CN113897710A - Wool blending machine with electrostatic adsorption function - Google Patents

Abstract

The invention discloses a fearnaught with an electrostatic adsorption function, and relates to the technical field of novel fearnaughts. The electrostatic adsorption dust removal device comprises a wool making machine main body and an electrostatic adsorption guide roller structure, wherein the electrostatic adsorption guide roller structure is fixed at the top end of one end of the wool making machine main body and is used for feeding and electrostatic adsorption dust removal. According to the invention, through the design of the electrostatic adsorption guide roller structure, the device is convenient for the wool blending machine to carry out feeding guide, meanwhile, the composite high-static production adsorption module is used for completing high-efficiency electrostatic adsorption dust removal on a feeding material body, and through the design of conveniently replacing the doffer structure, the device is convenient for completing the convenient replacement of a wool blending poking rack, so that the continuous service performance of the wool blending machine is better maintained, and through the design of an automatic positioning cutting structure, the device is convenient for completing the automatic adaptive adjustment and cutting of wool blending guide discharging, and the use convenience of the device is improved.

Description

Wool blending machine with electrostatic adsorption function

Technical Field

The invention relates to the technical field of novel wool making machines, in particular to a wool making machine with an electrostatic adsorption function.

Background

The wool making machine is used for further tearing the mixed raw materials into small pieces by using the striking and tearing actions of the brad nails so as to meet the opening requirement, and mixing is carried out during opening so as to further eliminate impurities in the raw materials, but the existing wool making machine has the following problems in the use process:

1. due to the lack of a corresponding electrostatic automatic dust removal and feeding design, dust in raw materials is inconvenient to remove in the feeding process, and the overall use effect is poor;

2. the doffer is inconvenient to replace and assemble, so that the doffer is inconvenient to replace when damaged in the using process;

3. the material body that the shaping was derived is not convenient for carry out the automation and derive the adaptation and cut.

Disclosure of Invention

The invention aims to provide a fearnaught with an electrostatic adsorption function, which aims to solve the existing problems: lack corresponding electrostatic automation dust removal material loading design, lead to the dust in the raw materials in the material loading process to be not convenient for get rid of, whole result of use is relatively poor.

In order to achieve the purpose, the invention provides the following technical scheme: a blending machine with an electrostatic adsorption function comprises a blending machine main body and an electrostatic adsorption guide roller structure, wherein the electrostatic adsorption guide roller structure is fixed at the top end of one end of the blending machine main body and is used for feeding and electrostatic adsorption dust removal;

the doffer replacing structure is fixed at the top end of the other end of the wool making machine main body and used for breaking up raw materials;

the automatic positioning and cutting structure is fixed at one end, close to the wool weaving machine main body, of the doffer structure which is convenient and quick to replace, and is used for leading out processed raw materials and adapting to automatic cutting.

Preferably, the electrostatic adsorption guide roller structure includes first carrier plate, first motor, wire running roller and compound high static production adsorption module, first carrier plate is located the both sides on wool weaving owner body one end top, the first motor of screw fixedly connected with is passed through to one side of first carrier plate, the output fixedly connected with wire running roller of first motor, the compound high static production adsorption module of top fixedly connected with of first carrier plate.

Preferably, the composite high-static production adsorption module comprises a friction static production box, a carrying cross beam, an eccentric pushing belt moving plate, a first positioning pin, a first push-pull rod, a second positioning pin, a second push-pull rod, a third positioning pin, a first synchronous moving block, a second synchronous moving block, a guiding polished rod and a dual static production module, wherein the carrying cross beam is fixedly connected to the inner side of the friction static production box, the guiding polished rod is welded to both sides of the carrying cross beam, the eccentric pushing belt moving plate is rotatably connected to the top end of the carrying cross beam, the first positioning pin is fixedly connected to both ends of the upper surface of the eccentric pushing belt moving plate, the first push-pull rod is rotatably connected to the outer side of one first positioning pin, the second positioning pin is rotatably connected to the other side of the first push-pull rod, and the second synchronous moving block is welded to the bottom end of the second positioning pin, the second synchronous displacement block is connected with the guide polished rod in a sliding mode, a second push-pull rod is sleeved on the outer side of the other first positioning pin, the other end of the second push-pull rod is connected with a third positioning pin in a rotating mode, a first synchronous displacement block is fixedly connected to the bottom end of the third positioning pin, a hydraulic piston cylinder is fixedly connected to the inner side of the first synchronous displacement block, the output end of the hydraulic piston cylinder is fixedly connected with the carrying cross beam, the first synchronous displacement block is connected with the guide polished rod in a sliding mode, and the bottom end of the first synchronous displacement block and the bottom end of the second synchronous displacement block are both fixedly connected with the dual static electricity production module.

Preferably, dual static production module generates the shell including the friction, moves and leads year post, second motor, turnover drive board, initiative friction pulley, supplementary support base and driven friction pulley, the top welding that the shell was generated in the friction moves and leads year post, the inboard that moves and lead year post is connected with the second motor through screw fixed connection, the output fixedly connected with turnover drive board of second motor, the both sides that turnover drive board lower surface all rotate and are connected with initiative friction pulley, the friction generates the supplementary support base of inboard fixedly connected with of shell, the top of supplementary support base is rotated and is connected with driven friction pulley.

Preferably, the friction generation shell, the driving friction wheel, the driven friction wheel and the friction static electricity generation box are all made of PP.

Preferably, convenient change doffer structure includes that the second carries on locating plate, third motor, moves the guide pulley and conveniently adorns the doffer beam structure, the second carries on the locating plate and is located the both sides on wool spinning frame main part other end top, one side that the second carried on the locating plate is through screw fixedly connected with third motor, the guide pulley is moved to the output fixedly connected with of third motor, the equal fixedly connected with of week side of moving the guide pulley conveniently adorns the doffer beam structure.

Preferably, the doffer beam structure convenient to mount comprises a second mounting base, a reserved mounting block, a first mounting base, a fur toggle rack, a first locking hole, a second locking rod, a movable guide inserting block, a first locking pin, an extension sliding guide pushing block, a matched pushing block and a second locking pin, wherein a plurality of second mounting bases are fixed on the peripheral side of the movable guide wheel on one side, the reserved mounting block is rotatably connected to the inner side of the second mounting base, a plurality of first mounting bases are fixed on the peripheral side of the movable guide wheel on the other side, one side of the fur toggle rack is connected with the reserved mounting blocks in an inserting manner, the other side of the fur toggle rack is connected with the first mounting bases in a clamping manner, first locking holes are formed in the two ends of the first mounting base and the two ends of the other side of the fur toggle rack, second locking rods are formed in the inner part of the first mounting base and the inner part of the other side of the fur toggle rack, the inboard grafting of second check lock pole has first check lock, and the top welding of first check lock moves the guide and inserts the piece, move the both ends of guide and insert the piece and all weld and extend and slide the guide ejector pad, the inboard sliding connection who extends and slide the guide ejector pad has the cooperation ejector pad, the one end welding of cooperation ejector pad has the second check lock, second check lock and first check lock hole sliding connection, the inboard in first check lock hole and the inboard of second check lock pole all are fixed with the magnet piece, the material of first check lock and the material of second check lock are magnet, first check lock hole and second check lock magnetism are inhaled and are connected, first check lock is inhaled with second check lock pole magnetism and is connected.

Preferably, the magnet pieces are fixed on the inner side of the first locking hole and the inner side of the second locking rod, the material of the first locking pin and the material of the second locking pin are both magnets, the first locking hole is magnetically connected with the second locking pin, and the first locking pin is magnetically connected with the second locking rod.

Preferably, the doffer beam structure of just adorning still includes built-in guide block, separation and impels the guide block, reserves and forms groove, spring and wedge fixture block, the built-in guide block has all been welded at the both ends of second accessory mount base, the inboard sliding connection of built-in guide block has the separation and impels the guide block, the reservation is seted up at the both ends that the rack one side was stirred to the wool and is formed the groove, the inside welding that the reservation formed the groove has the spring, one side welding of spring has the wedge fixture block, the internal clearance fit of wedge fixture block and built-in guide block.

Preferably, the automatic positioning and cutting structure comprises a discharge guide block, a guide plate, a guide stroke block, a fourth motor, a screw rod, a guide slide rail, a linkage pushing block, an auxiliary fixing block, a movable guide output carrying block, a fifth motor, a toggle gear, a rack column and a cutting knife, wherein the guide plate is welded on the inner side of the discharge guide block, the guide stroke block is welded on the top of one end of the discharge guide block, the fourth motor is fixedly connected on one side of the guide stroke block through the screw, the screw rod is fixedly connected with the output end of the fourth motor, the guide slide rails are welded on the top end and the bottom end of the inner side of the guide stroke block, the linkage pushing block is connected on the outer side of the screw rod through threads, the linkage pushing block is further connected with the guide slide rail in a sliding manner, the auxiliary fixing block is fixedly connected on one end of the linkage pushing block, the movable guide output carrying block is fixedly connected on one end of the auxiliary fixing block, one side of moving and leading output carrier block is through screw fixedly connected with fifth motor, the output fixedly connected with of fifth motor stirs the gear, the inboard sliding connection who moves and leading output carrier block has the rack post, the one end and the rack post meshing of stirring the gear are connected, the bottom fixedly connected with cutting off cutter of rack post.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the design of the electrostatic adsorption guide roller structure, the device is convenient to carry out loading guide of the wool making machine, and meanwhile, the high-efficiency electrostatic adsorption dedusting of a loading material body is completed through the composite high-static production adsorption module;

2. according to the fur blending machine, the doffer structure is conveniently replaced, so that the fur blending machine is convenient to replace the fur blending rack conveniently, and the continuous service performance of the fur blending machine is maintained better;

3. according to the automatic positioning and cutting device, due to the design of the automatic positioning and cutting structure, the device is convenient to automatically adapt to the adjustment and cutting of the hair guiding and discharging material, and the use convenience of the device is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a side view of the present invention in its entirety;

FIG. 3 is a partial schematic structural view of an electrostatic attraction guide roller structure according to the present invention;

FIG. 4 is a schematic view of a partial structure of the composite high electrostatic production adsorption module of the present invention;

FIG. 5 is a schematic view of a partial structure of a dual electrostatic production module according to the present invention;

FIG. 6 is a schematic view of a partial structure of the doffer structure of the present invention for easy replacement;

FIG. 7 is a schematic view of a partial explosion of the ready-to-mount doffer beam structure of the present invention;

FIG. 8 is a schematic view of a portion of a portable doffer beam structure of the present invention;

FIG. 9 is a schematic view of a partial structure of the automatic positioning and cutting structure according to the present invention.

In the figure: 1. a hair mixing machine main body; 2. an electrostatic adsorption guide roller structure; 3. the doffer structure is convenient and fast to replace; 4. automatic positioning and cutting structure; 5. a first carrying positioning plate; 6. a first motor; 7. a wire roller; 8. compounding a high-static production adsorption module; 9. a tribostatic production tank; 10. carrying a cross beam; 11. eccentrically pushing the guide plate; 12. a first positioning pin; 13. a first push-pull rod; 14. a second positioning pin; 15. a second push-pull rod; 16. a third positioning pin; 17. a first synchronous displacement block; 18. a second synchronous displacement block; 19. a guide polish rod; 20. a dual static electricity production module; 21. a friction generating housing; 22. a movable guide carrying column; 23. a second motor; 24. the driving plate is rotated; 25. a driving friction wheel; 26. an auxiliary support base; 27. a driven friction wheel; 28. a second carrying positioning plate; 29. a third motor; 30. a movable guide wheel; 31. the doffer beam structure is convenient to mount; 32. the fur pokes the rack; 33. a first fitting base; 34. a first locking hole; 35. a second locking lever; 36. a movable guide insertion block; 37. a first locking pin; 38. extending the sliding guide push block; 39. a push block is matched; 40. a second locking pin; 41. a second fitting base; 42. reserving a carrying block; 43. a guide block is arranged in the guide block; 44. separating the push guide block; 45. reserving to form a groove; 46. a spring; 47. a wedge-shaped fixture block; 48. a discharging guide block; 49. a material guide plate; 50. A guide stroke block; 51. a fourth motor; 52. a screw; 53. a guide rail; 54. a linkage push guide block; 55. auxiliary fixing blocks; 56. a dynamic output carrier block; 57. a fifth motor; 58. a gear is stirred; 59. a rack post; 60. and (5) cutting off the cutter.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Please refer to fig. 1-2:

a wool making machine with an electrostatic adsorption function comprises a wool making machine main body 1 and an electrostatic adsorption guide roller structure 2, wherein the electrostatic adsorption guide roller structure 2 is fixed at the top end of one end of the wool making machine main body 1, and the electrostatic adsorption guide roller structure 2 is used for feeding and electrostatic adsorption dust removal;

the doffer structure 3 is convenient to replace, the doffer structure 3 is convenient to replace and fixed at the top end of the other end of the wool making machine main body 1, and the doffer structure 3 is convenient to replace and used for breaking up raw materials;

automatic location cuts structure 4, and automatic location cuts structure 4 and is fixed in and wool machine main part 1 and is close to the convenient one end of changing doffer structure 3, and automatic location cuts structure 4 and is used for exporting the raw materials after handling to adapt to automatic cutting.

Please refer to fig. 3:

the electrostatic adsorption guide roller structure 2 comprises a first carrying and positioning plate 5, a first motor 6, a wire roller 7 and a composite high-static production adsorption module 8, wherein the first carrying and positioning plate 5 is positioned on two sides of the top end of one end of the wool knitting machine main body 1, one side of the first carrying and positioning plate 5 is fixedly connected with the first motor 6 through a screw, the output end of the first motor 6 is fixedly connected with the wire roller 7, and the top end of the first carrying and positioning plate 5 is fixedly connected with the composite high-static production adsorption module 8;

the torque driving of the wire roller 7 is completed by controlling the first motor 6, so that the raw materials are fed under the derivation of the wire roller 7;

please refer to fig. 4:

the composite high-static production adsorption module 8 comprises a friction static production box 9, a carrying beam 10, an eccentric pushing and guiding belt plate 11, a first positioning pin 12, a first push-pull rod 13, a second positioning pin 14, a second push-pull rod 15, a third positioning pin 16, a first synchronous displacement block 17, a second synchronous displacement block 18, a guiding light rod 19 and a dual static production module 20, wherein the carrying beam 10 is fixedly connected to the inner side of the friction static production box 9, the guiding light rods 19 are welded to two sides of the carrying beam 10, the eccentric pushing and guiding belt plate 11 is rotatably connected to the top end of the carrying beam 10, the first positioning pin 12 is fixedly connected to two ends of the upper surface of the eccentric pushing and guiding plate 11, the first push-pull rod 13 is rotatably connected to the outer side of one first positioning pin 12, the second positioning pin 14 is rotatably connected to the other side of the first positioning pin 13, the second synchronous displacement block 18 is welded to the bottom end of the second positioning pin 14, the second synchronous displacement block 18 is connected with the guide light rod 19 in a sliding mode, the outer side of the other first positioning pin 12 is sleeved with the second push-pull rod 15, the other end of the second push-pull rod 15 is connected with a third positioning pin 16 in a rotating mode, the bottom end of the third positioning pin 16 is fixedly connected with a first synchronous displacement block 17, the inner side of the first synchronous displacement block 17 is fixedly connected with a hydraulic piston cylinder, the output end of the hydraulic piston cylinder is fixedly connected with the carrying cross beam 10, the first synchronous displacement block 17 is connected with the guide light rod 19 in a sliding mode, and the bottom end of the first synchronous displacement block 17 and the bottom end of the second synchronous displacement block 18 are both fixedly connected with a double-static electricity production module 20;

the reciprocating contraction and extension derivation of the output end are completed by controlling the hydraulic piston cylinder, so that the first synchronous displacement block 17 completes the sliding at the guide polished rod 19, the movable guide force of the first synchronous displacement block 17 is transmitted to the first positioning pin 12 at one end of the eccentric guide polished rod 11 by the cooperation of the third positioning pin 16 and the second push-pull rod 15, the eccentric push belt guide plate 11 is forced to rotate, the first positioning pin 12 at the other end is pulled by the rotation of the eccentric push belt guide plate 11, the second positioning pin 14 is driven by the matching of the first positioning pin 12 and the first push-pull rod 13 to enable the second synchronous displacement block 18 to synchronously force and slide, so that the double static electricity production modules 20 on the two sides are synchronously driven to complete displacement, and friction between the double static electricity production modules 20 and the friction static electricity production box 9 is utilized to form first heavy static electricity generation;

please refer to fig. 5:

the dual static electricity production module 20 comprises a friction generation shell 21, a movable guide carrying column 22, a second motor 23, a turnover driving plate 24, a driving friction wheel 25, an auxiliary support base 26 and a driven friction wheel 27, wherein the movable guide carrying column 22 is welded at the top end of the friction generation shell 21, the second motor 23 is fixedly connected to the inner side of the movable guide carrying column 22 through screws, the turnover driving plate 24 is fixedly connected to the output end of the second motor 23, the driving friction wheel 25 is rotatably connected to two sides of the lower surface of the turnover driving plate 24, the auxiliary support base 26 is fixedly connected to the inner side of the friction generation shell 21, and the driven friction wheel 27 is rotatably connected to the top end of the auxiliary support base 26;

the materials of the friction generation shell 21, the driving friction wheel 25, the driven friction wheel 27 and the friction static electricity production box 9 are all PP;

the second motor 23 is used for driving the turnover driving plate 24, the turnover driving plate 24 is used for driving the driving friction wheel 25, the driving friction wheel 25 rotates around the driven friction wheel 27, second-order static electricity is produced by continuous friction of the driving friction wheel 25 and the driven friction wheel 27, and dust in the raw materials is adsorbed by the static electricity;

please refer to fig. 6-8:

the convenient doffer replacing structure 3 comprises a second carrying and positioning plate 28, a third motor 29, a movable guide wheel 30 and a convenient doffer beam structure 31, wherein the second carrying and positioning plate 28 is positioned on two sides of the top end of the other end of the wool knitting machine main body 1, one side of the second carrying and positioning plate 28 is fixedly connected with the third motor 29 through a screw, the output end of the third motor 29 is fixedly connected with the movable guide wheel 30, and the peripheral side surfaces of the movable guide wheel 30 are fixedly connected with the convenient doffer beam structure 31;

the doffer beam structure 31 convenient to mount comprises a second mounting base 41, a reserved carrying block 42, a first mounting base 33, a fur toggle rack 32, a first locking hole 34, a second locking rod 35, a movable guide inserting block 36, a first locking pin 37, an extension sliding guide pushing block 38, a matching pushing block 39 and a second locking pin 40, wherein a plurality of second mounting bases 41 are fixed on the peripheral side of the movable guide wheel 30 on one side, the reserved carrying block 42 is rotatably connected to the inner side of the second mounting base 41, a plurality of first mounting bases 33 are fixed on the peripheral side of the movable guide wheel 30 on the other side, one side of the fur toggle rack 32 is connected with the reserved carrying block 42 in an inserting manner, the other side of the fur toggle rack 32 is clamped with the first mounting bases 33, the first locking holes 34 are respectively formed in the two ends of the first mounting bases 33 and the two ends of the other side of the fur toggle rack 32, the second locking rods 35 are respectively formed in the inner part of the first mounting bases 33 and the inner part of the other side of the fur toggle rack 32, a first locking pin 37 is inserted into the inner side of the second locking rod 35, a movable guide insertion block 36 is welded at the top end of the first locking pin 37, extension sliding guide push blocks 38 are welded at two ends of the movable guide insertion block 36, a matching push block 39 is connected to the inner sides of the extension sliding guide push blocks 38 in a sliding mode, a second locking pin 40 is welded at one end of the matching push block 39, the second locking pin 40 is connected with the first locking hole 34 in a sliding mode, magnet sheets are fixed to the inner sides of the first locking hole 34 and the inner side of the second locking rod 35, the first locking pin 37 and the second locking pin 40 are both made of magnets, the first locking hole 34 is connected with the second locking pin 40 in a magnetic attraction mode, and the first locking pin 37 is connected with the second locking rod 35 in a magnetic attraction mode;

magnets are fixed on the inner sides of the first locking hole 34 and the second locking rod 35, the first locking pin 37 and the second locking pin 40 are made of magnets, the first locking hole 34 is magnetically connected with the second locking pin 40, and the first locking pin 37 is magnetically connected with the second locking rod 35;

the doffer beam structure 31 convenient to mount further comprises an internally-mounted guide block 43, a separating and pushing block 44, a reserved forming groove 45, a spring 46 and a wedge-shaped fixture block 47, the internally-mounted guide block 43 is welded at two ends of the second mounting base 41, the separating and pushing block 44 is connected to the inner side of the internally-mounted guide block 43 in a sliding mode, the reserved forming groove 45 is formed at two ends of one side of the wool poking rack 32, the spring 46 is welded inside the reserved forming groove 45, the wedge-shaped fixture block 47 is welded at one side of the spring 46, and the wedge-shaped fixture block 47 is in clearance fit with the inside of the internally-mounted guide block 43;

when the driver and hair toggle rack 32 is damaged and needs to be replaced, the matching pushing block 39 is pushed to slide on the inner side of the extending sliding guide pushing block 38, so that the matching pushing block 39 drives the second locking pin 40 to be pulled out of the first locking hole 34, the driver and hair toggle rack 32 and the first assembling base 33 lose the limit connection of the two ends, the driving guide inserting block 36 is driven to ascend at the moment, the first locking pin 37 is driven out of the second locking rod 35, the connection between the driver and hair toggle rack 32 and the first assembling base 33 is completely cancelled, the reserved carrying block 42 is rotated to ninety degrees by rotating the reserved carrying block 42, at the moment, the separation pushing block 44 is pressed, the separation pushing block 44 slides on the inner side of the inner installation guiding block 43, the wedge-shaped clamping block 47 is extruded, the wedge-shaped clamping block 47 extrudes the spring 46, and the wedge-shaped clamping block 47 is driven by the spring 46 to shrink to the inside of the reserved forming groove 45, at the moment, the fur striking rack 32 is pulled and led out of the inside of the reserved carrying block 42, the damaged fur striking rack 32 is removed, one side of the fur striking rack 32 is inserted into the reserved carrying block 42, the wedge-shaped fixture block 47 is limited by the inner side of the reserved carrying block 42, so that the wedge-shaped fixture block 47 is stressed to extrude the spring 46 to contract on the inner side of the reserved forming groove 45 until the wedge-shaped fixture block 47 is displaced to the inner mounting guide block 43, the wedge-shaped fixture block 47 loses the limit, the spring 46 elastically resets to push the wedge-shaped fixture block 47 to be inserted into the inner mounting guide block 43, the fixing on one side of the fur striking rack 32 is completed, the reserved carrying block 42 is rotated and reset, the other end of the fur striking rack 32 is clamped into the inner part of the first mounting base 33, the movable guide inserting block 36 is pushed to drive the first locking pin 37 to complete the plugging on the other side of the fur striking rack 32, and the pushing block 39 is pushed out and matched, so that the second locking pin 40 is inserted into the first locking hole 34, and the other side of the fur poking rack 32 is fixed;

please refer to fig. 9:

the automatic positioning and cutting structure 4 comprises a discharging guide block 48, a material guide plate 49, a guide stroke block 50, a fourth motor 51, a screw rod 52, a guide slide rail 53, a linkage pushing guide block 54, an auxiliary fixing guide block 55, a movable guide output carrier block 56, a fifth motor 57, a toggle gear 58, a rack post 59 and a cutting knife 60, wherein the material guide plate 49 is welded on the inner side of the discharging guide block 48, the guide stroke block 50 is welded on the top of one end of the discharging guide block 48, one side of the guide stroke block 50 is fixedly connected with the fourth motor 51 through a screw, the output end of the fourth motor 51 is fixedly connected with the screw rod 52, the guide slide rails 53 are welded on the top and the bottom of the inner side of the guide stroke block 50, the linkage pushing guide block 54 is connected on the outer side of the screw rod 52 through threads, the linkage pushing guide block 54 is also connected with the guide slide rail 53 in a sliding manner, the auxiliary fixing guide block 55 is fixedly connected with one end of the linkage pushing guide block 54, one end of the auxiliary fixing loading block 55 is fixedly connected with a movable guide output loading block 56, one side of the movable guide output loading block 56 is fixedly connected with a fifth motor 57 through a screw, the output end of the fifth motor 57 is fixedly connected with a toggle gear 58, the inner side of the movable guide output loading block 56 is slidably connected with a rack column 59, one end of the toggle gear 58 is meshed with the rack column 59, and the bottom end of the rack column 59 is fixedly connected with a cutting knife 60.

When cutting is needed, torque output to the screw 52 is completed by controlling the fourth motor 51, the screw 52 is in threaded connection with the linkage pushing and guiding block 54, torque is obtained at the linkage pushing and guiding block 54, the linkage pushing and guiding block 54 is in sliding connection with the guiding slide rail 53, the torque at the linkage pushing and guiding block 54 is limited to form sliding displacement, the linkage pushing and guiding block 54 drives the cutting knife 60 to complete transverse adjustment, the torque output to the shifting gear 58 is completed by controlling the fifth motor 57 at the moment, the shifting gear 58 is in meshed connection with the rack column 59, the rack column 59 is lowered under the shifting of the shifting gear 58, the cutting knife 60 is deduced to be at a proper height, the fourth motor 51 is controlled to perform torque output again, and the cutting knife 60 is controlled to drive to slide transversely to complete cutting of the material body.

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

Claims (9)

1. The utility model provides a fearnaught with electrostatic absorption function, includes fearnaught main part (1), its characterized in that: the electrostatic adsorption dust removal device is characterized by further comprising an electrostatic adsorption guide roller structure (2), wherein the electrostatic adsorption guide roller structure (2) is fixed to the top end of one end of the wool making machine main body (1), and the electrostatic adsorption guide roller structure (2) is used for feeding and electrostatic adsorption dust removal;

the doffer replacing structure (3) is convenient, the doffer replacing structure (3) is fixed to the top end of the other end of the wool blending machine main body (1), and the doffer replacing structure (3) is used for completing scattering of raw materials;

automatic location cuts structure (4), automatic location cuts structure (4) and is fixed in and wool weaving machine main part (1) and is close to the one end of convenient change doffer structure (3), automatic location cuts structure (4) and is used for exporting the raw materials after handling to adapt to automatic cutting.

2. A fearnaught with electrostatic adsorption function according to claim 1, characterized in that: electrostatic absorption guide roller structure (2) are including first carry on locating plate (5), first motor (6), wire running roller (7) and compound high static production adsorption module (8), first carry on locating plate (5) and be located the both sides on wool weaving machine main part (1) one end top, first carry on one side of locating plate (5) through first motor (6) of screw fixedly connected with, the output fixedly connected with wire running roller (7) of first motor (6), the compound high static production adsorption module (8) of top fixedly connected with of first carry on locating plate (5).

3. A fearnaught with electrostatic adsorption function according to claim 2, characterized in that: the composite high-static production adsorption module (8) comprises a friction static production box (9), a carrying cross beam (10), an eccentric pushing and guiding belt plate (11), a first positioning pin (12), a first push-pull rod (13), a second positioning pin (14), a second push-pull rod (15), a third positioning pin (16), a first synchronous displacement block (17), a second synchronous displacement block (18), a guiding polished rod (19) and a dual static production module (20), wherein the inner side of the friction static production box (9) is fixedly connected with the carrying cross beam (10), the guiding polished rod (19) is welded on two sides of the carrying cross beam (10), the top end of the carrying cross beam (10) is rotatably connected with the eccentric pushing and guiding belt (11), the first positioning pin (12) is fixedly connected on two ends of the upper surface of the eccentric pushing and guiding belt (11), and the first push-pull rod (13) is rotatably connected on the outer side of one first positioning pin (12), the other side of the first push-pull rod (13) is rotationally connected with a second positioning pin (14), the bottom end of the second positioning pin (14) is welded with a second synchronous displacement block (18), the second synchronous displacement block (18) is connected with a guide polished rod (19) in a sliding way, a second push-pull rod (15) is sleeved outside the other first positioning pin (12), the other end of the second push-pull rod (15) is rotatably connected with a third positioning pin (16), the bottom end of the third positioning pin (16) is fixedly connected with a first synchronous displacement block (17), the inner side of the first synchronous displacement block (17) is fixedly connected with a hydraulic piston cylinder, the output end of the hydraulic piston cylinder is fixedly connected with a carrying cross beam (10), the first synchronous displacement block (17) is connected with a guide polished rod (19) in a sliding way, the bottom end of the first synchronous displacement block (17) and the bottom end of the second synchronous displacement block (18) are fixedly connected with a double static electricity production module (20).

4. A fearnaught with electrostatic adsorption function according to claim 3, characterized in that: dual static production module (20) generate shell (21), move and lead carrying post (22), second motor (23), turnover drive board (24), initiative friction pulley (25), supplementary support base (26) and driven friction pulley (27) including the friction, the top welding that the friction generated shell (21) has the motion to lead carrying post (22), the inboard of moving and leading carrying post (22) is through screw fixedly connected with second motor (23), the output fixedly connected with turnover drive board (24) of second motor (23), the both sides of turnover drive board (24) lower surface all rotate and are connected with initiative friction pulley (25), the friction generates the supplementary support base (26) of inboard fixedly connected with of shell (21), the top of supplementary support base (26) is rotated and is connected with driven friction pulley (27).

5. A fearnaught with electrostatic adsorption function according to claim 4, characterized in that: the friction generation shell (21), the driving friction wheel (25), the driven friction wheel (27) and the friction static electricity generation box (9) are all made of PP.

6. A fearnaught with electrostatic adsorption function according to claim 1, characterized in that: convenient change doffer structure (3) include that the second carries on locating plate (28), third motor (29), moves guide pulley (30) and dress doffer beam structure (31), the second carries on locating plate (28) and is located the both sides on wool making machine main part (1) other end top, the second carries on one side of locating plate (28) and passes through screw fixedly connected with third motor (29), the output fixedly connected with of third motor (29) moves guide pulley (30), the equal fixedly connected with of week side of moving guide pulley (30) dress doffer beam structure (31) just.

7. A fearnaught with electrostatic adsorption function according to claim 6, characterized in that: the doffer beam structure (31) convenient to mount comprises a second mounting base (41), a reserved mounting block (42), a first mounting base (33), a fur toggle rack (32), a first locking hole (34), a second locking rod (35), a movable guide insertion block (36), a first locking pin (37), an extension sliding guide pushing block (38), a matching pushing block (39) and a second locking pin (40), wherein a plurality of second mounting bases (41) are fixed on the circumferential side of the movable guide wheel (30) on one side, the inner side of each second mounting base (41) is rotatably connected with the reserved mounting block (42), a plurality of first mounting bases (33) are fixed on the circumferential side of the movable guide wheel (30) on the other side, one side of the fur toggle rack (32) is connected with the reserved mounting block (42) in an inserting mode, the other side of the fur toggle rack (32) is connected with the first mounting bases (33) in a clamping mode, the magnet assembling device is characterized in that first locking holes (34) are formed in two ends of the first assembling base (33) and two ends of the other side of the wool poking rack (32), second locking rods (35) are formed in the inner portion of the first assembling base (33) and the inner portion of the other side of the wool poking rack (32), first locking pins (37) are inserted into the inner sides of the second locking rods (35), a movable guide inserting block (36) is welded at the top end of each first locking pin (37), extending sliding guide pushing blocks (38) are welded at two ends of each movable guide inserting block (36), matching pushing blocks (39) are connected to the inner sides of the extending sliding guide pushing blocks (38) in a sliding mode, second locking pins (40) are welded at one ends of the matching pushing blocks (39), the second locking pins (40) are connected with the first locking holes (34) in a sliding mode, magnet pieces are fixed on the inner sides of the first locking holes (34) and the inner sides of the second locking rods (35), the material of first latch bolt (37) and the material of second latch bolt (40) are magnet, first locking hole (34) are inhaled with second latch bolt (40) magnetism and are connected, first latch bolt (37) are inhaled with second check lock lever (35) magnetism and are connected.

8. A fearnaught with electrostatic adsorption function according to claim 7, characterized in that: just, dress doffer beam structure (31) still includes built-in guide block (43), separation and impels guide block (44), reserves and form groove (45), spring (46) and wedge fixture block (47), built-in guide block (43) have all been welded at the both ends of second equipment base (41), the inboard sliding connection of built-in guide block (43) has separation and impels guide block (44), the both ends of wool and hair poking rack (32) one side have all been seted up and have been reserved and form groove (45), the inside welding that reserves and form groove (45) has spring (46), the welding of one side of spring (46) has wedge fixture block (47), the inside clearance fit of wedge fixture block (47) and built-in guide block (43).

9. A fearnaught with electrostatic adsorption function according to claim 1, characterized in that: the automatic positioning and cutting structure (4) comprises a discharging guide block (48), a guide plate (49), a guide stroke block (50), a fourth motor (51), a screw (52), a guide slide rail (53), a linkage pushing guide block (54), an auxiliary fixing block (55), a movable guide output carrier block (56), a fifth motor (57), a toggle gear (58), a rack column (59) and a cutting knife (60), wherein the guide plate (49) is welded on the inner side of the discharging guide block (48), the guide stroke block (50) is welded on the top of one end of the discharging guide block (48), one side of the guide stroke block (50) is fixedly connected with the fourth motor (51) through a screw, the screw (52) is fixedly connected with the output end of the fourth motor (51), the guide slide rail (53) is welded on the top end and the bottom end of the inner side of the guide stroke block (50), and the linkage pushing guide block (54) is connected with the outer side of the screw (52) through threads, linkage guide block (54) still with guide slide rail (53) sliding connection, the supplementary fixed dress of one end fixedly connected with piece (55) of linkage guide block (54), the supplementary one end fixedly connected with who adorns piece (55) moves lead output carrier block (56), move one side of leading output carrier block (56) through screw fixedly connected with fifth motor (57), the output fixedly connected with toggle gear (58) of fifth motor (57), the inboard sliding connection who moves lead output carrier block (56) has rack post (59), the one end and the rack post (59) meshing of toggle gear (58) are connected, the bottom fixedly connected with cutting off cutter (60) of rack post (59).

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