CN112705453A - Regenerated cotton blooming machine - Google Patents

Abstract

The invention discloses a regenerated cotton blooming machine which comprises a rack, a spiral pull rod assembly, a transmission mechanism and a dust removal mechanism, wherein the rack comprises a material conveying bin and a dust screening bin, the material conveying bin is positioned at the upper end of the dust screening bin, the material conveying bin comprises a feeding bin, a middle end processing bracket and a discharging bin, the feeding bin, the middle end processing bracket and the discharging bin are sequentially connected one by one to form a whole rack body, the dust removal mechanism is arranged in the rack, materials are processed through the spiral pull rod assembly, dust separated in the processing process is discharged through the dust removal mechanism, and the transmission mechanism is arranged on two sides of the rack and drives the spiral pull rod assembly to rotate. The advantage lies in, is convenient for remove dust and overhaul, has reduced the assembly spare part simultaneously.

Description

Regenerated cotton blooming machine

Technical Field

The invention belongs to the field of flowering machines, and particularly relates to a regenerated cotton flowering machine.

Background

In some textile factories, chemical fiber factories, garment factories and textile product factories, leftover materials produced in the processing process are usually processed by a blooming machine to generate textile fibers with different lengths, and the textile fibers can be used as textile raw materials after further processing, so that the resources are recycled.

When cotton material is processed into cotton wool, because the raw materials are different in size and are doped with impurities, a large amount of dust can be generated in the process, and the dust is accumulated in a large amount, so that the normal work of the blooming machine equipment can be influenced. Therefore, after the equipment is used for a period of time, the processing is required to be suspended, and the case is opened to clean the dust in the case, so that the time and the labor are wasted, and the working efficiency is seriously affected.

Moreover, most of the blooming machines used in the market at present are complex in structure, particularly transmission mechanisms of the blooming machines, the number of parts is large, the assembly is complex, and great troubles are caused to the manufacturing efficiency, the later maintenance and the production safety of factory equipment.

Disclosure of Invention

In order to solve the problems and the defects in the prior art, the invention provides the regenerated cotton flowering machine which can efficiently and automatically remove dust, and is simple in structure and convenient to install.

Regenerated cotton blossoming machine, which comprises a frame, spiral shell pull rod assembly, drive mechanism and dust removal mechanism, the frame includes material transport storehouse and dust removal storehouse, material transport storehouse is located the dust removal storehouse upper end, the material is carried the storehouse and is included into the feed bin, middle-end processing support and play feed bin, it is whole that the feed bin, middle-end processing support and play feed bin three connect gradually one by one and constitute the frame body, dust removal mechanism sets up in the frame, the material passes through spiral shell pull rod assembly processing, the dust of separation passes through dust removal mechanism and discharges in the course of working, drive mechanism sets up in the frame both sides, and drive spiral shell pull rod assembly rotates.

Further, the feeding bin comprises a left support leg, a right support leg and a cross rod, the cross rod is fixedly connected between the left support leg and the right support leg, the middle-end processing support comprises a left mounting plate and a right mounting plate, the transmission mechanism and the screw pull rod assembly are mounted on the left mounting plate and the right mounting plate, the discharging bin comprises a left baffle and a right baffle, and a dust discharging port is formed in the left baffle or the right baffle.

Further, dust removal mechanism includes air suction pipeline, shale shaker and dust removal conveyer belt, and the shale shaker setting is in spiral shell pull rod below, and the dust removal conveyer belt setting is in spiral shell pull rod below, and the air suction pipeline setting is at the end of dust removal conveyer belt.

Furthermore, the transmission mechanism comprises two spiral pull transmission assemblies, four spiral pull transmission assemblies and a driving motor, the two spiral pull transmission assemblies and the four spiral pull transmission assemblies are respectively arranged on two sides of the rack, the two spiral pull transmission assemblies and the four spiral pull transmission assemblies are connected through a bridge shaft for transmission, the spiral pull rod, the two spiral pull transmission assemblies and the four spiral pull transmission assemblies are in meshing transmission through gears, and the driving motor and the four spiral pull transmission assemblies are in meshing transmission.

Furthermore, the spiral pull rod assembly comprises a first spiral pull rod, a second spiral pull rod, a third spiral pull rod, a fourth spiral pull rod, a fifth spiral pull rod and a sixth spiral pull rod, the first spiral pull rod, the second spiral pull rod, the third spiral pull rod and the fourth spiral pull rod are in meshing transmission with the four spiral pull transmission mechanisms through gears, and the fifth spiral pull rod and the sixth spiral pull rod are in meshing transmission with the two spiral pull transmission mechanisms through gears.

Furthermore, the four-screw-pulling transmission mechanism comprises a first gear reduction box, a first primary reduction gear wheel and a first secondary reduction gear wheel, one end of a gap axle is connected with the first primary reduction gear wheel, a driving motor is in meshing transmission with the first primary reduction gear wheel through a gear, a first secondary gear is further arranged on a main shaft of the gap axle and is in meshing transmission with the first secondary reduction gear wheel and the first gear reduction box respectively, the first secondary reduction gear wheel drives the first screw pull rod to rotate and is in meshing transmission with a second screw pull rod and a third screw pull rod simultaneously, the first gear reduction box is in meshing transmission with the fourth screw pull rod, the two-screw-pulling transmission mechanism comprises a second reduction gear box, a second primary reduction gear wheel and a second secondary reduction gear wheel, the second primary reduction gear wheel is in meshing transmission with the second primary reduction gear wheel, one end of the gap axle is connected with the first primary reduction gear wheel, the other end of the second gear is connected with a second duplex gear, the second duplex gear is respectively in meshing transmission with a second reduction gear box and a second first-stage reduction gear wheel, the second reduction gear box is in meshing transmission with a fifth spiral pull rod, and a second-stage reduction gear wheel is connected with a sixth spiral pull rod and drives the sixth spiral pull rod to rotate.

Further, dust collector still includes the dirt cage, is equipped with the delivery sheet between dirt cage and the shale shaker, and delivery sheet one end links up on the dirt cage surface, and the other end links up with the shale shaker top, and the dirt cage surface is equipped with a plurality of sieve meshes, and the inside hollow structure that is of dirt cage, dust removal conveyer belt setting is in the frame to run through feed bin, dust powder sieve storehouse and go out the feed bin, the suction line sets up in going out the feed bin, and the suction line includes an air outlet and a plurality of suction opening, and the air outlet runs through out the feed bin top.

Furthermore, the suction opening comprises a first suction opening, a second suction opening and a third suction opening, the first suction opening is arranged at the tail end of the dust removal conveying belt, the second suction opening is arranged at the hollow structure of the dust cage, and the third suction opening is arranged in the discharge bin.

Furthermore, the front end of the dust removal bin is provided with a first bin door, the two sides of the feeding bin are respectively provided with a second bin door, the two sides of the middle-end processing support are also provided with a first protective shell cover, a transmission mechanism or a driving mechanism on the middle-end processing support is wrapped in the first protective shell cover, the two sides of the discharging bin are provided with a second protective shell cover, a cavity for laying a dust removal pipeline is formed between the second shell cover and the discharging bin, the second protective shell covers on the two sides of the discharging bin are respectively provided with a third bin door, the top of the discharging bin is provided with a fourth bin door, and the tail end of the dust removal bin is provided with a fifth bin door.

The invention has the advantages that:

1. set up the shale shaker in the below of spiral shell pull rod, partial cotton material and dust drop when the spiral shell pull rod, drop to the shale shaker on, are equipped with a plurality of sieve meshes of densely covered range on the shale shaker, and shale shaker high-frequency vibration separates dust and cotton material, and the dust of separation falls into on the dust removal conveyer belt, and the dust removal conveyer belt takes away the dust, and simultaneously, the surface fabric that the separation obtained falls into the feed bin bottom feed back and accomodates the chamber for reprocess.

2. The tail end of the dust removal conveying belt is provided with an air suction pipeline, an air suction opening in the air suction pipeline faces the dust removal conveying belt, the dust cage and the discharging bin respectively, and air suction and dust removal are realized in all links from fabric processing to final finished product obtaining.

3. Except that the frame is originally external, still set up the clamshell in drive mechanism or actuating mechanism department, can carry out the cladding with relevant peripheral hardware, at first promoted the production security, if peripheral hardware structure is complicated, occupy great installation space, will influence the clamshell and be difficult to complete cladding, consequently, still need reduce peripheral hardware when setting up the clamshell, the peripheral hardware of reduction is whole to be set up in the clamshell, the clamshell is equipped with the cabinet door, convenient to overhaul.

4. The transmission mechanism of the spiral pull rod adopts a reduction gear box, a plurality of reduction gears are integrally arranged in the gear box, the reduction gear boxes are arranged on two sides of the rack and are respectively a first reduction gear box and a second reduction gear box, the first reduction gear box and the second reduction gear box are linked through a bridge shaft, the reduction gear boxes on two sides are also respectively in meshing transmission with the spiral pull rod through gears, the reduction gear boxes and the gears meshed with the reduction gear boxes form a spiral pull transmission mechanism, the spiral pull transmission mechanism on one side drives four spiral pull rods to rotate, the spiral pull transmission mechanism on the other side drives two spiral pull rods to rotate, and the two sides drive six spiral pull rods in total.

Drawings

FIG. 1 is a schematic view of the construction of the regenerated cotton flowering machine and its interior.

FIG. 2 is a schematic view showing the structure of a vibrating screen in the cotton-recycling machine of the present invention.

FIG. 3 is a schematic structural view of a dust cage in the cotton blooming machine for regenerated cotton according to the present invention.

FIG. 4 is a schematic structural diagram of the regenerated cotton flowering machine of the present invention in which the transmission mechanism and the screw-pull rod assembly are mounted on the frame.

FIG. 5 is a schematic structural diagram of a four-screw drive mechanism in the regenerated cotton flowering machine of the present invention.

FIG. 6 is a schematic structural view of a two-screw drive mechanism in the regenerated cotton flowering machine of the present invention.

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.

The regenerated cotton blooming machine comprises a frame, a spiral pull rod assembly 1, a transmission mechanism and a dust removal mechanism, wherein the frame comprises a material conveying bin and a dust removal bin, the material conveying bin is positioned at the upper end of the dust removal bin, the material conveying bin comprises a feeding bin 2, a middle-end processing bracket 3 and a discharging bin 4, the feeding bin, the middle-end processing bracket and the discharging bin are sequentially connected one by one to form a whole frame body, the dust removal mechanism is arranged in the frame, a feeding conveyor belt 8 conveys materials into the spiral pull rod, the materials are processed by the spiral pull rod assembly, dust separated in the processing process is discharged by the dust removal mechanism and falls into the dust removal bin, the dust and the reprocessable materials are separated by a vibrating screen 5 between the dust removal bin and the material conveying bin, the dust falls into a dust removal conveyor belt 6 in the dust removal bin through screen holes on the vibrating screen, the dust removal conveyor belt conveys the dust to the discharging bin, and is discharged from the air suction pipeline. The cotton materials processed by the screw pull rod slide to a dust cage 7 along a feeding plate, the dust cage is a roller with densely arranged sieve pores on the surface, and the processed cotton materials are conveyed to a discharging bin along the surface of the dust cage. The dust enters the dust cage through the dust sieve holes of the dust cage, one side of the dust cage is provided with an air suction pipeline for removing dust, and the dust is discharged through the air suction pipeline. The transmission mechanisms are arranged on two sides of the frame and drive the spiral pull rod assembly to rotate. Go into feed bin 9 and include left stabilizer blade, right stabilizer blade and horizontal pole, horizontal pole fixed connection is between left stabilizer blade and right stabilizer blade, and middle-end processing support includes left mounting panel and right mounting panel, and drive mechanism and spiral shell pull rod set spare are installed on left mounting panel and right mounting panel, goes out the feed bin and includes left baffle and right baffle, is equipped with the dust discharge port on left baffle or the right baffle. The dust removal mechanism comprises an air suction pipeline, a vibrating screen and a dust removal conveying belt, the vibrating screen is arranged below the spiral pull rod assembly, the dust removal conveying belt is arranged below the spiral pull rod, and the air suction pipeline is arranged at the tail end of the dust removal conveying belt. The fan sets up on the exhaust duct, plays dust removal effect through the strong wind.

The transmission mechanism comprises a two-screw pulling transmission assembly 1002, a four-screw pulling transmission assembly 1001 and a driving motor 5001, the two-screw pulling transmission assembly and the four-screw pulling transmission assembly are respectively arranged on two sides of the frame 3001, the two-screw pulling transmission assembly and the four-screw pulling transmission assembly are connected and transmitted through a gap bridge shaft 4001, the screw pulling rod assembly, the two-screw pulling transmission assembly and the four-screw pulling transmission assembly are in meshing transmission through gears, and the driving motor and the four-screw pulling transmission assembly are in meshing transmission. The four-screw-pull transmission mechanism comprises a first gear reduction box 213, a first primary reduction gear wheel 211 and a first secondary reduction gear wheel 212, one end of a bridge shaft is connected with the first primary reduction gear wheel, a driving motor is in meshing transmission with the first primary reduction gear wheel through a gear, a first duplicate gear is further arranged on a main shaft of the bridge shaft, the first duplicate gear is in meshing transmission with the first secondary reduction gear wheel and the first gear reduction box respectively, the first secondary reduction gear wheel drives a first screw pull rod to rotate 111 and is in meshing transmission with a second screw pull rod 112 and a third screw pull rod 113 simultaneously, the first gear reduction box is in meshing transmission with a fourth screw pull rod 114, the two-screw-pull transmission mechanism comprises a second reduction gear box 312, a second primary reduction gear wheel and a second secondary reduction gear wheel, the second primary reduction gear wheel 313 is in meshing transmission with a second secondary reduction gear wheel 314, one end of the bridge shaft is connected with the first primary reduction gear wheel, the other end is connected 311 with a second duplex gear, the second duplex gear is respectively in meshing transmission with a second reduction gear box and a second primary reduction gear wheel, the second reduction gear box is in meshing transmission with a fifth spiral pull rod 115, and a second secondary reduction gear wheel is connected with a sixth spiral pull rod 116 and drives the sixth spiral pull rod to rotate. Dust collector still includes the dirt cage, is equipped with feed table 10 between dirt cage and the shale shaker, and feed table one end links up on the dirt cage surface, and the other end links up with the shale shaker top, and the dirt cage surface is equipped with a plurality of sieve meshes, and the inside hollow structure that is of dirt cage, dust removal conveyer belt setting are in the frame to run through feed bin, dust powder sieve storehouse and go out the feed bin, the suction line sets up in going out the feed bin, and the suction line includes an air outlet 104 and a plurality of suction opening, and the air outlet runs through out the feed bin top. The suction openings comprise a first suction opening 102, a second suction opening 103 and a third suction opening 101, the first suction opening is arranged at the tail end of the dust removal conveying belt, the second suction opening is arranged at the hollow structure of the dust cage, and the third suction opening is arranged in the discharging bin. The front end in dust removal storehouse is equipped with first door, the both sides in pan feeding storehouse are equipped with the second door respectively, middle-end processing support both sides still are equipped with first protective housing, drive mechanism or actuating mechanism cladding on the middle-end processing support are in first protective housing, it is equipped with the second protective housing to go out the feed bin both sides, be equipped with the cavity that is used for laying dust removal pipeline before second housing and the play feed bin, it is equipped with the third door respectively to go out the second protective housing cover of feed bin both sides, the top that goes out the feed bin is equipped with the fourth door, the end in dust removal storehouse is equipped with the fifth door.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (9)

1. Regenerated cotton blooming machine, its characterized in that: the automatic dust removing machine comprises a frame, spiral shell pull rod assembly, drive mechanism and dust removal mechanism, the frame includes that the material is carried storehouse and dust and is divided the sieve storehouse, the material is carried the storehouse and is located the dust and divide the sieve storehouse upper end, the material is carried the storehouse including going into the feed bin, middle-end processing support and play feed bin, it is whole that the feed bin goes into the feed bin, middle-end processing support and play feed bin three connect gradually one by one and constitute the frame body, dust removal mechanism sets up in the frame, the material passes through spiral shell pull rod assembly processing, the dust of separation passes through dust removal mechanism and discharges in the course of working, drive mechanism sets up in the frame both sides.

2. The regenerative cotton flowering machine as recited in claim 1, wherein: the feeding bin comprises a left support leg, a right support leg and a cross rod, the cross rod is fixedly connected between the left support leg and the right support leg, the middle-end processing support comprises a left mounting plate and a right mounting plate, the transmission mechanism and the screw pull rod assembly are mounted on the left mounting plate and the right mounting plate, the discharging bin comprises a left baffle and a right baffle, and a dust discharging port is formed in the left baffle or the right baffle.

3. The regenerative cotton flowering machine as recited in claim 2, wherein: the dust removal mechanism comprises an air suction pipeline, a vibrating screen and a dust removal conveying belt, the vibrating screen is arranged below the spiral pull rod assembly, the dust removal conveying belt is arranged below the spiral pull rod, and the air suction pipeline is arranged at the tail end of the dust removal conveying belt.

4. The regenerative cotton flowering machine as recited in claim 3, wherein: the transmission mechanism comprises two spiral pull transmission assemblies, four spiral pull transmission assemblies and a driving motor, the two spiral pull transmission assemblies and the four spiral pull transmission assemblies are respectively arranged on two sides of the rack, the two spiral pull transmission assemblies and the four spiral pull transmission assemblies are connected through a bridge shaft for transmission, the spiral pull rod assemblies, the two spiral pull transmission assemblies and the four spiral pull transmission assemblies are in meshing transmission through gears, and the driving motor is in meshing transmission with the four spiral pull transmission assemblies.

5. The regenerative cotton flowering machine as recited in claim 4, wherein: the spiral pull rod assembly comprises a first spiral pull rod, a second spiral pull rod, a third spiral pull rod, a fourth spiral pull rod, a fifth spiral pull rod and a sixth spiral pull rod, the first spiral pull rod, the second spiral pull rod, the third spiral pull rod and the fourth spiral pull rod are in meshing transmission with the four spiral pull transmission mechanisms through gears, and the fifth spiral pull rod and the sixth spiral pull rod are in meshing transmission with the two spiral pull transmission mechanisms through gears.

6. The regenerative cotton flowering machine as recited in claim 5, wherein: the four-screw-pull transmission mechanism comprises a first gear reduction box, a first primary reduction gear wheel and a first secondary reduction gear wheel, one end of a bridge shaft is connected with the first primary reduction gear wheel, a driving motor is in meshing transmission with the first primary reduction gear wheel through a gear, a first secondary gear is further arranged on a main shaft of the bridge shaft and is in meshing transmission with the first secondary reduction gear wheel and the first gear reduction box respectively, the first secondary reduction gear wheel drives the first screw pull rod to rotate and is in meshing transmission with a second screw pull rod and a third screw pull rod simultaneously, the first gear reduction box is in meshing transmission with a fourth screw pull rod, the two-screw-pull transmission mechanism comprises a second reduction gear box, a second primary reduction gear wheel and a second secondary reduction gear wheel, the second primary reduction gear wheel is in meshing transmission with the second secondary reduction gear wheel, one end of the bridge shaft is connected with the first primary reduction gear wheel, the other end of the second gear is connected with a second duplex gear, the second duplex gear is respectively in meshing transmission with a second reduction gear box and a second first-stage reduction gear wheel, the second reduction gear box is in meshing transmission with a fifth spiral pull rod, and a second-stage reduction gear wheel is connected with a sixth spiral pull rod and drives the sixth spiral pull rod to rotate.

7. The regenerative cotton flowering machine as recited in claim 6, wherein: dust collector still includes the dirt cage, is equipped with the delivery sheet between dirt cage and the shale shaker, and delivery sheet one end links up on the dirt cage surface, and the other end links up with the shale shaker top, and the dirt cage surface is equipped with a plurality of sieve meshes, and the dirt cage is inside to be hollow structure, and the dust removal conveyer belt sets up in the frame to run through feed bin, dust branch sieve storehouse and go out the feed bin, and the suction line sets up in going out the feed bin, and the suction line includes an air outlet and a plurality of suction opening, and the air outlet runs through out the feed bin top.

8. The regenerative cotton flowering machine as recited in claim 7, wherein: the suction opening comprises a first suction opening, a second suction opening and a third suction opening, the first suction opening is arranged at the tail end of the dust removal conveying belt, the second suction opening is arranged at the hollow structure of the dust cage, and the third suction opening is arranged in the discharge bin.

9. The recycling cotton blooming machine of claim 8, wherein the front end of the dust removal bin is provided with a first bin door, the two sides of the feeding bin are respectively provided with a second bin door, the two sides of the middle processing bracket are also provided with a first protective shell cover, the transmission mechanism or the driving mechanism on the middle processing bracket is covered in the first protective shell cover, the two sides of the discharging bin are provided with a second protective shell cover, a cavity for laying a dust removal pipeline is arranged in front of the second shell cover and the discharging bin, the second protective shell covers on the two sides of the discharging bin are respectively provided with a third bin door, the top of the discharging bin is provided with a fourth bin door, and the tail end of the dust removal bin is provided with a fifth bin door.

Images