CN108820805A - A kind of sponge vibrating disk - Google Patents
A kind of sponge vibrating disk Download PDFInfo
- Publication number
- CN108820805A CN108820805A CN201810806686.1A CN201810806686A CN108820805A CN 108820805 A CN108820805 A CN 108820805A CN 201810806686 A CN201810806686 A CN 201810806686A CN 108820805 A CN108820805 A CN 108820805A
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- Prior art keywords
- helical orbit
- sponge
- spiral
- regulating platform
- vibrating disk
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- 230000007246 mechanism Effects 0.000 claims abstract description 78
- 230000005540 biological transmission Effects 0.000 claims abstract description 15
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims abstract description 11
- 230000001105 regulatory effect Effects 0.000 claims description 80
- 230000007306 turnover Effects 0.000 claims description 13
- 238000012216 screening Methods 0.000 abstract description 17
- 230000008929 regeneration Effects 0.000 abstract description 2
- 238000011069 regeneration method Methods 0.000 abstract description 2
- 241000243142 Porifera Species 0.000 description 230
- 238000000034 method Methods 0.000 description 9
- 230000005484 gravity Effects 0.000 description 8
- 230000008569 process Effects 0.000 description 8
- 230000006872 improvement Effects 0.000 description 7
- 230000033001 locomotion Effects 0.000 description 6
- 239000000976 ink Substances 0.000 description 5
- 241000628997 Flos Species 0.000 description 4
- 238000005452 bending Methods 0.000 description 4
- 230000015572 biosynthetic process Effects 0.000 description 4
- 238000010586 diagram Methods 0.000 description 3
- 230000008901 benefit Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000006641 stabilisation Effects 0.000 description 2
- 238000011105 stabilization Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 238000003754 machining Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000007639 printing Methods 0.000 description 1
- 238000003672 processing method Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/22—Devices influencing the relative position or the attitude of articles during transit by conveyors
- B65G47/24—Devices influencing the relative position or the attitude of articles during transit by conveyors orientating the articles
- B65G47/256—Devices influencing the relative position or the attitude of articles during transit by conveyors orientating the articles removing incorrectly orientated articles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G27/00—Jigging conveyors
- B65G27/02—Jigging conveyors comprising helical or spiral channels or conduits for elevation of materials
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Vibration Prevention Devices (AREA)
- Feeding Of Articles To Conveyors (AREA)
Abstract
The invention discloses a kind of sponge vibrating disk, the accessory for being related to ink horn of regeneration promotes field.Including pedestal, pedestal is equipped with main body, offers helicla flute in main body, main body and helicla flute form spiralling helical orbit, and the transmission rail for exporting sponge, the entrance of transmission rail and the outlet of helical orbit are additionally provided in main body;Helical orbit is inside close to the side of its axis, and the side far from its axis is outside;The first height limit mechanism, width selection structure and the second height limit mechanism are additionally provided on helical orbit;First height limit mechanism includes gag lever post;Width selection mechanism includes the selection slot opened up on spiral tracks;Second height limit mechanism includes the postive stop baffle being arranged on helical orbit side wall.The sponge essentially identical for general shape, the present invention can be realized the screening of sponge specific modality, and sponge is exported, and increase the scope of application of sponge vibrating disk.
Description
Technical field
The present invention relates to the accessories of ink horn of regeneration to promote field, espespecially a kind of sponge vibrating disk.
Background technique
Modern print cartridge generally refers to be used to store marking ink in ink-jet printer, and is finally completed the component of printing.
Print cartridge in use, in order to avoid the prepared Chinese ink in print cartridge becomes thick, even kills, existing print cartridge generate it is processed
Cheng Zhong needs to inject sponge, to solve the problems, such as existing prepared Chinese ink.
Currently, the processes such as the processing of print cartridge, refilling and the residual ink of suction are all made of the processing method of automation, therefore, sponge
Loading preferably also automation be packed into mode;But it before sponge is automated loading print cartridge, needs to convey by material
Sponge is inputted automation equipment by mechanism, i.e. vibrating disk in a particular manner, to be that automation equipment can be in a fixed form
It is packed into print cartridge.
And for the sponge of specific shape, need to carry out sponge output using different vibrating disks, to control vibrating disk energy
Enough to export sponge in a particular manner, therefore, existing vibrating disk range of choice is smaller, smaller scope of application.
Summary of the invention
The object of the present invention is to provide a kind of sponge vibrating disk, the sponge essentially identical for general shape, the present invention is equal
It can be realized the screening of sponge specific modality, and sponge exported, increase the scope of application of sponge vibrating disk.
Technical solution provided by the invention is as follows:
A kind of sponge vibrating disk, including pedestal, the pedestal are equipped with main body, offer helicla flute in the main body, institute
It states main body and the helicla flute forms spiralling helical orbit, the transmission rail for exporting sponge is additionally provided in the main body
Road, the outlet of the entrance of the transmission rail and the helical orbit;The helical orbit is close to the side of its axis
Inside, the side far from its axis are outside;The first height limit mechanism, width selection structure are additionally provided on the helical orbit
With the second height limit mechanism;First height limit mechanism includes gag lever post, and the gag lever post is along the helical orbit
The hand of spiral is arranged on the side wall of the helical orbit, and the side wall of the helical orbit is arranged in the lower end of the gag lever post
On, the distance between the gag lever post and the helical orbit are in the first altitude range;The gag lever post and the spiral track
The distance between the side wall in road, the hand of spiral along the helical orbit are gradually increased;The width selection mechanism includes opening up
Selection slot on the helical orbit, the selection slot are provided with the inner side edge edge of the helical orbit, and the selection slot
Minimum range between the side wall of the helical orbit is in the first width range;Second height limit mechanism includes setting
The postive stop baffle on the helical orbit side wall is set, the distance between the postive stop baffle and the helical orbit are high second
It spends in range;One end of the postive stop baffle is arranged on the side wall of the helical orbit, the other end of the postive stop baffle to
Axis direction close to the helical orbit extends.
In the present embodiment, the first height limit mechanism can screen sponge with the second height limit mechanism, only make
The sponge that height meets the first altitude range and the second altitude range simultaneously is obtained, the first height limit mechanism and second can be passed through
Height limit mechanism realizes the height limit of sponge;Width selection mechanism can further limit the width of sponge
System, and the sponge that width is met the requirements is by width selection mechanism, it is only special by the continuous setting of above three mechanism
Above three mechanism can be passed through simultaneously by determining the sponge under state, and sponge vibrating disk realizes the screening of sponge specific modality, because
This, essentially identical for sponge general shape, sponge vibrating disk can be realized the screening of sponge specific modality, and will be above-mentioned
The sponge of form is exported, and the scope of application of sponge vibrating disk is increased.
Further, second altitude range is less than first altitude range;Second height limit mechanism is along institute
The hand of spiral for stating helical orbit is arranged between the outlet of the helical orbit and first height limit mechanism.
In the present embodiment, since the second altitude range is less than the first altitude range, the second height limit mechanism is
Sponge after the screening of one height limit mechanism, it is further to screen, therefore, the second height limit mechanism is positioned close to export
Side, Liang Ge height limit mechanism is acted on simultaneously.
Further, overturning structure is additionally provided on the helical orbit;The overturning structure includes being provided with the spiral track
Turning groove on road, the width of the turning groove is in the second width range;The turnover mechanism further includes outer regulating platform, described
The outside of the turning groove is arranged in outer regulating platform, and the height of the outer regulating platform increases along the hand of spiral of the helical orbit
Add;Along the hand of spiral of the helical orbit, the length of the outer regulating platform is greater than the length of the turning groove.
In the present embodiment, by the setting of the second width range, the further screening of sponge on helical orbit is realized, is selected
The sponge for meeting the second width range or being unsatisfactory for the second width range is taken out, therefore, for meeting the requirement of the second width range
Sponge can partially fall in turning groove, and sponge two sides can be connected to the edge of turning groove side respectively, and
On edge outside the turning groove other side on regulating platform, when above-mentioned sponge leaves turning groove and outer regulating platform, sponge can be completed
Overturning;And turning groove can be crossed for the sponge for being unsatisfactory for the second width range, and continue in spiral along helical orbit
It rises, and without overturning, the spiralling sponge of same widths on spiral tracks can finally be transmitted by overturning structure.
Further, the turnover mechanism further includes interior regulating platform, and the inside of the turning groove is arranged in the interior regulating platform,
And the interior regulating platform is highly continuously increased along the hand of spiral of the helical orbit;Along the hand of spiral of the helical orbit,
The length of the interior regulating platform is greater than the length of the turning groove.
In the present embodiment, when meeting the sponge of the second width range after the flop, and when will leave turnover mechanism, sea
Continuous side can be connected to the edge of interior regulating platform, and the other side can be connected to the edge of outer regulating platform, therefore inclined sea
Continuous lower side edge can be located at the surface of turning groove, and the turning groove being detached from, and reduce sponge from turnover mechanism and return to spiral shell
When revolving on track, the possibility of sponge and helical orbit interference enables helical orbit to stablize transmission sponge.
Further, the inner side edge edge of the outer regulating platform upper end, the outer side edges with the interior regulating platform upper end are between
Distance, the spacing is within the scope of first distance.
In the present embodiment, due to the one side on the upside of the sponge of overturning, it is connected to the inner side edge edge of outer regulating platform upper end, sponge
The another side of upside is connected to the outer side edges edge of interior regulating platform upper end, by the setting of first distance range, enables sponge
Stabilization is connected on interior regulating platform and outer regulating platform, reduces the possibility that sponge falls, and overturning structure is enabled to stablize overturning sea
Silk floss increases the reliability of overturning structure overturning sponge.
Further, along the hand of spiral of the helical orbit, the length of the interior regulating platform is greater than the outer regulating platform
Length.
In the present embodiment, the further extension of interior regulating platform enables sponge to carry out to the outside of helical orbit micro-
It adjusts, realizes further adjustment of the interior regulating platform to the position of sponge;And interior regulating platform also can further limit sponge, subtract
Small sponge falls the possibility in main center during spiral, realizes helical orbit and transmits to stablizing for sponge.
Further, along the plane of the axis of the excessively described helical orbit, the height of the interior regulating platform is less than the transferring
Save the height of platform.
In the present embodiment, when the height of interior regulating platform is less than the height of outer regulating platform, the center of gravity of inclined sponge is close
The side of interior regulating platform, therefore, for sponge when leaving interior regulating platform and outer regulating platform, sponge completes it by the position of its center of gravity
Overturning reduces the possibility of the overturning failure of overturning structure, increases the reliability of overturning structure overturning.
Further, the postive stop baffle is close to one end of the axis of the helical orbit, with the helical orbit axis it
Between distance be less than second distance.
In the present embodiment, it is unsatisfactory for the second altitude range sponge, can continue to move along the extending direction of postive stop baffle;
The setting of second distance enables above-mentioned sponge steadily to fall in main body or on helical orbit, and enables sponge
Its form is readjusted, is again introduced into helical orbit.
Further, the gag lever post is set as several, and the gag lever post is set along the hand of spiral of the helical orbit
It sets on the side wall of the helical orbit.
In the present embodiment, by the setting of multiple gag lever posts, the multiple preliminary limit of the short transverse of sponge is realized, is subtracted
There are the possibility of the sponge of standing for small helical orbit.
Further, the gag lever post is close to one end of the axis of the helical orbit, with the side wall of the helical orbit it
Between distance be greater than third distance.
In the present embodiment, by the setting of second distance, enable the sponge for being unsatisfactory for the first altitude range along limit
The extending direction of position baffle continues to move, and steadily falls in main body or on helical orbit, and enable sponge again
Its form is adjusted, is again introduced into helical orbit.
Compared with prior art, a kind of sponge vibrating disk provided by the invention has the advantages that:
1, essentially identical for sponge general shape, sponge vibrating disk can be realized the screening of sponge specific modality,
And export the sponge of above-mentioned form, increase the scope of application of sponge vibrating disk.
2, by the setting of the second width range, the further screening of sponge on helical orbit is realized, satisfaction is selected
Therefore second width range or the sponge for being unsatisfactory for the second width range are for meeting the sponge that the second width range requires
Can partially fall in turning groove, and sponge two sides can be connected to respectively turning groove side edge and turning groove it is another
On edge outside side on regulating platform, when above-mentioned sponge leaves turning groove and outer regulating platform, the overturning of sponge can be completed.
3, it is unsatisfactory for the second altitude range sponge, can continue to move along the extending direction of postive stop baffle;Second distance
Setting, above-mentioned sponge is steadily fallen in main body or on helical orbit, and sponge is readjusted
Its form, is again introduced into helical orbit.
4, by the setting of multiple gag lever posts, the multiple preliminary limit of the short transverse of sponge is realized, spiral is reduced
There are the possibility of the sponge of standing for track.
Detailed description of the invention
Below by clearly understandable mode, preferred embodiment is described with reference to the drawings, to a kind of the upper of sponge vibrating disk
Characteristic, technical characteristic, advantage and its implementation is stated to be further described.
Fig. 1 is a kind of structural schematic diagram of sponge vibrating disk of the present invention;
Fig. 2 is the structural schematic diagram of the applicable sponge of the present invention;
Fig. 3 is the structural schematic diagram of another sponge vibrating disk of the invention;
Fig. 4 is enlarged drawing at the A of Fig. 3.
Drawing reference numeral explanation:10. pedestal, 11. support legs, 12. transmission rails, 13. sponges, 20. main bodys, 21. helicla flutes,
22. helical orbit, 30. gag lever posts, 40. selection slots, 41. deflectors, 50. postive stop baffles, 60. turnover mechanisms, 61. turning grooves,
62. outer regulating platform, regulating platform in 63.
Specific embodiment
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, Detailed description of the invention will be compareed below
A specific embodiment of the invention.It should be evident that drawings in the following description are only some embodiments of the invention, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing, and obtain other embodiments.
To make simplified form, part related to the present invention is only schematically shown in each figure, they are not represented
Its practical structures as product.In addition, there is identical structure or function in some figures so that simplified form is easy to understand
Component only symbolically depicts one of those, or has only marked one of those.Herein, "one" is not only indicated
" only this ", can also indicate the situation of " more than one ".
A kind of embodiment provided according to the present invention, as depicted in figs. 1 and 2, a kind of sponge vibrating disk, including pedestal 10,
The downside of pedestal 10 is set there are three support leg 11, and three support legs 11 are evenly distributed in the downside of pedestal 10.
Pedestal 10 is equipped with main body 20, and helicla flute 21 is offered in main body 20, and main body 20 and helicla flute 21 are formed in spiral
The helical orbit 22 risen, the lower end of main body 20 be it is round table-like, upper end be it is cylindric, on the downside of the rotary table of 20 lower end of main body radius compared with
Small, upside radius is larger, and identical as 20 radius of main body of 20 upper end of main body.
Helicla flute 21 is equipped in main body 20, main body 20 and helicla flute 21 are capable of forming helical orbit 22 and its side wall, spiral
Sponge 13 in track 22 can rise along its track spiral, and in the present embodiment, the downside radius of helical orbit 22 is smaller, on
Side radius is larger.Therefore, one end close to its axis of helical orbit 22 is inside, and one end far from its axis is outside.And
The lower end of helical orbit 22 is entrance, and upper end is outlet.
The upper end of main body 20 is additionally provided with transmission rail 12, the entrance of transmission rail 12 and the outlet of helical orbit 22,
Sponge 13 can enter transmission rail 12 from the outlet of helical orbit 22, then export sponge 13 from the outlet of transmission rail 12.
The first height limit mechanism, width selection structure and the second height limit mechanism are additionally provided on helical orbit 22.
First height limit mechanism includes gag lever post 30, and gag lever post 30 is arranged along the hand of spiral of helical orbit 22 in spiral
On the side wall of track 22, i.e. the lower end of gag lever post 30 is arranged on the side wall of helical orbit 22, and the upper end of gag lever post 30 being capable of edge
The sidewall direction of helical orbit 22 continue to extend.
Sponge vibrating disk in the present embodiment is mainly used for exporting the sponge 13 of approximate rectangular-shape in the form of specific,
And assume a length of a of the sponge 13 of rectangular-shape, width b, a height of c, and c > a > b, in the present embodiment, the shape of sponge 13
Shape substantially rectangular-shape, but there may be the features such as chamfering, groove on its surface, and do not influence resemblance.
The distance between gag lever post 30 and helical orbit 22 are in the first altitude range;First altitude range be greater than a but
Altitude range less than c, therefore, for sponge 13 of the standing on helical orbit 22, i.e., the long plane ab with wide formation
When being connected on helical orbit 22, the height of sponge 13 is c, and this is highly greater than the first altitude range, therefore, 30 energy of gag lever post
It is enough to select the sponge 13 of standing to come.
The distance between the side wall of gag lever post 30 and helical orbit 22, the hand of spiral along the helical orbit 22 gradually increase
Greatly;I.e. for gag lever post 30 in the side wall extending direction extension along helical orbit 22, the distance between gag lever post 30 and side wall be not
It is disconnected to increase.
Therefore, the sponge 13 of the standing selected can abut always on gag lever post 30, and along the axis of gag lever post 30
Direction movement, falls on the center or helical orbit 22 of main body 20, and sponge 13 is enabled to readjust its form, again
Into in helical orbit 22.And for the sponge of non-vertical standing 13, sponge 13 can be connected to the side of helical orbit 22 always
On wall, and along 22 spiral of helical orbit, therefore, the first height limit mechanism is able to achieve sponge under standing state
13 screening.
Width selection mechanism includes the selection slot 40 being arranged on helical orbit 22, and slot 40 is selected to be provided with helical orbit 22
Inside, and select the minimum range between slot 40 and the side wall of helical orbit 22 in the first width range.First width model
It encloses for the width range less than c/2, for the horizontal sponge 13 being disposed across on helical orbit 22, i.e., the high plane ac with long formation
It is connected on helical orbit 22, or the high plane ab with wide formation is connected on helical orbit 22, and above two sponge 13 exists
Width on helical orbit 22 is c.
When above-mentioned sponge 13 moves to selection slot 40, the center of gravity of sponge 13 is fallen on selection slot 40, therefore, 13 energy of sponge
Enough falling along selection slot 40, and fall on helical orbit 22 or the center of main body 20, and sponge 13 is adjusted again
Its whole form, is again introduced into helical orbit 22.And the sponge 13 for being lain on helical orbit 22 vertically, i.e., long and wide shape
At plane ab be connected on helical orbit 22, the width of sponge 13 is at most a, by selection slot 40 position when, sponge
13 center of gravity is still fallen on the helical orbit 22 in 40 outside of selection slot, and sponge 13 still is able to along 22 spiral of helical orbit
Upside then realizes the screening of the sponge 13 for horizontal traverse.
Preferably, the width that selection slot 40 exports side close to helical orbit 22 is larger, exports far from helical orbit 22
Side width is smaller, therefore, be unsatisfactory for require sponge 13 can by selection slot 40 position when, above-mentioned sponge 13
Center of gravity can be entered gradually in selection slot 40, also reduced the possibility that the sponge 13 met the requirements falls, increased sponge
The stability of 13 transmission.It is further preferred that the edge on the downside of selection slot is additionally provided with deflector 41, for sponge to be guided to spiral shell
On the rotation track 22 or center of main body 20, and sponge 13 is enabled to readjust its form, it is again introduced into helical orbit 22
In.
Second height limit mechanism includes the postive stop baffle 50 being arranged on 22 side wall of helical orbit, postive stop baffle 50 and spiral shell
The distance between track 22 is revolved in the second altitude range;Second altitude range is the altitude range greater than b, less than a;Limiting block
One end of plate 50 is arranged on the side wall of helical orbit 22, and the other end of postive stop baffle 50 is to the axis close to the helical orbit 22
Line direction extends.
Therefore, for it is long be formed by plane ac with height and be connected on helical orbit 22 when, the height of sponge 13 is b and small
In the second altitude range, therefore, sponge 13 can pass through postive stop baffle 50 and enter in transmission rail 12, and be formed for wide with high
Side when being connected on helical orbit 22, the height of sponge 13 is a and is greater than the second altitude range, and therefore, sponge 13 is difficult to
It across postive stop baffle 50, and along postive stop baffle 50, falls on the center or helical orbit 22 of main body 20, and enables sponge 13
Its form is enough readjusted, is again introduced into helical orbit 22.
In the present embodiment, the first height limit mechanism can screen sponge 13 with the second height limit mechanism, only
So that height meets the sponge 13 of the first altitude range and the second altitude range simultaneously, can by the first height limit mechanism and
Second height limit mechanism, realizes the height limit of sponge 13.By the sponge 13 that height limit twice is enough, there is only one
Freedom degree on direction, i.e., along the vertical direction on rotation freedom degree.
Width selection mechanism being capable of the sea that limits, and width is met the requirements of the width further to sponge 13
Silk floss 13 passes through width selection mechanism.By the continuous setting of above three mechanism, the sponge 13 only under particular state can be same
When pass through above three mechanism, 13 vibrating disk of sponge realizes the screening of 13 specific modality of sponge, therefore, substantially for sponge 13
Shape is essentially identical, and 13 vibrating disk of sponge can be realized the screening of 13 specific modality of sponge, and by the sponge of above-mentioned form
13 are exported, and the scope of application of 13 vibrating disk of sponge is increased.
And in the present embodiment, position of the above three mechanism on helical orbit 22 can arbitrarily be exchanged, and first is high
Degree range and the numerical value of the second altitude range also can be exchanged mutually.Preferably, the second altitude range is less than the first altitude range;
Second height limit mechanism is arranged between the outlet of helical orbit 22 and first height limit mechanism.Preferably, first
Height limit mechanism and any setting of the width selection mechanism on helical orbit 22, the second height limit mechanism are preferably set up
In the outlet port of helical orbit 22.
Being used due to the second height limit mechanism is postive stop baffle 50, and in vibrating disk motion process, sponge 13 is difficult to get over
Postive stop baffle 50 is crossed, therefore using the second height limit mechanism as further height limit;Since the second altitude range is less than
First altitude range, therefore, the second height limit mechanism are the sponges 13 after the screening of the first height limit mechanism, further to sieve
Therefore second height limit mechanism is positioned close to the side of outlet, Liang Ge height limit mechanism is made simultaneously by choosing
With.
For the improvement of above-described embodiment, in the present embodiment, axis of the postive stop baffle 50 close to the helical orbit 22
One end, the distance between described 22 axis of helical orbit are less than second distance;I.e. postive stop baffle 50 is far from helical orbit 22
One end extends to the axis of helical orbit 22, and is located at the inside of helical orbit 22.
It is unsatisfactory for the sponge 13 of the range of the second height, can continue to move along the extending direction of postive stop baffle 50;The
The setting of two distances enables above-mentioned sponge 13 steadily to fall in main body 20 or on helical orbit 22, and makes sponge
13 can readjust its form, be again introduced into helical orbit 22.
For the improvement of above-described embodiment, in the present embodiment, gag lever post 30 is set as several, and gag lever post 30 is along spiral
The hand of spiral of track 22 is arranged on the side wall of the helical orbit 22.I.e. the lower end of gag lever post 30 is arranged in helical orbit 22
Side wall on, the hand of spiral of the upper end edge helical orbit 22 of gag lever post 30 extends.It is real by the setting of multiple gag lever posts 30
The multiple preliminary limit for having showed the short transverse of sponge 13, reduce helical orbit 22 there are the sponge 13 of standing can
Energy.
For the improvement of above-described embodiment, in the present embodiment, gag lever post 30 close to one end of the axis of helical orbit 22, with
The distance between side wall of helical orbit 22 is greater than third distance;I.e. the upper end of gag lever post 30 can line far from helical orbit 22
Side extend, and extend to the inside of helical orbit 22.
By the setting of second distance, enable the sponge 13 for being unsatisfactory for the first altitude range along postive stop baffle 50
Extending direction continues to move, and steadily falls in main body 20 or on helical orbit 22, and sponge 13 is adjusted again
Its whole form, is again introduced into helical orbit 22.
In the present embodiment, the axis of gag lever post 30 is arc-shaped, and the bending direction of gag lever post 30 and helical orbit 22
The bending direction of side wall is identical, reduces sponge 13 of the standing on helical orbit 22, the mistake moved along gag lever post 30
Cheng Zhong, the possibility of 13 velocity jump of sponge reduce the possibility that sponge 13 beats on helical orbit 22, reduce spiral track
Influence of the sponge 13 of standing to remaining sponge 13 on road 22 increases the stability in 13 motion process of sponge, realizes
Helical orbit 22 can steadily transmit sponge 13.
The lower end of gag lever post 30 is fixedly connected on the side wall of helical orbit 22, during gag lever post 30 upwardly extends,
The distance between gag lever post 30 and the side wall of helical orbit 22 are gradually increased, and between gag lever post 30 and helical orbit 22 away from
From being also gradually increased;When the distance between gag lever post 30 and helical orbit 22 for increasing, reduces sponge 13 and vibrated in downside
In the process, the possibility being connected on gag lever post 30 reduces gag lever post 30 to the influence during 13 screw of sponge, increases
Stability in sponge 13 motion process.
Preferably, at least there is the surface that selection slot 40 is arranged in a gag lever post 30, realize on helical orbit 22
The height limit of sponge 13 carries out while limit with width, increases the efficiency that sponge 13 is screened on helical orbit 22.
Preferably, postive stop baffle 50 is the baffle of arc-shaped, and the bending direction of postive stop baffle 50 and helical orbit 22
The bending direction of side wall is identical.It reduces sponge 13 to be connected on postive stop baffle 50, and along the motion process of postive stop baffle 50
In, the possibility of velocity jump increases the stability of sponge 13.
Another embodiment provided according to the present invention, as shown in Figures 2 to 4, a kind of sponge vibrating disk, the present embodiment with
The difference of the first embodiment is to overturn the addition of structure.
Turnover mechanism 60 is additionally provided on helical orbit 22, the setting of turnover mechanism 60 is high in the first height limit mechanism and second
It spends between position-limit mechanism.Overturning structure includes the turning groove 61 being provided on helical orbit 22, and the width of turning groove 61 is second
In width range.
Turnover mechanism 60 further includes outer regulating platform 62, and the outside of turning groove 61, outer regulating platform 62 is arranged in outer regulating platform 62
Height along helical orbit 22 the hand of spiral increase.Along the hand of spiral of the helical orbit 22, the outer regulating platform 62
Length is greater than the length of the turning groove 61.
Turning groove 61 is provided with the middle part of helical orbit 22, and inside and outside turning groove 61 and inside and outside helical orbit 22
There is certain spacing in two sides, the spacing between the inside of turning groove 61 and the outside of helical orbit 22 is less than a, but is greater than b,
Using above-mentioned width range as the second width range.
The outside of turning groove 61, and the side that outer regulating platform 62 is exported far from helical orbit 22 is arranged in outer regulating platform 62
It is concordant with the side that turning groove 61 is exported far from helical orbit 22, and the outer regulating platform 62 of the side and helical orbit 22 are highly flat
Together;And along the hand of spiral of helical orbit 22, the height of outer regulating platform 62 is gradually increased.
The setting of second width range realizes the further screening of sponge 13 on helical orbit 22, selects satisfaction
Two width ranges or the sponge 13 for being unsatisfactory for the second width range, therefore, the sponge 13 required for meeting the second width range
It can partially fall in turning groove 61, and 13 two sides of sponge can be connected to the edge of 61 side of turning groove respectively, and
On edge outside 61 other side of turning groove on regulating platform 62, when above-mentioned sponge 13 leaves turning groove 61 and outer regulating platform 62, i.e.,
The overturning of achievable sponge 13;And turning groove 61 can be crossed for the sponge 13 for being unsatisfactory for the second width range, and along spiral shell
It revolves track 22 and continues spiral, and without overturning, the same widths on helical orbit 22 can finally be transmitted by overturning structure
Spiralling sponge 13.
Turnover mechanism 60 further includes interior regulating platform 63, and the inside of turning groove 61, and interior regulating platform is arranged in interior regulating platform 63
63 sides far from the outlet of helical orbit 22 are concordant with the side that turning groove 61 is exported far from helical orbit 22, and the interior tune of the side
It is concordant with 22 height of helical orbit to save platform 63;And along the hand of spiral of helical orbit 22, the height of interior regulating platform 63 gradually increases
Greatly.And along the hand of spiral of helical orbit 22, the length of interior regulating platform 63 is greater than the length of the turning groove 61.
When meeting the sponge 13 of the second width range after the flop, and when will leave turnover mechanism 60, sponge 13
Side can be connected to the edge of interior regulating platform 63, and the other side can be connected to the edge of outer regulating platform 62, therefore inclined sea
The lower side edge of silk floss 13 can be located at the surface of turning groove 61, and the turning groove 61 being detached from, and reduce sponge 13 from tipper
When structure 60 is returned on helical orbit 22, the possibility of sponge 13 and the interference of helical orbit 22 enables helical orbit 22 to stablize biography
Defeated sponge 13.
For the improvement of above-described embodiment, in the present embodiment, the inner side edge edge of outer 62 upper end of regulating platform, with interior regulating platform 63
The distance between outer side edges edge of upper end, the spacing is within the scope of first distance;First distance overturning for less than.
Due to the one side of 13 upside of sponge of overturning, it is connected to the inner side edge edge of outer 62 upper end of regulating platform, 13 upside of sponge
Another side be connected to the outer side edges edge of interior 63 upper end of regulating platform, by the setting of first distance range, enable sponge 13
Stabilization is connected on interior regulating platform 63 and outer regulating platform 62, reduces the possibility that sponge 13 falls, and overturning structure is stablized
Sponge 13 is overturn, the reliability of overturning structure overturning sponge 13 is increased.
For the improvement of above-described embodiment, in the present embodiment, along the hand of spiral of helical orbit 22, the length of interior regulating platform 63
Degree is greater than the length of outer regulating platform 62.
The further extension of interior regulating platform 63, enables sponge 13 to be finely adjusted to the outside of helical orbit 22, real
Further adjustment of the interior regulating platform 63 to the position of sponge 13 is showed;And interior regulating platform 63 also can further limit sponge 13
Position, reduces sponge 13 during spiral, falls the possibility at 20 center of main body, realize helical orbit 22 to sponge
13 stablize is transmitted.
For the improvement of above-described embodiment, in the present embodiment, along the plane of axis for crossing helical orbit 22, interior regulating platform
63 height is less than the height of outer regulating platform 62.
When the height of interior regulating platform 63 is less than the height of outer regulating platform 62, the center of gravity of inclined sponge 13 is close to interior adjusting
The side of platform 63, the i.e. center of gravity of sponge 13 can be fallen on plane ac, and therefore, sponge 13 is leaving interior regulating platform 63 and is being transferred
When saving platform 62, sponge 13 completes its overturning by the position of its center of gravity, reduces the possibility of the overturning failure of overturning structure, increases
The reliability of overturning structure overturning.
In the use of the present invention, all sponges 13 are in the center of main body 20 under original state, after equipment starts,
Sponge 13 is connected on the side wall of helical orbit 22, and along 22 spiral of helical orbit, and first can be by two limits
Position bar 30, and for the sponge of standing 13, i.e., it is long and wide when being formed by plane and being connected on helical orbit 22, due to sea
The height of silk floss 13 is c, and greater than the first altitude range of gag lever post 30, therefore, the sponge 13 of standing can be along gag lever post
30 movements, and fall on the helical orbit 22 at center or downside in main body 20;And remaining 13 height of sponge is a or b, it is high
Degree is less than the first altitude range, therefore sponge 13 can pass through the downside of helical orbit 22.
And when the sponge 13 in helical orbit 22 is more, sponge 13 is when helical orbit 22 tightens solid matter cloth, sponge 13
It can be rotated along its lower end outside edge, become the sponge 13 under horizontality, and continue to move along helical orbit 22, and
Width of the sponge 13 on helical orbit 22 is c.
After two gag lever posts 30, there is only the sponges of horizontality 13 on sponge 13.Therefore, width position-limit mechanism
Desired sponge 13 further can be unsatisfactory for width on helical orbit 22 to limit.Height and the long plane formed when sponge 13
Ac, or the high plane bc with wide formation are connected on helical orbit 22, and sponge 13 is when the width on helical orbit 22 is c,
Greater than the first width range, therefore above-mentioned sponge 13 will fall off on the center of main body 20 or the helical orbit 22 of downside;And its
Remaining 13 width of sponge is a or b, and in the first width range, therefore, sponge 13 can steadily pass through width and select machine
Structure;And sponge 13, when moving here, sponge 13 can be screened by width selection mechanism and the first height limit mechanism simultaneously.
At this point, there is the sponge 13 for going back two states in the sponge 13 after screening, i.e., it is long to form plane ac with high and wide
The plane bc formed with height is connected on helical orbit 22, and width difference of the above two sponge 13 on helical orbit 22
For a and b.
When being connected on helical orbit 22 for wide and high formed plane bc, width of the sponge 13 on helical orbit 22
Degree is b, and sponge 13 is connected on the side wall of helical orbit 22 in vibration processes, therefore, when sponge 13 continues spiral,
Sponge 13 is respectively positioned in helical orbit 22 close to one end of 22 axis of helical orbit, and sponge 13 is able to verify that the outside of turning groove 61
Edge rotation, and the length of sponge 13 and the plane at high place is made to be connected to the inner side edge edge of turning groove 61, at this point, 13 energy of sponge
It is enough inclined to be placed on turning groove 61, and along the extending direction spiral of turning groove 61.
And when length is connected on helical orbit 22 with plane ac formed by height, width of the sponge 13 on helical orbit 22
Degree is a, can be connected to respectively on interior regulating platform 63 and outer regulating platform 62 inside and outside the long plane formed with height of sponge 13,
And when sponge 13 moves to the end of turnover mechanism 60, the outside of sponge 13 can be connected to first on helical orbit 22,
Then the inside of sponge 13 is connected on helical orbit 22;Finally realize the overturning of pars 13.
After sponge 13 moves to the second height limit mechanism, all sponges 13 met the requirements are able to enter transmission rail
In road 12.And when screening process has mistake, in the sponge 13 of the second height limit mechanism of arrival, the length of sponge 13 and high shape
At plane be not connected on helical orbit 22 or when the wide b of sponge 13 is unsatisfactory for machining accuracy, sponge 13 will be along limit
Position baffle 50 continues to fall on center or helical orbit 22 in main body 20, completes the last screening of sponge 13.
It should be noted that above-described embodiment can be freely combined as needed.The above is only of the invention preferred
Embodiment, it is noted that for those skilled in the art, in the premise for not departing from the principle of the invention
Under, several improvements and modifications can also be made, these modifications and embellishments should also be considered as the scope of protection of the present invention.
Claims (10)
1. a kind of sponge vibrating disk, which is characterized in that including pedestal, the pedestal is equipped with main body, offers in the main body
Helicla flute, the main body and the helicla flute form spiralling helical orbit, are additionally provided in the main body for exporting sea
Continuous transmission rail, the outlet of the entrance of the transmission rail and the helical orbit;
The helical orbit is inside close to the side of its axis, and the side far from its axis is outside;
The first height limit mechanism, width selection structure and the second height limit mechanism are additionally provided on the helical orbit;
First height limit mechanism includes gag lever post, and the gag lever post is arranged along the hand of spiral of the helical orbit in institute
State on the side wall of helical orbit, and the lower end of the gag lever post is arranged on the side wall of the helical orbit, the gag lever post with
The distance between described helical orbit is in the first altitude range;Between the gag lever post and the side wall of the helical orbit away from
From the hand of spiral along the helical orbit is gradually increased;
The width selection mechanism includes the selection slot being provided on the helical orbit, and the selection slot is provided with the spiral
The inner side edge edge of track, and the minimum range between the selection slot and the side wall of the helical orbit is in the first width range
It is interior;
Second height limit mechanism includes the postive stop baffle being arranged on the helical orbit side wall, the postive stop baffle with
The distance between described helical orbit is in the second altitude range;The helical orbit is arranged in one end of the postive stop baffle
On side wall, the other end of the postive stop baffle extends to the axis direction close to the helical orbit.
2. a kind of sponge vibrating disk according to claim 1, it is characterised in that:
Second altitude range is less than first altitude range;Second height limit mechanism is along the helical orbit
The hand of spiral is arranged between the outlet of the helical orbit and first height limit mechanism.
3. a kind of sponge vibrating disk according to claim 1, it is characterised in that:
Overturning structure is additionally provided on the helical orbit;
The overturning structure includes the turning groove being provided on the helical orbit, and the width of the turning groove is in the second width model
In enclosing;
The turnover mechanism further includes outer regulating platform, and the outside of the turning groove, the outer adjusting is arranged in the outer regulating platform
The height of platform increases along the hand of spiral of the helical orbit;
Along the hand of spiral of the helical orbit, the length of the outer regulating platform is greater than the length of the turning groove.
4. a kind of sponge vibrating disk according to claim 3, it is characterised in that:
The turnover mechanism further includes interior regulating platform, and the inside of the turning groove, and the interior tune is arranged in the interior regulating platform
Platform is saved along the hand of spiral of the helical orbit, is highly continuously increased;
Along the hand of spiral of the helical orbit, the length of the interior regulating platform is greater than the length of the turning groove.
5. a kind of sponge vibrating disk according to claim 4, it is characterised in that:
The inner side edge edge of the outer regulating platform upper end, the distance between outer side edges edge of the interior regulating platform upper end, the spacing
Within the scope of first distance.
6. a kind of sponge vibrating disk according to claim 4, it is characterised in that:
Along the hand of spiral of the helical orbit, the length of the interior regulating platform is greater than the length of the outer regulating platform.
7. a kind of sponge vibrating disk according to claim 4, it is characterised in that:
Along the plane of the axis of the excessively described helical orbit, the height of the interior regulating platform is less than the height of the outer regulating platform.
8. a kind of sponge vibrating disk according to claim 1, it is characterised in that:
The postive stop baffle is less than close to one end of the axis of the helical orbit, the distance between described helical orbit axis
Second distance.
9. a kind of sponge vibrating disk according to claim 1, it is characterised in that:
The gag lever post is set as several, and the gag lever post is arranged along the hand of spiral of the helical orbit in the spiral
On the side wall of track.
10. a kind of sponge vibrating disk according to claim 1, it is characterised in that:
The gag lever post is greater than close to one end of the axis of the helical orbit, the distance between side wall of the helical orbit
Third distance.
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CN201810806686.1A CN108820805B (en) | 2018-07-20 | 2018-07-20 | Sponge vibration dish |
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CN201810806686.1A CN108820805B (en) | 2018-07-20 | 2018-07-20 | Sponge vibration dish |
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CN109262090A (en) * | 2018-11-28 | 2019-01-25 | 宁波市锦泰橡塑有限公司 | A kind of buckle and its threading apparatus |
CN109317413A (en) * | 2018-11-29 | 2019-02-12 | 宁波市信泰科技有限公司 | A kind of novel magnetic metal magnetizes sorting equipment |
CN109940998A (en) * | 2019-04-29 | 2019-06-28 | 北海绩迅电子科技有限公司 | A kind of control system and method loading sponge |
CN110014666A (en) * | 2019-05-16 | 2019-07-16 | 北海绩迅电子科技有限公司 | A kind of sponge is automatically loaded system |
CN110127338A (en) * | 2019-06-14 | 2019-08-16 | 厦门兴泰克机电有限公司 | A kind of silver contact Automatic-feeding vibrating disk |
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CN110127338A (en) * | 2019-06-14 | 2019-08-16 | 厦门兴泰克机电有限公司 | A kind of silver contact Automatic-feeding vibrating disk |
CN110127338B (en) * | 2019-06-14 | 2021-08-24 | 厦门兴泰克机电有限公司 | Silver contact automatic feeding vibration dish |
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