CN112093149A - Toughening pressure-bearing fiber automatic charging dustproof device - Google Patents

Abstract

The invention discloses an automatic loading and dust preventing device for toughened pressure-bearing fibers, which comprises a mixer body, wherein a packaging bag supply mechanism is arranged on one side of the mixer body, a packaging bag fixing mechanism is arranged on one side of the packaging bag supply mechanism, and a dust preventing and discharging mechanism is arranged at the lower end of the mixer body. The automatic packaging bag butt joint device has the advantages that the packaging bag and the discharge hole can be fixed through the dustproof discharge mechanism, dust is prevented from diffusing, harm to human bodies is reduced, the packaging bag and the discharge hole can be automatically butt jointed through the packaging bag supply mechanism, and manual operation is omitted.

Description

Toughening pressure-bearing fiber automatic charging dustproof device

Technical Field

The invention relates to the technical field of building material production, in particular to an automatic loading dustproof device for toughened pressure-bearing fibers.

Background

The toughening pressure-bearing fiber is a compound of plant fiber and toughening material, has the property of free flowing powder, is not limited by particle size compared with the traditional plugging agent while drilling, has good pressure-bearing property and adhesiveness, is suitable for various slurry systems, plays a role in stabilizing the well wall, has high speed and good effect on plugging pores and microcracks, and can quickly form an impermeable shielding belt with certain strength;

toughening pressure-bearing fiber needs to carry out the mixture of certain time with multiple raw and other materials through the mixer when production, later discharge through the discharge gate, and the handheld wrapping bag will mix the good toughening pressure-bearing fiber packing of while, because this material is powdered, can outwards spread great dust when the packing, has great harm after inhaling the human body, and traditional packaging mode can not effectively prevent the diffusion of dust.

Disclosure of Invention

Aiming at the defects, the invention provides an automatic loading dustproof device for toughened pressure-bearing fibers, and aims to solve the problems.

In order to achieve the purpose, the invention adopts the following technical scheme:

the automatic loading dustproof device for the toughened pressure-bearing fibers comprises a mixer body, wherein a packaging bag supply mechanism is arranged on one side of the mixer body, a packaging bag fixing mechanism is arranged on one side of the packaging bag supply mechanism, and a dustproof discharging mechanism is arranged at the lower end of the mixer body;

the packaging bag supply mechanism comprises a rectangular box body on one side of the mixer body, the rectangular box body is placed on the ground, rectangular openings are formed in the upper surface and the side surface of the rectangular box body respectively, a fixing pipe is arranged on the side surface of the rectangular box body, a first sliding shaft is arranged in the fixing pipe, a pushing plate is arranged at one end of the sliding shaft, an extension spring is arranged at the other end of the first sliding shaft, one end of the extension spring is fixedly connected with the rectangular box body, a first vertical bearing is arranged on the opposite side surface of the rectangular box body, four vertical bearings are arranged, a rotating shaft is arranged on the inner ring of the first vertical bearing, one end of the rotating shaft is fixedly; two sides of the rectangular box body are provided with a vertical bearing II, an inner ring of the vertical bearing II is provided with a transmission shaft I, two ends of the transmission shaft I are provided with a worm I which is meshed with the worm wheel, a bevel gear I is arranged at the lower end of the worm, a vertical bearing III is arranged on the lower surface of the rectangular box body, an inner ring of the vertical bearing III is provided with a transmission shaft II, two ends of the transmission shaft II are provided with a bevel gear II which is meshed with the bevel gear I, and one end;

the dustproof discharging mechanism comprises a discharging port at one end of the lower surface of the mixer body, a conical cylinder is mounted at the lower end of the discharging port and is in a state of being communicated with the discharging port, a sealing bearing is mounted at one end of the conical cylinder, a transmission shaft III is mounted on the inner ring of the sealing bearing, an output screw rod is mounted at one end of the transmission shaft III, a first stepping motor is mounted on the lower surface of the mixer body, the rotating end of the first stepping motor is fixedly connected with the transmission shaft III, a second belt pulley is mounted at the rotating end of the first stepping motor; the two sides of the conical cylinder are provided with L-shaped fixing plates, the L-shaped fixing plates are fixedly connected with the mixer body, the side surface of each L-shaped fixing plate is provided with a first sliding groove, one side of each sliding groove is provided with a sliding block, the sliding block is slidably connected with the first sliding groove, the lower end of the sliding block is provided with a rubber ring, the side surface of each sliding block is provided with a first threaded hole, a first reciprocating threaded shaft is arranged in each first threaded hole, one end of each reciprocating threaded shaft is provided with a fourth vertical bearing, one side of each fourth vertical bearing is fixedly connected with;

the packaging bag fixing mechanism comprises a rectangular support on one side of the mixer body, the rectangular support is placed on the ground, a rectangular slide way is mounted at the upper end of the rectangular support, a sliding plate is mounted on the lower surface of the rectangular slide way and is in sliding connection with the rectangular slide way, a rectangular groove is formed in the center of the lower surface of the sliding plate, rectangular blocks are mounted at two ends of the rectangular groove and are in sliding connection with the rectangular groove, a threaded hole II is formed in the side surface of each rectangular block, a limiting ring is mounted at the center of the rectangular groove, a transmission shaft IV is mounted at the center of the limiting ring, annular grooves are formed in the surfaces of four sides of the transmission shaft and correspond to the limiting ring in position, threaded shafts II are mounted at two ends of the transmission shaft IV, the threaded shafts II are; the lower surface of the rectangular block is provided with two connecting rods, one end of each connecting rod is provided with a first fixing shaft, one side surface of each fixing shaft is provided with a first limiting groove, the lower end of each fixing shaft is provided with a first sleeve, the upper end of each first sleeve is provided with a first limiting block, the first limiting blocks are slidably connected with the first limiting grooves, a first compression spring is arranged between the first fixing shaft and the first sleeve, the lower end of each sleeve is provided with a fixed sucker, the other end of each connecting rod is provided with a second fixing shaft, the two side surfaces of each fixing shaft are provided with second limiting grooves, the lower ends of the second fixing shafts are provided with second sleeves, the upper ends of the second sleeves are provided with second limiting blocks, the second limiting blocks are slidably connected with the second limiting grooves, a second compression spring is arranged between the second fixing shafts and the second sleeves; the side surface of the rectangular support is provided with a cross rod, and two ends of the upper surface of the cross rod are provided with trapezoidal blocks; the two ends of the rectangular slideway are provided with a first roller bearing, the inner ring of the first roller bearing is provided with a third reciprocating threaded shaft, the center of the sliding plate is provided with a third threaded hole meshed with the third reciprocating threaded shaft, one end of the third reciprocating threaded shaft is provided with a third bevel gear, the other end of the rectangular slideway is provided with a double-shaft motor, the rotating end of the double-shaft motor is provided with a first one-way wheel meshed with the third bevel gear, and the other end of the double-shaft motor is provided with a second one-way wheel.

Furthermore, the upper end of the rectangular box body is provided with a three-layer composite moisture-proof paper bag, and one side of the upper end of the three-layer composite moisture-proof paper bag is provided with a feeding hole.

Further, the feed hopper is installed to the mixer body upper end.

Further, mix quick-witted body one side and be equipped with U type groove, U type groove is placed subaerial.

The invention has the beneficial effects that: can be fixed wrapping bag and discharge gate through dustproof discharge mechanism's effect, prevent the diffusion of dust, reduce the harm to the human body, can dock wrapping bag and discharge gate automatically through wrapping bag supply mechanism's effect, save manual operation.

Drawings

FIG. 1 is a schematic structural diagram of an automatic loading dustproof device for toughened pressure-bearing fibers, which is disclosed by the invention;

FIG. 2 is a schematic view of a bag replenishment mechanism;

FIG. 3 is a schematic view of a dust-proof discharge mechanism;

FIG. 4 is a schematic top view of the bag securing mechanism;

FIG. 5 is a schematic longitudinal cross-sectional view of a tapered cartridge;

FIG. 6 is a schematic view of a U-shaped groove;

FIG. 7 is a partial schematic view of a rectangular chute;

FIG. 8 is an enlarged schematic view of a rectangular box;

FIG. 9 is an enlarged schematic view of the auger roller;

FIG. 10 is an enlarged schematic view of the slide plate;

FIG. 11 is a schematic view of a first sleeve;

FIG. 12 is a schematic view of sleeve two;

FIG. 13 is a schematic view of the state of the feed opening;

in the figure, 1, mixer body; 2. a rectangular box body; 3. a rectangular opening; 4. a fixed tube; 5. a first sliding shaft; 6. a push plate; 7. an extension spring; 8. a first vertical bearing; 9. a rotating shaft; 10. a worm gear; 11. a packing auger roller; 12. a second vertical bearing; 13. a first transmission shaft; 14. a first worm; 15. a first bevel gear; 16. a vertical bearing III; 17. a second transmission shaft; 18. a second bevel gear; 19. a first belt pulley; 20. a discharge port; 21. a tapered barrel; 22. sealing the bearing; 23. a third transmission shaft; 24. an output screw; 25. a first stepping motor; 26. a second belt pulley; 27. a first transmission belt; 28. an L-shaped fixing plate; 29. a first sliding chute; 30. a slider; 31. a rubber ring; 32. a first threaded hole; 33. a first reciprocating threaded shaft; 34. a vertical bearing IV; 35. a first transmission wheel; 36. a rectangular bracket; 37. a rectangular slideway; 38. a sliding plate; 39. a rectangular groove; 40. a rectangular block; 41. a second threaded hole; 42. a limiting ring; 43. a fourth transmission shaft; 44. an annular groove; 45. a second threaded shaft; 46. a second stepping motor; 47. a connecting rod; 48. a first fixed shaft; 49. a first limiting groove; 50. a first sleeve; 51. a first limiting block; 52. a first compression spring; 53. fixing the sucker; 54. a second fixed shaft; 55. a second limiting groove; 56. a second sleeve; 57. a second limiting block; 58. a second compression spring; 59. a first through hole; 60. a slide bar; 61. a third compression spring; 62. moving the sucker; 63. a cross bar; 64. a trapezoidal block; 65. a roller bearing I; 66. a third reciprocating threaded shaft; 67. a third threaded hole; 68. a third bevel gear; 69. a double-shaft motor; 70. a first unidirectional wheel; 71. a second one-way wheel; 72. three-layer composite moisture-proof paper bags; 73. a feed inlet; 74. a feed hopper; 75. a U-shaped groove.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-13, the automatic loading dustproof device for the toughened pressure-bearing fiber comprises a mixer body 1, a packaging bag supply mechanism is arranged on one side of the mixer body 1, a packaging bag fixing mechanism is arranged on one side of the packaging bag supply mechanism, and a dustproof discharging mechanism is arranged at the lower end of the mixer body 1;

the packaging bag supply mechanism comprises a rectangular box body 2 on one side of a mixer body 1, the rectangular box body 2 is placed on the ground, rectangular openings 3 are formed in the upper surface and the side surface of the rectangular box body 2 respectively, a fixing pipe 4 is installed on the side surface of the rectangular box body 2, a first sliding shaft 5 is installed in the fixing pipe 4, a pushing plate 6 is installed at one end of the first sliding shaft 5, an extension spring 7 is installed at the other end of the first sliding shaft 5, one end of the extension spring 7 is fixedly connected with the rectangular box body 2, a first vertical bearing 8 is installed on the opposite side surface of the rectangular box body 2, four vertical bearings 8 are arranged, a rotating shaft 9 is installed on the inner ring of the first vertical bearing 8, one end of the rotating shaft 9 is fixedly connected with the first; two sides of the rectangular box body 2 are provided with vertical bearings II 12, the inner ring of each vertical bearing II 12 is provided with a transmission shaft I13, two ends of each transmission shaft I13 are provided with a worm I14 which is meshed with the worm wheel 10, the lower end of each worm I14 is provided with a bevel gear I15, the lower surface of the rectangular box body 2 is provided with a vertical bearing III 16, the inner ring of each vertical bearing III 16 is provided with a transmission shaft II 17, two ends of each transmission shaft II 17 are provided with bevel gears II 18 which are meshed with the bevel gears I15, and one end of each;

the dustproof discharging mechanism comprises a discharging port 20 at one end of the lower surface of the mixer body 1, a conical cylinder 21 is mounted at the lower end of the discharging port 20, the conical cylinder 21 and the discharging port 20 are in an intercommunicated state, a sealing bearing 22 is mounted at one end of the conical cylinder 21, a transmission shaft III 23 is mounted on the inner ring of the sealing bearing 22, an output screw 24 is mounted at one end of the transmission shaft III 23, a stepping motor I25 is mounted on the lower surface of the mixer body 1, the rotating end of the stepping motor I25 is fixedly connected with the transmission shaft III 23, a belt pulley II 26 is mounted at the rotating end of the stepping motor I25; the two sides of the conical barrel 21 are provided with L-shaped fixing plates 28, the L-shaped fixing plates 28 are fixedly connected with the mixer body 1, the side surfaces of the L-shaped fixing plates 28 are provided with first sliding grooves 29, one sides of the first sliding grooves 29 are provided with sliding blocks 30, the sliding blocks 30 are slidably connected with the first sliding grooves 29, the lower ends of the sliding blocks 30 are provided with rubber rings 31, the side surfaces of the sliding blocks 30 are provided with first threaded holes 32, first reciprocating threaded shafts 33 are installed in the first threaded holes 32, one ends of the first reciprocating threaded shafts 33 are provided with fourth vertical bearings 34, one sides of the fourth vertical bearings 34 are fixedly connected with the mixer body 1, and one;

the packaging bag fixing mechanism comprises a rectangular support 36 on one side of the mixer body 1, the rectangular support 36 is placed on the ground, a rectangular slide way 37 is mounted at the upper end of the rectangular support 36, a sliding plate 38 is mounted on the lower surface of the rectangular slide way 37, the sliding plate 38 is slidably connected with the rectangular slide way 37, a rectangular groove 39 is formed in the center of the lower surface of the sliding plate 38, rectangular blocks 40 are mounted at two ends of the rectangular groove 39, the rectangular blocks 40 are slidably connected with the rectangular groove 39, a threaded hole II 41 is formed in the side surface of each rectangular groove 40, a limiting ring 42 is mounted at the center of each rectangular groove 39, a transmission shaft IV 43 is mounted at the center of each limiting ring 42, an annular groove 44 is formed in the side surface of each transmission shaft IV 43, the annular groove 44 corresponds to the position of each limiting ring 42, threaded shafts II 45 are mounted at two ends of each transmission shaft IV 43, the threaded shafts; the lower surface of the rectangular block 40 is provided with two connecting rods 47, one end of each connecting rod 47 is provided with a first fixing shaft 48, the side surface of the first fixing shaft 48 is provided with a first limiting groove 49, the lower end of the first fixing shaft 48 is provided with a first sleeve 50, the upper end of the first sleeve 50 is provided with a first limiting block 51, the first limiting block 51 is in sliding connection with the first limiting groove 49, a first compression spring 52 is arranged between the first fixing shaft 48 and the first sleeve 50, the lower end of the first sleeve 50 is provided with a fixed sucker 53, the other end of each connecting rod 47 is provided with a second fixing shaft 54, the side surface of the second fixing shaft 54 is provided with a second limiting groove 55, the lower end of the second fixing shaft 54 is provided with a second sleeve 56, the upper end of the second sleeve 56 is provided with a second limiting block 57, the second limiting block 57 is in sliding connection with the second limiting, a third compression spring 61 is arranged between the sliding rod 60 and the sleeve, and a movable sucker 62 is arranged at one end of the sliding rod 60; a cross rod 63 is arranged on the side surface of the rectangular bracket 36, and trapezoidal blocks 64 are arranged at two ends of the upper surface of the cross rod 63; two ends of the rectangular slideway 37 are provided with a roller bearing I65, an inner ring of the roller bearing I65 is provided with a reciprocating threaded shaft III 66, the center of the sliding plate 38 is provided with a threaded hole III 67 meshed with the reciprocating threaded shaft III 66, one end of the reciprocating threaded shaft III 66 is provided with a bevel gear III 68, the other end of the rectangular slideway 37 is provided with a double-shaft motor 69, the rotating end of the double-shaft motor 69 is provided with a one-way wheel I70 meshed with the bevel gear III 68, and the other end of the double-shaft motor 69 is provided with a one-way wheel II 71 meshed with the.

The upper end of the rectangular box body 2 is provided with a three-layer composite moisture-proof paper bag 72, and one side of the upper end of the three-layer composite moisture-proof paper bag 72 is provided with a feeding hole 73.

A feed hopper 74 is mounted to the upper end of the mixer body 1.

One side of the mixer body 1 is provided with a U-shaped groove 75, and the U-shaped groove 75 is placed on the ground.

In the embodiment, the electric appliance of the equipment is controlled by an external controller, the fixed sucker 53 and the movable sucker 62 are provided with matched vacuum pumps and connected with the vacuum pumps, so that the fixed sucker 53 and the movable sucker 62 have adsorption functions, the packaging bag adopts a three-layer composite dampproof paper bag 72 and can play a role of dampproof and sun-proof, the three-layer composite dampproof paper bag 72 has a regular appearance and certain hardness and is convenient to move, the three-layer composite dampproof paper bag 72 belongs to a customized packaging bag, a feed inlet 73 is formed in one side of the upper end of the three-layer composite dampproof paper bag 72, before packaging, a sliding shaft I5 is manually pulled and moves to one side, at the moment, the tension spring 7 is extended, the push plate 6 moves along with the sliding shaft I5, a plurality of the three-layer composite dampproof paper bags 72 are manually placed in the rectangular box body 2, and the three-layer composite dampproof paper bags 72 are placed between the, after the box body is fully placed, the sliding shaft I5 is released, the pushing plate 6 can be tightly attached to the three-layer composite moisture-proof paper bag 72 under the action of the extension spring 7, the three-layer composite moisture-proof paper bag 72 at one end of the rectangular box body 2 is extruded by the pushing plate 6, the three-layer composite moisture-proof paper bag 72 at the other end is tightly attached to the auger roller 11, and when the auger roller 11 does not rotate or rotates for less than one circle, the three-layer composite moisture-proof paper bag 72 is in a static state;

during primary packaging, the three-layer composite moisture-proof paper bag 72 is manually placed at the position where the fixed suction cup 53 and the movable suction cup 62 clamp the three-layer composite moisture-proof paper bag 72, then the controller controls the double-shaft motor 69 to rotate positively, the double-shaft motor 69 rotates positively to drive the first one-way wheel 70 to drive the third bevel gear 68 to rotate, at the moment, the second one-way wheel 71 does not rotate, the third bevel gear 68 rotates to drive the third reciprocating threaded shaft 66 to rotate, the third reciprocating threaded shaft 66 rotates to drive the sliding plate 38 to move leftwards by the length of the trapezoidal block 64, at the moment, the double-shaft motor 69 stops rotating temporarily, during the movement of the sliding plate 38, the lower ends of the first sleeve 50 and the second sleeve 56 are gradually separated from the trapezoidal block 64, as the first sleeve 50 and the second sleeve 56 are not restricted by the trapezoidal block 64, the first sleeve 50 and the second sleeve 56 can descend by a certain distance under the action of the first compression, the movable suction cup 62 is positioned at the position of the three-layer composite moisture-proof paper bag 72;

at the moment, the controller controls the second stepping motor 46 to rotate positively, the rotation of the second stepping motor 46 directly drives the second threaded shaft 45 to rotate, the rotation of the second threaded shaft 45 drives the rectangular block 40 to move oppositely in the rectangular groove 39, the movement of the rectangular block 40 drives the connecting rod 47, the fixed sucker 53 and the movable sucker 62 to move oppositely at the same time, the fixed sucker 53 and the movable sucker 62 clamp the three-layer composite moisture-proof paper bag 72, the controller controls the vacuum pump to work, the fixed sucker 53 and the movable sucker 62 adsorb the three-layer composite moisture-proof paper bag 72, then the second stepping motor 46 rotates reversely, the reverse rotation of the second stepping motor 46 indirectly drives the fixed sucker 53 to be away from each other and drives the feed port 73 to be opened, and as the material of the three-layer composite moisture-proof paper bag 72 has smaller structural strength, the connecting rod 47 drives the movable sucker 62 to move, certain resistance is received, and the resistance is larger than, the compression spring III 61 is compressed, the position of the movable sucker 62 does not obviously move, and the three-layer composite moisture-proof paper bag 72 can be stably supported in the vertical direction; then the double-shaft motor 69 continues to rotate forwards, the double-shaft motor 69 rotates forwards to indirectly drive the opened feed port 73 to be sleeved at one end of the conical cylinder 21, as shown in fig. 13, at this time, the fixed suction cup 53 and the movable suction cup 62 release the three-layer composite moisture-proof paper bag 72, and the three-layer composite moisture-proof paper bag 72 is supported by the U-shaped groove 75 and the conical cylinder 21 to be in a stable state; through the characteristic of the third reciprocating threaded shaft 66, when the sliding plate 38 slides to the leftmost end, the sliding plate can automatically move in the opposite direction, and the first one-way wheel 70 can be driven to reset by continuous rotation, so that preparation is made for the next movement of the packaging bag;

after the sliding plate 38 is reset, the double-shaft motor 69 rotates reversely, the rotation of the double-shaft motor 69 drives the two one-way wheel 71 to transmit, the one-way wheel 70 does not transmit, the transmission of the two one-way wheel 71 drives the first transmission wheel 35 to rotate, the first transmission wheel 35 drives the first reciprocating threaded shaft 33 to rotate, the rotation of the first reciprocating threaded shaft 33 drives the sliding block 30 and the rubber ring 31 to move oppositely, finally, the feed inlet 73 is fixed at one end of the conical barrel 21, the three-layer composite moisture-proof paper bag 72 and the conical barrel 21 are in a sealed state, then the controller controls the first stepping motor 25 to rotate, the rotation of the first stepping motor 25 drives the output screw 24 to rotate, the raw materials in the mixer body 1 can be output to one end of the conical cylinder 21, at the moment, the three-layer compound moisture-proof paper bag 72 is in a shriveled state, the purpose of dustproof packaging is realized by gradually bulging the three-layer composite dampproof paper bag 72 filled with the raw materials;

when the three-layer composite moisture-proof paper bag 72 on the left side is filled, the three-layer composite moisture-proof paper bag 72 between the auger rollers 11 is completely separated from the auger rollers 11, the three-layer composite moisture-proof paper bag 72 filled with raw materials is manually dragged out, the next fill is made.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (4)

1. The automatic loading dustproof device for the toughened pressure-bearing fibers comprises a mixer body (1) and is characterized in that a packaging bag supply mechanism is arranged on one side of the mixer body (1), a packaging bag fixing mechanism is arranged on one side of the packaging bag supply mechanism, and a dustproof discharging mechanism is arranged at the lower end of the mixer body (1);

the packing bag supply mechanism comprises a rectangular box body (2) on one side of a mixer body (1), the rectangular box body (2) is placed on the ground, rectangular openings (3) are respectively formed in the upper surface and the side surface of the rectangular box body (2), a fixed pipe (4) is installed on the side surface of the rectangular box body (2), a first sliding shaft (5) is installed in the fixed pipe (4), a pushing plate (6) is installed at one end of the first sliding shaft (5), a stretching spring (7) is installed at the other end of the first sliding shaft (5), one end of the stretching spring (7) is fixedly connected with the rectangular box body (2), a first vertical bearing (8) is installed on the opposite side surface of the rectangular box body (2), four first vertical bearings (8) are arranged, a rotating shaft (9) is installed on the inner ring of the first vertical bearing (8), one end of the rotating shaft (9) is fixedly connected with, one end of the worm wheel (10) is provided with a packing auger roller (11); two sides of the rectangular box body (2) are provided with vertical bearings II (12), the inner ring of each vertical bearing II (12) is provided with a transmission shaft I (13), two ends of each transmission shaft I (13) are provided with worms I (14) which are meshed with the worm wheel (10), the lower end of each worm I (14) is provided with a bevel gear I (15), the lower surface of the rectangular box body (2) is provided with a vertical bearing III (16), the inner ring of each vertical bearing III (16) is provided with a transmission shaft II (17), two ends of each transmission shaft II (17) are provided with bevel gears II (18) which are meshed with the bevel gears I (15), and one end of each transmission shaft II (17;

the dustproof discharging mechanism comprises a discharging port (20) at one end of the lower surface of a mixer body (1), a conical cylinder (21) is mounted at the lower end of the discharging port (20), the conical cylinder (21) and the discharging port (20) are in an intercommunicated state, a sealing bearing (22) is mounted at one end of the conical cylinder (21), a third transmission shaft (23) is mounted on the inner ring of the sealing bearing (22), an output screw (24) is mounted at one end of the third transmission shaft (23), a first stepping motor (25) is mounted on the lower surface of the mixer body (1), the rotating end of the first stepping motor (25) is fixedly connected with the third transmission shaft (23), a second belt pulley (26) is mounted at the rotating end of the first stepping motor (25), and a first transmission belt (27; the two sides of the conical barrel (21) are provided with L-shaped fixing plates (28), the L-shaped fixing plates (28) are fixedly connected with the mixer body (1), the side surfaces of the L-shaped fixing plates (28) are provided with first sliding chutes (29), one sides of the first sliding chutes (29) are provided with sliding blocks (30), the sliding blocks (30) are slidably connected with the first sliding chutes (29), the lower ends of the sliding blocks (30) are provided with rubber rings (31), the side surfaces of the sliding blocks (30) are provided with first threaded holes (32), first reciprocating threaded shafts (33) are installed in the first threaded holes (32), one ends of the first reciprocating threaded shafts (33) are provided with fourth vertical bearings (34), one sides of the fourth vertical bearings (34) are fixedly connected with the mixer body (1), and one ends of the first reciprocating threaded;

the packaging bag fixing mechanism comprises a rectangular support (36) on one side of the mixer body (1), the rectangular support (36) is placed on the ground, a rectangular slide way (37) is installed at the upper end of the rectangular support (36), a sliding plate (38) is installed on the lower surface of the rectangular slide way (37), the sliding plate (38) is in sliding connection with the rectangular slide way (37), a rectangular groove (39) is formed in the center of the lower surface of the sliding plate (38), rectangular blocks (40) are installed at two ends of the rectangular groove (39), the rectangular blocks (40) are in sliding connection with the rectangular groove (39), a threaded hole II (41) is formed in the side surface of each rectangular block (40), a limiting ring (42) is installed in the center of each rectangular groove (39), a transmission shaft IV (43) is installed in the center of each limiting ring (42), an annular groove (44) is formed in, a second threaded shaft (45) is mounted at two ends of the fourth transmission shaft (43), the second threaded shaft (45) is meshed with the second threaded hole (41), a second stepping motor (46) is mounted on one side of the sliding plate (38), and the rotating end of the second stepping motor (46) is fixedly connected with the second threaded shaft (45); the lower surface of the rectangular block (40) is provided with two connecting rods (47), one end of each connecting rod (47) is provided with a first fixing shaft (48), the side surface of the first fixing shaft (48) is provided with a first limiting groove (49), the lower end of the first fixing shaft (48) is provided with a first sleeve (50), the upper end of the first sleeve (50) is provided with a first limiting block (51), the first limiting block (51) is in sliding connection with the first limiting groove (49), a first compression spring (52) is arranged between the first fixing shaft (48) and the first sleeve (50), the lower end of the first sleeve (50) is provided with a fixed sucker (53), the other end of each connecting rod (47) is provided with a second fixing shaft (54), the side surface of the second fixing shaft (54) is provided with a second limiting groove (55), the lower end of the second fixing shaft (54) is provided with a second sleeve (56), the upper end of the second sleeve (, a second compression spring (58) is arranged between the second fixed shaft (54) and the second sleeve (56), a first through hole (59) is formed in the lower end of the second sleeve (56), a sliding rod (60) is arranged on the inner side of the first through hole (59), a third compression spring (61) is arranged between the sliding rod (60) and the sleeve, and a movable sucker (62) is arranged at one end of the sliding rod (60); a cross rod (63) is installed on the side surface of the rectangular support (36), and trapezoidal blocks (64) are installed at two ends of the upper surface of the cross rod (63); roller bearings I (65) are installed at two ends of the rectangular slide way (37), reciprocating threaded shafts III (66) are installed on inner rings of the roller bearings I (65), a threaded hole III (67) meshed with the reciprocating threaded shafts III (66) is formed in the center of the sliding plate (38), a bevel gear III (68) is installed at one end of the reciprocating threaded shaft III (66), a double-shaft motor (69) is installed at the other end of the rectangular slide way (37), a one-way wheel I (70) meshed with the bevel gear III (68) is installed at the rotating end of the double-shaft motor (69), and a one-way wheel II (71) meshed with the driving wheel I (35) is installed at the other end of the double-.

2. The automatic loading and dust preventing device for the toughened pressure-bearing fibers is characterized in that a three-layer composite moisture-proof paper bag (72) is arranged at the upper end of the rectangular box body (2), and a feeding hole (73) is formed in one side of the upper end of the three-layer composite moisture-proof paper bag (72).

3. The automatic loading dustproof device for toughened pressure-bearing fibers is characterized in that a feed hopper (74) is mounted at the upper end of the mixer body (1).

4. The automatic loading and dust preventing device for the toughened pressure-bearing fibers is characterized in that a U-shaped groove (75) is formed in one side of the mixer body (1), and the U-shaped groove (75) is placed on the ground.

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