CN108728905A - A kind of unginned cotton small difference fibre cleaning plant - Google Patents

Abstract

The present invention relates to a kind of unginned cotton small difference fibre cleaning plant, the existing different fine descaling machine small difference fibre of effective solution clears up halfway problem；Its technical solution solved includes babinet, the placement of horizontal front-rear direction and rotatable the first cylinder are equipped in babinet, cam is fixed in the first cylinder, cam first half point has multiple first annular grooves along its axis uniformly at intervals successively, the latter half of cam has multiple second annular grooves along its axis uniformly at intervals successively, multiple second annular grooves are arranged symmetrically with multiple first annular grooves about cam front-rear direction median plane, multiple driving levers are evenly distributed in the first cylinder, multiple driving levers constitute a disc-shaped structure, disc-shaped structure has multiple uniformly at intervals successively along the first cylinder axis direction, the rotation of the first cylinder makes multiple driving levers can realize radial motion but also be realized under the action of cam to be moved forward and backward, having on driving lever makes compression spring of the driving lever to intermediate reset, present inventive concept is novel, clever structure, it is highly practical.

Description

A kind of unginned cotton small difference fibre cleaning plant

Technical field

The present invention relates to foreign cotton fibers to clear up field, especially a kind of unginned cotton small difference fibre cleaning plant.

Background technology

Different fine also known as three, be the non-cotton fiber being entrained in cotton planting also recovery process in unginned cotton, this abnormity Fiber reduces the quality of cotton, and will also result in cotton thread during cotton Deep processing pedagogy, the damage of cotton products, especially It is the cotton goods for being in direct contact skin, and cotton quality requires higher, thus how to remove the different fibre in unginned cotton be the present age I State's cotton industry faces and the problem of urgent need to resolve.

The different fine descaling machine of tradition is completed by the method fallen naturally to soil block, and the cleaning of stone passes through Mechanical entanglement Method realizes the cleaning of longer different fibre, has the scrappy small difference fibre of light weight only and is difficult to clear up, and traditional small difference fibre is by negative Pressure attracts and the method for positive pressure blowing blows unginned cotton, but thickness is too thick causes negative pressure and positive pressure wind-force not for sometimes unginned cotton tiling The film fragments to being hidden in unginned cotton, the implementations such as feather cleaning can be fully achieved.

So the present invention provides a kind of unginned cotton small difference fibre cleaning plant to solve problem above.

Invention content

For the above situation, to overcome the defect of the prior art, the present invention to provide a kind of unginned cotton small difference fibre cleaning plant, have Effect solves the problems, such as that existing different fine descaling machine small difference fibre cleaning is halfway.

Its technical solution solved the problems, such as includes babinet, the shredding list placed equipped with multiple horizontal front-rear directions in babinet Member, multiple shredding units are from left to right sequentially arranged at intervals, and are set below each shredding unit there are one arrangement with interval Arc-shaped guide plate, multiple guide plates are sequentially connected and constitute an entirety；

The shredding unit includes that horizontal front-rear direction is placed and rotatable the first cylinder, set in the first cylinder there are one with It is co-axially mounted and non-rotatable fixing axle, and the first cylinder is stretched out at the both ends of fixing axle, and fixing axle is placed in the first cylinder Part is fixed with cam, and the bottom of cam is far angle of repose, is topmost near angle of repose, the left outer edge surface of cam first half It is equipped with the helicla flute of dextrorotation, right outer edge surface is equipped with left-handed helicla flute, the helicla flute in left side and the helicla flute head and the tail on right side It is connected and constitutes closed first annular groove, first annular groove has in cam first half along its axis more uniformly at intervals successively A, the latter half of cam has multiple second annular grooves, multiple second annular grooves and multiple first rings along its axis uniformly at intervals successively Slot is arranged symmetrically about cam front-rear direction median plane, and multiple driving levers are evenly distributed in the first cylinder, and multiple driving levers constitute one A disc-shaped structure, disc-shaped structure have uniformly at intervals successively along the first cylinder axis direction it is multiple, be located at cam first half Disc-shaped structure and first half multiple first annular grooves correspond, be located at cam latter half disc-shaped structure with after Multiple second annular grooves of half part correspond, and the first cylinder is run through and stretched out in the outer end of multiple driving levers, and inner end is placed in it always In corresponding annular groove, the rotation of the first cylinder makes multiple driving levers under the outer edge surface squeezing action of cam along the first cylinder diameter To movement, multiple driving levers are located at the driving lever of first half under the squeezing action of the first annular groove cell wall while radial motion It is moved to the position far from the first cylinder front-rear direction median plane, is located at extruding of the driving lever in the second annular groove cell wall of latter half It is moved to the position far from the first cylinder front-rear direction median plane under effect, driving lever, which is equipped with, can make it to the first cylinder front and back The compression spring resetted to the position of median plane.

Present inventive concept is novel, and clever structure is highly practical, is realized by the radial motion of driving lever and is transported to the left and right of unginned cotton Dynamic, driving lever radial motion while, which is realized to be moved forward and backward, comes to the further shredding of unginned cotton so that shredding effect is more preferable.

Description of the drawings

Fig. 1 is main view sectional view of the present invention.

Fig. 2 is the main view sectional view of shredding unit of the present invention.

Fig. 3 is the right pseudosection of shredding unit of the present invention.

Fig. 4 is the structural schematic diagram of the first sprocket wheel and chain interoperation of the invention.

Fig. 5 is top plan view of the present invention.

Fig. 6 is the vertical view of cam of the present invention.

Fig. 7 is the left view of cam of the present invention.

Specific implementation mode

The specific implementation mode of the present invention is described in further detail below in conjunction with attached drawing.

By Fig. 1 to Fig. 7 it is found that the present invention includes babinet 1, the shredding equipped with multiple horizontal front-rear directions placements in babinet 1 Unit, multiple shredding units are from left to right sequentially arranged at intervals, and are set below each shredding unit there are one arrangement with interval Arc-shaped guide plate 2, multiple guide plates 2 are sequentially connected and constitute an entirety；

The shredding unit includes that horizontal front-rear direction is placed and rotatable the first cylinder 3, set in the first cylinder 3 there are one It coaxially installs and the first cylinder 3 is stretched out at non-rotatable fixing axle 4, the both ends of fixing axle 4, fixing axle 4 is placed in the first circle Part in cylinder 3 is fixed with cam 5, and the bottom of cam 5 is far angle of repose, is topmost near angle of repose, 5 first half of cam Left outer edge surface be equipped with the helicla flute of dextrorotation, right outer edge surface is equipped with left-handed helicla flute, the helicla flute in left side and right side Helicla flute join end to end constitute closed first annular groove 6, first annular groove 65 first half of cam along its axis according to Minor tick is evenly equipped with multiple, and the latter half of cam 5 has multiple second annular grooves 7 along its axis uniformly at intervals successively, and multiple second Annular groove 7 is arranged symmetrically with multiple first annular grooves 6 about 5 front-rear direction median plane of cam, is evenly distributed in the first cylinder 3 multiple Driving lever 8, multiple driving levers 8 constitute a disc-shaped structure, and disc-shaped structure has uniformly at intervals successively along 3 axis direction of the first cylinder Multiple, multiple first annular grooves 6 of the disc-shaped structure and first half that are located at 5 first half of cam correspond, and are located at cam 5 The disc-shaped structure of latter half and multiple second annular grooves 7 of latter half correspond, and the outer end of multiple driving levers 8 is run through and stretched Go out the first cylinder 3, inner end is placed in always in its corresponding annular groove, and the rotation of the first cylinder 3 makes multiple driving levers 8 in cam 5 Outer edge surface squeezing action under along 3 radial motion of the first cylinder, multiple driving levers 8 while radial motion, be located at first half Driving lever 8 moved to the position far from the first cylinder 3 front-rear direction median plane under the squeezing action of 6 cell wall of the first annular groove, position In latter half driving lever 8 under the squeezing action of 7 cell wall of the second annular groove to the position far from the first cylinder 3 front-rear direction median plane Movement is set, driving lever 8, which is equipped with, can make the compression spring 9 that it is resetted to the position of 3 front-rear direction median plane of the first cylinder.

More stablize when in order to realize that driving lever 8 moves left and right, sets in described the first cylinder 3 and pacify there are one coaxial It fills and its can be followed to rotate synchronously the second cylinder 10, multiple driving levers 8 run through the second cylinder 10 and can be front and back in the second cylinder 10 Mobile, the part that driving lever 8 is placed in 10 outside of the second cylinder is fixed there are one arc support rod 11, and the left and right sides of supporting rod 11 is divided It does not set there are one telescoping tube 12, one end of telescoping tube 12 is fixedly connected with supporting rod 11, and the other end is slidably connected at the second cylinder On 10 periphery, pass through setting realization the second cylinder 10 of telescoping tube 12 and being slidably connected for driving lever 8 so that driving lever 8 is preceding More stablize during moving afterwards.

In order to realize that the inner end of driving lever 8 is placed in always in the annular groove on cam 5, on each driving lever 8 there are one suits One end of tension spring 13, tension spring 13 is fixedly connected on supporting rod 11, and the other end is slidably connected on the periphery of the second cylinder 10, leads to Crossing the setting of tension spring 13 realizes the inner end of driving lever 8 and is in contact always with the periphery of cam 5.

In order to realize the installation of compression spring 9, the outside of the telescoping tube 12 of 8 left and right sides of each driving lever sets that there are one with two The connecting rod 14 that 12 non-extensible part of a telescoping tube is fixedly connected, the outside of connecting rod 14 set there are one placement with interval and One end of the fixed link 15 being fixed on 10 periphery of the second cylinder, compression spring 9 is fixedly connected with connecting rod 14, the other end and fixation Bar 15 connects, and by the setting of fixed link 15 and connecting rod 14, realizes the installation of compression spring 9, and realize by the setting of compression spring 9 Driving lever 8 is resetted to shredding unit center.

In order to realize the rotation of the first cylinder 3, the rear and front end of described the first cylinder 3 is closed end face, Mei Ge It is respectively fixed with a coaxial installation sleeve 16 on the rear end face of one cylinder 3, the first sprocket wheel 17, case are set on sleeve 16 Right side is equipped with stepper motor 18 in body 1, is set with the second sprocket wheel 19 on stepper motor 18, multiple first sprocket wheels 17 through chain 20 with Second sprocket wheel 19 connects, and drives the second sprocket wheel 19 to drive the rotation of the first sprocket wheel 17 through chain 20 by the rotation of stepper motor 18, To realize the rotation of the first cylinder 3.

In order to realize that driving lever 8 can be moved forward and backward, the barrel of described the first cylinder 3 and the second cylinder 10 is equipped with multiple and dials 8 one-to-one straight slot 21 of bar, driving lever 8 can move left and right in straight slot 21, realize driving lever 8 front and back by the setting of straight slot 21 It will not be hindered in mobile process.

Different fibre is preferably removed in order to realize, tells that be equipped with strip between each two adjacent guide plate 2 gap-shaped logical The lower end of air holes 22, ventilation hole 22 is connected with hair-dryer 23, and the top of shredding unit is a up-small and down-big funnel, funnel Upper end is connected with negative-pressure air fan 24, and hair-dryer 23, which can be achieved, by the mutual cooperation of hair-dryer 23 and negative-pressure air fan 24 to stick in Different fibre on cotton blows afloat and is collected through different fibre under the action of the attraction of negative-pressure air fan 24.

In order to realize preferably charging and collect, the left side of the babinet 1 is equipped with feed inlet, and the right side of babinet 1 is equipped with out Material mouth, the width of charging are less than the width of discharge port.

The present invention specific work process be：The present apparatus is first turned on 23 power supply of hair-dryer and negative-pressure air fan when in use 24 power supplys are realized generates a upward wind-force in the babinet 1 of the present apparatus, this wind power energy passes through unginned cotton, but cannot blow unginned cotton It rises, opens stepper motor 18 respectively after the completion, inserted at this time from feed inlet by the unginned cotton after having removed weight and long different fibre.

It is fixed on due to fixing axle 4 on the madial wall of babinet 1, fixing axle 4 cannot rotate therefore be fixed on fixing axle 4 On cam 5 can not rotate, therefore second sprocket wheel 19 rotates under the rotation of stepper motor 18, the rotation of the second sprocket wheel 19 warp Chain 20 drives the rotation of the first sprocket wheel 17, during this, since the diameter of the first sprocket wheel 17 is identical therefore each shredding unit Velocity of rotation is identical, and rotation of the rotation with moving sleeve 16 of the first sprocket wheel 17, the rotation of sleeve 16 drives the first cylinder 3 and second Cylinder 10 rotates simultaneously, during this driving lever 8 under the action of 3 the second cylinder 10 of the first cylinder so that driving lever 8 can also follow the One cylinder 3 rotates.

Cam 5 does not rotate while driving lever 8 rotates, therefore can continue under the action of the inner end of driving lever 8 is in tension spring 13 The inner end for being extruded in cam 5 and making driving lever 8 be placed in always in its corresponding annular groove, due to the characteristics of motion of front and back driving lever 8 Identical therefore this implementation process is described with one group of driving lever 8 of 5 first half of cam.

When the inner end of driving lever 8 is placed in the first annular groove 6 of 5 near angle of repose of cam, make under the action of tension spring 13 at this time Driving lever 8 moves down and it cannot be detached from the first annular groove 6, the outer end of driving lever 8 is tip-like, and the upper end of driving lever 8 is most upper The length stretched out when orientation is set cannot can hinder falling off for fixed unginned cotton, and compression spring 9 at this time is in relaxation state therefore makes It obtains penholder and is disposed adjacent to 3 center direction of the first cylinder, and telescoping tube 12 is made to be in most short position, signified telescoping tube in literary 12 non-retractable parts refer to that telescoping tube 12 is set with by two not departing casings, therefore are relatively large in diameter and slide The dynamic casing being connected in the second cylinder 10 is 12 non-retractable part of telescoping tube, with the rotation of stepper motor 18, the One cylinder 3 drives driving lever 8 to rotate, and the inner end of driving lever 8 comes into contact with the rise angle of cam 5, at this time under the action of cam 5, dials The trend and ability of 8 oriented movement outside of bar, the drawing that driving lever 8 moves along the radially outward side of sleeve 16, and makes during this Spring 13 is stretched and makes it have the trend and elastic potential energy of rebound, and arc support rod 11 follows driving lever 8 outward during this Mobile, the movement outward of supporting rod 11 can drive 12 outside side stretching of telescoping tube, and the first circle is stretched out in the outer end of the driving lever 8 made Cylinder 3, as the part that 16 outside of sleeve is stretched out in the outer end for being displaced outwardly driving lever 8 of driving lever 8 is more, when driving lever 8 moves to cam 5 When former angle of repose, the length that driving lever 8 stretches out the first cylinder 3 reaches maximum, while multigroup driving lever 8 is rotated around cam 5, Under the action of first annular groove 6, the 5 rise angle of cam when, penholder is placed in the right hand helix slot in left side, at this time helicla flute Cell wall has extruding force to driving lever 8, realizes multiple driving levers 8 of first half to before and after far from the first cylinder 3 under this squeezing action The direction of direction median plane moves, and when driving lever 8 turns to contact 5 rise angle of cam, the outer end extension elongation of driving lever 8, which reaches, to be connect The length of lower section unginned cotton is touched and stirred, the present apparatus is formed and not only unginned cotton stir from left and right in the rotation, and Both sides are stirred forwards, backwards while stirring, and realize that unginned cotton paves more uniform, and far angle of repose is moved when reaching cam 5 When, the underface of cam 5 is reached at this time, and driving lever 8 at this time enters in the left-turn spiral slot on right side and it can be made to first The near angle of repose of cam 5 is revert under the action of the compression spring 9 that 3 front-rear direction median plane of cylinder resets along left-turn spiral slot.

During unginned cotton is mobile on guide plate 2, ventilation hole 22 can be passed through, in hair-dryer 23 and negative-pressure air fan 24 Effect is lower so that wind passes through in unginned cotton, and the small difference fibre being adhered in unginned cotton is blown up and in the effect of negative-pressure air fan 24 Under be tightened, so that unginned cotton is laid with more more advantageous by carrying out multiple tiling under the action of multiple shredding units for the present apparatus Pass through from unginned cotton in wind.

It is corresponding that 8 corresponding annular groove of driving lever referred to herein refers to that the driving lever 8 of 5 first half of cam is placed in its The first annular groove 6 in, the driving lever 8 of 5 latter half of cam is placed in the second annular groove 7 corresponding to it, the helicla flute in left side and its The helicla flute on corresponding right side is smoothly connected composition annular groove.

The present apparatus, which compares traditional deashing device, following benefit：

1, the present apparatus realizes that driving lever 8 is realized stretching and recycled in the rotation by the rise angle of cam 5 and backhaul angle, And it realizes that the cell wall of annular groove squeezes under the action of the first annular groove 6 and the second annular groove 7 and drives driving lever 8 to 3 front and back of the first cylinder It is deviated to median plane, and self-return under the action of after completion paves action in compression spring 9, realization make to paving before and after unginned cotton What must be paved is more uniform.

2, the present apparatus drives the rotation of multigroup driving lever 8 by the rotation of the first cylinder 3, realizes that the inner end of driving lever 8 is set always In in the annular groove on cam 5, when the rise angle of cam 5, the periphery of cam 5 can squeeze the outer end stretching of driving lever 8 And left and right transmission carried out to unginned cotton, and transmit process realize it is in the front-back direction pave, when driving lever 8 is transported on 5 backhaul angle of cam The outer end of driving lever 8 is withdrawn inwardly under the action of tension spring 13 when dynamic, and the outer end of its driving lever 8 is made to be retracted into the first cylinder 3, It can will effectively insert the unginned cotton scraped on driving lever 8 at this time to remove, have no effect on the transmission of fortune left and right directions.

3, the present apparatus carries out left and right transport by multigroup shredding unit, and makes by multiple tiling in the front-back direction Unginned cotton tiling it is thinner, be more conducive to wind blown over out of ventilation hole 22 realization the different fibre in unginned cotton is blown off.

Present inventive concept is novel, and clever structure is highly practical, is realized by the radial motion of driving lever and is transported to the left and right of unginned cotton Dynamic, driving lever radial motion while, which is realized to be moved forward and backward, comes to the further shredding of unginned cotton so that shredding effect is more preferable.

Claims (8)

1. a kind of unginned cotton small difference fibre cleaning plant, including babinet（1）, which is characterized in that the babinet（1）It is interior to be equipped with multiple levels The shredding unit that front-rear direction is placed, multiple shredding units are from left to right sequentially arranged at intervals, are set below each shredding unit There are one the arc-shaped guide plates of arrangement with interval（2）, multiple guide plates（2）It is sequentially connected and constitutes an entirety；

The shredding unit includes horizontal front-rear direction placement and rotatable the first cylinder（3）, the first cylinder（3）Inside it is equipped with One coaxial installation and non-rotatable fixing axle（4）, fixing axle（4）Both ends stretch out the first cylinder（3）, fixing axle （4）It is placed in the first cylinder（3）Interior part is fixed with cam（5）, cam（5）Bottom be far angle of repose, be topmost close Angle of repose, cam（5）The left outer edge surface of first half is equipped with the helicla flute of dextrorotation, and right outer edge surface is equipped with left-handed spiral Slot, the helicla flute in left side and the helicla flute on right side, which join end to end, constitutes closed first annular groove（6）, first annular groove （6）In cam（5）First half has multiple, cam uniformly at intervals successively along its axis（5）Latter half along its axis successively There are multiple second annular grooves uniformly at intervals（7）, multiple second annular grooves（7）With multiple first annular grooves（6）About cam（5）Front-rear direction Median plane is arranged symmetrically, the first cylinder（3）On be evenly distributed in multiple driving levers（8）, multiple driving levers（8）Constitute a discoid knot Structure, disc-shaped structure is along the first cylinder（3）Axis direction have uniformly at intervals successively it is multiple, be located at cam（5）The circle of first half Multiple first annular grooves of disk-like structure and first half（6）It corresponds, is located at cam（5）The disc-shaped structure of latter half with Multiple second annular grooves of latter half（7）It corresponds, multiple driving levers（8）Outer end run through and stretch out the first cylinder（3）, inner end Always it is placed in its corresponding annular groove, the first cylinder（3）Rotation make multiple driving levers（8）In cam（5）Outer edge surface squeeze Along the first cylinder under pressure effect（3）Radial motion, multiple driving levers（8）While radial motion, it is located at the driving lever of first half （8）In the first annular groove（6）To far from the first cylinder under the squeezing action of cell wall（3）The position of front-rear direction median plane is moved, position In the driving lever of latter half（8）In the second annular groove（7）To far from the first cylinder under the squeezing action of cell wall（3）Front-rear direction center The position in face is moved, driving lever（8）Being equipped with can make it to the first cylinder（3）The compression spring that the position of front-rear direction median plane resets （9）.

2. a kind of unginned cotton small difference fibre cleaning plant according to claim 1, which is characterized in that described the first cylinder（3）It is interior If there are one coaxially installation and it can be followed to rotate synchronously the second cylinder（10）, multiple driving levers（8）Through the second cylinder （10）And it can be in the second cylinder（10）Upper back-and-forth motion, driving lever（8）It is placed in the second cylinder（10）There are one the part in outside is fixed Arc support rod（11）, supporting rod（11）Be respectively arranged on the left side and the right side a telescoping tube（12）, telescoping tube（12）One end with Supporting rod（11）It is fixedly connected, the other end is slidably connected at the second cylinder（10）Periphery on.

3. a kind of unginned cotton small difference fibre cleaning plant according to claim 2, which is characterized in that each driving lever（8）On There are one tension springs for suit（13）, tension spring（13）One end be fixedly connected on supporting rod（11）, the other end is slidably connected at the second circle Cylinder（10）Periphery on.

4. a kind of unginned cotton small difference fibre cleaning plant according to claim 1, which is characterized in that each driving lever（8）It is left The telescoping tube of right both sides（12）Outside set there are one with two telescoping tubes（12）The connecting rod that non-extensible part is fixedly connected （14）, connecting rod（14）Outside set there are one it is with interval placement and be fixed on the second cylinder（10）Fixed link on periphery （15）, compression spring（9）One end and connecting rod（14）It is fixedly connected, the other end and fixed link（15）Connection.

5. a kind of unginned cotton small difference fibre cleaning plant according to claim 1, which is characterized in that described the first cylinder（3）'s Rear and front end is closed end face, each the first cylinder（3）Rear end face on be respectively fixed with a coaxial installation set Cylinder（16）, sleeve（16）On be set with the first sprocket wheel（17）, babinet（1）Interior right side is equipped with stepper motor（18）, stepper motor （18）On be set with the second sprocket wheel（19）, multiple first sprocket wheels（17）Through chain（20）With the second sprocket wheel（19）Connection.

6. a kind of unginned cotton small difference fibre cleaning plant according to claim 5, which is characterized in that described the first cylinder（3）With The second cylinder（10）Barrel be equipped with multiple and driving lever（8）One-to-one straight slot（21）, driving lever（8）It can be in straight slot（21）It is interior It moves left and right.

7. a kind of unginned cotton small difference fibre cleaning plant according to claim 1, which is characterized in that described each two adjacent to lead To plate（2）Between be equipped with the gap-shaped ventilation hole of strip（22）, ventilation hole（22）Lower end be connected with hair-dryer（23）, shredding list The top of member is a up-small and down-big funnel, and the upper end of funnel is connected with negative-pressure air fan（23）.

8. a kind of unginned cotton small difference fibre cleaning plant according to claim 1, which is characterized in that the babinet（1）Left side Equipped with feed inlet, babinet（1）Right side be equipped with discharge port, the width of charging is less than the width of discharge port.