CN105714470A - Dust removal mechanism in improved-structure computer hosiery knitter - Google Patents

Abstract

The invention provides a dust removal mechanism in an improved-structure computer hosiery knitter, belonging to the field of mechanical technology. The problem of low stability of existing dust removal devices is solved. The dust removal mechanism in an improved-structure computer hosiery knitter comprises a dust removal cylinder connected with a knitter rack; the dust removal cylinder comprises an upper cylinder body and a lower cylinder body with a cavity inside; an inlet is formed at the upper end of the upper cylinder body, and an outlet is formed at the lower end of the lower cylinder body; the lower end of the upper cylinder body covers the outer side of the upper end of the lower cylinder body, and the upper cylinder body and the lower cylinder body are in threaded connection; the upper end of the lower cylinder body is fixedly connected with a partition plate; multiple penetrating dust removal holes are formed in the partition plate; each dust removal hole is connected with a filter cloth bag; the partition plate is also connected with a fan; the upper cylinder body and the lower cylinder body are both made of a transparent material; and the fan is arranged at the lower part of the filter cloth bag along the axial direction of the dust removal cylinder. The dust removal device has high stability.

Description

Dedusting mechanism in structure improved computerized hosiery knitter

Technical field

The invention belongs to field of mechanical technique, relate to the dedusting mechanism in a kind of footwear machine, particularly structure improved computerized hosiery knitter.

Background technology

Hosiery machine can be classified by needle-bar form, knitting needle type and syringe (bed) number.Flat hosiery machine plane No. is higher, produces the open width socks sheet according to foot, each section width of lower limb alteration of form, becomes seamed socks after sutured.The plane No. scope of tubular stocking machine is relatively wide, and producing tubulose socks base is the coil size by changing each section, or adopts stretch yarn, or braiding shapes the method such as undertoe, heel and adapts to foot shape.The undertoe of tubulose socks base becomes seamless socks after closing.Flat hosiery machine production efficiency is relatively low, widely uses tubular stocking machine at present.Hosiery machine structure tubular stocking machine is mainly formed by yarn mechanism, knitting mechanism, selecting mechanism, controlling organization, drive mechanism, Auto-regulating System of Density of Heavy Medium mechanism and draw-off mechanism.Some hosiery machine also opens and Origuchi mechanism.Flat hosiery machine still has transferring mechanism.

It is that yarn is drawn feeding knitting zone from bobbin to the effect of yarn mechanism, has passive type and positive type two class.Passive type is borrow tension force to make yarn be drawn by bobbin to yarn, though tensioned device and tension compensating mechanism control its tension force and sendout, but yarn tension difference is still bigger.Positive type then borrows special arrangement to yarn, makes yarn send into knitting zone with constant linear velocity, and yarn tension difference is less.

The effect of knitting mechanism is the yarn work by loop-forming element, is woven into tubulose socks base or open width socks sheet.The knitting element of tubular stocking machine has knitting needle, sinker, yarn guide and triangle etc..Flat hosiery machine then has knitting needle, sinker, yarn sley, knocking-over bit, yarn guide and tabletting etc..The knitting needle of tubular stocking machine is arranged on syringe, and yarn guide is fixed on around syringe, and yarn is sent into knitting zone.Having several places inlet wire to be known as a few road, generally have 1～12 tunnel, way the more productivity ratio is higher.Latch needles upper and lower motion by the effect of triangle during syringe revolution, and woven by yarn guide pad yarn.When weaving heel, undertoe, narrowing picker and down picker the knitting needle participating in braiding is narrowed and widening, so as to form pouch-shaped.The knitting needle permutation of flat hosiery machine is packed on needle-bar, moves with needle-bar.Yarn guide moves along needle-bar and carries out pad yarn, is woven by the cooperation of sinker, yarn sley and knocking-over bit etc. simultaneously.

The effect of controlling organization is to control relevant parts in the process of one socks of braiding enter or deactivate, and controls syringe and rotating speed and turn to and the length etc. of socks.The effect Shi Shige mechanism of drive mechanism is by predetermined regular movement.The syringe of tubular stocking machine not only makes unidirectional rotary, and to make bi-directional rotary when weaving heel, undertoe.The effect of selecting mechanism is pre-designed decorative pattern, is sequentially arranged in needle selection device as requested, by transmitting parts, makes knitting needle weave by certain procedures.The effect of Auto-regulating System of Density of Heavy Medium mechanism is the density regulating each section when weaving socks, and this is that the relative position adjustment sinking depth by change knitting needle and sinker carries out.The effect of draw-off mechanism is by weight, roller, air-flow etc., established coil to be drawn from woven extent in braiding process.

The effect with Origuchi mechanism that opens is the repiece that opens when socks take up one's knitting and there is no coil, and when stocking blank is woven into certain length Origuchi, monolayer stocking blank is folded in half into bilayer, makes stocking blank have good elasticity, do not produce crimping, be usually and complete with stocking blank hook.The Main Function of transferring mechanism is with barring-on parts, coil to be moved on on another pin by a pin, to change the knitting width of socks sheet, so as to shape.

Chinese patent its publication number CN104190166A discloses " a kind of dust arrester automatically spun in hosiery machine ", it includes the dedusting cylinder for being connected in knitting machine frame, described dedusting cylinder includes the internal outer cylinder body for cavity and inner barrel, the upper end of described inner barrel has import, inner barrel lower end has outlet, it is connected to drainage screen and drainage screen in described inner barrel and inner barrel is divided into neighbouring two cavity: upper cavity and lower chamber, above-mentioned import is positioned at upper cavity place, above-mentioned outlet is positioned at lower chamber place, the fan that upper cavity place air-flow can be made to enter lower chamber place it is also associated with in described lower chamber, described outer cylinder body top has the connector communicated with above-mentioned import, there is between above-mentioned outer cylinder body and inner barrel the detent mechanism that can both be positioned together.This dust arrester good dedusting effect and compact conformation.

But, in above-mentioned dust arrester, outer cylinder body and inner barrel are by detent mechanism, it is known that detent mechanism is by the structure of lockpin-type, outer cylinder body and outer cylinder body to be positioned in above-mentioned patent specification.Once run into vibration, above-mentioned location mode may result in inside and outside cylinder junction and loosens.Band dust and gas stream being caused directly to be overflowed by loosening once inside and outside cylinder junction loosens, affect working environment quality, its stability is not high.And, its handling of the detent mechanism of lockpin-type are also cumbersome, during landing hire, effort.

Summary of the invention

It is an object of the invention to the problems referred to above existed for prior art, it is provided that the dedusting mechanism in the computerized hosiery knitter that a kind of stabilizability is high and easy to loading and unloading.

The purpose of the present invention can be realized by following technical proposal:

Dedusting mechanism in structure improved computerized hosiery knitter, this device includes the dedusting cylinder for being connected in knitting machine frame, it is characterized in that, described dedusting cylinder includes the internal upper shell for cavity and lower shell, the upper end of described upper shell has import, lower shell lower end has outlet, described upper shell lower end is enclosed within outside lower shell upper end and both are threaded, described lower shell upper end is fixed with dividing plate, described dividing plate has some dedusting holes run through, described each dedusting hole place is respectively connected with filter cloth bag, described dividing plate is also associated with fan, described upper shell and lower shell are transparent material, axis direction said fans along dedusting cylinder is in filter cloth bag bottom.

In footwear machine work process, band dust and gas stream is entered in dedusting cylinder by import, and band dust and gas stream after filtering is by exporting discharge.

Specifically, band dust and gas flows in upper shell, is blocked in filter cloth bag with the dust in dust and gas stream or tiny lint under the filtration of filter cloth bag.Pure air enters in lower shell, is finally discharged by outlet.Certainly, the rotation of fan is thus ensureing with stable being entered in dedusting cylinder by import department of dust and gas stream energy.

Being positioned at the fan of filter cloth bag bottom can make filter cloth bag stagger fan, improves the stability of whole device.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described dividing plate is connected on lower shell by securing member.

Securing member is generally screw, can make together with dividing plate is securely attached to lower shell by securing member.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, there is between described upper shell and lower shell the location structure that dividing plate is locked in above-mentioned lower shell upper end.

Firm and stable for dividing plate can be positioned at lower shell upper end by location structure.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described location structure includes tubular positioning tube, the upper end of described positioning tube is resisted against the top in upper shell, and the lower end of described positioning tube is resisted against on dividing plate and dividing plate is pressed between positioning tube and lower shell.

Owing to positioning tube is pressed, therefore, the dividing plate between positioning tube and lower shell also can be tightly suppressed, thus preventing dust arrester use procedure median septum from vibrating.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described location structure also includes a rubber washer, and above-mentioned rubber washer is pressed between dividing plate and positioning tube.

Rubber washer can not only improve sealing, and can also play the effect of damping, it is to avoid because loosening, noise occurs in device use procedure.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described fan includes motor, sharf and blade, formed for storing the filter chamber with dust and gas stream between described dividing plate and upper shell, the discharge chamber discharged for pure air is formed between described dividing plate and lower shell, above-mentioned filter cloth bag, motor, sharf and blade are respectively positioned in discharge chamber, described motor is connected on dividing plate, and above-mentioned sharf upper end is connected with the rotating shaft of motor, and described blade is connected in sharf lower end.

It is blocked in upper shell and filter cloth bag with the dust in dust and gas stream or tiny lint.Being always pure air after filtering in discharge chamber, therefore, motor, sharf and blade, all without being subject to dust or the adhesion of tiny lint, improve the stability of this device.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described motor is connected in the center of dividing plate, and above-mentioned filter cloth bag is distributed on dividing plate with motor for benchmark circumference, and described filter cloth bag is positioned at blade top.

Such structure can guarantee that the air-flow that each filter cloth bag place is respectively provided with at the uniform velocity passes through.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, there is between described lower shell sidewall and outlet the spigot surface of conical transition, described lower shell includes cylinder one cylindrically and cylinder two, above-mentioned spigot surface and outlet are respectively positioned on cylinder two bottom, aforementioned barriers is connected in cylinder one upper end, and described cylinder one lower end is resisted against cylinder two upper end.

The entrance exit of airflow smooth after filtering can be made under the effect of spigot surface, finally smoothly air-flow is discharged by exit.

Lower shell is set to split-type structural, it may be assumed that it includes cylinder one and cylinder two.Such structure can easily dismantle filter cloth bag.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, outside described cylinder two, there is the locking ring protruded ringwise, forming annular and the location division matched with upper shell lower end between described locking ring and cylinder two, above-mentioned upper shell lower end is embedded in location division place.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, it is connected with upper shell outside screw inside described locking ring, outside described cylinder two, there is the contact layer that can increase frictional force.

Owing to location division and upper shell lower end match, therefore upper shell effectively avoids upper shell with lower shell relative to loosening that it is axially rolled to each side after being connected.

Certainly, upper shell and lower shell loosening being threaded connection axially overcome.

Upper shell axial play and the probability loosened towards axial both sides is further reduced by contact layer.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described contact layer is be connected in the rubber layer outside cylinder two.

Rubber layer can not only increase frictional force, and it can also play the effect of sealing and damping.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described contact layer is be connected in the bed of cloth outside cylinder two.

Bed of cloth cost is low and damping property good, and after adding appropriate water to bed of cloth, it can also effectively prevent dust air-flow from being overflowed with lower shell junction by upper shell.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described positioning tube upper end is also cased with ringwise preload ring, has spring between described preload ring and positioning tube.

Preload ring upper end is resisted against in upper shell rear flank, positioning tube and lower shell can be made to be subject to the elastic acting force of spring all the time, thus playing the effect of buffering under the elastic force effect of spring, it is to avoid loosen collision and noise occurs.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described preload ring bottom has locating slot that is recessed ringwise and that match with positioning tube upper end, above-mentioned positioning tube upper end is embedded in locating slot place, and described spring is bottom locating slot and between positioning tube upper end.

Locating slot coordinates with positioning tube upper end can make preload ring be securely attached to positioning tube upper end, ensures that dividing plate is pressed between pretension cylinder and lower shell all the time under the pretension effect of spring.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, having the approaching face of conical transition between described upper shell sidepiece and import, described preload ring top has the abutment face contacted with approaching face formation face.

Arranging of approaching face can make to seamlessly transit inside upper shell and between import.Arranging of abutment face can make formation face between preload ring with upper shell contact, and improves contact stabilization.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described filter cloth bag is fixed with ringwise locating ring, described locating ring sidepiece has the gear edge of projection, above-mentioned filter cloth bag bag mouth is connected in inside locating ring, and the gear on described locating ring is along the top being overlapped on dividing plate dedusting hole.

Locating ring plays the effect supporting filter cloth bag bag mouth, gear along being used for making it be overlapped on upper port place, dedusting hole so that filter cloth bag stable be suspended on dedusting hole place.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, the upper port place in described dedusting hole has recessed positioning seat, and above-mentioned gear is along being overlapped on positioning seat place and locating ring top and dividing plate top flush.

Arranging of positioning seat can make finishing on the upside of dividing plate concordant.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, described positioning seat having seal washer, described seal washer is enclosed within outside locating ring and seal washer is pressed between gear edge and positioning seat.

Seal washer plays the effect sealing and cushioning.Because dust arrester in use can vibrate, owing to seal washer is flexible, therefore, it can play reasonable effectiveness in vibration suppression.

In dedusting mechanism in above-mentioned structure improved computerized hosiery knitter, the bag mouth place of described filter cloth bag is fixed with ringwise bag mouth ring, described bag mouth ring has grab and grab snaps onto the upper port place of above-mentioned locating ring.

Bag mouth ring, for strengthening the bag mouth of filter cloth bag, makes bag mouth always in annular.Grab is used for making it be overlapped on upper port place, dedusting hole so that filter cloth bag stable be suspended on dedusting hole place.

Compared with prior art, the dedusting mechanism in this structure improved computerized hosiery knitter is threaded connection due to upper shell and lower shell, and its connective stability is higher.And, can also further increase its connective stability by the contact layer of cylinder two sidepiece.

, by filter cloth bag, dust or tiny lint being filtered, its strainability is good meanwhile.And, after using a period of time, the replacing of filter cloth bag is also more convenient, there is significantly high practical value.

It addition, arranging of positioning tube further adds connective stability, it can be seen that this device is good due to good airproof performance, damping property, therefore, its stability is high.Most importantly its handling of mode that upper shell cylinder screw once connects are also more convenient.

Accompanying drawing explanation

Fig. 1 is the contour structures schematic diagram of the dedusting mechanism in this structure improved computerized hosiery knitter.

Fig. 2 is the sectional structure schematic diagram of the dedusting mechanism in this structure improved computerized hosiery knitter.

Fig. 3 is the broken section structural representation at preload ring place in the dedusting mechanism in this structure improved computerized hosiery knitter.

Fig. 4 is the sectional structure schematic diagram at the dedusting mechanism median septum place in this structure improved computerized hosiery knitter.

Fig. 5 is the sectional structure schematic diagram at dedusting mechanism middle cylinder body two place in this structure improved computerized hosiery knitter.

In figure, 1, upper shell；1a, import；1b, approaching face；2, lower shell；2a, outlet；2b, spigot surface；2c, cylinder one；2d, cylinder two；2d1, locking ring；2d2, location division；2d3, contact layer；3, dividing plate；3a, dedusting hole；3a1, positioning seat；4, filter cloth bag；5, positioning tube；6, rubber washer；7, fan；7a, motor；7b, sharf；7c, blade；8, preload ring；8a, locating slot；8b, abutment face；9, spring；10, locating ring；10a, gear edge；11, seal washer；12, bag mouth ring；12a, grab.

Detailed description of the invention

As it is shown in figure 1, the dedusting mechanism in this structure improved computerized hosiery knitter includes a tubular dedusting cylinder, it is connected in the frame of footwear machine, and the socks portion of knitting that footwear machine produces dust and lint is connected to the import 1a place of dedusting cylinder by connecting tube.

As depicted in figs. 1 and 2, the dedusting mechanism in this structure improved computerized hosiery knitter includes the dedusting cylinder for being connected in knitting machine frame, and dedusting cylinder includes the internal upper shell 1 for cavity and lower shell 2.

The upper end of upper shell 1 has import 1a, and lower shell 2 lower end has outlet 2a.Upper shell 1 lower end is enclosed within outside lower shell 2 upper end, together with upper shell 1 is threaded connection with lower shell 2 and is securely attached to.

As shown in Figure 4, lower shell 2 upper end is fixed with dividing plate 3, and described dividing plate 3 has some dedusting hole 3a run through.3a place, each dedusting hole is respectively connected with filter cloth bag 4, and dividing plate 3 is also associated with fan 7, and described upper shell 1 and lower shell 2 are transparent material, and the axis direction said fans 7 along dedusting cylinder is in filter cloth bag 4 bottom.

In the present embodiment, there is between upper shell 1 and lower shell 2 location structure that dividing plate 3 is locked in above-mentioned lower shell 2 upper end.Certainly, in order to simplify structure, it is also feasible on lower shell 2 that dividing plate 3 is connected in either directly through securing member.

Location structure includes tubular positioning tube 5, and the upper end of positioning tube 5 is resisted against the top in upper shell 1, and the lower end of positioning tube 5 is resisted against on dividing plate 3, and dividing plate 3 is pressed between positioning tube 5 and lower shell 2.

Location structure also includes a rubber washer 6, and above-mentioned rubber washer 6 is pressed between dividing plate 3 and positioning tube 5.

Fan 7 includes motor 7a, sharf 7b and blade 7c, is formed for storing the filter chamber with dust and gas stream, form the discharge chamber discharged for pure air between described dividing plate 3 and lower shell 2 between described dividing plate 3 and upper shell 1.Above-mentioned filter cloth bag 4, motor 7a, sharf 7b and blade 7c are respectively positioned in discharge chamber, and described motor 7a is connected on dividing plate 3, and above-mentioned sharf 7b upper end is connected with the rotating shaft of motor 7a, and described blade 7c is connected in sharf 7b lower end.

Motor 7a is connected in the center of dividing plate 3, and above-mentioned filter cloth bag 4 is distributed on dividing plate 3 with motor 7a for benchmark circumference, and described filter cloth bag 4 is positioned at blade 7c top.

There is between lower shell 2 sidewall and outlet the spigot surface 2b of conical transition, described lower shell 2 includes cylinder one 2c cylindrically and cylinder two 2d, above-mentioned spigot surface 2b and outlet 2a is respectively positioned on cylinder two 2d bottom, aforementioned barriers 3 is connected in cylinder one 2c upper end, and described cylinder one 2c lower end is resisted against cylinder two 2d upper end.

As it is shown in figure 5, have the locking ring 2d1 protruded ringwise outside cylinder two 2d, forming annular and the location division 2d2 matched with upper shell 1 lower end between described locking ring 2d1 and cylinder two 2d, above-mentioned upper shell 1 lower end is embedded in 2d2 place, location division.

It is connected with upper shell 1 outside screw inside locking ring 2d1, outside described cylinder two 2d, there is the contact layer 2d3 that can increase frictional force.In the present embodiment, contact layer 2d3 is connected in the rubber layer outside cylinder 22；According to practical situation, contact layer 2d3 adopts another scheme to be also feasible, it may be assumed that contact layer 2d3 is connected in the bed of cloth outside cylinder two.

As it is shown on figure 3, positioning tube 5 upper end is also cased with ringwise preload ring 8, between described preload ring 8 and positioning tube 5, there is spring 9.Preload ring 8 bottom has locating slot 8a that is recessed ringwise and that match with positioning tube 5 upper end, and above-mentioned positioning tube 5 upper end is embedded in locating slot 8a place, and described spring 9 is bottom locating slot 8a and between positioning tube 5 upper end.

Having the approaching face 1b of conical transition between upper shell 1 sidepiece and import 1a, described preload ring 8 top has the abutment face 8b contacted with approaching face 1b formation face.

Being fixed with ringwise locating ring 10 in filter cloth bag 4, described locating ring 10 sidepiece has the gear of projection along 10a, and above-mentioned filter cloth bag 4 bag mouth is connected in inside locating ring 10, and the gear on described locating ring 10 is along the 10a top being overlapped on dividing plate 3 dedusting hole 3a.

The upper port place of dedusting hole 3a has recessed positioning seat 3a1, and above-mentioned gear is overlapped on positioning seat 3a1 place and locating ring 10 top and dividing plate 3 top flush along 10a.Having seal washer 11 on positioning seat 3a1, described seal washer 11 is enclosed within outside locating ring 10 and seal washer 11 is pressed on gear along between 10a and positioning seat 3a1.

The bag mouth place of filter cloth bag 4 is fixed with ringwise bag mouth ring 12, described bag mouth ring 12 has grab 12a and grab 12a snaps onto the upper port place of above-mentioned locating ring 10.

In this device work process, motor 7a is constantly in operating condition.The fan 7 rotated makes band dirt steady air current be entered by import 1a smoothly, and the air-flow after filtration is discharged by outlet 2a again.

In footwear machine work process, it is connected pipe at the dust and lint of knitting the generation of place of socks portion and enters the import department of dedusting cylinder.Dust and lint are stopped within it by filter cloth bag 4, and pure air is discharged by exporting 2a.Owing to fan 7 is between dividing plate 3 and lower shell 2 in above-mentioned dust removal process, being between dividing plate 3 and upper shell 1 with dust and gas stream, therefore, dust and lint are not accumulated in fan 7 place.

Owing to cylinder two 2d of lower shell 2 is resisted against inside upper shell 1 by contact layer 2d3 thereon, and the locking ring 2d1 on cylinder two 2d is connected with upper shell 1 outside screw.Lower shell 1 lower end by be firmly positioned between locking ring 2d1 and cylinder two 2d formed 2d2 place, location division.Such structure can make stable being connected on lower shell 2 of upper shell 1, but also is effectively prevented upper shell 1 relative to lower shell 2 axis play, and prevents upper shell 1 from loosening relative to lower shell 2 both sides.

It can be seen that be turn lower shell 2 or upper shell 1 in cargo handling process, its handling are easy, easy to implement.

After using a period of time, the dust of filter cloth bag 4 inner accumulated and lint can affect the normal dedusting of this device.Can easily being split by upper shell 1 by lower shell 2 after turn upper shell 1 or lower shell 2, owing to dividing plate 3 is positioned at the cylinder one 2c place of lower shell 2,2c is shorter for cylinder one, therefore can easily filter cloth bag 4 be dismantled.Certainly, once after filter cloth bag 4 cleared up, being loaded into dividing plate 3 can reuse again.

It addition, this device median septum 3 is additionally subjected to a pretension active force, cushioning effect can not only be played and can also prevent dividing plate 3 from loosening.Specifically, sheathed on positioning tube 5 preload ring 8 and the spring 9 between positioning tube 5 and preload ring 8 can be achieved with above-mentioned purpose.

Claims (6)

1. the dedusting mechanism in structure improved computerized hosiery knitter, this mechanism includes the dedusting cylinder for being connected in knitting machine frame, it is characterized in that, described dedusting cylinder includes the internal upper shell for cavity and lower shell, the upper end of described upper shell has import, lower shell lower end has outlet, described upper shell lower end is enclosed within outside lower shell upper end and both are threaded, described lower shell upper end is fixed with dividing plate, described dividing plate has some dedusting holes run through, described each dedusting hole place is respectively connected with filter cloth bag, described dividing plate is also associated with fan, described upper shell and lower shell are transparent material, axis direction said fans along dedusting cylinder is in filter cloth bag bottom, there is between described upper shell and lower shell the location structure that dividing plate is locked in above-mentioned lower shell upper end, described location structure includes tubular positioning tube, the upper end of described positioning tube is resisted against the top in upper shell, the lower end of described positioning tube is resisted against on dividing plate and dividing plate is pressed between positioning tube and lower shell, described location structure also includes a rubber washer, above-mentioned rubber washer is pressed between dividing plate and positioning tube, described fan includes motor, sharf and blade, formed for storing the filter chamber with dust and gas stream between described dividing plate and upper shell, the discharge chamber discharged for pure air is formed between described dividing plate and lower shell, above-mentioned filter cloth bag, motor, sharf and blade are respectively positioned in discharge chamber, described motor is connected on dividing plate, above-mentioned sharf upper end is connected with the rotating shaft of motor, described blade is connected in sharf lower end；Having the locking ring protruded ringwise outside described cylinder two, form annular and the location division matched with upper shell lower end between described locking ring and cylinder two, above-mentioned upper shell lower end is embedded in location division place；It is connected with upper shell outside screw inside described locking ring, outside described cylinder two, there is the contact layer that can increase frictional force；Described contact layer is be connected in the rubber layer outside cylinder two.

2. the dedusting mechanism in structure improved computerized hosiery knitter according to claim 1, it is characterised in that described motor is connected in the center of dividing plate, and above-mentioned filter cloth bag is distributed on dividing plate with motor for benchmark circumference, and described filter cloth bag is positioned at blade top.

3. the dedusting mechanism in structure improved computerized hosiery knitter according to claim 1, it is characterized in that, described filter cloth bag is fixed with ringwise locating ring, described locating ring sidepiece has the gear edge of projection, above-mentioned filter cloth bag bag mouth is connected in inside locating ring, and the gear on described locating ring is along the top being overlapped on dividing plate dedusting hole.

4. the dedusting mechanism in structure improved computerized hosiery knitter according to claim 3, it is characterised in that the upper port place in described dedusting hole has recessed positioning seat, above-mentioned gear is along being overlapped on positioning seat place and locating ring top and dividing plate top flush.

5. the dedusting mechanism in structure improved computerized hosiery knitter according to claim 4, it is characterised in that have seal washer on described positioning seat, described seal washer is enclosed within outside locating ring and seal washer is pressed between gear edge and positioning seat.

6. the dedusting mechanism in structure improved computerized hosiery knitter according to claim 3, it is characterized in that, the bag mouth place of described filter cloth bag is fixed with ringwise bag mouth ring, described bag mouth ring has grab and grab snaps onto the upper port place of above-mentioned locating ring.