CN116377629B - Texturing machine yarn dividing mechanism for POY chemical fiber filaments - Google Patents

Abstract

The utility model provides a texturing machine yarn dividing mechanism for POY chemical fiber filaments, which relates to the field of chemical fiber filament production and comprises the following components: a elasticizer connection assembly; the two groups of stable supporting components are arranged at the front side of the elasticizer connecting component; the chemical fiber filament positioning assembly is arranged at the front side of the elasticizer connecting assembly, and is positioned below the chemical fiber filament dividing assembly; the collecting assembly is arranged at the front side of the elasticizer connecting assembly and is positioned below the chemical fiber filament positioning assembly; the chemical fiber filament main body is provided with a row, and the chemical fiber filament main body is positioned in the chemical fiber filament positioning assembly; the utility model plays a role in positioning the chemical fiber filament main body, so that the chemical fiber filament main body is more stable in filament separation; solves the problem that the chemical fiber filaments cannot be guided, so that the chemical fiber filaments are not stable enough when being separated.

Description

Texturing machine yarn dividing mechanism for POY chemical fiber filaments

Technical Field

The utility model relates to the technical field of chemical fiber filament production, in particular to a yarn dividing mechanism of a texturing machine for POY chemical fiber filaments.

Background

The chemical fiber filament is a fiber with spinning performance, which is prepared by using natural polymer compounds or artificially synthesized polymer compounds as raw materials and through the procedures of spinning dope preparation, spinning, post-treatment and the like; when the chemical fiber filaments are processed, the filaments are required to be separated by a filament separating mechanism.

The application number is as follows: in the patent of CN201821489580.5, a comb-shaped yarn dividing device suitable for producing polyester industrial yarns is disclosed, the comb-shaped yarn dividing device comprises a rail porcelain rod and a plurality of vertical porcelain rods, wherein the rail porcelain rod and the vertical porcelain rods are horizontally arranged, the vertical porcelain rods are positioned above the rail porcelain rod and are vertical to the rail porcelain rod, the vertical porcelain rods are arranged in parallel at equal intervals or unequal intervals on a horizontal plane, two ends of the rail porcelain rod are respectively inserted into two rail porcelain rod mounting blocks, the surface vertical to the surface a is two b surfaces and two c surfaces, the area of the surface a is larger than the surface b, the area of the surface b is larger than the surface c, and the two rail porcelain rod mounting blocks are in threaded connection with the vertical porcelain rod mounting blocks and are attached to the surface a; the device is convenient to use, effectively solves the problems of yarn jumping, yarn breakage and the like of the polyester industrial yarn caused by yarn bundle shaking, and ensures the safety of personnel and equipment.

Based on the above, the present inventors found that the yarn dividing mechanism of the elasticizer currently used for POY chemical fiber yarn cannot move slightly, which causes the chemical fiber yarn to be broken easily during yarn dividing, reduces the yarn dividing quality of the chemical fiber yarn, and cannot guide the chemical fiber yarn, which causes the chemical fiber yarn to be unstable during yarn dividing.

Disclosure of Invention

In view of the above, the present utility model provides a texturing machine yarn dividing mechanism for POY chemical fiber filaments, which has a chemical fiber filament dividing assembly and a chemical fiber filament positioning assembly; fifteen chemical fiber filament separating rods can slightly move, so that the chemical fiber filament main body is prevented from breaking during filament separation, and the filament separation quality of the chemical fiber filament main body is improved; the positioning function is achieved on the chemical fiber filament main body, so that the chemical fiber filament main body is more stable in filament separation.

The utility model provides a purpose and an effect of a yarn dividing mechanism of a texturing machine for POY chemical fiber filaments, which specifically comprise the following steps: the device comprises a texturing machine connecting assembly, a stable supporting assembly, a chemical fiber filament dividing assembly, a chemical fiber filament positioning assembly, a collecting assembly and a chemical fiber filament main body;

the two groups of stable supporting components are arranged at the front side of the elasticizer connecting component; the chemical fiber filament dividing assembly is arranged at the front side of the elasticizer connecting assembly; the chemical fiber filament positioning assembly is arranged at the front side of the elasticizer connecting assembly, and is positioned below the chemical fiber filament dividing assembly; the collecting assembly is arranged at the front side of the elasticizer connecting assembly and is positioned below the chemical fiber filament positioning assembly; the chemical fiber filament main body is provided with a row, and the chemical fiber filament main body is positioned in the chemical fiber filament positioning assembly;

the elasticizer connection assembly comprises: a elasticizer connecting plate and a elasticizer connecting screw; the connecting plate of the elasticizer is of a rectangular plate-shaped structure; four elasticizer connecting screws are arranged in total, and the four elasticizer connecting screws are slidably arranged in the elasticizer connecting plate.

Further, the chemical fiber filament positioning assembly comprises: the device comprises a mounting plate, a connecting shaft A and a positioning roller A; the two mounting plates are arranged in total and fixedly arranged on the front side of the elasticizer connecting plate; the connecting shaft A is rotatably arranged in the two mounting plates; the positioning roller A is fixedly arranged on the outer wall of the connecting shaft A.

Further, the stabilizing support assembly includes: a stabilizing support frame and a stabilizing support bar; the stable supporting frame is fixedly arranged on the front side of the connecting plate of the elasticizer; the stable supporting rod is slidably arranged in the stable supporting frame and the connecting plate of the elasticizer.

Further, the chemical fiber filament positioning assembly further comprises: the connecting shaft B, the positioning roller B and the guide seat; the connecting shaft B is rotatably arranged in the two mounting plates; the positioning roller B is fixedly arranged on the outer wall of the connecting shaft B; the guide seats are arranged in two in total, and the two guide seats are fixedly arranged in the two mounting plates.

Further, the stabilizing support assembly further comprises: a limit baffle ring and a reset spring A; the limiting baffle ring is fixedly arranged on the outer wall of the stable supporting rod; the reset spring A is arranged outside the stable supporting rod and is positioned between the stable supporting frame and the limiting baffle ring.

Further, the chemical fiber filament positioning assembly further comprises: the guide shaft, the reset block and the reset spring C; the two guide shafts are arranged in total and are slidably arranged in the two guide seats; the two reset blocks are arranged in total and fixedly arranged at the front sides of the two guide shafts, and are in contact with the connecting shaft B; the two return springs C are arranged at the outer parts of the two guide shafts, and the two return springs C are arranged between the two guide seats and the two return blocks.

Further, the chemical fiber filament dividing assembly comprises: a mounting block and a mounting shaft; the two mounting blocks are arranged in total and fixedly mounted on the front side of the elasticizer connecting plate; the installation axle is fixed mounting in the inboard of two installation pieces.

Further, the collection assembly includes: a collection frame and a collection box; the collecting frame is fixedly arranged on the front side of the connecting plate of the elasticizer; the collection box is slidably mounted inside the collection frame.

Further, the chemical fiber filament yarn dividing assembly further comprises: a chemical fiber filament separating rod and a reset spring B; fifteen chemical fiber filament yarn separating rods are arranged in total, the fifteen chemical fiber filament yarn separating rods are slidably arranged on the outer wall of the mounting shaft, and the rear sides of the fifteen chemical fiber filament yarn separating rods are in contact with the connecting plate of the texturing machine; sixteen return springs B are arranged in total, and sixteen return springs B are arranged outside the mounting shaft.

Further, the collection assembly further comprises: a powerful magnet and a handle; the three powerful magnets are fixedly arranged in the collecting box, and the rear sides of the three powerful magnets are in contact with the collecting frame; the handle is fixedly arranged on the front side of the collecting box.

Advantageous effects

1. According to the utility model, the stable supporting rod is slidably arranged in the stable supporting frame and the elasticizer connecting plate, the reset spring A is arranged outside the stable supporting rod, and the reset spring A is positioned between the stable supporting frame and the limiting baffle ring, so that after the elasticizer connecting plate is arranged, the stable supporting rod is elastically contacted with the elasticizer, the supporting effect is achieved, and even if four elasticizer connecting screws are slightly loosened, the elasticizer connecting plate can move under the condition of the stable supporting rod, and the elasticizer connecting plate is ensured to be always in a stable state.

2. According to the utility model, the fifteen chemical fiber filament dividing rods are slidably arranged on the outer wall of the mounting shaft, so that the chemical fiber filament main body is divided, and the sixteen reset springs B are arranged outside the mounting shaft, so that the fifteen chemical fiber filament dividing rods can slightly move, the chemical fiber filament main body is prevented from breaking during filament dividing, and the filament dividing quality of the chemical fiber filament main body is improved.

3. According to the utility model, the positioning roller A is fixedly arranged on the outer wall of the connecting shaft A, and the positioning roller B is fixedly arranged on the outer wall of the connecting shaft B, so that the positioning effect on the chemical fiber filament main body is achieved, the chemical fiber filament main body is more stable in the process of dividing the chemical fiber filament, the two reset blocks are fixedly arranged on the front sides of the two guide shafts and are contacted with the connecting shaft B, the two reset springs C are positioned between the two guide seats and the two reset blocks, the positioning roller A and the positioning roller B are in elastic contact with the chemical fiber filament main body all the time, the chemical fiber filament main body is prevented from being clamped under the premise of ensuring the positioning effect, and the chemical fiber filament main bodies with different thicknesses are conveniently positioned.

4. The collecting box is arranged in the collecting frame in a sliding manner, so that the collecting effect is achieved when the chemical fiber filament main body is separated, fine impurities in the chemical fiber filament main body are prevented from floating into the air, and the three powerful magnets are fixedly arranged in the collecting box and are contacted with the collecting frame at the rear sides, so that the collecting box is more stable when in use.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the utility model and are not intended to limit the utility model.

In the drawings:

fig. 1 shows a schematic perspective view of an embodiment according to the present utility model;

FIG. 2 shows a schematic view of the left side view of FIG. 1;

FIG. 3 illustrates a schematic view of a loader attachment assembly and a stability support assembly according to an embodiment of the present utility model;

FIG. 4 shows a schematic view of a partial enlarged structure of the area A in FIG. 3;

FIG. 5 shows a schematic structural view of a chemical fiber filament splitting assembly according to an embodiment of the present utility model;

FIG. 6 shows a schematic view of a chemical fiber filament positioning assembly and a chemical fiber filament body structure according to an embodiment of the present utility model;

FIG. 7 shows a schematic diagram of the left side view of FIG. 6;

FIG. 8 is a schematic view showing a partially enlarged structure of the region B in FIG. 7;

fig. 9 shows a schematic diagram of a collection assembly structure according to an embodiment of the utility model.

List of reference numerals

1. A elasticizer connection assembly; 101. a connecting plate of a elasticizer; 102. connecting screws of the elasticizer; 2. a stabilizing support assembly; 201. stabilizing the support frame; 202. a stabilizing support rod; 203. a limit baffle ring; 204. a return spring A; 3. a chemical fiber filament dividing assembly; 301. a mounting block; 302. a mounting shaft; 303. chemical fiber filament separating rod; 304. a return spring B; 4. a chemical fiber filament positioning assembly; 401. a mounting plate; 402. a connecting shaft A; 403. a positioning roller A; 404. a connecting shaft B; 405. a positioning roller B; 406. a guide seat; 407. a guide shaft; 408. a reset block; 409. a return spring C; 5. a collection assembly; 501. a collection frame; 502. a collection box; 503. a strong magnet; 504. a handle; 6. a chemical fiber filament body.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present utility model more clear, the technical solution of the embodiment of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present utility model. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 9:

the utility model provides a texturing machine yarn dividing mechanism for POY chemical fiber filaments, which comprises a texturing machine connecting component 1, a stable supporting component 2, a chemical fiber filament dividing component 3, a chemical fiber filament positioning component 4, a collecting component 5 and a chemical fiber filament main body 6;

the stable supporting components 2 are provided with two groups in total, and the two groups of stable supporting components 2 are arranged on the front side of the elasticizer connecting component 1; the chemical fiber filament dividing assembly 3 is arranged at the front side of the elasticizer connecting assembly 1; the chemical fiber filament positioning assembly 4 is arranged at the front side of the elasticizer connecting assembly 1, and the chemical fiber filament positioning assembly 4 is positioned below the chemical fiber filament dividing assembly 3; the collecting assembly 5 is arranged at the front side of the elasticizer connecting assembly 1, and the collecting assembly 5 is positioned below the chemical fiber filament positioning assembly 4; the chemical fiber filament main body 6 is provided with a row, and the chemical fiber filament main body 6 is positioned in the chemical fiber filament positioning assembly 4;

the elasticizer connection assembly 1 comprises: a elasticizer connection plate 101 and elasticizer connection screws 102; the elasticizer connecting plate 101 is of a rectangular plate-shaped structure; four elasticizer connection screws 102 are provided in total, and the four elasticizer connection screws 102 are slidably mounted inside the elasticizer connection plate 101.

Wherein, the stable supporting component 2 includes: a stabilizing support frame 201 and a stabilizing support bar 202; the stable supporting frame 201 is fixedly arranged on the front side of the elasticizer connecting plate 101; the stable supporting rod 202 is slidably arranged inside the stable supporting frame 201 and the elasticizer connecting plate 101; the stabilizing support assembly 2 further comprises: a limit stop ring 203 and a return spring a204; the limit baffle ring 203 is fixedly arranged on the outer wall of the stable supporting rod 202; the reset spring a204 is installed outside the stable supporting rod 202, and the reset spring a204 is located between the stable supporting frame 201 and the limiting stop ring 203, and has the specific effects of: because the stable support rod 202 slidable mounting is in the inside of stable supporting frame 201 and elasticizer connecting plate 101, and reset spring A204 installs in the outside of stable support rod 202, and reset spring A204 is located between stable supporting frame 201 and the spacing baffle ring 203, thereby make the installation of elasticizer connecting plate 101 after, stable support rod 202 and elasticizer elastic contact have played the supporting role, even when four elasticizer connecting screws 102 take place slight not hard up, the elasticizer connecting plate 101 can take place to remove under the condition of stable support rod 202, it is in steady state to have guaranteed that elasticizer connecting plate 101 is all the time.

Wherein, chemical fiber filament divides silk subassembly 3 includes: a mounting block 301 and a mounting shaft 302; the two mounting blocks 301 are arranged in total, and the two mounting blocks 301 are fixedly arranged on the front side of the elasticizer connecting plate 101; the mounting shaft 302 is fixedly mounted on the inner sides of the two mounting blocks 301; the chemical fiber filament dividing assembly 3 further comprises: a chemical fiber filament separating rod 303 and a return spring B304; fifteen chemical fiber filament yarn separating rods 303 are arranged in total, the fifteen chemical fiber filament yarn separating rods 303 are slidably arranged on the outer wall of the mounting shaft 302, and the rear sides of the fifteen chemical fiber filament yarn separating rods 303 are in contact with the elasticizer connecting plate 101; sixteen return springs B304 are provided, and sixteen return springs B304 are mounted on the outside of the mounting shaft 302, and specifically function as: because fifteen chemical fiber filament yarn separating rods 303 are slidably arranged on the outer wall of the mounting shaft 302, a yarn separating effect is achieved on the chemical fiber filament main body 6, and sixteen reset springs B304 are arranged on the outer portion of the mounting shaft 302, so that the fifteen chemical fiber filament yarn separating rods 303 can slightly move, breakage of the chemical fiber filament main body 6 during yarn separation is avoided, and yarn separation quality of the chemical fiber filament main body 6 is improved.

Wherein, chemical fiber filament positioning assembly 4 includes: a mounting plate 401, a connecting shaft a402, and a registration roller a403; the two mounting plates 401 are arranged in total, and the two mounting plates 401 are fixedly arranged on the front side of the elasticizer connecting plate 101; the connecting shaft A402 is rotatably installed inside the two mounting plates 401; the positioning roller A403 is fixedly arranged on the outer wall of the connecting shaft A402; the chemical fiber filament positioning assembly 4 further comprises: a connecting shaft B404, a positioning roller B405 and a guide seat 406; the connecting shaft B404 is rotatably installed inside the two mounting plates 401; the positioning roller B405 is fixedly arranged on the outer wall of the connecting shaft B404; the two guide seats 406 are arranged in total, and the two guide seats 406 are fixedly arranged in the two mounting plates 401; the chemical fiber filament positioning assembly 4 further comprises: a guide shaft 407, a return block 408, and a return spring C409; the two guide shafts 407 are arranged in total, and the two guide shafts 407 are slidably arranged in the two guide seats 406; two reset blocks 408 are provided, the two reset blocks 408 are fixedly arranged on the front sides of the two guide shafts 407, and the two reset blocks 408 are in contact with the connecting shaft B404; the two restoring springs C409 are provided, and the two restoring springs C409 are mounted outside the two guide shafts 407, and the two restoring springs C409 are located between the two guide seats 406 and the two restoring blocks 408, which specifically function as: because positioning roller A403 fixed mounting is at the outer wall of connecting axle A402, and positioning roller B405 fixed mounting is at the outer wall of connecting axle B404, thereby have played the positioning action to chemical fiber filament main part 6, it is more stable when making chemical fiber filament main part 6 divide the silk, again because two reset block 408 fixed mounting is in the front side of two guiding axles 407, and two reset block 408 and connecting axle B404 contact, and two reset spring C409 are located between two guide holders 406 and two reset block 408, and then make positioning roller A403 and positioning roller B405 and chemical fiber filament main part 6 elastic contact all the time, under the prerequisite of guaranteeing the positioning effect, chemical fiber filament main part 6 has avoided chemical fiber filament main part 6 to take place to press from both sides to hinder, simultaneously convenient location different thickness chemical fiber filament main part 6.

Wherein the collection assembly 5 comprises: a collection frame 501 and a collection box 502; the collecting frame 501 is fixedly arranged on the front side of the elasticizer connecting plate 101; the collection box 502 is slidably mounted inside the collection frame 501; the collection assembly 5 further comprises: a strong magnet 503 and a pull handle 504; three powerful magnets 503 are arranged in total, the three powerful magnets 503 are fixedly arranged in the collecting box 502, and the rear sides of the three powerful magnets 503 are in contact with the collecting frame 501; the handle 504 is fixedly installed on the front side of the collection box 502, and specifically functions to: because the collecting box 502 is slidably mounted in the collecting frame 501, the collecting effect is achieved when the chemical fiber filament main body 6 is split, fine impurities in the chemical fiber filament main body 6 are prevented from floating into the air, and because the three powerful magnets 503 are fixedly mounted in the collecting box 502, the rear sides of the three powerful magnets 503 are in contact with the collecting frame 501, and the collecting box 502 is more stable when in use.

Specific use and action of the embodiment: in the utility model, firstly, a worker connects four elasticizer connecting screws 102 with the elasticizer, after the elasticizer connecting plates 101 are installed, the stabilizing support rods 202 are in elastic contact with the elasticizer, so that the supporting effect is achieved, even if the four elasticizer connecting screws 102 are slightly loosened, the elasticizer connecting plates 101 can move under the condition of the stabilizing support rods 202, the elasticizer connecting plates 101 are ensured to be always in a stable state, then the worker places a row of chemical fiber filament main bodies 6 between fifteen chemical fiber filament separating rods 303, the positioning rollers A403 and B405 are penetrated, the fifteen chemical fiber filament separating rods 303 play a filament separating role on the chemical fiber filament main bodies 6, the fifteen chemical fiber filament separating rods 303 can slightly move, the chemical fiber filament main bodies 6 are prevented from breaking during filament separation, and the filament separating quality of the chemical fiber filament main bodies 6 is improved; the positioning roller A403 and the positioning roller B405 play a role in positioning the chemical fiber filament main body 6, so that the chemical fiber filament main body 6 is more stable in filament separation; the positioning roller A403 and the positioning roller B405 are in elastic contact with the chemical fiber filament main body 6 all the time, so that the chemical fiber filament main body 6 is prevented from being scratched on the premise of ensuring the positioning effect, and the chemical fiber filament main bodies 6 with different thicknesses are conveniently positioned; the collecting box 502 is slidably arranged in the collecting frame 501, so that the collecting effect is achieved when the chemical fiber filament main body 6 is split, and the tiny impurities in the chemical fiber filament main body 6 are prevented from floating into the air.

The foregoing is merely exemplary embodiments of the present utility model and is not intended to limit the scope of the utility model, which is defined by the appended claims.

Claims (6)

1. A texturing machine yarn dividing mechanism for POY chemical fiber filaments, comprising: the device comprises a texturing machine connecting component (1), a stable supporting component (2), a chemical fiber filament dividing component (3), a chemical fiber filament positioning component (4), a collecting component (5) and a chemical fiber filament main body (6);

the two groups of stable supporting components (2) are arranged in total, and the two groups of stable supporting components (2) are arranged on the front side of the elasticizer connecting component (1); the chemical fiber filament dividing assembly (3) is arranged at the front side of the elasticizer connecting assembly (1); the chemical fiber filament positioning assembly (4) is arranged at the front side of the elasticizer connecting assembly (1), and the chemical fiber filament positioning assembly (4) is positioned below the chemical fiber filament dividing assembly (3); the collecting assembly (5) is arranged at the front side of the elasticizer connecting assembly (1), and the collecting assembly (5) is positioned below the chemical fiber filament positioning assembly (4); the chemical fiber filament main body (6) is provided with a row, and the chemical fiber filament main body (6) is positioned in the chemical fiber filament positioning assembly (4);

the elasticizer connection assembly (1) comprises: a texturing machine connecting plate (101) and a texturing machine connecting screw (102); the elasticizer connecting plate (101) is of a rectangular plate-shaped structure; four elasticizer connecting screws (102) are arranged in total, and the four elasticizer connecting screws (102) are slidably arranged in the elasticizer connecting plate (101);

the stabilizing support assembly (2) comprises: a stabilizing support frame (201) and a stabilizing support bar (202); the stable supporting frame (201) is fixedly arranged on the front side of the elasticizer connecting plate (101); the stable supporting rod (202) is slidably arranged in the stable supporting frame (201) and the elasticizer connecting plate (101);

the chemical fiber filament dividing assembly (3) comprises: a mounting block (301) and a mounting shaft (302); two mounting blocks (301) are arranged in total, and the two mounting blocks (301) are fixedly arranged on the front side of the elasticizer connecting plate (101); the mounting shaft (302) is fixedly mounted on the inner sides of the two mounting blocks (301);

the chemical fiber filament positioning assembly (4) comprises: a mounting plate (401), a connecting shaft A (402) and a positioning roller A (403); two mounting plates (401) are arranged in total, and the two mounting plates (401) are fixedly arranged on the front side of the elasticizer connecting plate (101); the connecting shaft A (402) is rotatably arranged inside the two mounting plates (401); the positioning roller A (403) is fixedly arranged on the outer wall of the connecting shaft A (402);

the collection assembly (5) comprises: a collection frame (501) and a collection box (502); the collecting frame (501) is fixedly arranged on the front side of the elasticizer connecting plate (101); the collection box (502) is slidably mounted inside the collection frame (501).

2. A texturing machine yarn splitting mechanism for POY chemical fiber filaments as defined in claim 1, wherein: the stabilizing support assembly (2) further comprises: a limit stop ring (203) and a return spring A (204); the limiting baffle ring (203) is fixedly arranged on the outer wall of the stable supporting rod (202); the reset spring A (204) is arranged outside the stable supporting rod (202), and the reset spring A (204) is positioned between the stable supporting frame (201) and the limit stop ring (203).

3. A texturing machine yarn splitting mechanism for POY chemical fiber filaments as defined in claim 1, wherein: the chemical fiber filament dividing assembly (3) further comprises: a chemical fiber filament separating rod (303) and a return spring B (304); fifteen chemical fiber filament yarn separating rods (303) are arranged in total, the fifteen chemical fiber filament yarn separating rods (303) are slidably arranged on the outer wall of the mounting shaft (302), and the rear sides of the fifteen chemical fiber filament yarn separating rods (303) are in contact with the elasticizer connecting plate (101); sixteen return springs B (304) are provided in total, and sixteen return springs B (304) are mounted outside the mounting shaft (302).

4. A texturing machine yarn splitting mechanism for POY chemical fiber filaments as defined in claim 1, wherein: the chemical fiber filament positioning assembly (4) further comprises: a connecting shaft B (404), a positioning roller B (405) and a guide seat (406); the connecting shaft B (404) is rotatably arranged inside the two mounting plates (401); the positioning roller B (405) is fixedly arranged on the outer wall of the connecting shaft B (404); the two guide seats (406) are arranged in total, and the two guide seats (406) are fixedly arranged in the two mounting plates (401).

5. A texturing machine yarn splitting mechanism for POY chemical fiber filaments as claimed in claim 4, wherein: the chemical fiber filament positioning assembly (4) further comprises: a guide shaft (407), a return block (408), and a return spring C (409); the two guide shafts (407) are arranged in total, and the two guide shafts (407) are slidably arranged in the two guide seats (406); the two reset blocks (408) are arranged in total, the two reset blocks (408) are fixedly arranged on the front sides of the two guide shafts (407), and the two reset blocks (408) are in contact with the connecting shaft B (404); the two return springs C (409) are arranged in total, the two return springs C (409) are arranged outside the two guide shafts (407), and the two return springs C (409) are arranged between the two guide seats (406) and the two return blocks (408).

6. A texturing machine yarn splitting mechanism for POY chemical fiber filaments as defined in claim 1, wherein: the collection assembly (5) further comprises: a strong magnet (503) and a pull handle (504); three powerful magnets (503) are arranged in total, the three powerful magnets (503) are fixedly arranged in the collecting box (502), and the rear sides of the three powerful magnets (503) are in contact with the collecting frame (501); the handle (504) is fixedly mounted on the front side of the collection box (502).