CN114935253B - Durable hollow fiber processing equipment and preparation method - Google Patents

Abstract

The invention discloses durable hollow fiber processing equipment and a preparation method, wherein the durable hollow fiber processing equipment comprises a placing frame, a placing structure arranged on the placing frame and used for placing hollow fibers, a fixing structure arranged on the placing frame and used for fixedly supporting the hollow fibers, a drying structure arranged on the placing frame and used for drying the hollow fibers, a blowing structure arranged on the drying structure and used for blowing hot air, a transmission structure arranged on the drying structure and used for driving the blowing structure to work, a collecting structure arranged on the placing frame and used for collecting liquid, and a positioning structure arranged on the collecting structure and used for fixing the collecting structure; through installing the structure of placing on the rack, can be convenient for hang the hollow fiber and place, can also prevent that hollow fiber from dropping when the rack removes moreover, can carry out tensile processing to the hollow fiber of placing on the rack through fixed knot constructs simultaneously.

Description

Durable hollow fiber processing equipment and preparation method

Technical Field

The invention relates to the technical field of hollow fiber processing, in particular to durable hollow fiber processing equipment and a preparation method thereof.

Background

Hollow fiber refers to chemical fiber with fine tubular cavity in the fiber axis. The through fiber is a chemical fiber with a tubular cavity in the axial direction. Can be used for winter wear, bedding, padding and the like; when the hollow fiber membrane is processed by the hollow fiber, a plurality of hollow fibers are fixed together, and then the hollow fibers fixed together are dried and aired, so that the next processing treatment is facilitated.

Generally, after a plurality of hollow fibers are fixed together to be processed into a hollow fiber membrane, the hollow fibers are placed on a placing frame, then the hollow fibers are transferred to the position of the next processing treatment by moving the placing frame, but in the process of moving the placing frame, the hollow fibers placed on the placing frame are easy to fall off due to uneven ground, so that the processing quality of the hollow fibers can be influenced, when the placing frame is moved, water on the hollow fibers is directly dripped on the ground, the situation of falling down and the like is easy to be caused when processed staff pushes the placing frame, and the broken slag falling from the hollow fiber membrane and the hollow fibers which are not fixed firmly fall on the ground are easy to cause the rolling wheels on the placing frame to be wound and knotted, so that the resource waste can be caused.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a durable hollow fiber processing device and a preparation method.

The technical scheme adopted for solving the technical problems is as follows: the durable hollow fiber processing equipment comprises a placing frame, a placing structure, a fixing structure, a drying structure, a blowing structure, a transmission structure, a collecting structure and a positioning structure, wherein the placing structure is arranged on the placing frame and used for placing hollow fibers, the fixing structure is arranged on the placing frame and used for fixedly supporting the hollow fibers, the drying structure is arranged on the placing frame and used for drying the hollow fibers, the blowing structure is arranged on the drying structure and used for blowing hot air, the transmission structure is arranged on the drying structure and used for driving the blowing structure to work, the collecting structure is arranged on the placing frame and used for collecting liquid, and the positioning structure is arranged on the collecting structure and used for fixing the collecting structure;

the placing structure comprises a base fixedly arranged on the placing frame, a sliding rod slidably arranged on the placing frame, a supporting rod fixedly arranged on the sliding rod, a fixing seat fixedly arranged on the supporting rod and a guide rod fixedly arranged on the placing frame, and the guide rod is slidably connected with the sliding rod.

Specifically, the fixed plate is fixedly arranged on the placing frame, the screw rod is rotatably arranged on the fixed plate, and the screw rod is in threaded connection with the supporting rod.

Specifically, fixed knot constructs including the fixed knot that slides on locating the rack, the fixed conflict ring of locating on the fixed knot, the fixed slider of locating on the fixed knot, locate spout, the screw thread on the rack and locate the bolt on the slider, slider and spout sliding connection, bolt and rack conflict.

Specifically, the stoving structure is including fixed stoving case on locating the rack, fixed heating rod of locating the stoving incasement, fixed dust screen of locating the stoving incasement.

Specifically, the gag lever post on the stoving case is located to the fixed gag lever post on locating the rack, the draw-in bar on locating the rack of sliding, gag lever post and draw-in groove grafting, draw-in bar and gag lever post grafting.

Specifically, the structure of blowing includes that the seal box of locating in the stoving case, slide locate the pull rod in the seal box, the fixed piston of locating on the pull rod, rotate the bull stick of locating in the stoving case, the carousel of locating on the bull stick, the fixed column of locating on the carousel, rotate the solid fixed ring of locating on the fixed column, the fixed rotary rod of locating on the solid fixed ring, rotary rod and pull rod rotate and connect.

Specifically, the transmission structure comprises a first gear fixedly arranged on the placing frame, a rotating shaft rotationally arranged in the drying box, a second gear fixedly arranged on the rotating shaft, a belt pulley fixedly arranged on the rotating rod and a belt slidingly arranged on the belt pulley.

Specifically, the collection structure comprises a collection box which is detachably arranged on the placement frame, a cleaning rod which is slidably arranged on the collection box, and a stop lever which is fixedly arranged on the cleaning rod.

Specifically, the location structure includes fixed locating ring on the collecting box, can dismantle the spacing ring of locating on the locating ring, locate the constant head tank on locating ring and the spacing ring, peg graft locate the locating lever on the constant head tank, rotate the rotatory board of locating on the locating ring, rotatory board is contradicted with the locating lever.

A method of processing a durable hollow fiber processing apparatus, comprising the steps of:

s1: firstly, placing the hollow fiber through a placing structure, and then matching with a fixing structure to support the hollow fiber placed on a placing frame;

s2: then the hollow fiber placed on the placing frame can be dried through the drying structure, and meanwhile, hot air in the drying structure can be blown onto the hollow fiber through the blowing structure;

s3: the air blowing structure can be driven to work while the rack moves through the transmission structure, so that the hollow fiber is convenient to dry;

s4: can collect the liquid of drip through collecting the structure, can also retrieve the hollow fiber that drops, be convenient for fix a position fixedly collecting the structure through location structure simultaneously.

The beneficial effects of the invention are as follows:

(1) According to the durable hollow fiber processing equipment and the preparation method, through the placement structure installed on the placement frame, hollow fibers can be conveniently hung and placed, the hollow fibers can be prevented from falling off from the placement frame when the placement frame moves, meanwhile, the hollow fibers placed on the placement frame can be stretched through the fixing structure, namely, when the hollow fibers are placed on the placement frame, the hollow fibers can be conveniently supported and placed through the base fixed on the placement frame, the support rods are fixedly connected onto the slide rods through the sliding connection on the placement frame, after the hollow fibers are placed on the base, the hollow fibers can be fixed through the fixing seat fixed onto the support rods, the guide rods and the slide rods are fixedly connected onto the placement frame, so that the slide rods can be prevented from falling off from the placement frame, the screw rods and the support rods are fixedly connected onto the fixing plate through the fixing seat, and the screw rods are bidirectional screws, the screw rods can drive the two support rods to slide oppositely, the hollow fibers are conveniently fixed onto the placement frame, the hollow fibers are fixedly connected onto the fixing rods through the sliding connection on the placement frame, the fixing rings are fixedly connected onto the fixing rings and the fixing rings through the fixing rings, and the fixing rings are prevented from being collided with the fixing rings, and the fixing rings can be prevented from being deformed and connected onto the fixing rings through the fixing rings and the fixing rings.

(2) According to the durable hollow fiber processing equipment and the preparation method, through the drying structure mounted on the placing frame, hollow fibers placed on the placing frame can be dried, through the blowing structure, the hollow fibers can be dried better, meanwhile, through the transmission structure, the blowing structure can be driven to work when moving the placing frame, namely, the drying box is detachably connected on the placing frame, so that the hollow fibers can be dried through the heating rod fixed in the drying box, and the heating rod is electrically connected with the internal power supply, dust and garbage can be prevented from entering the drying box through the dustproof net fixed on the drying box, and the limiting rod is fixedly connected with the limiting groove arranged on the placing frame through the inserting rod and the limiting rod which are fixedly connected on the drying box, so that the drying box can be limited and fixed, and as the sealing box is fixedly connected in the drying box, the piston can be driven to slide back and forth through the pulling rod, the heating rod can be driven to rotate on the rotating rod to rotate and forth through the rotating ring, and the rotating disc is fixedly connected with the rotating disc through the rotating disc and the rotating disc. And fix in pivot epaxial second gear and first gear engagement, consequently can drive the pivot through rack removal and rotate, owing to fixedly connected with belt pulley on the bull stick, and install the belt between pivot and belt pulley between belt pulley and the belt pulley, consequently can drive a plurality of bull sticks through the rack removal and rotate.

(3) According to the durable hollow fiber processing equipment and the preparation method, through the collecting structure arranged on the placing frame, liquid dropping on hollow fibers and hollow fibers dropping on the hollow fibers can be collected, meanwhile, through the locating structure, the collecting structure can be limited and fixed, namely, as the collecting box is detachably connected to the placing frame, liquid and hollow fiber residues can be collected through the collecting box, staff falling caused by liquid dropping on the ground can be prevented, resources can be saved, and due to the fact that the cleaning rod is slidingly connected in the collecting box, hollow fiber residues in the collecting box can be processed through the stop rod fixed on the cleaning rod when the cleaning rod is slidingly moved, and due to the fact that the locating ring is fixedly connected to the collecting box and is abutted against the placing frame, the collecting box can be limited and fixed through the locating ring and the limiting ring which is detachably connected with the locating ring, and due to the fact that the locating groove is arranged on the locating ring and the limiting ring, the locating ring and the locating ring can be fixed on the locating ring and the locating ring through the locating ring and the locating ring in a sliding mode, the locating ring and the locating ring can automatically rotate on the locating ring and the locating ring through the locating ring and the locating ring.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of a preferred embodiment of a durable hollow fiber processing apparatus according to the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the B-section structure shown in FIG. 1;

FIG. 4 is an enlarged schematic view of the structure of the portion C shown in FIG. 1;

FIG. 5 is an enlarged schematic view of the structure of the portion D shown in FIG. 1;

FIG. 6 is an enlarged schematic view of the E-section structure shown in FIG. 1;

fig. 7 is a schematic view showing a connection structure of the drying box and the heating rod of the present invention;

FIG. 8 is an enlarged schematic view of the F portion structure shown in FIG. 7;

fig. 9 is a schematic view showing a connection structure of a drying box and a rotating shaft according to the present invention;

fig. 10 is an enlarged schematic view of the G portion structure shown in fig. 9.

In the figure: 1. a placing rack; 2. placing a structure; 201. a base; 202. a slide bar; 203. a support rod; 204. a fixing seat; 205. a guide rod; 206. a fixing plate; 207. a screw rod; 3. a fixed structure; 301. a fixed rod; 302. a collision ring; 303. a slide block; 304. a chute; 305. a bolt; 4. a drying structure; 401. a drying box; 402. a heating rod; 403. a dust screen; 404. a limit rod; 405. a limit groove; 406. a rod; 5. a blowing structure; 501. a seal box; 502. a pull rod; 503. a piston; 504. a rotating rod; 505. a turntable; 506. fixing the column; 507. a fixing ring; 508. a rotating rod; 6. a transmission structure; 601. a first gear; 602. a rotating shaft; 603. a second gear; 604. a belt pulley; 605. a belt; 7. a collection structure; 701. a collection box; 702. cleaning a rod; 703. a stop lever; 8. a positioning structure; 801. a positioning ring; 802. a limiting ring; 803. a positioning groove; 804. a positioning rod; 805. and (5) rotating the plate.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 10, the durable hollow fiber processing apparatus according to the present invention includes a placement frame 1, a placement structure 2 provided on the placement frame 1 for placing hollow fibers, a fixing structure 3 provided on the placement frame 1 for fixing and supporting the hollow fibers, a drying structure 4 provided on the placement frame 1 for drying the hollow fibers, an air blowing structure 5 provided on the drying structure 4 for blowing hot air, a transmission structure 6 provided on the drying structure 4 for driving the air blowing structure 5 to operate, a collecting structure 7 provided on the placement frame 1 for collecting liquid, and a positioning structure 8 provided on the collecting structure 7 for fixing the collecting structure 7;

the placing structure 2 comprises a base 201 fixedly arranged on the placing frame 1, a sliding rod 202 slidingly arranged on the placing frame 1, a supporting rod 203 fixedly arranged on the sliding rod 202, a fixing seat 204 fixedly arranged on the supporting rod 203, and a guide rod 205 fixedly arranged on the placing frame 1, wherein the guide rod 205 and the sliding rod 202 are in sliding connection, a fixing plate 206 fixedly arranged on the placing frame 1 and a screw rod 207 rotationally arranged on the fixing plate 206 are fixedly connected, the screw rod 207 and the supporting rod 203 are in threaded connection, when hollow fibers are placed on the placing frame 1, the hollow fibers can be supported and placed through the base 201 fixedly arranged on the placing frame 1, the supporting rod 203 is fixedly connected on the sliding rod 202, so that after the hollow fibers are placed on the base 201, the hollow fibers can be fixed through the fixing seat 204 fixedly arranged on the supporting rod 203, the guide rod 205 and the sliding rod 202 are prevented from sliding connection, the sliding rod 202 can be dropped from the placing frame 1, and the screw rod 206 is fixedly connected with the fixing plate 206, and the screw rod 207 and the supporting rod 203 rotationally connected on the fixing plate 206 can be driven by the screw rod 207, and the screw rods 203 can be bidirectionally screwed and the two screws are conveniently and the screw rods 203 are driven to rotate.

Specifically, the fixing structure 3 includes a fixing rod 301 slidably disposed on the placement frame 1, an abutting ring 302 fixedly disposed on the fixing rod 301, a slider 303 fixedly disposed on the fixing rod 301, a chute 304 disposed on the placement frame 1, and a bolt 305 threaded on the slider 303, the slider 303 is slidably connected with the chute 304, the bolt 305 is in abutting contact with the placement frame 1, and the fixing rod 301 is slidably connected with the placement frame 1, and the abutting ring 302 fixedly disposed on the fixing rod 301 abuts against the hollow fiber, so that when the fixing rod 301 is slid, the hollow fiber can be supported by the abutting ring 302, deformation of the hollow fiber during drying and airing are prevented, use quality and appearance are affected, the fixing rod 301 is prevented from sliding off the placement frame 1 by the slider 303 fixed on the fixing rod 301 and the chute 304 disposed on the placement frame 1, and the fixing rod 301 is prevented from being limited and fixed by the bolt 305 screwed with the placement frame 1.

Specifically, the drying structure 4 includes a drying box 401 fixed on the placing frame 1, a heating rod 402 fixed in the drying box 401, a dust screen 403 fixed in the drying box 401, a limit rod 404 fixed on the drying box 401, a limit groove 405 arranged on the placing frame 1, and a plug rod 406 slidably arranged on the placing frame 1, the limit rod 404 and the limit groove 405 are plugged, the plug rod 406 and the limit rod 404 are plugged, and the drying box 401 is detachably connected on the placing frame 1, so that the hollow fiber can be dried through the heating rod 402 fixed in the drying box 401, and the heating rod 402 and the internal power supply are electrically connected, dust and garbage can be prevented from entering the drying box 401 through the dust screen 403 fixed on the drying box 401, and the limit rod 404 and the limit groove 405 arranged on the placing frame 1 are plugged, so that the drying box 401 can be fixed through plugging the plug rod 406 and the limit rod 404 slidably arranged on the placing frame 1.

Specifically, the air blowing structure 5 includes a sealing box 501 fixedly disposed in the drying box 401, a pull rod 502 slidingly disposed in the sealing box 501, a piston 503 fixedly disposed on the pull rod 502, a rotating rod 504 rotatably disposed in the drying box 401, a rotating disc 505 fixedly disposed on the rotating rod 504, a fixed column 506 fixedly disposed on the rotating disc 505, a fixed ring 507 rotatably disposed on the fixed column 506, and a rotating rod 508 fixedly disposed on the fixed ring 507, wherein the rotating rod 508 is rotationally connected with the pull rod 502, and the pull rod 502 is slidingly connected in the sealing box 501 due to the fact that the sealing box 501 is fixedly connected with the drying box 401, so that the piston 503 can be driven to slide back and forth by pulling the pull rod 502 back and forth, thereby hot air on the heating rod 402 can be blown to hollow fibers for drying treatment.

Specifically, the transmission structure 6 includes a first gear 601 fixedly disposed on the rack 1, a rotating shaft 602 rotatably disposed in the drying box 401, a second gear 603 fixedly disposed on the rotating shaft 602, a belt pulley 604 fixedly disposed on the rotating rod 504, and a belt 605 slidingly disposed on the belt pulley 604, since the first gear 601 is fixedly connected to the roller of the rack 1, the rotating shaft 602 is rotationally connected to the drying box 401, and the second gear 603 fixed on the rotating shaft 602 is meshed with the first gear 601, the rotating shaft 602 can be driven to rotate by moving the rack 1, and since the belt pulley 604 is fixedly connected to the rotating rod 504, and a belt 605 is mounted between the rotating shaft 602 and the belt pulley 604 and between the belt pulley 604, the rotating rods 504 can be driven to rotate by moving the rack 1.

Specifically, the collection structure 7 includes a collection box 701 detachably arranged on the placement frame 1, a cleaning rod 702 slidably arranged on the collection box 701, and a stop rod 703 fixedly arranged on the cleaning rod 702, and since the collection box 701 is detachably connected to the placement frame 1, liquid and hollow fiber residues can be collected through the collection box 701, and not only can liquid be prevented from dropping on the ground to cause personnel to fall down, but also resources can be saved, and since the cleaning rod 702 is slidably connected to the collection box 701, hollow fiber residues in the collection box 701 can be processed through the stop rod 703 fixed on the cleaning rod 702 when the cleaning rod 702 is slid.

Specifically, the positioning structure 8 includes a positioning ring 801 fixedly disposed on the collecting box 701, a positioning ring 802 detachably disposed on the positioning ring 801, a positioning groove 803 disposed on the positioning ring 801 and the positioning ring 802, a positioning rod 804 inserted on the positioning groove 803, and a rotating plate 805 rotatably disposed on the positioning ring 801, wherein the rotating plate 805 is in contact with the positioning rod 804, and the positioning ring 801 is fixedly connected with the collecting box 701 and is in contact with the placing rack 1, so that the collecting box 701 can be placed on the placing rack 1 through the positioning ring 801, the positioning ring 802 detachably connected with the positioning ring 801 can limit and fix the collecting box 701, and the positioning ring 801 and the positioning ring 802 can be fixed through the positioning groove 803 and the positioning rod 804 in a sliding manner, and the positioning rod 804 can be prevented from automatically sliding out of the positioning groove 803 through the rotating plate 805 and the positioning rod 804 rotating on the positioning ring 801.

A method of processing a durable hollow fiber processing apparatus, comprising the steps of:

s1: firstly, placing hollow fibers through a placing structure 2, and then matching with a fixing structure 3 to support the hollow fibers placed on a placing frame 1;

s2: then the hollow fiber placed on the placing frame 1 can be dried through the drying structure 4, and meanwhile, the hot air in the drying structure 4 can be blown onto the hollow fiber through the blowing structure 5;

s3: the air blowing structure 5 can be driven to work while the rack 1 moves through the transmission structure 6, so that the hollow fiber is convenient to dry;

s4: the liquid that drips can be collected through collecting structure 7, can also retrieve the hollow fiber that drops, is convenient for fix a position fixed collecting structure 7 through location structure 8 simultaneously.

When the hollow fiber is placed on the placing frame 1, the hollow fiber can be supported and placed through the base 201 fixed on the placing frame 1, the sliding rod 202 is connected on the placing frame 1 in a sliding way, the supporting rod 203 is fixedly connected on the sliding rod 202, after the hollow fiber is placed on the base 201, the hollow fiber can be fixed through the fixing seat 204 fixed on the supporting rod 203, the sliding rod 202 can be prevented from falling off the placing frame 1 through the sliding connection of the guide rod 205 and the sliding rod 202 fixed on the placing frame 1, the fixing plate 206 is fixedly connected on the placing frame 1, the screw rod 207 and the supporting rod 203 which rotate on the fixing plate 206 are in threaded connection, the screw rod 207 is a bidirectional screw rod, the two supporting rods 203 can be driven to slide in opposite directions through the rotation of the screw rod 207, so that the hollow fiber can be conveniently fixed, since the fixing rod 301 is connected to the rack 1 in a sliding manner, and the interference ring 302 fixed to the fixing rod 301 interferes with the hollow fiber, when the fixing rod 301 is slid, the hollow fiber can be supported by the interference ring 302, the hollow fiber is prevented from being deformed during drying and airing, the use quality and the appearance are affected, the fixing rod 301 can be prevented from sliding from the rack 1 by sliding connection of the sliding block 303 fixed to the fixing rod 301 and the sliding groove 304 arranged on the rack 1, the fixing rod 301 can be limited and fixed by the bolt 305 in threaded connection with the sliding block 303 and the rack 1, the drying box 401 can be detachably connected to the rack 1, the hollow fiber can be dried by the heating rod 402 fixed in the drying box 401, and the heating rod 402 is electrically connected with the internal power supply, the dust screen 403 fixed on the drying box 401 can prevent dust and garbage from entering the drying box 401, the limiting rod 404 fixed on the drying box 401 and the limiting groove 405 arranged on the placing frame 1 are inserted, so that the limiting rod 404 can be fixed when the limiting rod 404 is inserted through the inserting rod 406 sliding on the placing frame 1, the drying box 401 can be limited and fixed, the sealing box 501 is fixedly connected in the drying box 401, the pull rod 502 is connected in a sliding manner in the sealing box 501, the piston 503 can be driven to slide back and forth by pulling the pull rod 502 back and forth, so that hot air on the heating rod 402 can be blown onto hollow fibers to dry the hollow fibers, the rotating rod 504 can be driven to rotate through the rotating rod 505 in the drying box 401, the fixing column 506 is fixedly connected with the rotating rod 506, the rotating rod 508 and the rotating rod 502 on the fixing ring 507 are connected in a rotating manner, the rotating rod 504 can be driven to rotate through the rotating rod 504, the rotating shaft 602 can be driven to rotate through the rotating rod 602, the rotating shaft 602 can be driven to rotate through the rotating shaft 602 and the rotating box 602, the rotating shaft 602 can be driven to rotate around the rotating shaft 602 is fixedly connected with the rotating shaft 602, the rotating frame 602 can be driven to rotate around the rotating shaft 602, the rotating shaft 602 is fixedly connected with the rotating frame 602, and the rotating frame 602 can be driven to rotate 602, and the rotating frame 602 can be meshed with the rotating frame 602, and the rotating frame 602 can be driven by the rotating 602 to rotate 602, and the rotating 602 can be meshed rotating 602 and the rotating frame 602, therefore, can collect liquid and hollow fiber residue through collecting box 701, not only can prevent that the liquid from dripping and causing the staff to fall down on ground, can also resources are saved, owing to be connected with clearance pole 702 in the slip in collecting box 701, consequently, can handle the hollow fiber residue in the collecting box 701 through fixing the pin 703 on clearance pole 702 when sliding clearance pole 702, owing to fixedly connected with holding ring 801 on collecting box 701, and holding ring 801 contradicts with rack 1, consequently, can place collecting box 701 on rack 1 through holding ring 801, can carry out spacing fixedly to collecting box 701 through the spacing ring 802 of dismantling the connection with holding ring 801, owing to be equipped with the constant head tank 803 on holding ring 801 and spacing ring 802, consequently, can fix holding ring 801 and spacing ring 802 through holding tank 803 and holding rod 804 sliding connection, through holding ring 801 pivoted swivel plate 805 and holding rod 804 contradicting on, thereby can prevent that holding rod 804 from automatic slipping out from holding tank 803.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (2)

1. The durable hollow fiber processing equipment is characterized by comprising a placing frame (1), a placing structure (2) arranged on the placing frame (1) and used for placing hollow fibers, a fixing structure (3) arranged on the placing frame (1) and used for fixedly supporting the hollow fibers, a drying structure (4) arranged on the placing frame (1) and used for drying the hollow fibers, a blowing structure (5) arranged on the drying structure (4) and used for blowing hot air, a transmission structure (6) arranged on the drying structure (4) and used for driving the blowing structure (5) to work, a collecting structure (7) arranged on the placing frame (1) and a positioning structure (8) arranged on the collecting structure (7) and used for fixing the collecting structure (7);

the placement structure (2) comprises a base (201) fixedly arranged on the placement frame (1), a sliding rod (202) slidably arranged on the placement frame (1), a supporting rod (203) fixedly arranged on the sliding rod (202), a fixing seat (204) fixedly arranged on the supporting rod (203), and a guide rod (205) fixedly arranged on the placement frame (1), wherein the guide rod (205) is slidably connected with the sliding rod (202);

the fixing plate (206) is fixedly arranged on the placing frame (1), the screw rod (207) is rotatably arranged on the fixing plate (206), and the screw rod (207) is in threaded connection with the supporting rod (203);

the fixing structure (3) comprises a fixing rod (301) arranged on the placing frame (1) in a sliding mode, a collision ring (302) fixedly arranged on the fixing rod (301), a sliding block (303) fixedly arranged on the fixing rod (301), a sliding groove (304) arranged on the placing frame (1) and a bolt (305) arranged on the sliding block (303) in a threaded mode, the sliding block (303) is in sliding connection with the sliding groove (304), and the bolt (305) is in collision with the placing frame (1);

the drying structure (4) comprises a drying box (401) fixedly arranged on the placing frame (1), a heating rod (402) fixedly arranged in the drying box (401) and a dust screen (403) fixedly arranged in the drying box (401);

the drying box comprises a limiting rod (404) fixedly arranged on the drying box (401), a limiting groove (405) arranged on the placing frame (1) and a plug rod (406) slidably arranged on the placing frame (1), wherein the limiting rod (404) is inserted into the limiting groove (405), and the plug rod (406) is inserted into the limiting rod (404);

the blowing structure (5) comprises a sealing box (501) fixedly arranged in the drying box (401), a pull rod (502) slidingly arranged in the sealing box (501), a piston (503) fixedly arranged on the pull rod (502), a rotating rod (504) rotationally arranged in the drying box (401), a rotating disc (505) fixedly arranged on the rotating rod (504), a fixed column (506) fixedly arranged on the rotating disc (505), a fixed ring (507) rotationally arranged on the fixed column (506), and a rotating rod (508) fixedly arranged on the fixed ring (507), wherein the rotating rod (508) is rotationally connected with the pull rod (502);

the transmission structure (6) comprises a first gear (601) fixedly arranged on the placing frame (1), a rotating shaft (602) rotatably arranged in the drying box (401), a second gear (603) fixedly arranged on the rotating shaft (602), a belt pulley (604) fixedly arranged on the rotating rod (504) and a belt (605) slidably arranged on the belt pulley (604);

the collecting structure (7) comprises a collecting box (701) which is detachably arranged on the placing frame (1), a cleaning rod (702) which is slidably arranged on the collecting box (701), and a stop lever (703) which is fixedly arranged on the cleaning rod (702);

the positioning structure (8) comprises a positioning ring (801) fixedly arranged on the collecting box (701), a limiting ring (802) detachably arranged on the positioning ring (801), a positioning groove (803) arranged on the positioning ring (801) and the limiting ring (802), a positioning rod (804) inserted on the positioning groove (803), and a rotating plate (805) rotatably arranged on the positioning ring (801), wherein the rotating plate (805) is in contact with the positioning rod (804).

2. A processing method using the durable hollow fiber processing apparatus according to claim 1, characterized by comprising the steps of:

s1: firstly, placing hollow fibers through a placing structure (2), and then matching with a fixing structure (3) to support the hollow fibers placed on a placing frame (1);

s2: then the hollow fiber placed on the placing frame (1) can be dried through the drying structure (4), and meanwhile, the hot air in the drying structure (4) can be blown onto the hollow fiber through the blowing structure (5);

s3: the air blowing structure (5) can be driven to work while the rack (1) moves through the transmission structure (6), so that the hollow fiber is convenient to dry;

s4: can collect the liquid of drip through collecting structure (7), can also retrieve the hollow fiber that drops, be convenient for fix a position fixed collecting structure (7) through location structure (8) simultaneously.