CN115067418B - Plant protein wiredrawing fiber extrusion equipment - Google Patents

Abstract

The invention provides plant protein wiredrawing fiber extrusion equipment, which belongs to the technical field of plant protein wiredrawing fiber production and comprises a supporting shell, wherein a vibration reduction assembly component is arranged on the right side of the top of the supporting shell, the top of the vibration reduction assembly component is connected with a motor, the output end of the motor is fixedly connected with one end of a coupler, and the other end of the coupler is fixedly connected with the input end of a gear box arranged at the top of the supporting shell. The invention solves the problem that the screw rod is easy to shake due to the long-term oscillation of the equipment during the extrusion of the vegetable protein wiredrawing fiber, in the invention, the snap-in protruding ring fixedly connected with the matching teeth is assembled on the wall surface of the first retainer ring, so that after the assembly of the screw rod part is completed, the first retainer ring can form stable connection by utilizing the matching teeth and the coaxial shoulders of the snap-in teeth, thereby improving the shake-avoiding capacity of the screw rod part; let the assembly of silk mouth sleeve reinforcement subassembly can be firm the assembly at the wall of firm lead screw.

Description

Plant protein wiredrawing fiber extrusion equipment

Technical Field

The invention belongs to the technical field of plant protein wiredrawing fiber production, and particularly relates to plant protein wiredrawing fiber extrusion equipment.

Background

Currently, in protein production facilities, the prior art is mainly completed by a twin screw extruder or a single screw extruder to simultaneously carry out a plurality of units such as raw material conveying, kneading, shearing, homogenizing, curing, molding and the like.

The plant protein drawing fiber extrusion apparatus is generally provided with a barrel heater, a barrel, a cooling water pipe and the like, the temperature of plant protein drawing fibers during production can be ensured under the action of the barrel heater and the cooling water pipe, the quality of extruded products is ensured, a plurality of barrels are generally arranged, two adjacent barrels are connected by a screw rod, the apparatus itself can oscillate during the extrusion of the plant protein drawing fibers, the screw rod is extremely easy to shake under the action of long-term oscillation, the condition that the connection of the adjacent barrels is loosened and seriously decomposed can cause the barrel to destroy, the production is prevented, and therefore, the long-term stable connection of the screw rod to the adjacent barrels is ensured, and the plant protein drawing fiber extrusion apparatus is provided.

Disclosure of Invention

The invention provides plant protein drawing fiber extrusion equipment, and aims to solve the problem that a screw rod is easy to shake under the long-term oscillation effect due to the fact that the equipment can oscillate in the extrusion period of plant protein drawing fibers.

The invention provides plant protein wiredrawing fiber extrusion equipment which comprises a supporting shell, wherein a vibration reducing assembly component is arranged on the right side of the top of the supporting shell, a motor is connected to the top of the vibration reducing assembly component, one end of a coupler is fixedly connected to the output end of the motor, the other end of the coupler is fixedly connected to the input end of a gear box arranged on the top of the supporting shell, two screws are fixedly connected to the output end of the gear box, a throwing barrel is arranged on the left side of the output end of the gear box, a plurality of barrels are arranged on the left side of the throwing barrel, first connecting discs are arranged on the left side and the right side of the barrels, a second connecting disc is arranged on the left side of the throwing barrel, a plurality of stabilizing components are arranged on the two adjacent first connecting discs, a barrel heater is arranged on the outer side of the barrel, a thermocouple is arranged on the inner side of the barrel heater, one end of a plurality of branch pipes is communicated with the top of the supporting shell, and the other ends of the branch pipes are connected with electromagnetic valves.

Further, the second connection pad is connected with the adjacent first connection pad through firm subassembly, the cooling chamber way has been seted up in the wall of first connection pad, the solenoid valve is linked together through pipeline and cooling chamber way, the dog-house has been seted up at the top of throwing into the section of thick bamboo.

Further, the stabilizing component comprises a torsion head, a shaft shoulder, a stabilizing screw rod, a first reinforcing component, a screw socket sleeve and a screw socket sleeve reinforcing component, the shaft shoulder is assembled on the right side of the torsion head, the stabilizing screw rod is assembled on the right side of the shaft shoulder, the screw socket sleeve reinforcing component is assembled on the wall surface of the stabilizing screw rod, the first reinforcing component and the screw socket sleeve are assembled on the wall surface of the screw socket sleeve reinforcing component and the wall surface of the stabilizing screw rod, and the first reinforcing component is positioned between the shaft shoulder and the screw socket sleeve;

an engagement groove is reserved on the right side of the shaft shoulder, annular engagement teeth are assembled in the engagement groove, a pair of connecting cavities are reserved on the right side of the shaft shoulder, the connecting cavities are arranged in a mirror image mode through the middle transverse center line of the shaft shoulder, and arch-shaped protrusions are arranged in the connecting cavities;

the right side of the stabilizing screw rod is reserved with an assembly channel, the wall surface of the stabilizing screw rod is reserved with a cavity, the cavity is arranged along the upper mirror image and the lower mirror image of the central line of the stabilizing screw rod, the screw socket sleeve reinforcing component comprises a reinforcing component support ring, a through hole, a reinforcing rod and a stop ring, the middle of the reinforcing component support ring is reserved with the through hole, the reinforcing component support ring is stably assembled in the assembly channel on the right side of the stabilizing screw rod through the through hole, the wall surface of the reinforcing component support ring is provided with a reinforcing rod matched with the cavity, the outer wall surface of the reinforcing rod is arch-shaped, the vertical span of the reinforcing rod exceeds the length of the cavity, the left side of the reinforcing rod is positioned in the connecting cavity, and the joint of the reinforcing rod and the connecting cavity is provided with the stop ring;

the first reinforcing component comprises a first retainer ring, a first elastic ring and a second retainer ring, the first elastic ring is assembled between the first retainer ring and the second retainer ring, the left side of the first retainer ring is provided with an engaging protruding ring, the wall surface of the engaging protruding ring is provided with matching teeth matched with the engaging teeth, and the right side of the second retainer ring is provided with a first resistance strip.

Further, a ring-shaped stop protrusion is arranged on the left side of the wire mouth sleeve, and a second elastic ring is arranged on the outer wall surface.

Furthermore, the first elastic ring and the second elastic ring are made of polyurethane materials, and the screw socket sleeve reinforcing component is made of polyamide fibers.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial technical effects:

in the invention, the adjacent cylinders and the first connecting disc in the device are assembled together, so that the connection between the cylinders is more stable and firm, the plant protein wiredrawing fiber production period can be ensured, compared with the existing scheme, the scheme has simple structure and proper structure, and the screw rod part in the scheme can efficiently receive the oscillation transmitted from the first connecting disc by utilizing the elastic ring I assembled in the reinforcing component I and the elastic ring I assembled at the left side of the screw port sleeve, reduce the action of the oscillation on the locking function of the screw rod part and ensure the stable and firm connection between the connecting pieces for a long time; the screw socket sleeve reinforcing component is made of polyamide fibers for stabilizing the wall surface assembly of the screw rod, so that the probability of movement of the screw socket sleeve during oscillation is reduced; after the screw rod part is assembled, the first retainer ring can be firmly connected by the matching teeth and the coaxial shoulders of the matching teeth, so that the shaking prevention capability of the screw rod part is improved; the assembled stop ring, the arch-shaped protrusions and the assembled channel are utilized, so that the screw socket sleeve reinforcing assembly can be stably assembled on the wall surface of the stable screw rod, and the purpose of preventing the screw socket sleeve from shaking is achieved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a partially enlarged structure of the present invention;

FIG. 3 is a schematic diagram of a screw mandrel coaxial shoulder structure of the invention;

FIG. 4 is a schematic view of a portion of a reinforcing assembly for a filament sleeve according to the present invention;

FIG. 5 is a schematic view of a reinforcement assembly according to the present invention;

FIG. 6 is an enlarged schematic view of the structure shown at α in FIG. 2;

fig. 7 is a schematic structural diagram of a vibration reducing assembly according to the present invention.

Reference numerals: 1. a supporting shell; 2. a vibration reduction assembly; 23. vibration reduction coupling shell; 24. a stop plate; 25. a first cooperative disc spring; 26. a coupling table; 27. an assembly table; 28. a placement cavity; 29. a polyurethane sheet; 210. a displacement inner recess; 221. a displacement bearing table; 222. a displacement bearing rod; 223. a slide stop plate; 224. a disc spring II; 225. a coupling assembly plate; 226. a stop screw rod; 227. a disc spring III; 228. a stop screw sleeve; 229. a moving chamber; 230. a bead body; 231. a supporting ring; 3. a motor; 4. a coupling; 5. a gear box; 6. a charging barrel; 7. a screw; 8. a cylinder; 9. a first connection plate; 10. a stabilizing assembly; 102. twisting the head; 103. a shaft shoulder; 1032. engaging the channel; 1033. occlusion teeth; 1034. a coupling cavity; 1035. arch-like protrusions; 104. stabilizing the screw rod; 1042. assembling a ditch; 1043. a cavity; 105. a first reinforcing component; 1052. a first check ring; 10522. engaging the protruding ring; 10523. matching teeth; 1053. an elastic ring I; 1054. a second check ring; 10542. a first resistance bar; 106. a wire-mouth sleeve; 1062. a stop protrusion; 1063. an elastic ring II; 107. a wire mouth sleeve reinforcement assembly; 1072. a reinforcing component backing ring; 1073. a through hole; 1074. a reinforcing rod; 1075. a stop ring; 11. a barrel heater; 12. a thermocouple; 13. a cooling water pipe; 14. a branch pipe; 15. a solenoid valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the technical solutions of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present invention. Like reference numerals in the drawings denote like parts. It should be noted that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present invention fall within the protection scope of the present invention.

As shown in fig. 1-7, the invention provides plant protein wiredrawing fiber extrusion equipment, which comprises a supporting shell 1, wherein a vibration reducing assembly component 2 is arranged on the right side of the top of the supporting shell 1, the top of the vibration reducing assembly component 2 is connected with a motor 3, the output end of the motor 3 is fixedly connected with one end of a shaft coupling 4, the other end of the shaft coupling 4 is fixedly connected with the input end of a gear box 5 arranged on the top of the supporting shell 1, the output end of the gear box 5 is fixedly connected with two screws 7, the left side of the output end of the gear box 5 is provided with a feeding cylinder 6, the left side and the right side of the feeding cylinder 6 are provided with a plurality of cylinders 8, the left side and the right side of the cylinders 8 are respectively provided with a first connecting disc 9, the left side of the feeding cylinder 6 is provided with a second connecting disc, the two adjacent first connecting discs 9 are provided with a plurality of stabilizing components 10, the outer sides of the cylinders 8 are provided with cylinder heaters 11, the inner sides of the cylinder heaters 11 are provided with thermocouples 12, the top of the supporting shell 1 is provided with cooling branch pipes 13, the cooling pipes 13 are connected with the first connecting discs 14 through the cooling pipes 14, the cooling pipes 14 are connected with the first connecting discs 14, and the cooling pipes 14 are connected with the other ends of the first connecting discs 9 through the cooling pipes, and the cooling pipes 14 are connected with the cooling pipes;

the stabilizing assembly 10 comprises a torsion head 102, a shaft shoulder 103, a stabilizing screw rod 104, a first reinforcing assembly 105, a screw socket sleeve 106 and a screw socket sleeve reinforcing assembly 107, the shaft shoulder 103 is assembled on the right side of the torsion head 102, the stabilizing screw rod 104 is assembled on the right side of the shaft shoulder 103, the screw socket sleeve reinforcing assembly 107 is assembled on the wall surface of the stabilizing screw rod 104, the first reinforcing assembly 105 and the screw socket sleeve 106 are assembled on the wall surfaces of the screw socket sleeve reinforcing assembly 107 and the stabilizing screw rod 104, and the first reinforcing assembly 105 is positioned between the shaft shoulder 103 and the screw socket sleeve 106.

The right side of the shaft shoulder 103 is reserved with a meshing groove 1032, meshing teeth 1033 arranged in a ring shape are assembled in the meshing groove 1032, the right side of the shaft shoulder 103 is reserved with a pair of coupling cavities 1034, the coupling cavities 1034 are arranged in a mirror image mode with the middle transverse center line of the shaft shoulder 103, and arch-shaped protrusions 1035 are arranged in the coupling cavities 1034.

The right side of firm lead screw 104 is reserved and is assembled the ditch way 1042, the wall of firm lead screw 104 is reserved the chamber hole 1043, the chamber hole 1043 is established along the upper and lower mirror image of the central line of firm lead screw 104, the silk mouth sleeve reinforcing component 107 includes reinforcing component retainer plate 1072, through hole 1073, reinforcing rod 1074 and stop circle 1075, reinforcing component retainer plate 1072's centre is reserved and is run through hole 1073, reinforcing component retainer plate 1072 is firmly assembled in the assembly ditch way 1042 on firm lead screw 104 right side through run through hole 1073, reinforcing rod 1074 with chamber hole 1043 assorted is assembled on reinforcing component retainer plate 1072's the wall, reinforcing rod 1074's outer wall is the arch form, reinforcing rod 1074's vertical span exceeds the hole length of chamber hole 1043, reinforcing rod 1074's left side department is in the inside of joint chamber 1034, reinforcing rod 1074 and joint department that connects chamber 1034 is equipped with stop circle 1075.

The first reinforcement component 105 comprises a first retainer ring 1052, a first elastic ring 1053 and a second retainer ring 1054, wherein the first elastic ring 1053 is assembled between the first retainer ring 1052 and the second retainer ring 1054, the left side of the first retainer ring 1052 is provided with a snap bead 10522, the wall surface of the snap bead 10522 is provided with a matching tooth 10523 matched with the snap tooth 1033, and the right side of the second retainer ring 1054 is provided with a first resistance strip 10542.

The left side of the wire sleeve 106 is provided with a ring-shaped stop protrusion 1062, and the outer wall surface of the stop protrusion 1062 is provided with a second elastic ring 1063.

The first elastic ring 1053 and the second elastic ring 1063 are made of polyurethane materials, and the filament sleeve reinforcing component 107 is made of polyamide fibers.

The vibration reducing assembly 2 comprises a vibration reducing coupling shell 23 fixedly assembled below a motor 3, a displacement bearing table 221 matched with the vibration reducing coupling shell 23 is movably assembled inside the vibration reducing coupling shell 23, a displacement port matched with the displacement bearing table 221 is reserved below the vibration reducing coupling shell 23, the joint method of the displacement bearing table 221 and the vibration reducing coupling shell 23 is hooping, a pair of stop plates 24 symmetrically distributed and matched with the vibration reducing coupling shell 23 are assembled on the side of the displacement bearing table 221, a plurality of placing cavities 28 are reserved on the head of the displacement bearing table 221, a plurality of cooperative coil springs 25 are assembled inside the placing cavities 28, the end parts of the cooperative coil springs 25 close to the motor 3 are fixedly connected with the joint table 26, the inside of the cooperative coil springs 25 are fixedly connected with beads 230, the joint method of the beads 230 and the cooperative coil springs 25 is hooping, the beads 230 are made of steel materials, the wall surfaces of the plurality of placing cavities 28 are reserved with moving cavities 229 which are symmetrically distributed and matched with the beads 230, the lower part of the displacement bearing table 221 is fixedly connected with the assembling table 27, the assembling table 27 is fixedly connected with symmetrically distributed connecting assembling plates 225, the lower parts of the assembling table 27 and the pair of connecting assembling plates 225 are fixedly connected with polyurethane sheets 29, the polyurethane sheets 29 are bonded with the assembling table 27, the polyurethane sheets 29 are made of polyurethane materials, the inside of the pair of connecting assembling plates 225 is movably assembled with a stop screw 226 which penetrates through the connecting assembling plates 225, the inside of the pair of connecting assembling plates 225 is reserved with screw adjusting ports matched with the stop screw 226, the heads of the pair of stop screw 226 are fixedly connected with stop screw sleeves 228, the wall surfaces of the pair of stop screw 226 are simultaneously positioned at a gap formed by the stop screw sleeves 228 and disc springs two 224, and the disc springs three 227 are movably assembled, the connection methods of the pair of stop screw rods 226 and the pair of disc springs III 227 are hooping, the tail ends of the pair of disc springs III 227 are fixedly connected with a supporting ring 231 matched with the stop screw rods 226, a displacement inner notch 210 is reserved in the assembly table 27, a disc spring II 224 is fixedly connected in the displacement inner notch 210, a sliding stop plate 223 is fixedly connected in the displacement inner notch 210 and at the tail end of the disc spring II 224, a sliding stop opening matched with the sliding stop plate 223 is reserved in the wall surface of the displacement inner notch 210, a displacement supporting rod 222 stretching out of the assembly table 27 is fixedly connected below the sliding stop plate 223, a resistance bar II is assembled below the polyurethane sheet 29, and a stretching opening matched with the displacement supporting rod 222 through the stop screw rods 226 is reserved in the polyurethane sheet 29;

in combination with the above, the coupling method of the assembled displacement bearing platform 221 and the vibration reduction coupling shell 23 is hooping, the displacement bearing platform 221 is connected with the motor 3 by the cooperative coil spring one 25, the steel bead body 230 is assembled in the cooperative coil spring one 25 in a moving way, the vibration force can be eliminated by the cooperative coil spring one 25 during the vibration transmission of the motor 3, the goal of buffering and reducing the vibration effect generated by the outside is realized by the bead body 230 in the cooperative coil spring one 25, the coupling method of the displacement bearing platform 221 and the vibration reduction coupling shell 23 is hooping, and the assembled stop plate 24 can prevent the displacement bearing platform 221 and the vibration reduction coupling shell 23 from being decomposed and separated during the vibration;

the displacement bearing rod 222 and the disc spring two 224 are utilized to enable the assembly table 27 to be spaced from the top of the supporting shell 1, the connection methods of the pair of the stop screw rods 226 and the pair of the disc springs three 227 are hooped, the tail ends of the pair of the disc springs three 227 are fixedly connected with the supporting rings 231 matched with the stop screw rods 226, the stop screw rods 226 can enable the assembly table 27 to be firmly fixed in the period of the top of the supporting shell 1, the capacity of reducing the externally generated oscillation effect of the motor 3 is greatly enhanced by utilizing the disc springs three 227 and the disc springs two 224, the oscillation of the motor 3 is reduced, the connection position of the assembly table 27 and the top of the supporting shell 1 can be prevented from shaking, the goal of firm assembly is achieved, and the defects that the existing motor 3 is not easy to firmly fix and assemble, and the connection position of the motor 3 is shaken due to oscillation after assembly is finished, and accidents occur are overcome.

The implementation mode specifically comprises the following steps: in practical application, when a plurality of barrels 8 in the device are connected together, the screw socket sleeve reinforcement assembly 107 is assembled on the assembly channel 1042 of the stable screw rod 104, the orientation of the reinforcement rod 1074 on the screw socket sleeve reinforcement assembly 107 is regulated, the left side of the reinforcement rod 1074 is pressed into the connecting cavity 1034, the reinforcement assembly 105 is assembled on the wall surface of the stable screw rod 104, the orientation between the matching teeth 10523 and the engaging teeth 1033 is regulated, the engaging protruding ring 10522 extends into the engaging channel 1032, and the screw socket sleeve 106 is assembled on the wall surface of the stable screw rod 104, so that the purpose of locking the complete screw rod part is achieved. The screw socket sleeve reinforcement assembly 107 made of polyamide fibers for stabilizing the wall surface assembly of the screw rod 104 reduces the probability of the screw socket sleeve 106 moving during oscillation; after the screw rod part is assembled by utilizing the snap rings 10522 fixedly connected with the matching teeth 10523 assembled on the wall surface of the first retainer ring 1052, the first retainer ring 1052 can be firmly connected with the shaft shoulder 103 by utilizing the matching teeth 10523 and the snap teeth 1033, so that the shaking prevention capability of the screw rod part is improved; the assembled stop ring 1075, the arch-shaped protrusions 1035 and the assembly channel 1042 are utilized to ensure that the screw socket sleeve reinforcing component 107 can be stably assembled on the wall surface of the stable screw rod 104, thereby achieving the purpose of preventing the screw socket sleeve 106 from shaking.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The plant protein wiredrawing fiber extrusion equipment comprises a supporting shell (1), and is characterized in that a vibration reducing assembly component (2) is arranged on the right side of the top of the supporting shell (1), a motor (3) is connected to the top of the vibration reducing assembly component (2), one end of a coupler (4) is fixedly connected to the output end of the motor (3), the other end of the coupler (4) is fixedly connected with the input end of a gear box (5) arranged on the top of the supporting shell (1), two screws (7) are fixedly connected to the output end of the gear box (5), an input barrel (6) is arranged on the left side of the output end of the gear box (5), a plurality of barrels (8) are arranged on the left side of the input barrel (6), first connecting discs (9) are respectively arranged on the left side and the right side of the barrels (8), a second connecting disc (9) are respectively arranged on the left side of the input barrel (6), a plurality of stabilizing components (10) are arranged on the adjacent first connecting discs (9), a plurality of heating pipes (13) are arranged on the outer sides of the barrels (8), a plurality of heating pipes (13) are respectively connected with one end of the heating pipes (13), the other ends of the branch pipes (14) are connected with electromagnetic valves (15);

the stabilizing assembly (10) comprises a torsion head (102), a shaft shoulder (103), a stabilizing screw rod (104), a first reinforcing assembly (105), a screw socket sleeve (106) and a screw socket sleeve reinforcing assembly (107), wherein the shaft shoulder (103) is assembled on the right side of the torsion head (102), the stabilizing screw rod (104) is assembled on the right side of the shaft shoulder (103), the screw socket sleeve reinforcing assembly (107) is assembled on the wall surface of the stabilizing screw rod (104), the first reinforcing assembly (105) and the screw socket sleeve (106) are assembled on the wall surfaces of the screw socket sleeve reinforcing assembly (107) and the screw socket sleeve (104), and the first reinforcing assembly (105) is positioned between the shaft shoulder (103) and the screw socket sleeve (106);

a meshing channel (1032) is reserved on the right side of the shaft shoulder (103), meshing teeth (1033) which are arranged in a ring shape are assembled in the meshing channel (1032), a pair of connecting cavities (1034) are reserved on the right side of the shaft shoulder (103), the connecting cavities (1034) are arranged in a mirror image mode through the middle transverse center line of the shaft shoulder (103), and arch-shaped protrusions (1035) are arranged in the connecting cavities (1034);

an assembly channel (1042) is reserved on the right side of the stabilizing screw rod (104), a cavity (1043) is reserved on the wall surface of the stabilizing screw rod (104), the cavity (1043) is arranged along the upper mirror image and the lower mirror image of the central line of the stabilizing screw rod (104), the screw sleeve reinforcing component (107) comprises a reinforcing component backing ring (1072), a penetrating hole (1073), a reinforcing rod (1074) and a stop ring (1075), the penetrating hole (1073) is reserved in the middle of the reinforcing component backing ring (1072), the reinforcing component backing ring (1072) is stably assembled in the assembly channel (1042) on the right side of the stabilizing screw rod (104) through the penetrating hole (1073), a reinforcing rod (1074) matched with the cavity (1043) is assembled on the wall surface of the reinforcing component backing ring (1072), the outer wall surface of the reinforcing rod (1074) is arch-shaped, the vertical span of the reinforcing rod (1074) exceeds the length of the cavity (1043), and the connecting rod (1074) is positioned at the position of the connecting rod (1034) at the connecting position;

the first reinforcing component (105) comprises a first retainer ring (1052), a first elastic ring (1053) and a second retainer ring (1054), the first elastic ring (1053) is assembled between the first retainer ring (1052) and the second retainer ring (1054), the left side of the first retainer ring (1052) is provided with a snap-in protruding ring (10522), the wall surface of the snap-in protruding ring (10522) is provided with a matching tooth (10523) matched with the snap-in tooth (1033), and the right side of the second retainer ring (1054) is provided with a first resistance strip (10542).

2. A vegetable protein fiber drawing extrusion apparatus as defined in claim 1, wherein: the second connecting disc is connected with the adjacent first connecting disc (9) through a stabilizing assembly (10), a cooling cavity is formed in the wall of the first connecting disc (9), the electromagnetic valve (15) is communicated with the cooling cavity through a pipeline, and a feeding port is formed in the top of the feeding barrel (6).

3. A vegetable protein fiber drawing extrusion apparatus as defined in claim 1, wherein: a ring-shaped stop protrusion (1062) is arranged on the left side of the wire mouth sleeve (106), and a second elastic ring (1063) is arranged on the outer wall surface of the stop protrusion (1062).

4. A vegetable protein fiber drawing extrusion apparatus as defined in claim 1, wherein: the elastic ring I (1053) and the elastic ring II (1063) are made of polyurethane materials, and the silk-mouth sleeve reinforcing component (107) is made of polyamide fibers.