CN204366033U - A kind of micro metal powder 3D printer power spreading device - Google Patents

A kind of micro metal powder 3D printer power spreading device Download PDF

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Publication number
CN204366033U
CN204366033U CN201420675305.8U CN201420675305U CN204366033U CN 204366033 U CN204366033 U CN 204366033U CN 201420675305 U CN201420675305 U CN 201420675305U CN 204366033 U CN204366033 U CN 204366033U
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CN
China
Prior art keywords
powder storehouse
powder
forming bin
slide block
base plate
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN201420675305.8U
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Chinese (zh)
Inventor
唐海均
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CHENGDU AIWEI KECHUANG TECHNOLOGY Co Ltd
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CHENGDU AIWEI KECHUANG TECHNOLOGY Co Ltd
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Filing date
Publication date
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Priority to CN201420675305.8U priority Critical patent/CN204366033U/en
Application granted granted Critical
Publication of CN204366033U publication Critical patent/CN204366033U/en
Withdrawn - After Issue legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a kind of micro metal powder 3D printer power spreading device, comprise paving powder funnel, left Hui Fencang, forming bin and right Hui Fencang.Left time powder storehouse and right Hui Fencang are used for reclaiming sintered rear unnecessary metal dust, and forming bin is used for needing the threedimensional model printed to sinter in the above, and the workpiece sintered then is placed on forming bin base plate.Paving powder funnel is L shape, lower end is a funnel shaped through hole, funnel bottom is provided with scraping blade, paving powder funnel slides and is sprinkled upon in forming bin by metal dust and sinters on forming bin, left returning in powder storehouse and right time powder storehouse is reclaimed powder, avoid waste, so repeatedly sintering final just printable go out required 3 D workpiece.The utility model structure is simple, arranges double back powder storehouse and reduces waste of material, economical environment-protective, and utilize paving powder funnel to carry out paving powder and recovery, efficiency is fast, and machining accuracy is high, simple to operate, easy to use, has the value applied.

Description

A kind of micro metal powder 3D printer power spreading device
Technical field
The utility model relates to a kind of seating product, particularly relates to a kind of micro metal powder 3D printer power spreading device.
Background technology
At present, 3D printer engenders in the visual field of people, and the 3D printer of laser sintering metallic powder also more and more embodies very important effect as a kind of important means of industrial processes.Power spreading device is a part very important in metal dust 3D printer, and it directly affects print speed and the print quality of workpiece.The power spreading device of existing metal dust 3D printer is mostly roller paving powder, and such power spreading device needs can be elevated for powder storehouse, and this can increase the complexity of structure, and roller paving powder mostly all can only unidirectional paving powder, and efficiency is lower.
Summary of the invention
The purpose of this utility model is just to provide a kind of micro metal powder 3D printer power spreading device to solve the problem.
The utility model is achieved through the following technical solutions above-mentioned purpose:
The utility model comprises slide block A, slide block B, slide block C, slide block D, guide rail A, guide rail B, guide rail C, guide rail D, base plate, left time powder storehouse outer baffle, backboard, left time powder storehouse Internal baffle, forming bin base plate, forming bin front apron, powder storehouse outer baffle is returned on the right side, powder storehouse Internal baffle, front apron, paving powder funnel, left Hui Fencang, forming bin and right Hui Fencang are returned in the right side.
Further, powder storehouse outer baffle is returned on a described left side, left time powder storehouse Internal baffle, right returning on powder storehouse outer baffle and right three side end faces returning powder storehouse Internal baffle has attacked screwed hole, described base plate is " recessed " font metallic plate, some screwed holes have been attacked in the front of described base plate, described backboard and described front apron are identical sheet metal, at one end some screwed holes are attacked in side and front, powder storehouse outer baffle is returned on a described left side, left time powder storehouse Internal baffle, right time powder storehouse outer baffle, right time powder storehouse Internal baffle, front apron and backboard edge-on on forming bin base plate, and utilize screw to be fixedly connected with by respective screwed hole.
Further, described left Hui Fencang is by described base plate, left time powder storehouse outer baffle, left time powder storehouse Internal baffle, front apron and backboard composition, described right Hui Fencang is by described base plate, right time powder storehouse outer baffle, right time powder storehouse Internal baffle, front apron and backboard composition, described forming bin is by described forming bin base plate, left time powder storehouse Internal baffle, right time powder storehouse Internal baffle, forming bin front apron and backboard composition, powder storehouse is gone back on a described left side and described right Hui Fencang is used for reclaiming sintered rear unnecessary metal dust, described forming bin is used for needing the threedimensional model printed to sinter in the above, the workpiece sintered then is placed on described forming bin base plate.
Further, described forming bin front apron front is connected with described slide block C by welding, described slide block C is stuck on described guide rail C, by to be connected and can relative sliding between described slide block C and described guide rail C, because described slide block C is fixedly connected with described forming bin front apron, described forming bin front apron is fixedly connected with described forming bin base plate, powder storehouse Internal baffle is returned on described forming bin base plate and a described left side, right returning leaves extremely small space between powder storehouse Internal baffle and backboard, and therefore whole described forming bin can slide up and down on described guide rail C.
Further, described slide block A and slide block D is fixedly connected with in the bottom surface of described base plate, described slide block A is connected with described guide rail A and guide rail D by coordinating with slide block D, and can at relative sliding above, whole so described left Hui Fencang, rightly go back to powder storehouse and forming bin all can along described guide rail A and guide rail D slide anteroposterior.
Further, described paving powder funnel is fixedly connected with described slide block B, be connected with described guide rail B also can relative sliding by coordinating for described slide block B, namely described paving powder funnel can horizontally slip along described guide rail B, described paving powder funnel is L shape, lower end is a funnel shaped through hole, funnel bottom is provided with scraping blade, metal powder material is added in described paving powder funnel, described paving powder funnel slides and is sprinkled upon in described forming bin by metal dust and sinters on described forming bin, thickness and the area of sintering workpiece can be regulated by the oscilaltion of described forming bin and inside and outside movement, after having sintered one deck, remaining powder is scraped a described left side and goes back to powder storehouse and right returning in powder storehouse is reclaimed powder by described paving powder funnel return, avoid waste, so repeatedly sintering final just printable go out required 3 D workpiece.
The beneficial effects of the utility model are:
The utility model is a kind of micro metal powder 3D printer power spreading device, and compared with prior art, the utility model structure is simple, economical environment-protective, and efficiency is fast, and machining accuracy is high, simple to operate, easy to use, has the value applied.
Accompanying drawing explanation
Fig. 1 is the unmatched baffle arrangement schematic diagram of micro metal powder 3D printer power spreading device described in the utility model.
Fig. 2 is the overall structure schematic diagram of micro metal powder 3D printer power spreading device described in the utility model.
Fig. 3 is the rearview of micro metal powder 3D printer power spreading device described in the utility model.
Fig. 4 is the bottom view of micro metal powder 3D printer power spreading device described in the utility model.
In figure: 11-slide block A, 12-slide block B, 13-slide block C, 14-slide block D, 21-guide rail A, 22-guide rail B, 23-guide rail C, 24-guide rail D, 31-base plate, 32-return on a left side powder storehouse A outer baffle, 33-backboard, powder storehouse A Internal baffle, 35-forming bin base plate, 36-forming bin front apron are returned in a 34-left side, powder storehouse B outer baffle is returned on the 37-right side, powder storehouse B Internal baffle is returned on the 38-right side, 39-front apron, 4-spread powder funnel, 5-left Hui Fencang, 6-forming bin, the right Hui Fencang of 7-.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described in further detail:
As shown in Figures 1 to 4: the utility model comprises slide block A11, slide block B 12, slide block C13, slide block D14, guide rail A21, guide rail B22, guide rail C23, guide rail D24, base plate 31, a left side time powder storehouse outer baffle 32, backboard 33, a left side time powder storehouse Internal baffle 34, forming bin base plate 35, forming bin front apron 36, right time powder storehouse outer baffle 37, the right side time powder storehouse Internal baffle 38, front apron 39, spreads powder funnel 4, left go back to powder storehouse 5, forming bin 6 and go back to powder storehouse 7, the right side.Left time powder storehouse outer baffle 32, left time powder storehouse Internal baffle 34, right returning on powder storehouse outer baffle 37 and right three side end faces returning powder storehouse Internal baffle 38 has attacked screwed hole, base plate 31 is " recessed " font metallic plate, some screwed holes have been attacked in the front of base plate 31, backboard 33 is identical sheet metal with front apron 39, at one end some screwed holes are attacked in side and front, left time powder storehouse outer baffle 32, left time powder storehouse Internal baffle 34, right time powder storehouse outer baffle 37, right time powder storehouse Internal baffle 38, front apron 39 and backboard 33 edge-on on forming bin base plate 35, and utilize screw to be fixedly connected with by respective screwed hole.Left powder storehouse 5 of returning is by base plate 31, left time powder storehouse outer baffle 32, left time powder storehouse Internal baffle 34, front apron 39 and backboard 33 form, right powder storehouse 7 of returning is by base plate 31, right time powder storehouse outer baffle 37, right time powder storehouse Internal baffle 38, front apron 39 and backboard 33 form, forming bin 6 is by forming bin base plate 35, left time powder storehouse Internal baffle 34, right time powder storehouse Internal baffle 38, forming bin front apron 36 and backboard 33 form, left powder storehouse 5 and the right powder storehouse 7 of returning returned is used for reclaiming sintered rear unnecessary metal dust, forming bin 6 is used for needing the threedimensional model printed to sinter in the above, the workpiece sintered then is placed on forming bin base plate 35.Forming bin front apron 36 front is connected with slide block C13 by welding, slide block C13 is stuck on guide rail C23, by to be connected and can relative sliding between slide block C13 and guide rail C23, because slide block C13 is fixedly connected with forming bin front apron 36, forming bin front apron 36 is fixedly connected with forming bin base plate 35, forming bin base plate 35 and left time powder storehouse Internal baffle 34, right returning leave extremely small space between powder storehouse Internal baffle 38 and backboard 33, and therefore whole forming bin 6 can slide up and down on guide rail C23.Slide block A11 and slide block D14 is fixedly connected with in the bottom surface of base plate 31, slide block A11 is connected with guide rail A21 and guide rail D24 by coordinating with slide block D14, and can at relative sliding above, a whole like this left side is gone back to powder storehouse 5, is rightly gone back to powder storehouse 7 and forming bin 6 all can along guide rail A21 and guide rail D24 slide anteroposterior.Paving powder funnel 4 is fixedly connected with slide block B 12, be connected with guide rail B22 also can relative sliding by coordinating for slide block B 12, namely spread powder funnel 4 to horizontally slip along guide rail B22, paving powder funnel 4 is L shape, lower end is a funnel shaped through hole, funnel bottom is provided with scraping blade, metal powder material is added in paving powder funnel 4, paving powder funnel 4 slides and is sprinkled upon in forming bin 6 by metal dust and sinters on forming bin 6, thickness and the area of sintering workpiece can be regulated by the oscilaltion of forming bin 6 and inside and outside movement, spread powder funnel 4 return after having sintered one deck remaining powder is scraped left to go back to powder storehouse 5 and right returning in powder storehouse 7 is reclaimed powder, avoid waste, so repeatedly sintering final just printable go out required 3 D workpiece.
The utility model is not limited to above-mentioned preferred forms; anyone can draw other various forms of products under enlightenment of the present utility model; no matter but any change is done in its shape or structure; every have identical with the application or akin technical scheme, all drops within protection domain of the present utility model.

Claims (4)

1. a micro metal powder 3D printer power spreading device, comprise slide block A, slide block C, slide block D, guide rail A, guide rail C, guide rail D, base plate, left time powder storehouse outer baffle, backboard, left time powder storehouse Internal baffle, forming bin base plate, forming bin front apron, powder storehouse outer baffle is returned on the right side, powder storehouse Internal baffle, front apron, left Hui Fencang, forming bin and right Hui Fencang are returned in the right side, it is characterized in that: also comprise slide block B, guide rail B and spread powder funnel; Described left Hui Fencang is made up of described base plate, left time powder storehouse outer baffle, left powder storehouse Internal baffle, front apron and the backboard of returning, described right Hui Fencang is made up of described base plate, right time powder storehouse outer baffle, right powder storehouse Internal baffle, front apron and the backboard of returning, and described forming bin returns powder storehouse Internal baffle by described forming bin base plate, a left side, the right side is returned powder storehouse Internal baffle, forming bin front apron and backboard and formed;
Described forming bin front apron front is connected with described slide block C by welding, described slide block C is stuck on described guide rail C, by to be connected and can relative sliding between described slide block C and described guide rail C, described slide block C is fixedly connected with described forming bin front apron, and described forming bin front apron is fixedly connected with described forming bin base plate; Described paving powder funnel is fixedly connected with described slide block B, and be connected with described guide rail B also can relative sliding by coordinating for described slide block B, and described paving powder funnel is L shape, and lower end is a funnel shaped through hole, and funnel bottom is provided with scraping blade.
2. a kind of micro metal powder 3D printer power spreading device according to claim 1, it is characterized in that: powder storehouse outer baffle is returned on a described left side, left time powder storehouse Internal baffle, right returning on powder storehouse outer baffle and right three side end faces returning powder storehouse Internal baffle has attacked screwed hole, described base plate is " recessed " font metallic plate, some screwed holes have been attacked in the front of described base plate, described backboard and described front apron are identical sheet metal, at one end some screwed holes are attacked in side and front, powder storehouse outer baffle is returned on a described left side, left time powder storehouse Internal baffle, right time powder storehouse outer baffle, right time powder storehouse Internal baffle, front apron and backboard edge-on on forming bin base plate, and utilize screw to be fixedly connected with by respective screwed hole.
3. a kind of micro metal powder 3D printer power spreading device according to claim 1, it is characterized in that: the bottom surface of described base plate is fixedly connected with described slide block A and slide block D, described slide block A is connected with described guide rail A and guide rail D by coordinating with slide block D, and can relative sliding.
4. a kind of micro metal powder 3D printer power spreading device according to claim 1, it is characterized in that: powder storehouse Internal baffle is returned on described forming bin base plate and a described left side, right returning leaves extremely small space between powder storehouse Internal baffle and backboard, and described forming bin can slide up and down on described guide rail C.
CN201420675305.8U 2014-11-13 2014-11-13 A kind of micro metal powder 3D printer power spreading device Withdrawn - After Issue CN204366033U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420675305.8U CN204366033U (en) 2014-11-13 2014-11-13 A kind of micro metal powder 3D printer power spreading device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420675305.8U CN204366033U (en) 2014-11-13 2014-11-13 A kind of micro metal powder 3D printer power spreading device

Publications (1)

Publication Number Publication Date
CN204366033U true CN204366033U (en) 2015-06-03

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104308148A (en) * 2014-11-13 2015-01-28 成都爱维科创科技有限公司 Small powder paving device for metal powder 3D printer

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104308148A (en) * 2014-11-13 2015-01-28 成都爱维科创科技有限公司 Small powder paving device for metal powder 3D printer

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AV01 Patent right actively abandoned

Granted publication date: 20150603

Effective date of abandoning: 20171114

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Effective date of abandoning: 20171114

AV01 Patent right actively abandoned
AV01 Patent right actively abandoned