CN105329625A - Arrangement device for real-shell fastener blanks - Google Patents
Arrangement device for real-shell fastener blanks Download PDFInfo
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- CN105329625A CN105329625A CN201410369113.9A CN201410369113A CN105329625A CN 105329625 A CN105329625 A CN 105329625A CN 201410369113 A CN201410369113 A CN 201410369113A CN 105329625 A CN105329625 A CN 105329625A
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- button blank
- shellfish button
- true shellfish
- hopper
- collating unit
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Abstract
The invention provides an arrangement device for real-shell fastener blanks. The arrangement device comprises a feeding mechanism, an intermittent pushing mechanism, a supporting plate and a material groove. The feeding mechanism comprises a vibrating disk, a flow channel which is connected with an outlet of the vibrating disk and extends from top to bottom, and a material receiving head which is opposite to an outlet of the flow channel and receives the real-shell fastener blanks. The intermittent pushing mechanism comprises a pushing shaft located on one side of the material receiving head and used for pushing out the real-shell fastener blanks in the material receiving head, and a first driving part which is connected with the pushing shaft and drives the pushing shaft to intermittently move. The supporting plate is located on the other side of the material receiving head. The material groove is formed in the supporting plate and used for receiving the real-shell fastener blanks pushed out by the pushing shaft. By means of the arrangement device for the real-shell fastener blanks, the real-shell fastener blanks can be automatically arranged, and workers needed for producing real-shell fasteners are reduced; and meanwhile, the placement efficiency of the real-shell fastener blanks is improved, and the labor intensity of fingers of the workers is reduced.
Description
Technical field
The present invention relates to true shellfish button manufacturing technology field, more particularly, relate to a kind of true shellfish button blank collating unit.
Background technology
True shellfish button is a kind of ancient button, and graceful by its texture, the photochromic advantage such as glossy is widely used.True shellfish button, in preparation process, needs to utilize mill diameter machine to carry out diameter grinding to blank, the oblique circular cylinder in blank is processed into straight cylinder, reaches the requirement of true shellfish button outside dimension.At present, give during mill diameter machine material loading and need manually true shellfish button blank to be linearly placed in V-type hopper, then grind diameter machine feeding by artificial to be given material that V-type hopper sets.
From above-mentioned true shellfish button preparation process, true shellfish button blank is put in pure craft, cause true shellfish button produce needed for staff more, make the human cost of producing needed for true shellfish button higher.
In addition, pure craft is put, cause true shellfish button blank to put efficiency lower, the finger labour intensity of staff is larger.
In sum, how putting true shellfish button blank, to reduce the human cost of producing needed for true shellfish button, is current those skilled in the art's problem demanding prompt solution.
Summary of the invention
The object of this invention is to provide a kind of true shellfish button blank collating unit, to reduce the human cost of producing needed for true shellfish button.
To achieve these goals, the invention provides following technical scheme:
A kind of true shellfish button blank collating unit, comprising:
Feed mechanism, described feed mechanism comprises: vibrating disk, exports be connected and the runner extended from top to bottom with described vibrating disk, relative with described runner exit and receive the splicing head of true shellfish button blank;
Interval propulsive mechanism, described interval propulsive mechanism comprises: be arranged in the side of described splicing head and for the cardan shaft of the described true shellfish button blank of releasing described splicing head, be connected and drive the first drive element of described cardan shaft intermittent movement with described cardan shaft;
Be positioned at the stay bearing plate of described splicing head opposite side;
Be arranged at described stay bearing plate, and for receiving the hopper of the described true shellfish button blank released by described cardan shaft.
Preferably, in above-mentioned true shellfish button blank collating unit, described first drive element is motor, and the output shaft of described motor is provided with Coupling Shaft, described Coupling Shaft is provided with the cam that interval promotes described cardan shaft.
Preferably, in above-mentioned true shellfish button blank collating unit, the end face of described cardan shaft is provided with for the bearing with described cam contact.
Preferably, in above-mentioned true shellfish button blank collating unit, described runner and described vibrating disk are connected by plastic material plate or described runner and described vibrating disk are integral type structure.
Preferably, in above-mentioned true shellfish button blank collating unit, between the outlet of described runner and described splicing head, there is gap.
Preferably, in above-mentioned true shellfish button blank collating unit, described hopper is at least two; Described true shellfish button blank collating unit also comprises translation mechanism, and described translation mechanism comprises:
Mount pad, described stay bearing plate is slidably disposed in described mount pad;
Be arranged at described mount pad, be connected with described stay bearing plate and drive described stay bearing plate along described hopper length direction away from the second drive element with close described splicing head;
Be arranged at described mount pad, be connected with described stay bearing plate and drive described stay bearing plate along described hopper Width away from the 3rd drive element with close described splicing head.
Preferably, in above-mentioned true shellfish button blank collating unit, described interval propulsive mechanism also comprises: the guide base extended along described cardan shaft moving direction, and described cardan shaft is arranged at described guide base;
Described translation mechanism also comprises: for first guide rail of described stay bearing plate along the movement of described hopper length direction; For second guide rail of described stay bearing plate along the movement of described hopper Width.
Preferably, above-mentioned true shellfish button blank collating unit, also comprises:
Detect described hopper and whether occupy described true shellfish button blank, if so, then send the sensor of detection signal;
Be connected with described sensor, described vibrating disk is controlled and described first drive element is out of service after receiving described detection signal, control described second drive element to run to make described stay bearing plate move predeterminable range to the direction away from described splicing head, control described 3rd drive element to run to make the described hopper not putting described true shellfish button blank relative with described splicing head, control described second drive element to run to make described stay bearing plate reset, control the controller of described vibrating disk and described first drive element operation.
Preferably, in above-mentioned true shellfish button blank collating unit, described sensor comprises:
Be positioned at described hopper, with magnet and can the cylinder of movement;
Be arranged at the magnetic switch of described hopper away from the first end of described splicing, when the distance of described cylinder and described magnetic switch is less than predeterminable range, described magnetic switch is connected and is sent described detection signal.
Preferably, above-mentioned true shellfish button blank collating unit, also comprise: support, described first drive element, described vibrating disk and described guide base are all installed on the top of described support, and described mount pad is fixed on the side of described support.
The working process of true shellfish button blank collating unit provided by the invention is: true shellfish button blank is put into vibrating disk, under vibrating disk effect, true shellfish button blank enters runner successively and flows to splicing head successively, simultaneously, start the first drive element, first drive element drives cardan shaft intermittent movement, true shellfish button blank in splicing head is released by cardan shaft successively, the hopper be positioned on stay bearing plate receives this true shellfish button blank, along with the intermittent movement of cardan shaft, true shellfish button blank is sequentially arranged in hopper, namely realizes arrangement.
True shellfish button blank collating unit provided by the invention, auto arrangement true shellfish button blank is achieved by feed mechanism, interval propulsive mechanism and hopper, compared with prior art adopts and manually puts, effectively reduce the staff produced needed for true shellfish button, reduce the human cost of producing needed for true shellfish button.
Meanwhile, true shellfish button blank collating unit provided by the invention, achieve auto arrangement true shellfish button blank, what effectively improve true shellfish button blank puts efficiency; Also the finger labour intensity of staff is effectively reduced.
Accompanying drawing explanation
In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments of the invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.
The structural representation of the true shellfish button blank collating unit that Fig. 1 provides for the embodiment of the present invention;
The structural representation of feed mechanism in the true shellfish button blank collating unit that Fig. 2 provides for the embodiment of the present invention;
The structural representation of splicing head in the true shellfish button blank collating unit that Fig. 3 provides for the embodiment of the present invention;
The structural representation of the true shellfish button blank collating unit discontinuous propulsive mechanism that Fig. 4 provides for the embodiment of the present invention;
The structural representation of translation mechanism in the true shellfish button blank collating unit that Fig. 5 provides for the embodiment of the present invention.
In upper Fig. 1-5:
1 is vibrating disk, 2 is runner, 3 is cylinder, 4 is hopper, 5 is magnetic switch, 6 is stay bearing plate, 7 is mount pad, 8 is support, 9 is splicing head, 91 is clamping plate, 92 is baffle plate, 93 is adjusting head, 94 is main board, 10 is true shellfish button blank, 11 is motor mounting plate, 12 is guide base, 13 is cardan shaft, 14 is bearing, 15 is Coupling Shaft, 16 is cam, 17 is motor, 18 is the first guide rail, 19 is the second drive element, 20 is the 3rd drive element, 21 is the second guide rail.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.
The true shellfish button blank collating unit that the embodiment of the present invention provides, comprise: feed mechanism, this feed mechanism comprises: vibrating disk 1, exports be connected and the runner 2 extended from top to bottom with vibrating disk 1, exports relative and receive the splicing 9 of true shellfish button blank 10 with runner 2; Interval propulsive mechanism, this interval propulsive mechanism comprises: be arranged in the side of splicing 9 and for the cardan shaft 13 of the true shellfish button blank 10 of releasing splicing 9, be connected and drive the first drive element of cardan shaft 13 intermittent movement with cardan shaft 13; Be positioned at the stay bearing plate 6 of splicing 9 opposite side; Be arranged at stay bearing plate 6, and for receiving the hopper 4 of the true shellfish button blank 10 released by cardan shaft 13.
It should be noted that, runner 2 extends from top to bottom and refers to, the import of runner 2 is higher than the outlet of runner 2, and namely true shellfish button blank 10 glides along runner 2 under own wt effect, and splicing 9 is lower than the outlet of vibrating disk 1.Splicing 9 is positioned at below the outlet of runner 2, the axis collinear of the true shellfish button blank 10 in the axis of cardan shaft 13 and splicing 9 or parallel, ensures that true shellfish button blank 10 is vertically placed in hopper 4, meets follow-up diameter grinding.
The working process of the true shellfish button blank collating unit that the embodiment of the present invention provides is: true shellfish button blank 10 is put into vibrating disk 1, under vibrating disk 1 acts on, true shellfish button blank 10 enters runner 2 successively, and flow to splicing 9 under gravity successively, simultaneously, start the first drive element, first drive element drives cardan shaft 13 intermittent movement, true shellfish button blank 10 in splicing 9 is released by cardan shaft 13 successively, the hopper 4 be positioned on stay bearing plate 6 receives this true shellfish button blank 10, along with the intermittent movement of cardan shaft 13, true shellfish button blank 10 is sequentially arranged in hopper 4, namely arrangement is realized.
The true shellfish button blank collating unit that the embodiment of the present invention provides, auto arrangement true shellfish button blank 10 is achieved by feed mechanism, interval propulsive mechanism and hopper 4, compared with prior art adopts and manually puts, effectively reduce the staff produced needed for true shellfish button, reduce the human cost of producing needed for true shellfish button.
Meanwhile, the true shellfish button blank collating unit that the embodiment of the present invention provides, achieve auto arrangement true shellfish button blank 10, what effectively improve true shellfish button blank 10 puts efficiency; Also the finger labour intensity of staff is effectively reduced.
In the true shellfish button blank collating unit that above-described embodiment provides, receiver 9 is button field processed common components, and the embodiment of the present invention does not limit this.For the ease of understanding, introduce a kind of conventional receiver 9 herein, as shown in Figure 3, splicing 9 comprises: main board 94, is arranged at the clamping plate 91 on main board 94; Wherein, the number of clamping plate 91 is two, has clamping gap between two clamping plate 91, and this clamping gap is for placing true shellfish button blank 10.In order to improve commonality, clamping gap between two clamping plate 91 realizes by rotating adjusting head 93, particularly, clamping plate 91 are fixed on main board 94, another clamping plate 91 and adjusting head 93 screw thread fit, and adjusting head 93 axial limiting is in main board 94, like this, rotate adjusting head 93, another clamping plate 91 move along adjusting head 93, thus have adjusted the clamping gap between two clamping plate 91.In order to avoid true shellfish button blank 10 is beated, splicing 9 also comprises the baffle plate 92 be arranged on main board 94, and baffle plate 92 is positioned at above true shellfish button blank 10.
Preferably, in the true shellfish button blank collating unit that above-described embodiment provides, be provided with moveable spacing cylinder in hopper 4, spacing cylinder moves along with the movement of true shellfish button blank 10, by the setting of spacing cylinder, the true shellfish button blank 10 avoided in hopper 4 tilts or falls down.Further, the external diameter of spacing cylinder is greater than the external diameter of true shellfish button blank 10.
For the ease of promoting true shellfish button blank 10, in the true shellfish button blank collating unit that above-described embodiment provides, the intermittent movement distance of cardan shaft 13 equals the thickness of true shellfish button blank 10.Certainly, the intermittent movement distance of cardan shaft 13 also can be selected to be greater than the thickness of true shellfish button blank 10.
Preferably, in the true shellfish button blank collating unit that above-described embodiment provides, the first drive element is motor 17, and the output shaft of motor 17 is provided with Coupling Shaft 15, Coupling Shaft 15 is provided with the cam 16 that interval promotes cardan shaft 13.Like this, motor 17 often rotates 180 °, and cam 16 promotes cardan shaft 13 and moves once, and the true shellfish button blank 10 of cardan shaft 13 driven forward one, realize more convenient, structure is simpler.Certainly, other structures also can be selected to realize intermittent driving, such as ratchet device or four-bar linkage etc.Further, motor 17 is buncher, can be changed the intermittent time of cardan shaft 13 by speed governing.
Promote cardan shaft 13 for the ease of cam 16, in the true shellfish button blank collating unit that above-described embodiment provides, the end face of cardan shaft 13 is provided with the bearing 14 for contacting with cam 16.Concrete, the end face of cardan shaft 13 is provided with bearing support, and bearing 14 is axially arranged on bearing support rotationally around it, and the peripheral side of bearing 14 contacts with cam 16.
In order to ensure that runner 2 also has certain vibration, in the true shellfish button blank collating unit that above-described embodiment provides, runner 2 and vibrating disk 1 are connected by plastic material plate or runner 2 is integral type structure with vibrating disk 1.Like this, avoid vibrating disk 1 and mutually collide in vibration processes with true shellfish button blank 10, send larger noise, also ensure that runner 2 has certain vibration.Plastic material plate can be polyurethane sheet, silica gel plate etc.
In order to improve the stability advancing true shellfish button blank 10, in the true shellfish button blank collating unit that above-described embodiment provides, between the outlet of runner 2 and splicing 9, there is gap.For the concrete numerical value in gap, can arrange according to actual needs, the embodiment of the present invention does not limit this.
Preferably, in the true shellfish button blank collating unit that above-described embodiment provides, runner 2 is curved, facilitates true shellfish button blank 10 and glides.Further, the cross-sectional plane of runner 2 is in " L " type or in " Qian " type.Hopper 4 is V-type groove.Certainly, also can select hopper 4 such as, for other shapes, " Qian " type, the embodiment of the present invention does not limit this.
Further, in the true shellfish button blank collating unit that above-described embodiment provides, hopper 4 is at least two; True shellfish button blank collating unit also comprises translation mechanism, and translation mechanism comprises: mount pad 7, and stay bearing plate 6 is slidably disposed in mount pad 7; Be arranged at mount pad 7, be connected with stay bearing plate 6 and drive stay bearing plate 6 along hopper 4 length direction away from the second drive element 19 near splicing 9; Be arranged at mount pad 7, be connected with stay bearing plate 6 and drive stay bearing plate 6 along hopper 4 Width away from the 3rd drive element 20 near splicing 9.Like this, by the second drive element 19 and the 3rd drive element 20, any one hopper 4 and splicing 9 can be realized relative, realize receiving the true shellfish button blank 10 released by cardan shaft 13, then at least two hoppers 4 are used alternatingly, improve the loading efficiency of true shellfish button blank 10, further increase the production efficiency of true shellfish button.
Be understandable that, the second drive element 19 can drive stay bearing plate 6 along hopper 4 length direction away from splicing 9, also can drive stay bearing plate 6 along hopper 4 length direction near splicing 9; 3rd drive element 20 can drive stay bearing plate 6 along hopper 4 Width away from splicing 9, also can drive stay bearing plate 6 along hopper 4 Width near splicing 9.
In above-mentioned true shellfish button blank collating unit, the second drive element 19 and the 3rd drive element 20 can be cylinder, motor.For the ease of realizing, prioritizing selection second drive element 19 and the 3rd drive element 20 are cylinder.
Preferably, in the true shellfish button blank collating unit that above-described embodiment provides, interval propulsive mechanism also comprises: the guide base 12 extended along cardan shaft 13 moving direction, cardan shaft 13 is arranged at guide base 12, like this, achieve the guiding to cardan shaft 13 movement by guide base 12, improve the moving stability of cardan shaft 13; Translation mechanism also comprises: for second guide rail 21 of stay bearing plate 6 along the movement of hopper 4 length direction; For stay bearing plate 6 along the first guide rail 18 of hopper 4 Width movement, like this, improve the moving stability of stay bearing plate 6.For the ease of realizing, prioritizing selection second drive element 19 and the 3rd drive element 20 layering are arranged, and accordingly, the second guide rail 21 and the first guide rail 18 also layering are arranged.Prioritizing selection second guide rail 21 and the second drive element 19 are positioned at the top of the first guide rail 18 and the 3rd drive element 20.
In order to improve automation further, the true shellfish button blank collating unit that above-described embodiment provides, also comprises: detect hopper 4 and whether occupy true shellfish button blank 10, if so, then send the sensor of detection signal; Be connected with sensor, control vibrating disk 1 after receiving detection signal and the first drive element out of service, controlling the second drive element 19 runs to make stay bearing plate 6 to move predeterminable range to the direction away from splicing 9, control hopper 4 that the 3rd drive element 20 runs to make not put true shellfish button blank 10 and splicing 9 relative, control the second drive element 19 to run stay bearing plate 6 is resetted, control the controller of vibrating disk 1 and the operation of the first drive element.
The working process of above-mentioned true shellfish button blank collating unit is: when hopper 4 occupies true shellfish button blank 10, sensor generation detection signal, controller controls vibrating disk 1 and the first drive element stop motion, namely quit work, control the second drive element 19 to run, stay bearing plate 6 moves predeterminable range to the direction away from splicing 9, then control the 3rd drive element 20 to run, stay bearing plate 6 moves, the hopper 4 making not put true shellfish button blank 10 and splicing 9 is relative, control the second drive element 19 again, stay bearing plate 6 moves predeterminable range to the direction near splicing 9, namely stay bearing plate 6 realizes resetting, now control vibrating disk 1 and the operation of the first drive element, start again to arrange true shellfish button blank 10.
Whether occupy true shellfish button blank 10 for the ease of detecting hopper 4, in the true shellfish button blank collating unit that above-described embodiment provides, sensor comprises: be positioned at hopper 4, with magnet and can the cylinder 3 of movement; Be arranged at the magnetic switch 5 of hopper 4 away from splicing 9 one end, when cylinder 3 is less than predeterminable range with the distance of magnetic switch 5, magnetic switch 5 is connected and is sent detection signal.Like this, detection is facilitated.It should be noted that, now cylinder 3 is spacing cylinder mentioned above, and namely cylinder 3 avoids the true shellfish button blank 10 being positioned at hopper 4 and tilts or fall down, and effectively ensure that arrangement quality.
Preferably, in the true shellfish button blank collating unit that above-described embodiment provides, support 8, the first drive element, vibrating disk 1 and guide base 12 are all installed on the top of support 8, and mount pad 7 is fixed on the side of support 8.Concrete, the top of support 8 is provided with motor mounting plate 11, and motor 17 is arranged on the below of motor mounting plate 11, and vibrating disk 1 and guide base 12 are all installed on the top of motor mounting plate 11.
To the above-mentioned explanation of the disclosed embodiments, those skilled in the art are realized or uses the present invention.To be apparent for a person skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.
Claims (10)
1. a true shellfish button blank collating unit, is characterized in that, comprising:
Feed mechanism, described feed mechanism comprises: vibrating disk (1), export with described vibrating disk (1) and be connected and the runner (2) extended from top to bottom, export relative with described runner (2) and receive the splicing head (9) of true shellfish button blank (10);
Interval propulsive mechanism, described interval propulsive mechanism comprises: be arranged in the side of described splicing head (9) and for the cardan shaft (13) of the described true shellfish button blank (10) of releasing described splicing head (9), be connected and drive the first drive element of described cardan shaft (13) intermittent movement with described cardan shaft (13);
Be positioned at the stay bearing plate (6) of described splicing head (9) opposite side;
Be arranged at described stay bearing plate (6), and for receiving the hopper (4) of the described true shellfish button blank (10) released by described cardan shaft (13).
2. true shellfish button blank collating unit according to claim 1, it is characterized in that, described first drive element is motor (17), the output shaft of described motor (17) is provided with Coupling Shaft (15), described Coupling Shaft (15) is provided with the cam (16) that interval promotes described cardan shaft (13).
3. true shellfish button blank collating unit according to claim 2, is characterized in that, the end face of described cardan shaft (13) is provided with the bearing (14) for contacting with described cam (16).
4. true shellfish button blank collating unit according to claim 1, it is characterized in that, described runner (2) and described vibrating disk (1) are connected by plastic material plate or described runner (2) is integral type structure with described vibrating disk (1).
5. true shellfish button blank collating unit according to claim 1, is characterized in that having gap between the outlet of described runner (2) and described splicing head (9).
6., according to the true shellfish button blank collating unit in claim 1-5 described in any one, it is characterized in that, described hopper (4) is at least two; Described true shellfish button blank collating unit also comprises translation mechanism, and described translation mechanism comprises:
Mount pad (7), described stay bearing plate (6) is slidably disposed in described mount pad (7);
Be arranged at described mount pad (7), be connected with described stay bearing plate (6) and drive described stay bearing plate (6) along described hopper (4) length direction away from the second drive element (19) with close described splicing head (9);
Be arranged at described mount pad (7), be connected with described stay bearing plate (6) and drive described stay bearing plate (6) along described hopper (4) Width away from the 3rd drive element (20) with close described splicing head (9).
7. true shellfish button blank collating unit according to claim 6, it is characterized in that, described interval propulsive mechanism also comprises: the guide base (12) extended along described cardan shaft (13) moving direction, and described cardan shaft (13) is arranged at described guide base (12);
Described translation mechanism also comprises: for first guide rail (18) of described stay bearing plate (6) along described hopper (4) length direction movement; For second guide rail (21) of described stay bearing plate (6) along described hopper (4) Width movement.
8. true shellfish button blank collating unit according to claim 6, is characterized in that, also comprise:
Detect described hopper (4) and whether occupy described true shellfish button blank (10), if so, then send the sensor of detection signal;
Be connected with described sensor, described vibrating disk (1) is controlled and described first drive element is out of service after receiving described detection signal, control described second drive element (19) to run to make described stay bearing plate (6) move predeterminable range to the direction away from described splicing head (9), control described 3rd drive element (20) to run to make the described hopper (4) not putting described true shellfish button blank (10) relative with described splicing head (9), control described second drive element (19) to run to make described stay bearing plate (6) reset, control the controller of described vibrating disk (1) and described first drive element operation.
9. true shellfish button blank collating unit according to claim 8, it is characterized in that, described sensor comprises:
Be positioned at described hopper (4), with magnet and can the cylinder (3) of movement;
Be arranged at the magnetic switch (5) of described hopper (4) away from described splicing head (9) one end, when described cylinder (3) is less than predeterminable range with the distance of described magnetic switch (5), described magnetic switch (5) is connected and is sent described detection signal.
10. true shellfish button blank collating unit according to claim 6, it is characterized in that, also comprise: support (8), described first drive element, described vibrating disk (1) and described guide base (12) are all installed on the top of described support (8), and described mount pad (7) is fixed on the side of described support (8).
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| CN201410369113.9A CN105329625B (en) | 2014-07-30 | 2014-07-30 | True shellfish button blank collating unit |
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| CN201410369113.9A CN105329625B (en) | 2014-07-30 | 2014-07-30 | True shellfish button blank collating unit |
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| CN105329625B CN105329625B (en) | 2017-12-26 |
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| CN106379698A (en) * | 2016-11-22 | 2017-02-08 | 苏州鑫润旺精密机械有限公司 | Automatic bearing feeding machine |
| CN106494863A (en) * | 2016-10-28 | 2017-03-15 | 深圳市联星服装辅料有限公司 | A kind of reciprocal extending type button feed mechanism |
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Citations (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5767404A (en) * | 1980-10-06 | 1982-04-24 | Okura Yusoki Co Ltd | Conveying apparatus |
| DE3327884A1 (en) * | 1983-08-02 | 1985-02-14 | Siemens AG, 1000 Berlin und 8000 München | Device for storing, separating and feeding parts which can be received as bulk material |
| CN201634227U (en) * | 2010-04-12 | 2010-11-17 | 天津容大机电科技有限公司 | Automatic feeding mechanism of sheet metal for arc expulsion element |
| CN201720445U (en) * | 2010-07-22 | 2011-01-26 | 宁波精益飞达轴业有限公司 | Automotive ball joint production device |
| CN201975259U (en) * | 2011-01-12 | 2011-09-14 | 东莞市石碣益诚自动化设备厂 | Automatic arranging device for coils or coil frameworks |
| CN202072267U (en) * | 2011-04-13 | 2011-12-14 | 越峰电子(昆山)有限公司 | Vibrating disc with automatic arranging function |
| CN202542488U (en) * | 2011-12-26 | 2012-11-21 | 比亚迪股份有限公司 | Automatic arrangement device for blanks |
| CN202840211U (en) * | 2012-08-31 | 2013-03-27 | 温州科奇比威自动化设备有限公司 | Commutator feeder |
| CN203045404U (en) * | 2012-12-25 | 2013-07-10 | 梁呈旺 | Automatic feeding device of machine tool |
| CN103787032A (en) * | 2014-02-28 | 2014-05-14 | 延锋伟世通(沈阳)汽车饰件系统有限公司 | Automatic quantifying feeder |
-
2014
- 2014-07-30 CN CN201410369113.9A patent/CN105329625B/en active Active
Patent Citations (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5767404A (en) * | 1980-10-06 | 1982-04-24 | Okura Yusoki Co Ltd | Conveying apparatus |
| DE3327884A1 (en) * | 1983-08-02 | 1985-02-14 | Siemens AG, 1000 Berlin und 8000 München | Device for storing, separating and feeding parts which can be received as bulk material |
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