CN209336102U - A kind of printing pedestal for 3 D-printing unmanned factory - Google Patents
A kind of printing pedestal for 3 D-printing unmanned factory Download PDFInfo
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- CN209336102U CN209336102U CN201822219176.2U CN201822219176U CN209336102U CN 209336102 U CN209336102 U CN 209336102U CN 201822219176 U CN201822219176 U CN 201822219176U CN 209336102 U CN209336102 U CN 209336102U
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- printing
- mild steel
- glass base
- foot pad
- pedestal
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Abstract
The utility model discloses a kind of printing pedestals for 3 D-printing unmanned factory.The upper surface of glass base is equipped with RFID label tag, the bottom surface of glass base is circumferentially spaced to be equipped with multiple mild steel foots pad, glass base is placed on printing machine worktable, the center for printing machine worktable is equipped with heating bed, the periphery for heating bed is circumferentially spaced equipped with multiple electromagnet for being used cooperatively with mild steel foot pad, glass base is by the mutual absorption of mild steel foot pad and mild steel foot pad so that printing pedestal is fixed on printing machine worktable, and comes into full contact with the bottom surface of glass base with heating bed.The utility model is readily disassembled the printing pedestal of three-dimensional printer, realizes that 3 D-printing factory is unmanned.
Description
Technical field
The utility model relates to 3 D-printing fields, and in particular to a kind of printing bottom for 3 D-printing unmanned factory
Seat.
Background technique
3 D-printing, also known as increasing material manufacturing, cardinal principle are to be extruded into silk by spray head after melting printed material, are being counted
The control of calculation machine is lower to be laminated raw material.With popularizing for three-dimensional printing technology, more and more factories start to purchase three-dimensional printer,
And it is provided out web printing service.People start to print after submitting 3 D-printing order, factory to receive order by network.It is existing
In the stage, the workbench and printing panel of three-dimensional printer are generally integral type, non-dismountable.After the completion of order printing, printer
It cannot continue order, until manpower work removes the threedimensional model that printing is completed.It is practical new in 107214965 A of Publication No. CN
In technical solution disclosed in type entitled " a kind of 3D printer of the automatic shipment of energy ", the 3D printer can pass through crawl
Mechanism grabbing workpiece, but do not account for workpiece and the close problem of pedestal adhesion that printing is completed.This direct crawl work
The mode of part, crawl difficulty is big, is easily damaged workpiece.Therefore, on the basis of existing three-dimensional printer, design one is interchangeable
Printing pedestal, realize that the easy to disassemble of pedestal is urgent problem to be solved in 3 D-printing unmanned factory.
Utility model content
The main purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of for 3 D-printing prosthetic
The printing pedestal of factory so that pedestal can be convenient disassembly, and then realizes that 3 D-printing factory is unmanned.
To achieve the above object, the utility model uses following technical scheme:
The utility model includes glass base, the RFID label tag that glass base surface is arranged in and mild steel foot pad, glass
Base upper surface is equipped with RFID label tag, and the bottom surface of glass base is circumferentially spaced to be equipped with multiple mild steel foots pad, glass base
It is placed on printing machine worktable, the center for printing machine worktable is equipped with heating bed, and the periphery for heating bed circumferentially spaced is equipped with
Multiple electromagnet for being used cooperatively with mild steel foot pad, by the mutual absorption of mild steel foot pad and electromagnet so that glass
Pedestal is fixed on printing machine worktable, and contacts the bottom surface center of glass base with heating bed.
The material of the glass base is heat resistant glass, with a thickness of 3~4mm.
The shape of the glass base is regular hexagon, and chamfering, RFID mark are machined with outside six corners of regular hexagon
Label are pasted at regular hexagon wherein one side 10mm.
The material of the mild steel foot pad is mild steel, and shape is circle, each mild steel foot pad with a thickness of 2
~3mm.
The mild steel foot pad is adhered to below glass base, and six mild steel foots pad are uniformly distributed in base center
On same circumference, electromagnet and mild steel foot pad contact surface shape are circle, and three electromagnet are uniformly distributed in workbench
On the same circumference of the heart, and contact printing pedestal three mild steel foots pad therein.
The beneficial effects of the utility model are as follows:
Utility model is readily disassembled the printing pedestal of three-dimensional printer, can be realized the quick-replaceable of pedestal, and cooperation makes
With multiple interchangeable pedestals, it is unmanned to help to realize 3 D-printing factory.
Detailed description of the invention
Fig. 1 is the schematic diagram of glass base upper surface;
Fig. 2 is the schematic diagram of glass base bottom surface;
Fig. 3 is the structural schematic diagram for printing machine worktable.
In figure: 1, glass base, 2, RFID label tag, 3, mild steel foot pad, 4, electromagnet, 5, heating bed, 6, printer work
Make platform.
Specific embodiment
It elaborates below to the embodiments of the present invention.It is emphasized that following the description is only example
Property, rather than in order to limit the scope of the utility model and its application.
As shown in Figure 1 and Figure 2,1 upper surface of glass base be equipped with RFID label tag 2, the bottom surface of glass base 1 circumferentially between
Every being equipped with multiple mild steel foots pad 3, glass base 1 is placed on printing machine worktable 6.Glass base 1 is to be printed for carrying
Threedimensional model, RFID label tag 2 is for recording stock number, and mild steel foot pad 3 is for fixing glass base 1.
As shown in figure 3, the center of printing machine worktable 6 is equipped with heating bed 5, the periphery of heating bed 5 is circumferentially spaced to be equipped with
Multiple electromagnet 4 for being used cooperatively with mild steel foot pad 3, electromagnet is for adsorbing mild steel foot pad 3.Pass through low-carbon steel feet
The mutual absorption of pad 3 and electromagnet 4 is so that glass base 1 is fixed on printing machine worktable 6, and makes the bottom of glass base 1
Face center is contacted with heating bed 5
In specific implementation, the material of glass base 1 is heat resistant glass, can at least be resistant to 60 DEG C for a long time.With a thickness of 3~4mm,
It is preferred that 3.3mm.The shape of glass base 1 is regular hexagon, and chamfering is machined with outside six corners of regular hexagon, and surface should be enough
It is smooth.Before printing, line paper self-adhesive tape need to be posted in upper surface, for carrying workpiece.
As shown in Figure 1, RFID label tag 2 is affixed on the edge of 1 upper surface of glass base.Specifically wherein apart from regular hexagon
At the 10mm of one side.Pedestal number and 3 D-printing mission number are written in RFID label tag 2, so that RFID reader is written and read
Operation.Before printing, RFID label tag is written into 3 D-printing mission number;It reads RFID label tag and obtains pedestal number, according to pedestal
The co-ordinate zero point offset of number setting printer.After printing, reads RFID label tag and obtain 3 D-printing mission number, record and beat
Print the workpiece and mission number corresponding relationship completed.
As shown in Figure 2 and Figure 3, mild steel foot pad 3 is affixed on 1 lower surface of glass base, and sum is six, with glass base 1
It is uniformly distributed on concentric concentric circles, preferably each foot pad and base edge distance are consistent.Each mild steel foot pad 3 with a thickness of
2~3mm, preferably 2.2mm.
Electromagnet 4 and 3 contact surface shape of mild steel foot pad are circle, electromagnet contact surface size and mild steel foot pad 3
Unanimously.Three electromagnet 4 are uniformly distributed on the same circumference of table core, and contact wherein three feet in printing pedestal
Pad.The position of three electromagnet 4 is corresponding with 3 foots pad of base lower surface, and is uniformly distributed.Before printing, electromagnet 3 is in
Off-position.In printing, electromagnet 3 remains powered on state.After printing, electromagnet 3 is in off-position.
The specific work process of the utility model is as follows:
Firstly, 3 D-printing unmanned factory receives order, the corresponding 3 D-printing mission number write-in of each order is beaten
In the RFID label tag 2 for printing pedestal.
It include that a pedestal number and 3 D-printing task are compiled in the corresponding RFID label tag 2 of each printing pedestal of step a)
Number, glass base 1 is carried on printing machine worktable 6 by transfer robot, and the RFID reader of printing machine worktable 6 is read
RFID label tag 2 obtains pedestal number, is deviated according to the co-ordinate zero point that pedestal numbers amendment printer;
Step b) prints machine worktable 6 and controls the energization of electromagnet 4, and controls electric heating bed 5 and begin to warm up, electromagnet 4 and glass
The mild steel foot pad 3 of 1 bottom surface of glass pedestal mutually adsorbs, so that glass base 1 is fixed on printing machine worktable 6, according to RFID
The 3 D-printing mission number of label 2 executes print out task;
After the completion of step c) printing, printing machine worktable 6 controls electromagnet 4 and powers off, and electromagnet 4 and glass base 1 are gone to the bottom
The mild steel foot pad 3 in face is mutually disengaged, to discharge the mild steel foot pad 3 of 1 lower section of glass base, transfer robot will be carried
The printing pedestal for printing the threedimensional model of workpiece is carried to leaves printing machine worktable 6, and by next with RFID label tag 2
Printing pedestal is carried on printing machine worktable 6, and execution prints next time.
In print procedure, bottom surface and the heating bed 5 of glass base 1 are come into full contact with.
The above content is specific/preferred embodiment further detailed description of the utility model is combined, no
It can assert that the specific implementation of the utility model is only limited to these instructions.For the common skill of the utility model technical field
For art personnel, without departing from the concept of the premise utility, the embodiment that these have been described can also be made
Some replacements or modifications, and these substitutions or variant all shall be regarded as belonging to the protection scope of the utility model.
Claims (5)
1. a kind of printing pedestal for 3 D-printing unmanned factory, it is characterised in that: including glass base (1), RFID label tag
(2) and mild steel foot pad (3), glass base (1) upper surface are equipped with RFID label tag (2), and the bottom surface of glass base (1) is circumferentially
Multiple mild steel foots pad (3) are equipped at intervals with, glass base (1) is placed in printing machine worktable (6), is printed machine worktable (6)
Center be equipped with heating bed (5), heating bed (5) periphery it is circumferentially spaced be equipped with it is multiple be used for and mild steel foot pad (3) cooperate
The electromagnet (4) used, by the mutual absorption of mild steel foot pad (3) and electromagnet (4) so that glass base (1) is fixed on dozen
It prints on machine worktable (6), and contacts the bottom surface center of glass base (1) with heating bed (5).
2. being used for the printing pedestal of 3 D-printing unmanned factory as described in claim 1, it is characterised in that: the glass base
(1) material is heat resistant glass, with a thickness of 3~4mm.
3. being used for the printing pedestal of 3 D-printing unmanned factory as described in claim 1, it is characterised in that: the glass bottom
The shape of seat (1) is regular hexagon, and chamfering is machined with outside six corners of regular hexagon, and RFID label tag (2) is being pasted onto distance just
Hexagon is wherein at the 10mm of one side.
4. being used for the printing pedestal of 3 D-printing unmanned factory as described in claim 1, it is characterised in that: the mild steel
The material of foot pad (3) is mild steel, and shape is circle, each mild steel foot pad (3) with a thickness of 2~3mm.
5. being used for the printing pedestal of 3 D-printing unmanned factory as described in claim 1, it is characterised in that: the mild steel
Foot pad (3) is adhered to below glass base (1), and six mild steel foots pad (3) are uniformly distributed on the same circumference of base center,
Electromagnet (4) and mild steel foot pad (3) contact surface shape are circle, and three electromagnet (4) are uniformly distributed in table core
Same circumference on, and contact printing pedestal three mild steel foots pad (3) therein.
Priority Applications (1)
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CN201822219176.2U CN209336102U (en) | 2018-12-27 | 2018-12-27 | A kind of printing pedestal for 3 D-printing unmanned factory |
Applications Claiming Priority (1)
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CN201822219176.2U CN209336102U (en) | 2018-12-27 | 2018-12-27 | A kind of printing pedestal for 3 D-printing unmanned factory |
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CN209336102U true CN209336102U (en) | 2019-09-03 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109435240A (en) * | 2018-12-27 | 2019-03-08 | 浙江大学 | Printing pedestal and Method of printing for 3 D-printing unmanned factory |
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2018
- 2018-12-27 CN CN201822219176.2U patent/CN209336102U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109435240A (en) * | 2018-12-27 | 2019-03-08 | 浙江大学 | Printing pedestal and Method of printing for 3 D-printing unmanned factory |
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Address after: 310058 Yuhang Tang Road, Xihu District, Hangzhou, Zhejiang 866 Patentee after: ZHEJIANG University Patentee after: Honghe innovation and Technology Research Institute Co.,Ltd. Address before: 310058 Yuhang Tang Road, Xihu District, Hangzhou, Zhejiang 866 Patentee before: ZHEJIANG University Patentee before: HONGHE INNOVATION TECHNOLOGY Research Institute |