CN111172599A - Sisal fiber extraction element based on sisal weaving processing - Google Patents

Abstract

The invention discloses a sisal fiber extraction device based on sisal textile processing, relates to the technical field of sisal production, and solves the problems of troublesome use and operation, lower production efficiency and high labor intensity of the existing sisal harvesting, and comprises a machine body main body; a group of feeding devices is arranged on the left side of the machine body main body; the rear part of the upper end surface of the machine body main body is fixedly connected with a group of diesel engines; two groups of primary pressure devices are axially connected to the inner side of the middle part of the machine body main body; two rows of squeezing devices are axially connected inside the right side of the machine body main body; two groups of carding devices are axially connected inside the right side of the machine body main body; the inner portions of the front end face and the rear end face of the machine body main body are axially connected with a group of intermediate transmission shafts. The device is more convenient to use, does not need artifical collection and processing, has simplified the work procedure, has improved production efficiency, saves manual operation, and the device simple structure simultaneously, the volume is less, and the cost is lower, is fit for small-size peasant household and uses.

Description

Sisal fiber extraction element based on sisal weaving processing

Technical Field

The invention relates to the technical field of sisal hemp production, in particular to a sisal hemp fiber extraction device based on sisal hemp textile processing.

Background

The sisal hemp is called as pineapple hemp, is the hard fiber which has the largest usage amount and the widest range in the world at present, is tough in texture, wear-resistant, salt-alkali resistant and corrosion resistant, is widely applied to various industries such as transportation, fishery, petroleum, metallurgy and the like, has important economic value, and is required to be cut down and wound down when the sisal hemp is harvested and then extract the fiber in the sisal hemp leaves through a sisal hemp fiber extraction device.

For example, application No.: CN201510062221.6 the present technology provides a new method and equipment for extracting sisal fiber. The method is characterized in that hemp leaves are transversely fed into a hemp removing mechanism from the middle part, and the hemp leaves are directly reversely pulled to obtain fibers. The equipment comprises a feeding mechanism, a hemp leaf clamping and conveying mechanism, a fiber clamping and conveying mechanism, a left hemp removing mechanism, a right hemp removing mechanism, a hemp leaf base crushing mechanism and a power and transmission device. The hemp leaf and fiber clamping and conveying mechanism and the hemp removing mechanism are inclined and are vertically arranged with the crushing mechanism, the chains and the belts are parallel, the conveying speed is the same, and the linear speed of the crushing roller is the same as the conveying speed of the chain belt. The ramie removing mechanism is a double-blade roller rotating reversely. The feeding mechanism transversely feeds hemp leaves into the left hemp removing mechanism, the hemp leaf clamping chain pulls out fibers to enter the fiber clamping belt to continuously pull out tip fibers, and the base portion winds the shaft end of the crushing roller to enter the right hemp removing mechanism and reversely pull out base portion fibers. The sisal fiber is extracted by the method and the equipment, the per-capita productivity is improved by 2-3 times compared with the existing equipment, and the electricity productivity is improved by 1-2 times. Based on the above, when the existing sisal hemp is harvested, especially for small-batch farmers, the cut sisal hemp leaves need to be collected and then sent into a sisal hemp fiber extractor one by one to extract fibers, and the sisal hemp leaves need to be collected, transported and sent into the sisal hemp fiber extractor to be extracted in use, so that the operation is troublesome, the production efficiency is low, and the labor intensity is high; therefore, the existing requirements are not met, and a sisal fiber extraction device based on sisal textile processing is provided for the sisal fiber extraction device.

Disclosure of Invention

The invention aims to provide a sisal fiber extraction device based on sisal textile processing, which aims to solve the problems that during the existing sisal harvesting process in the background technology, especially for small-batch farmers, chopped sisal leaves need to be collected and then sent into a sisal fiber extraction machine one by one to extract fibers, and during the use, the sisal leaves need to be collected, transported and sent into the sisal fiber extraction machine to be extracted, so that the use and the operation are troublesome, the production efficiency is lower, and the labor intensity is high.

In order to achieve the purpose, the invention provides the following technical scheme: a sisal fiber extraction device based on sisal textile processing comprises a machine body main body; the machine body main body also comprises a material shovel, a group of material shovels are arranged on the left side of the machine body main body, and grid-shaped hollows are arranged on the material shovels; the machine body main body also comprises a collecting hopper and a discharge port, a group of discharge ports are formed in the right side of the machine body main body, and a group of collecting hoppers are arranged at the lower right of the discharge ports; a group of feeding devices is arranged on the left side of the machine body main body; the rear part of the upper end surface of the machine body main body is fixedly connected with a group of diesel engines; two groups of primary pressure devices are axially connected to the inner side of the middle part of the machine body main body; the diesel engine also comprises a primary pressure driving pulley, a group of primary pressure driving pulleys are coaxially and fixedly connected to a rotating shaft of the diesel engine, the primary pressure device also comprises a primary pressure driven pulley, a group of primary pressure driven pulleys are coaxially and fixedly connected to the rear end face of the group of primary pressure devices below, and a group of transmission belts are wound on the outer sides of the primary pressure driven pulley and the primary pressure driving pulley to jointly form a transmission belt transmission mechanism; the diesel engine also comprises a driving gear, a group of driving gears are coaxially and fixedly connected to a rotating shaft of the diesel engine, the primary pressure device also comprises a driven gear, a group of driven gears are coaxially and fixedly connected to the rear end faces of the upper group of primary pressure devices, the driving gear and the driven gears are meshed to form a gear transmission mechanism together, and in use, the diesel engine drives the upper group of primary pressure devices to reversely rotate through the gear transmission mechanism; two rows of squeezing devices are axially connected inside the right side of the machine body main body; two groups of carding devices are axially connected inside the right side of the machine body main body; the inner portions of the front end face and the rear end face of the machine body main body are axially connected with a group of intermediate transmission shafts.

Preferably, diesel engine is still including squeezing the driving pulley, and coaxial fixedly connected with a set of drive pulley that squeezes in diesel engine's the pivot, squeezes the device still including squeezing the driving pulley, and carding unit and the equal coaxial fixedly connected with two sets of drive pulleys that squeeze of terminal surface around squeezing the device, squeeze the driving pulley and squeeze and twine jointly between the driving pulley and have a set of drive belt to constitute drive belt drive mechanism jointly, and adjacent two sets of device that squeeze on the same horizontal direction, the squeezing between the carding unit is twined jointly on the driving pulley and is had a set of drive belt to constitute drive belt drive mechanism jointly.

Preferably, the initial pressing device further comprises rolling ribs, and a plurality of groups of spiral rolling ribs are arranged on the outer circular surface of the initial pressing device in a circumferential array mode.

Preferably, the primary pressing device further comprises a driving bevel gear, a group of driving bevel gears are coaxially and fixedly connected with the front end face and the rear end face of the following group of primary pressing devices, the intermediate transmission shaft further comprises a driven bevel gear, a group of driven bevel gears are coaxially and fixedly connected with the lower end face of the intermediate transmission shaft, and the driven bevel gears and the driving bevel gears are meshed to form a bevel gear transmission mechanism.

Preferably, the middle transmission shaft further comprises a feeding belt wheel, a group of feeding belt wheels are fixedly connected to the top of the middle transmission shaft coaxially, the feeding device further comprises a feeding driving wheel and a conveying belt, three groups of feeding driving wheels are arranged around the feeding device, a group of conveying belts are wound on the three groups of feeding driving wheels on the same side, and the feeding driving wheel on the rightmost side and the feeding belt wheels form a transmission belt transmission mechanism together.

Preferably, the feeding device further comprises feeding columns, and a plurality of groups of feeding columns are uniformly distributed and arranged on the outer side of the conveyor belt.

Preferably, the squeezing device further comprises squeezing transmission gears, a group of squeezing transmission gears are coaxially and fixedly connected to the rear sides of the two groups of squeezing devices on the left side, and the squeezing transmission gears on the two groups of squeezing devices are meshed with each other to form a gear transmission mechanism.

Preferably, the distances between the upper and lower parts of the three left pairs of the press devices become smaller in sequence.

Preferably, the carding device further comprises carding teeth, a plurality of groups of carding teeth are uniformly distributed on the outer circular surface of the carding device, and the carding teeth between two adjacent groups of carding devices are arranged in a staggered manner.

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

the device has changed and need to collect in the past after cutting down sisal hemp, then process through sisal hemp fiber extractor one, realized that automatic will cut down the back and drop at the automatic processing equipment that carries of underground sisal hemp, extrude the carding to the sisal hemp leaf, remain sisal hemp fiber, and deposit the fiber collection, and it is more convenient to use, do not need artifical collection and processing, the device simple structure simultaneously, the volume is less, can promote the use through manual promotion or through agricultural machinery during the use, the cost is lower, be fit for small-size peasant household and use.

The device is more convenient to use, does not need artifical collection and processing, has simplified the work procedure, has improved production efficiency, saves manual operation, and the device simple structure simultaneously, the volume is less, and the cost is lower, is fit for small-size peasant household and uses.

Drawings

FIG. 1 is a schematic side view of the present invention;

FIG. 2 is a schematic diagram of the right side structure of the present invention;

FIG. 3 is a schematic side view of the internal drive shaft of the present invention;

FIG. 4 is a schematic front view of the press apparatus of the present invention;

FIG. 5 is a schematic side view of the feeding device of the present invention;

FIG. 6 is a schematic axial view of the primary pressing apparatus of the present invention;

FIG. 7 is a schematic view of the structure of the rotary shaft side of the press apparatus of the present invention;

FIG. 8 is a schematic view of a carding machine of the present invention;

in the figure: 1. a main body of the body; 101. shoveling the materials; 102. a collecting hopper; 103. a discharge port; 2. a feeding device; 201. a feeding transmission wheel; 202. a conveyor belt; 203. feeding a material column; 3. a primary pressing device; 301. rolling the ribs; 302. a driven gear; 303. a drive bevel gear; 304. primarily pressing the driven belt pulley; 4. a diesel engine; 401. primary pressure driving belt wheel; 402. a driving gear; 403. a press drive pulley; 5. a squeezing device; 501. a squeezing transmission belt wheel; 502. a squeezing transmission gear; 6. a carding unit; 601. carding teeth; 7. an intermediate transmission shaft; 701. a feeding belt wheel; 702. a driven bevel gear.

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.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a sisal fiber extraction device based on sisal spinning processing comprises a machine body main body 1; the machine body main body 1 further comprises a material shovel 101, a group of material shovels 101 are arranged on the left side of the machine body main body 1, and grid-shaped hollows are arranged on the material shovels 101; the machine body main body 1 further comprises a collecting hopper 102 and a discharge port 103, a group of discharge ports 103 is formed in the right side of the machine body main body 1, and a group of collecting hoppers 102 are arranged on the lower right of the discharge ports 103; a group of feeding devices 2 are arranged on the left side of the machine body main body 1; the rear part of the upper end surface of the machine body main body 1 is fixedly connected with a group of diesel engines 4; two sets of primary pressure devices 3 are axially connected to the inner side of the middle part of the machine body main body 1; the diesel engine 4 further comprises a primary pressure driving pulley 401, a group of primary pressure driving pulleys 401 are coaxially and fixedly connected to a rotating shaft of the diesel engine 4, the primary pressure device 3 further comprises a primary pressure driven pulley 304, a group of primary pressure driven pulleys 304 are coaxially and fixedly connected to the rear end face of the group of primary pressure devices 3 below, and a group of transmission belts are wound on the outer sides of the primary pressure driven pulley 304 and the primary pressure driving pulley 401 to form a transmission belt transmission mechanism; the diesel engine 4 further comprises a driving gear 402, a group of driving gears 402 are coaxially and fixedly connected to a rotating shaft of the diesel engine 4, the primary pressure device 3 further comprises a driven gear 302, a group of driven gears 302 are coaxially and fixedly connected to the rear end face of the group of primary pressure devices 3 above, the driving gear 402 and the driven gears 302 are meshed to form a gear transmission mechanism together, and the diesel engine 4 drives the group of primary pressure devices 3 above to reversely rotate through the gear transmission mechanism in use; two rows of squeezing devices 5 are axially connected inside the right side of the machine body main body 1; two groups of carding devices 6 are axially connected in the right side of the machine body main body 1; a group of intermediate transmission shafts 7 are axially connected inside the front and rear end surfaces of the machine body main body 1.

Further, diesel engine 4 still includes driving gear 402, a set of driving gear 402 of coaxial fixedly connected with in diesel engine 4's the pivot, just press device 3 still including driven gear 302, the coaxial fixedly connected with of a set of driven gear 302 of the rear end face of a set of just press device 3 of top, driving gear 402 and driven gear 302 meshing constitute gear drive jointly, in use diesel engine 4 drives a set of just press device 3 antiport in top through becoming gear drive.

Further, diesel engine 4 is still including squeezing driving pulley 403, a set of driving pulley 403 that squeezes of coaxial fixedly connected with in diesel engine 4's the pivot, squeeze device 5 still including squeezing driving pulley 501, carding unit 6 and squeeze the equal coaxial fixedly connected with two sets of driving pulleys 501 that squeeze of the front and back terminal surface of device 5, squeeze driving pulley 403 and squeeze and have a set of drive belt to constitute drive belt drive mechanism jointly around having jointly between driving pulley 501, two sets of adjacent device 5 that squeeze on the same horizontal direction, it constitutes drive belt drive mechanism jointly to have a set of drive belt to twine jointly on the driving pulley 501 that squeezes between carding unit 6, in use diesel engine 4 drives a set of device 5 that squeezes of upper left most through drive belt drive mechanism and rotates, and drive a set of adjacent device 5 that squeeze and carding unit 6 and rotate in proper order.

Further, the primary pressing device 3 further comprises rolling ribs 301, a plurality of groups of spiral rolling ribs 301 are arranged on the outer circular surface of the primary pressing device 3 in a circumferential array mode, during use, the sisal leaves are initially rolled through the rolling ribs 301, the skin of the sisal leaves is crushed, and the sisal leaves are conveyed to the right.

Further, the primary pressing device 3 further comprises a driving bevel gear 303, a group of driving bevel gears 303 are coaxially and fixedly connected with the front end face and the rear end face of a group of primary pressing devices 3 below, the intermediate transmission shaft 7 further comprises a driven bevel gear 702, a group of driven bevel gears 702 are coaxially and fixedly connected with the lower end face of the intermediate transmission shaft 7, the driven bevel gears 702 and the driving bevel gears 303 are meshed to form a bevel gear transmission mechanism together, and in use, the group of primary pressing devices 3 below drive the two groups of intermediate transmission shafts 7 to rotate through the bevel gear transmission mechanism.

Further, the intermediate transmission shaft 7 further comprises a feeding belt wheel 701, a group of feeding belt wheels 701 is coaxially and fixedly connected to the top of the intermediate transmission shaft 7, the feeding device 2 further comprises a feeding transmission wheel 201 and a transmission belt 202, three groups of feeding transmission wheels 201 are arranged around the feeding device 2, a group of transmission belts 202 are wound on the three groups of feeding transmission wheels 201 on the same side, the feeding transmission wheel 201 on the rightmost side and the feeding belt wheel 701 jointly form a transmission belt transmission mechanism, the feeding transmission wheel 201 is driven to rotate through the transmission belt transmission mechanism when the intermediate transmission shaft 7 is used, the feeding transmission wheel 201 drives the transmission belt 202 to rotate, and the sisal hemp leaves are transmitted.

Further, the feeding device 2 further comprises feeding columns 203, a plurality of groups of feeding columns 203 are uniformly distributed and arranged on the outer side of the conveyor belt 202, and during use, the sisal hemp leaves are conveyed by shifting and clamping the sisal hemp leaves through the feeding columns 203 on the two sides.

Further, the squeezing device 5 further comprises a squeezing transmission gear 502, a group of squeezing transmission gears 502 are coaxially and fixedly connected behind the two groups of squeezing devices 5 on the left side, the squeezing transmission gears 502 on the two groups of squeezing devices 5 are meshed with each other to form a gear transmission mechanism, and in use, the squeezing device 5 on the upper side drives the squeezing device 5 on the lower side to synchronously and reversely rotate through the gear transmission mechanism.

Furthermore, the distances between the upper and lower parts of the three pairs of squeezing devices 5 on the left side are sequentially reduced, and during use, the sisal hemp leaves are subjected to distributed squeezing through the gaps between the squeezing devices 5, so that water, colloid and the like in the sisal hemp leaves are squeezed out

Furthermore, the carding device 6 also comprises carding teeth 601, a plurality of groups of carding teeth 601 are uniformly distributed on the outer circumferential surface of the carding device 6, the carding teeth 601 between two adjacent groups of carding devices 6 are arranged in a staggered manner, and in use, the carding device 6 is used for carding the residual sundries on the sisal fibers.

The working principle is as follows: when the device is used, the diesel engine 4 drives the next group of primary pressing devices 3 to rotate through the transmission mechanism of the transmission belt, the diesel engine 4 drives the next group of primary pressing devices 3 to reversely rotate through the gear-forming transmission mechanism, the next group of primary pressing devices 3 simultaneously drives the two groups of intermediate transmission shafts 7 to rotate through the bevel gear transmission mechanism, the intermediate transmission shafts 7 drive the feeding transmission wheels 201 to rotate through the transmission mechanism of the transmission belt, the feeding transmission wheels 201 drive the transmission belt 202 to rotate, the sisal leaves are conveyed to the right through stirring and clamping of the feeding columns 203 at two sides, the sisal leaves are conveyed into the two groups of primary pressing devices 3, preliminary rolling of the sisal leaves is realized through extrusion of the primary pressing devices 3, meanwhile, the primary pressing devices 3 convey the sisal leaves into the right-side pressing devices 5, and the transmission mechanism of the diesel engine 4 drives the uppermost left group of pressing devices 5 to rotate, the upper squeezing device 5 drives the lower squeezing device 5 to synchronously rotate reversely through a gear transmission mechanism, the lower squeezing device 5 and the carding device 6 rotate reversely at the same time, the upper and lower squeezing devices 5 roll sisal hemp leaves together left and right, impurities such as water and colloid in the sisal hemp leaves are squeezed out through the rolling of the squeezing devices 5, then the impurities remained on the sisal hemp fibers are combed through the carding device 6, and the treated sisal hemp fibers are discharged through a discharge port 103 and collected and stored through a collecting hopper 102.

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 sisal fiber extraction element based on sisal hemp textile processing which characterized in that: comprises a main body (1); the machine body main body (1) further comprises a material shovel (101), a group of material shovels (101) are arranged on the left side of the machine body main body (1), and grid-shaped hollows are arranged on the material shovels (101); the machine body main body (1) further comprises a collecting hopper (102) and a discharge hole (103), a group of discharge holes (103) are formed in the right side of the machine body main body (1), and a group of collecting hoppers (102) are arranged on the lower right of the discharge holes (103); a group of feeding devices (2) are arranged on the left side of the machine body main body (1); the rear part of the upper end surface of the machine body main body (1) is fixedly connected with a group of diesel engines (4); two groups of primary pressure devices (3) are axially connected to the inner side of the middle part of the machine body main body (1); the diesel engine (4) further comprises a primary pressure driving pulley (401), a group of primary pressure driving pulleys (401) are coaxially and fixedly connected to a rotating shaft of the diesel engine (4), the primary pressure device (3) further comprises a primary pressure driven pulley (304), a group of primary pressure driven pulleys (304) are coaxially and fixedly connected to the rear end face of the group of primary pressure devices (3) below, and a group of transmission belts are wound on the outer sides of the primary pressure driven pulleys (304) and the primary pressure driving pulleys (401) to jointly form a transmission belt transmission mechanism; the diesel engine (4) further comprises a driving gear (402), a group of driving gears (402) are coaxially and fixedly connected to a rotating shaft of the diesel engine (4), the primary pressing device (3) further comprises a driven gear (302), a group of driven gears (302) are coaxially and fixedly connected to the rear end face of the group of primary pressing devices (3) above, and the driving gear (402) and the driven gears (302) are meshed to form a gear transmission mechanism together; two rows of squeezing devices (5) are axially connected inside the right side of the machine body main body (1); two groups of carding devices (6) are axially connected inside the right side of the machine body main body (1); the internal portions of the front end face and the rear end face of the machine body main body (1) are axially connected with a group of intermediate transmission shafts (7).

2. The sisal fiber extraction device based on sisal textile processing of claim 1, wherein: diesel engine (4) are still including squeezing drive pulley (403), coaxial fixedly connected with squeezes drive pulley (403) in a set of in the pivot of diesel engine (4), squeeze device (5) still including squeezing drive pulley (501), carding unit (6) and the equal coaxial fixedly connected with of front and back terminal surface of squeezing device (5) two sets of drive pulley (501) that squeeze, squeeze drive pulley (403) and squeeze and have a set of drive belt to constitute drive belt drive mechanism jointly in the common winding between drive pulley (501), adjacent two sets of on the same horizontal direction squeeze device (5), it has a set of drive belt to twine jointly to constitute drive belt drive mechanism jointly on squeezing drive pulley (501) between carding unit (6).

3. The sisal fiber extraction device based on sisal textile processing of claim 1, wherein: the primary pressing device (3) further comprises rolling ribs (301), and a plurality of groups of spiral rolling ribs (301) are arranged on the outer circular surface of the primary pressing device (3) in a circumferential array mode.

4. The sisal fiber extraction device based on sisal textile processing of claim 1, wherein: the primary pressing device (3) further comprises a driving bevel gear (303), a group of driving bevel gears (303) are fixedly connected with the front end face and the rear end face of a group of primary pressing devices (3) coaxially, the intermediate transmission shaft (7) further comprises a driven bevel gear (702), a group of driven bevel gears (702) are fixedly connected with the lower end face of the intermediate transmission shaft (7) coaxially, and the driven bevel gears (702) are meshed with the driving bevel gears (303) to form a bevel gear transmission mechanism together.

5. The sisal fiber extraction device based on sisal textile processing of claim 1, wherein: the middle transmission shaft (7) is characterized by further comprising a feeding belt wheel (701), a group of feeding belt wheels (701) is coaxially and fixedly connected to the top of the middle transmission shaft (7), the feeding device (2) is further comprising a feeding driving wheel (201) and a conveying belt (202), three groups of feeding driving wheels (201) are arranged around the feeding device (2), a group of conveying belt (202) is wound on the three groups of feeding driving wheels (201) on the same side, and the feeding driving wheel (201) on the rightmost side and the feeding belt wheels (701) jointly form a transmission belt transmission mechanism.

6. The sisal fiber extraction device based on sisal textile processing of claim 1, wherein: the feeding device (2) further comprises feeding columns (203), and a plurality of groups of feeding columns (203) are uniformly distributed on the outer side of the conveyor belt (202).

7. The sisal fiber extraction device based on sisal textile processing of claim 1, wherein: the squeezing device (5) further comprises squeezing transmission gears (502), a group of squeezing transmission gears (502) are coaxially and fixedly connected behind the two groups of squeezing devices (5) on the left side, and the squeezing transmission gears (502) on the two groups of squeezing devices (5) are meshed with each other to form a gear transmission mechanism.

8. The sisal fiber extraction device based on sisal textile processing of claim 1, wherein: the distances between the upper part and the lower part of the three pairs of the squeezing devices (5) on the left side are sequentially reduced.

9. The sisal fiber extraction device based on sisal textile processing of claim 1, wherein: . Preferably, the carding device (6) further comprises carding teeth (601), a plurality of groups of the carding teeth (601) are uniformly distributed on the outer circumferential surface of the carding device (6), and the carding teeth (601) between two adjacent groups of the carding devices (6) are arranged in a staggered manner.

Images