CN105381987A - Rotary dust removal assembly - Google Patents

Abstract

The invention relates to a rotary dust removal assembly which comprises a plurality of rotary blowing pieces, a first electrostatic eliminator, a cover and a drive piece. The multiple rotary blowing pieces are arranged in the dust removal direction. The first electrostatic eliminator is arranged on one sides of the multiple rotary blowing pieces. The electrostatic eliminator and the rotary blowing pieces are covered with the cover. The drive piece is arranged on the cover and used for driving the rotary blowing pieces to rotate. The rotary blowing pieces are used for supplying air to the dust removal assembly, multiple rotary air can be generated, the dust removal effect is increased, and the problem of cross contamination is avoided.

Description

A kind of Rotary dust collecting assembly

Technical field

The present invention relates to a kind of cleaner, particularly relate to a kind of Rotary dust collecting assembly.

Background technology

In the production process of optical mirror slip, contamination by dust is the least favorable factor affecting processing procedure yields.So the protection of clean technologies and pollution all seems of crucial importance in the production process of series products, wherein pollute protection and the control aspect controlling mainly to be production environment, and clean technologies are mainly to carry out clean aspect to material.Clean technologies clean to ensure that in each processing procedure link, material is enough clean, to guarantee product yields and quality to material by the cleaning mode of necessity or cleaning equipment in processing procedure.

At present one of method of clean eyeglass be by testing staff under microscope, progressively carries out dust wiping with cotton swab to each eyeglass, or operator with hand-held live eyeglass re-use high pressure air rifle and carry out cleaning of each eyeglass.Lens assembly size is too little, and staff arrests cleaning operation can be more difficult, and add each eyeglass pick and place the time, production efficiency is lower, is difficult to realize batch automatic production.Clean in the manual mode arresting material simultaneously, easily form cross pollution.

Summary of the invention

For deficiency of the prior art, the object of this invention is to provide a kind of Rotary dust collecting assembly.

In order to solve the problems of the technologies described above, this application discloses a kind of Rotary dust collecting assembly, it comprises multiple rotary air blowing part, along a dedusting direction arrangement; First Xelminator, is arranged at the side of multiple rotary air blowing part; Cover body, covers described first Xelminator and the rotary air blowing part of described many Ge; And actuator, be arranged at described cover body, described actuator rotates for driving described multiple rotary air blowing part.

Compared with prior art, the application can obtain and comprise following technique effect:

By rotary air blowing part towards treating that dedusting assembly is blown, can multi-cyclone be produced, promoting the effect of dedusting, avoiding the problem of cross pollution.

Accompanying drawing explanation

Fig. 1 is the stereogram of the cleaner of the application one embodiment.

Fig. 2 is the internal structure schematic diagram of the cleaner of Fig. 1.

Fig. 3 is the stereogram of the first guiding platform of the application one embodiment.

Fig. 4 is the explosive view of the first guiding platform of Fig. 3.

Fig. 5 is the enlarged drawing of load plate when being placed on the first guide member.

Fig. 6 is the enlarged drawing of load plate when being placed on the second guide member.

Fig. 7 is the schematic diagram that the relative first guiding platform of first dust arrester of the application is opened.

Fig. 8 is the part sectioned view that platform guided by first dust arrester and first of Fig. 7.

Fig. 9 is exploded and the perspective view of the first dust arrester of the application one embodiment.

Figure 10 is the stereogram of the switching mechanism of the application one embodiment.

Figure 11 is the enlarged drawing that platform coupling part guided by first dust arrester and first of the application one embodiment.

Description of reference numerals:

Cleaner 10, internal structure 10 ', treat dedusting assembly 20, load plate 30, action button 97, man machine operation interface 98, casing 99, first guiding platform 100, first holder 102, spacing block 102a, 102b, limit track 102c, first guide member 104, main synchronous pulley 104a, secondary synchronous pulley 104b, 104c, main Timing Belt 104d, steering tape 104e, 104f, keeper 105, first actuator 106, end cap 108, height limit block 110a, 110b, first dust arrester 120, rotary air blowing part 121, 122, 123, rotating shaft 121a, 122a, 123a, nozzle 121b, 122b, 123b, first articulated section 125, first Xelminator 130, second Xelminator 132, 3rd Xelminator 134, 4th Xelminator 136, cover body 140, inner cover 141, through hole 141a, outer cover 142, driving member 143, actuator 144, dust leg 145, second guiding platform 200, second holder 202, second guide member 204, second dust arrester 220, switching mechanism 300, holder 310, guide rail 320, revolving cylinder 330, stepper motor 350, inner surface S1, outer surface S2, spacing height H, load plate height H ', preset distance D, predetermined angle theta, dedusting direction P.

Detailed description of the invention

Below by with multiple embodiments of graphic exposure the application, as clearly stated, the details in many practices will be explained in the following description.But should be appreciated that, the details in these practices is not applied to limit the application.That is, in the some embodiments of the application, the details in these practices is non-essential.In addition, for the purpose of simplicity of illustration, some known usual structures and assembly illustrate it by the mode simply illustrated in the drawings.

About used herein it " ＂, " the 2nd ＂ etc., the not special meaning of censuring order or cis-position, is also not used to limit the application, and it is only used to distinguish the assembly or operation that describe with constructed term.

The application has the design about a kind of Rotary dust collecting assembly, and this Rotary dust collecting assembly can be applicable in eyeglass dust arrester.For making more in understanding, following embodiment will bring the explanation of eyeglass dust arrester in the lump, then further illustrates the effect of Rotary dust collecting assembly in eyeglass dust arrester and the benefit brought thereof again.

Fig. 1 is the stereogram of the cleaner 10 of the application one embodiment, and Fig. 2 is the internal structure 10 ＇ schematic diagram of the cleaner 10 of Fig. 1.As shown in the figure, cleaner 10 comprises casing 99, first and guides platform 100, first dust arrester 120, second guiding platform 200, second dust arrester 220, man machine operation interface 98 and action button 97, wherein the first guiding platform 100 and second is guided platform 200 part and is positioned at casing 99, and partial denudation is outside casing 99.Man machine operation interface 98 understands the job schedule of current cleaner 10 for operator, and is manipulated the relevant dedusting operation of cleaner 10 by action button 97.In the present embodiment, treat that dedusting assembly can first be placed on the first exposed guiding platform 100, after the first dust arrester 120 through casing 99 inside and the second dust arrester 220 complete dedusting operation, take out from the exposed second guiding platform 200, complete the dedusting operation of whole automation.

Further, the first dust arrester 120 is arranged on the first guiding platform 100, and the second dust arrester 220 is arranged on the second guiding platform 200.After dedusting assembly is placed on the first guiding platform 100 and second guides platform 200, the first dust arrester 120 and the second dust arrester 220 inside can be led to respectively to complete the operation of dedusting.In the present embodiment, treat that dedusting assembly can be eyeglass, the built-in lens module of such as mobile phone or board device, but the application is not as limit.The dust arrester of the application also can be applied to that other are miniature, in the dedusting operation of the material of mass.

Fig. 3 is the stereogram of the first guiding platform 100 of the application one embodiment, and Fig. 4 is the explosive view of the first guiding platform 100 of Fig. 3.First guiding platform 100 comprises the first holder 102, first guide member 104 and the first actuator 106.First guide member 104 is arranged on the first holder 102.More specifically, the first holder 102 can comprise two pieces of spacing block 102a, 102b, and two pieces of spacing block 102a, 102b are arranged face-to-face.The spacing of face-to-face setting can form limit track 102c between block 102a, 102b.First guide member 104 can be arranged on the limit track 102c of the first holder 102, makes the first guide member 104 be confined to motion in limit track 102c.

First actuator 106 moves along the first holder 102 in order to drive the first guide member 104.That is, the first actuator 106 can drive the first guide member 104 to move along the limit track 102c on the first holder 102.More specifically, the first guide member 104 comprises main synchronous pulley 104a, two groups of secondary synchronous pulley 104b, 104c, main Timing Belt 104d and multiple steering tape 104e, 104f.Main Timing Belt 104d cover is around in main synchronous pulley 104a with on wherein one group of secondary synchronous pulley 104b, 104c, and steering tape 104e, 104f cover is around on two groups of secondary synchronous pulley 104b, 104c.First actuator 106 connects main synchronous pulley 104a, and the first actuator 106 can order about main synchronous pulley 104a and rotate, and drives main Timing Belt 104d to move, to drive secondary synchronous pulley 104b, 104c and steering tape 104e, 104f motion further.Thus, the first guide member 104 can be confined to motion in limit track 102c.

First guide member 104 can treat dedusting assembly 20 in order to place.Please refer to Fig. 4, treat that dedusting assembly 20 can be placed on load plate 30, load plate 30 can be placed on the first guide member 104.Steering tape 104e, 104f of first guide member 104 are upper is provided with multiple keeper 105.More specifically, steering tape 104e, 104f has the inner surface S1 and outer surface S2 that are oppositely arranged.Inner surface S1 has multiple tooth type structures, in order to engage with secondary synchronous pulley 104b, 104c.Outer surface S2 is extruded with multiple keeper 105, load plate 30 can rest on the side of keeper 105.

Please refer to Fig. 5, it is the schematic diagram of load plate 30 when being placed on the first guide member 104.As shown in the figure, when load plate 30 is placed on the first guide member 104, can be fixed the position of load plate 30 by keeper 105, when preventing the first guide member 104 from moving, load plate 30 position offsets or rocks.

During embody rule, above-mentioned first actuator 106 can be motor, and main Timing Belt 104d and multiple steering tape 104e, 104f can be timing belt, but the application is not as limit.In addition, the number just citing of above-mentioned steering tape 104e, 104f and secondary synchronous pulley 104b, 104c, not in order to limit the application.Such as, the number of secondary synchronous pulley 104b, 104c can be greater than two, as shown in Figure 4, also can have multiple secondary synchronous pulley, can play the effect supporting and move with stable steering tape 104e, 104f between two groups of pair synchronous pulleys 104b, 104c.In addition, the number of steering tape 104e, 104f is also not limited to two.In some embodiments, only can have steering tape 104e or 104f, or the number of steering tape 104e, 104f can be greater than two.In addition, in some embodiments, the first guiding platform 100 can also comprise end cap 108, and end cap 108 cover covers the component such as secondary synchronous pulley 104b, 104c, the first actuator 106, to play the effect that platform 100 inner body is guided in protection first.

Similarly, please refer to Fig. 6, it is the enlarged drawing of load plate 30 when being placed on the second guide member 204.Second guiding platform 200 comprises the second holder 202, second guide member 204 and the second actuator (not illustrating).Second guide member 204 is arranged at the second holder 202, second actuator and moves along the second holder 202 in order to drive the second guide member 204.The component configuration of the second guiding platform 200 is similar to the first guiding platform 100.That is, the second holder 202 is similar to the first holder 102, second guide member 204 and is similar to the first guide member 104, second actuator and is similar to the first actuator 106, does not just repeat at this.

Fig. 7 is relative first schematic diagram opened of guiding platform 100 of first dust arrester 120 of the application, and Fig. 8 is the part sectioned view that platform 100 guided by first dust arrester 120 and first of Fig. 7.As shown in the figure, the first dust arrester 120 covers the first guide member 104 at least partly.Thus, when the first guide member 104 moves, the promotion that load plate 30 on first guide member 104 is subject to keeper 105 (with reference to figure 5) can be moved towards the direction of the first dust arrester 120, and completes dedusting operation in space between the first dust arrester 120 and the first guide member 104.Similarly, the second dust arrester 220 also covers the second guide member 204 at least partly, makes load plate 30 treats that dedusting assembly 20 can complete dedusting operation in the space between the second dust arrester 220 and the second guide member 204.

More specifically, please refer to Fig. 4 and Fig. 7, the first guiding platform 100 also comprises height limit block 110a, 110b.Height limit block 110a, 110b are arranged on spacing block 102a, 102b respectively, first dust arrester 120 is arranged on height limit block 110a, 110b, makes steering tape 104e, 104f of distance from bottom first guide member 104 of the first dust arrester 120 have a spacing height H (Fig. 8 illustrates steering tape 104e).This spacing height H at least need be greater than the load plate height H ＇ of load plate 30.Thus, spacing height H can define a dedusting space between the first dust arrester 120 and the first guide member 104, makes load plate 30 treats that dust arrester 20 can carry out the operation of dedusting in dedusting space.

Similarly, the second guiding platform 200 also includes height limit block (sign), and its function is similar to height limit block 110a, 110b of being arranged on the first guiding platform 100, does not just repeat at this.

Fig. 9 is exploded and the perspective view of the first dust arrester 120 of the application one embodiment.Please also refer to Fig. 7 to Fig. 9, as shown in the figure, the first dust arrester 120 comprises multiple rotary air blowing part 121,122,123 and first Xelminator 130.Multiple rotary air blowing part 121,122,123 arranges along dedusting direction P.When relative first guiding platform 100 conjunction of the first dust arrester 120 is closed, faced by rotary air blowing part 121,122,123, the first guide member 104 is arranged, and rotary air blowing part 121,122,123 arranges along the direction of motion of the first guide member 104, make each rotary air blowing part 121,122,123 can to by treating that dedusting assembly 20 carries out dedusting operation below it.

In addition, rotary air blowing part 121,122,123 and first guide member 104 is separated by a preset distance D.This preset distance D is greater than load plate height H ', during the dedusting space that load plate 30 is entered between the first dust arrester 120 and the first guide member 104, rotary air blowing part 121,122,123 can not affect or stop the movement of load plate 30, and simultaneously rotary air blowing part 121,122,123 can towards load plate 30 treats that dedusting assembly 20 is supplied gas.Rotary air blowing part 121,122,123 can 360 degree of rotations, but the application is not as limit, and above-mentioned angle is citing just.Nozzle on rotary air blowing part 121,122,123 can produce multi-cyclone pattern after rotating.Namely can produce the wind of multiple different directions, to reach effect that dedusting assembly 20 is treated in washing.

First Xelminator 130 is arranged at the side of rotary air blowing part 121,122,123, the electrostatic distribution on the first dust arrester 120, first guide member 104, load plate 30 can be reduced by the first Xelminator 130, avoid dust to be infected with due to the relation of electrostatic treating, on dedusting assembly 20, to affect dust removing effects.In some embodiments, cleaner 10 also comprises the second Xelminator 132, and the first Xelminator 130 and the second Xelminator 132 can lay respectively at the relative both sides of rotary air blowing part 121,122,123.Thus, the first electrostatic precipitator 130 and the second Xelminator 132 can reduce the electrostatic effect of rotary air blowing part 121,122,123 both sides equably.Especially rotary air blowing part 121,122,123 on load plate 30 when dedusting assembly 20 is blown, load plate 30 or treat dedusting assembly 20 because windage easily produces electrostatic and covered with dust, therefore the electrostatic of load plate 30 both sides can be reduced by the first Xelminator 130 and the second Xelminator 132, improve dust removing effects.

Please continue to refer to Fig. 7 to Fig. 9, the first dust arrester 120 also comprises cover body 140.Cover body 140 covers nozzle 121b, 122b, 123b of the first Xelminator 130, second Xelminator 132 and rotary air blowing part 121,122,123.Further it, cover body 140 also can comprise inner cover 141 and outer cover 142.Rotary dust collecting assembly also comprises actuator 144, and actuator 144 is arranged at cover body 140, and actuator 144 is that air blowing part 121,122,123 rotates in order to drive multiple rotation.Further say it, rotary air blowing part 121,122,123 also can comprise rotating shaft 121a, 122a, 123a, nozzle 121b, 122b, 123b, driving member 143 and actuator 144, its shaft 121a, 122a, 123a are rotatably arranged between inner cover 141 and outer cover 142, and nozzle 121b, 122b, 123b are arranged at one end of rotating shaft 121a, 122a, 123a and are covered by inner cover 141.Nozzle 121b, 122b, 123b are then arranged at the side of inner cover 141 towards the first guide member 104, driving member 143 is connected between each rotating shaft 121a, 122a, 123a, actuator 144 can order about each rotating shaft 121a, 122a, 123a by driving member 143 and rotate, nozzle 121b, 122b, 123b of rotary air blowing part 121,122,123 are rotated, reaches the dust removing effects of multi-cyclone.

First dust arrester 120 also can comprise dust leg 145 (being illustrated in Fig. 1 and Fig. 2), and dust leg 145 is communicated with cover body 140, to absorb the dust of cover body 140 inside.Further it, dust leg 145 is communicated with outer cover 142.In addition, the side of inner cover 141 then has multiple through hole 141a running through inner cover 141 body.Nozzle 121b, 122b, 123b of rotary air blowing part 121,122,123 treat dedusting assembly 20 in washing, dust between inner cover 141 and the first guide member 104 comes the space between inner cover 141 and outer cover 142 by through hole 141a, is then absorbed by dust by dust leg 145 again.

Please continue to refer to Fig. 7 to Fig. 9, the first dust arrester 120 also can comprise the 3rd Xelminator 134.3rd Xelminator 134 is arranged at the side of cover body 140.More specifically, the 3rd Xelminator 134 is arranged at the side of outer cover 142 away from inner cover 141, and the 3rd Xelminator 134 overlaps at least partly in the first guiding orthographic projection of platform 100 and the first guide member 104.That is, treat that dedusting assembly 20 is before entering the first dust arrester 120 or after leaving the first dust arrester 120, will certainly pass through between the 3rd Xelminator 134 and the first guide member 104.For the embodiment of Fig. 7, treat that dedusting assembly 20 can pass through before entering the first dust arrester 120 under the 3rd Xelminator 134, make to treat that dedusting assembly 20 can enter in the first dust arrester 120 when removing electrostatic, in order to avoid treat Electrostatic Absorption dust on dedusting assembly 20 and affect dust removing effects.

Please continue to refer to Fig. 7 to Fig. 9, the first dust arrester 120 also can comprise the 4th Xelminator 136.4th Xelminator 136 is arranged at the relative both sides of outer cover 142 respectively with the 3rd Xelminator 134, and the 4th Xelminator 136 overlaps at least partly in the first guiding orthographic projection of platform 100 and the first guide member 104.More specifically, 4th Xelminator 136 is arranged at the side of outer cover 142 away from inner cover 141, and treat that dedusting assembly 20 can pass through after leaving the first dust arrester 120 under the 4th Xelminator 136, make to treat that dedusting assembly 20 further can eliminate electrostatic again after removal dust, in case treat that dedusting assembly 20 is stained with again glutinous dust after leaving the first dust arrester 120.

Second dust arrester 220 is similar to the first dust arrester 120, also can include the part such as Xelminator, rotary air blowing part, just not repeat at this.Will be appreciated that, the Xelminator of the second dust arrester 220 can be identical with the first dust arrester 120 with the number of rotary air blowing part, also can be different from the first dust arrester 120, the Xelminator in right second dust arrester 220 and the effect of rotary air blowing part then similar with the first dust arrester 120.

Figure 10 is the stereogram of the switching mechanism 300 of the application one embodiment.Cleaner 10 also comprises switching mechanism 300.Switching mechanism 300 overturns in order to will treat dedusting assembly 20 and moves to the second guiding platform 200 from the first guiding platform 100.Please also refer to Fig. 7 and Figure 10, switching mechanism 300 is arranged at the first guiding platform 100 and second and guides platform 200 side, and switching mechanism 300 is provided with holder 310.Holder 310 can be guided between platform 200 at the first guiding platform 100 and second and be moved back and forth.

More specifically, holder 310 clamps after dedusting assembly 20 from the first guiding platform 100, and holder 310 can rotation one predetermined angle theta also move toward the direction of the second guiding platform 200.In the present embodiment, holder 310 is indirectly clamped by clamping load plate 30 and treats dedusting assembly 20.In other embodiments, if treat that dedusting assembly 20 is not carried on load plate 30, holder 310 also directly may be seized on both sides by the arms and be treated dedusting assembly 20.

Please refer to Figure 10, switching mechanism 300 also can comprise guide rail 320, stepper motor 350 and revolving cylinder 330.Holder 310 can be articulated on revolving cylinder 330, revolving cylinder 330 is slidably disposed on guide rail 320, and driving revolving cylinder 330 to move on guide rail 320 by stepper motor 350, revolving cylinder 330 rotates relative to revolving cylinder 330 in order to drive holder 310.Specifically, the holder 310 of present embodiment can be jaw, after holder 310 clamps load plate 30 from the first guiding platform 100, rotatable predetermined angle theta (being such as 180 degree) also moves to the position of the second guiding platform 200, then be positioned on the second guide member 204 by the load plate 30 turning over turnback.Then, load plate 30 can be sent into the second dust arrester 220 by the second guide member 204, and the another side making the second dust arrester 220 can treat dedusting assembly 20 carries out the operation of dedusting.

Figure 11 is the enlarged drawing that platform coupling part guided by first dust arrester and first of the application one embodiment.Please refer to Fig. 7 and Figure 11, in some embodiments, the first dust arrester 120 also can comprise the first articulated section 125.First articulated section 125 connects cover body 140 and first and guides platform 100.Cover body 140 can guide platform 100 folding for axle center rotates with relative first in the first articulated section 125.Thus, when the relative first guiding platform 100 of cover body 140 is opened, the person of being easy to use carries out cleaning or keeping in repair to the first dust arrester 120.Similarly, the second dust arrester 220 is also arranged on the second guiding platform 200 by the mode of pivot joint, carries out cleaning or keeping in repair to the second dust arrester 220 with person easy to use.

Though introduce first, second dust arrester 120,120 and first, second guiding platform 100,200 in the cleaner 10 of above-mentioned embodiment.But it is to be understood that in other embodiment of the application, cleaner 10 only can have a dust arrester, in this case, certain one side that cleaner 10 only can treat dedusting assembly 20 carries out dedusting operation, but the application is not as limit.In yet, cleaner 10 only can have a dust arrester, described cleaner first will be sent into after dust arrester dedusting until dedusting assembly 20 by a first direction, overturn by switching mechanism and put back to guiding platform originally again, oppositely enter dust arrester by the second direction contrary with first direction again, also can reach the effect of two-sided dedusting.

In another change mode, cleaner 10 can have guiding platform and the dust arrester of more than three, and in this case, cleaner 10 may can treat the dedusting that dedusting assembly 20 carries out multiple orientation.The common practise person of this area should be appreciated that, above-mentioned dust arrester with guiding platform number and be not used to limit the application.

In addition, in above-mentioned dust arrester, be provided with three rotary air blowing parts 121,122,123, but it is to be understood that above-mentioned rotary air blowing part 121,122,123 number and be not used to limit the application.In other real modes, dust arrester only can have one, two or more than three rotary air blowing parts, and the number of rotary air blowing part can adjust according to actual user demand and configure.

Be only the embodiment of the application described in upper, be not limited to the application.To those skilled in the art, the application can have various modifications and variations.Any amendment done in all spirit in the application and principle, equivalent replacement, improvement etc., within the right that all should be included in the application.

Claims (6)

1. a Rotary dust collecting assembly, is characterized in that, comprising:

Multiple rotary air blowing part, along a dedusting direction arrangement;

First Xelminator, is arranged at the side of multiple rotary air blowing part;

Cover body, covers described first Xelminator and the rotary air blowing part of described many Ge; And

Actuator, is arranged at described cover body, and described actuator rotates for driving described multiple rotary air blowing part.

2. Rotary dust collecting assembly according to claim 1, it is characterized in that, wherein said cover body also comprises inner cover and outer cover, described multiple rotary air blowing part can comprise rotating shaft and nozzle respectively, described rotating shaft is rotatably arranged between inner cover and outer cover, and described nozzle is arranged at one end of described rotating shaft and is covered by described inner cover.

3. Rotary dust collecting assembly according to claim 2, is characterized in that, also comprises the second Xelminator, and described first Xelminator and described second Xelminator lay respectively at the relative both sides of described multiple rotary air blowing part.

4. Rotary dust collecting assembly according to claim 3, is characterized in that, also comprises the 3rd Xelminator, and described 3rd Xelminator is arranged at the side of described outer cover away from described inner cover.

5. Rotary dust collecting assembly according to claim 4, is characterized in that, also comprises the 4th Xelminator, and described 4th Xelminator is arranged at the relative both sides of described outer cover respectively with described 3rd Xelminator.

6. Rotary dust collecting assembly according to claim 2, is characterized in that, the side of wherein said inner cover then has multiple through hole running through described interior cover body.