end of keeping away from on the stopper 2 and dragging device 3 is provided with the inclination face, turn right from a left side and reduce gradually the distance of two upper and lower inclination faces, during concrete work, the inclination face on the stopper 2 is convenient for the fibre to get into drying cabinet 1 in, the arc wall on the stopper 2 is convenient for drag the rotation of mechanism 38.

Referring to fig. 2, the air inlet device 6 includes an air pump 61, a connecting pipe 62 and an air inlet frame 63, the air pump 61 is installed at the upper end of the drying box 1, the connecting pipe 62 is symmetrically installed at the front end and the rear end of the air pump 61, the air inlet frame 63 is installed at the lower end of the connecting pipe 62, the air inlet frame 63 is fixedly connected with the side wall of the drying box 1, the air inlet frame 63 is communicated with the drying box 1, during specific work, an external hot air pipe is manually connected with the air pump 61, the air pump 61 injects hot air into the air inlet frame 63 through the connecting pipe 62, and the hot air in the air inlet frame 63 enters the drying box 1 and is dried on fibers.

Referring to fig. 1, the drying oven 1 is provided with exhaust holes in front and back symmetry, the filter is installed on the wall of the exhaust hole, when the drying oven works specifically, the exhaust holes in the upper wall of the drying oven 1 are convenient for the discharge of water vapor in the drying oven 1, the filter has the functions of blocking and filtering, and external impurities are prevented from entering the drying oven 1.

Referring to fig. 5-8, the pulling device 3 includes a rotating rod 31, a connecting ring 32, a connecting plate 33, arc-shaped guide blocks 34, cylindrical rods 35, a cam ring 36, a rectangular plate 37, a pulling mechanism 38 and a rotating gear 39, the front and rear side walls of the drying box 1 are jointly and rotatably connected with the rotating rod 31, two ends of the rotating rod 31 are respectively in through fit with the front and rear side walls of the drying box 1, the outer surface of the rotating rod 31 is rotatably connected with a plurality of connecting rings 32, the connecting plate 33 is installed at one end of the connecting ring 32 far away from the symmetric center of the two rotating rods 31, the connecting plate 33 is fixedly connected with the inner wall of the drying box 1, the arc-shaped guide blocks 34 are installed at the position close to the right side of the front end of the connecting ring 32, a slope is arranged on the arc-shaped guide blocks 34, a plurality of cylindrical rods 35 uniformly distributed in the circumferential direction are installed in the middle of the connecting ring 32, the cam ring 36 is installed at the front end of the plurality of the cylindrical rods 35, the rectangular plate 37 is arranged in front of the cam ring 36, the rectangular plate 37 is fixedly connected with the rotating rod 31, one end of the rectangular plate 37, which is far away from the rotating rod 31, is provided with a pulling mechanism 38, the front end of the rotating rod 31 is provided with a rotating gear 39, the two rotating gears 39 are meshed, during the specific work, fibers after being woven and cleaned are manually coiled on the existing round rod, the round rod is further penetrated into the drying box 1 from between the two limiting blocks 2 and continuously penetrates through the two rotating rods 31, then the round rod penetrates out of the drying box 1 from the middle of the two baffle devices 5 to be separated from the fibers, the fibers are connected with the external existing conveying device, the driving motor 4 is manually started, the driving motor 4 drives the upper rotating rod 31 on the drying box 1 to rotate anticlockwise, the upper rotating rod 31 on the drying box 1 drives the corresponding rotating gear 39 to rotate, the two rotating gears 39 are in meshed transmission, the two rotating rods 31 drive the pulling mechanism 38 to pull the fibers up and down through the rectangular plate 37, thereby increase fibrous inside space, the fibrous inside rapid draing of being convenient for, rotary rod 31 drives and drags mechanism 38 and remove to cam ring 36 protruding department after, drag mechanism 38 extension, thereby the height of dragging about the fibre has been increased, rotary rod 31 drives and drags mechanism 38 and remove to arc guide block 34 department after, domatic and the cooperation of dragging mechanism 38 on the arc guide block 34, make the fibre from dragging mechanism 38 and go up the landing, remove and drag fibrous, later repetition drags the fibre.

Referring to fig. 8-11, the pulling mechanism 38 includes a rectangular block 381, a sliding bar 382, a square plate 383, a connecting spring 384, a pulling rod 385, a return spring 386, a guide rod 387, and a grasping plate 388, the rectangular block 381 is installed at one end of the rectangular plate 37 far from the rotating rod 31, a rectangular through hole is formed in the middle of the rectangular block 381, the sliding bar 382 penetrates through the rectangular through hole in a sliding manner, the square plate 383 is installed at one end of the sliding bar 382 close to the cam ring 36, a steel ball is rotatably connected to one end of the square plate 383 close to the cam ring 36, the connecting spring 384 is symmetrically installed between one end of the square plate 383 far from the cam ring 36 and the rectangular block 381 in a left-right manner, a cylindrical groove is formed at one end of the sliding bar 382 far from the square plate 383, the pull rod 385 is connected in the cylindrical groove in a sliding manner, and the return spring 386 is fixedly connected between one end of the pulling rod 385 close to the square plate 383 and the cylindrical groove, one end of the draw bar 385 close to the square plate 383 is fixedly connected with a guide rod 387, the guide rod 387 and the slide bar 382 slide up and down and are in penetrating fit, the outer surface of the guide rod 387 is rotatably connected with a rolling sleeve, the rolling sleeve is in sliding fit with the slope surface of the arc-shaped guide block 34, one end of the slide bar 382 far away from the square plate 383 is provided with a rectangular opening, the front side wall and the rear side wall of the rectangular opening are rotatably connected with a grabbing plate 388 through torsion springs, a steel wire rope is fixedly connected between the grabbing plate 388 and the draw bar 385, a plurality of grabbing rods are arranged on the grabbing plate 388, one end of the grabbing rods far away from the grabbing plate 388 is provided with semicircular bulges, during specific work, the rotary rod 31 drives the rectangular block 381 to rotate through the rectangular plate 37, the rectangular block 381 drives the slide bar 382 to rotate, the slide bar 382 rotates along the cam ring 36 through steel balls on the square plate 383, the slide bar 382 drives the grabbing rod 388 to pull fibers, and when the steel balls on the square plate 383 move to the bulges of the cam ring 36, square board 383 atress pushes away sliding strip 382, sliding strip 382 drives the traction lever 385 and removes, sliding strip 382 drives the board 388 of grabbing to the direction of keeping away from rotary rod 31 extends simultaneously, thereby the height that pulls from top to bottom of fibre has been increased, when rectangle piece 381 drives sliding strip 382 and removes to arc guide block 34 department, domatic and the rolling cover cooperation on the guide arm 387 on the arc guide block 34, guide arm 387 moves to rotary rod 31 direction under domatic direction, guide arm 387 drives the traction lever 385 and removes, the traction lever 385 drives the board 388 of grabbing through the wire rope and rotates, make the contained angle between board 388 of grabbing and the traction lever 385 be 180, be convenient for the fibre to follow and grab the pole landing, thereby relieve the pulling to the fibre.

Referring to fig. 7 and 12, the blocking device 5 includes a blocking block 51, a scraping plate 52 and a supporting spring 53, the blocking block 51 is vertically symmetrically installed on the inner wall of the drying box 1 near the right end, an inclined plane is disposed on one side of the blocking block 51 near the rotating rod 31, the supporting spring 53 is fixedly connected to the inclined plane, the supporting spring 53 is fixedly connected to the scraping plate 52, the right end of the scraping plate 52 is rotatably connected to the blocking block 51 through a hinge, a plurality of bar-shaped openings are formed in one end of the scraping plate 52 far from the blocking block 51, the bar-shaped openings are in sliding fit with the grabbing rod, when the scraping plate works specifically, the fiber is dragged by the grabbing rod on the grabbing plate 388, when the grabbing rod 385 moves to the arc-shaped guide block 34, the grabbing rod on the grabbing plate 388 is matched with the bar-shaped openings on the scraping plate 52, and the fiber on the grabbing rod is scraped.

And (3) during drying: s1: the fibers after being woven and cleaned manually penetrate into the drying box 1 from the space between the two limiting blocks 2, then penetrate through the space between the two rotating rods 31, and then penetrate out of the drying box 1 from the middle of the two blocking devices 5 and are connected with an existing external conveying device.

S2: the manual work is connected external hot-blast main with air pump 61, and air pump 61 injects hot-blast into frame 63 of admitting air through connecting pipe 62, and the hot-blast entering drying cabinet 1 in the frame 63 of admitting air is and is dried the processing to the fibre, and manual start driving motor 4, driving motor 4 drive are located the upside rotary rod 31 on drying cabinet 1 and are rotated, and two rotary rods 31 are through the linkage of rotatory gear 39.

S3: the rotating rod 31 drives the rectangular block 381 to rotate through the rectangular plate 37, the rectangular block 381 drives the sliding strip 382 to rotate, the sliding strip 382 rotates along the cam ring 36 through steel balls on the square plate 383, the sliding strip 382 drives the grabbing rod on the grabbing plate 388 to pull fibers through the traction rod 385, after the steel balls on the square plate 383 move to the protruding position of the cam ring 36, the square plate 383 is stressed and pushes the sliding strip 382, the sliding strip 382 drives the traction rod 385 to move, the traction rod 385 drives the grabbing plate 388 to extend in the direction far away from the rotating rod 31, and hot air is used for drying the fibers.

S4: and drawing the dried fiber by an external conveying device, and finishing drying.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a regenerated protein cellulose fiber prepares drying process machinery, includes drying cabinet (1), stopper (2), drags device (3), driving motor (4), separates fender device (5) and air inlet unit (6), its characterized in that: the drying box (1) is of a rectangular structure, two limiting blocks (2) are symmetrically arranged on the inner wall of the drying box (1) close to the left end in an up-down mode, the two limiting blocks (2) are provided with pulling devices (3) on the right side, the pulling devices (3) are connected with the drying box (1), the two pulling devices (3) are symmetrically distributed in the up-down mode, the output shaft of a driving motor (4) is arranged at the rear end of the upper pulling device (3) on the drying box (1), the driving motor (4) is fixedly connected with the drying box (1) through a motor frame, baffle devices (5) are symmetrically arranged on the inner wall of the drying box (1) close to the right end in the up-down mode, and an air inlet device (6) is arranged at the upper end of the drying box (1); wherein:

the dragging device (3) comprises a rotating rod (31), a connecting ring (32), a connecting plate (33), arc-shaped guide blocks (34), cylindrical rods (35), a cam ring (36), a rectangular plate (37), a dragging mechanism (38) and a rotating gear (39), wherein the front side wall and the rear side wall of the drying box (1) are jointly and rotatably connected with the rotating rod (31), the two ends of the rotating rod (31) are respectively in running fit with the front side wall and the rear side wall of the drying box (1), the outer surface of the rotating rod (31) is rotatably connected with a plurality of connecting rings (32), the connecting ring (32) is far away from two connecting rods (31), the connecting plate (33) is installed at one end of the symmetrical center of the rotating rod (31), the connecting plate (33) is fixedly connected with the inner wall of the drying box (1), the arc-shaped guide blocks (34) are installed at the positions, close to the right side, of the front end of the connecting ring (32), slope surfaces are provided on the arc-shaped guide blocks (34), the cylindrical rods (35) which are uniformly distributed in the circumferential direction are installed at the middle part, a cam ring (36) is jointly installed at the front ends of the cylindrical rods (35), a rectangular plate (37) is arranged in front of the cam ring (36), the rectangular plate (37) is fixedly connected with the rotating rod (31), a pulling mechanism (38) is installed at one end, far away from the rotating rod (31), of the rectangular plate (37), a rotating gear (39) is installed at the front end of the rotating rod (31), and the two rotating gears (39) are meshed;

the dragging mechanism (38) comprises a rectangular block (381), a sliding bar (382), a square plate (383), a connecting spring (384), a traction rod (385), a return spring (386), a guide rod (387) and a grabbing plate (388), wherein the rectangular block (381) is installed at one end, away from the rotating rod (31), of the rectangular plate (37), a rectangular through hole is formed in the middle of the rectangular block (381), the sliding bar (382) penetrates through the rectangular through hole in a sliding mode, the square plate (383) is installed at one end, close to the cam ring (36), of the sliding bar (382), a steel ball is rotatably connected to one end, close to the cam ring (36), of the square plate (383), the connecting spring (384) is installed between one end, away from the cam ring (36), of the square plate (383) of the square plate (382) and the rectangular block (381) in a left-right symmetrical mode, a cylindrical groove is formed in one end, away from the square plate (383), and the interior of the cylindrical groove is connected with the traction rod (385) in a sliding mode, a return spring (386) is fixedly connected between one end, close to the square plate (383), of the draw bar (385) and the cylindrical groove, a guide rod (387) is fixedly connected to one end, close to the square plate (383), of the draw bar (385), the guide rod (387) and the sliding strip (382) slide up and down and are matched in a penetrating mode, a rectangular opening is formed in one end, far away from the square plate (383), of the sliding strip (382), a grabbing plate (388) is rotatably connected between the front side wall and the rear side wall of the rectangular opening through a torsion spring, and a steel wire rope is fixedly connected between the grabbing plate (388) and the draw bar (385);

the baffle device (5) comprises baffle blocks (51), scraping plates (52) and supporting springs (53), the baffle blocks (51) are vertically and symmetrically arranged on the inner wall of the drying box (1) close to the right end, an inclined plane is arranged on one side of the baffle blocks (51) close to the rotating rod (31), the supporting springs (53) are fixedly connected on the inclined plane, the scraping plates (52) are fixedly connected on one ends, far away from the inclined plane, of the supporting springs (53), and the right end of the scraping plates (52) is rotatably connected with the baffle blocks (51) through hinges;

and one end of the scraping plate (52) far away from the separating stop block (51) is provided with a plurality of strip-shaped openings, and the strip-shaped openings are in sliding fit with the grabbing rod.

2. The regenerated protein cellulose fiber producing and drying machine of claim 1, further comprising: air inlet unit (6) include air pump (61), connecting pipe (62) and admit air frame (63), drying cabinet (1) upper end install air pump (61), connecting pipe (62) are installed to both ends symmetry around air pump (61), admit air frame (63) are installed to connecting pipe (62) lower extreme, admit air frame (63) and drying cabinet (1) lateral wall fixed connection, admit air frame (63) and drying cabinet (1) intercommunication.

3. The regenerated protein cellulose fiber producing and drying machine of claim 1, further comprising: the drying box (1) upper wall front and back symmetry seted up the exhaust hole, the filter is installed to the exhaust hole pore wall.

4. The regenerated protein cellulose fiber producing and drying machine of claim 1, further comprising: a plurality of grabbing rods are mounted on the grabbing plate (388), and semicircular bulges are arranged at one ends of the grabbing rods, which are far away from the grabbing plate (388).

5. The regenerated protein cellulose fiber producing and drying machine of claim 1, further comprising: stopper (2) on be close to the one end of dragging device (3) and be provided with the arc wall, the one end of keeping away from on stopper (2) and dragging device (3) is provided with the rake face, the distance of two upper and lower rake faces is turned right from a left side and is reduced gradually.

6. The regenerated protein cellulose fiber producing and drying machine of claim 1, further comprising: the outer surface of the guide rod (387) is rotatably connected with a rolling sleeve, and the rolling sleeve is in sliding fit with the slope surface on the arc-shaped guide block (34).

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