CN210148349U - Waste recovery device of ceramic 3D printer - Google Patents
Waste recovery device of ceramic 3D printer Download PDFInfo
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- CN210148349U CN210148349U CN201821158369.5U CN201821158369U CN210148349U CN 210148349 U CN210148349 U CN 210148349U CN 201821158369 U CN201821158369 U CN 201821158369U CN 210148349 U CN210148349 U CN 210148349U
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- milling cutter
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Abstract
The utility model discloses a waste recovery device of pottery 3D printer, a serial communication port, including the frame and the work area who sets up on it, air extraction chamber and the air exhauster of setting up in, the air suction opening of air exhauster is just to work area. The utility model discloses simple structure uses convenient operation.
Description
Technical Field
The utility model relates to a ceramic manufacture equipment technical field specifically is to relate to a pottery 3D printer.
Background
The 3D printing is a novel workpiece processing and manufacturing technology and is characterized in that sequential additive manufacturing from nothing to nothing is adopted in the manufacturing process, and traditional methods are manufacturing by gradually subtracting redundant materials from the absence to the presence. Compared with the traditional manufacturing method, the 3D printing technology of additive manufacturing has higher flexibility and usability. At present, a method of extruding laser sintering ceramic powder or ultrahigh temperature melting ceramic powder is mostly adopted for a ceramic 3D printer, but glue outlet temperature cannot be guaranteed, so that a product is often subjected to further metal processing on a milling machine after printing is finished, the operation is complex, and the production efficiency is greatly reduced.
Disclosure of Invention
The utility model aims at providing a simple structure, use convenient operation's ceramic 3D printer's waste recovery device for solving prior art not enough.
The utility model discloses an adopt following technical solution to realize above-mentioned purpose: the waste recovery device of the ceramic 3D printer is characterized by comprising a rack, a working area arranged on the rack, an air suction chamber and an exhaust fan arranged in the air suction chamber, wherein an air suction opening of the exhaust fan is opposite to the working area.
As a further explanation of the above scheme, two sides of the working area are respectively provided with a 3D printing device and a mechanical arm type milling cutter device, the 3D printing device comprises a printing arm, a printing nozzle and a position adjusting mechanism one, the printing arm is arranged on the position adjusting mechanism one, and the printing nozzle is connected with a feeding device;
the mechanical arm type milling cutter device comprises a position adjusting mechanism II, a milling cutter arm and a milling cutter clamp arranged on the milling cutter arm; the printing arm and the milling cutter arm respectively extend to the working area to switch the work.
The first position adjusting mechanism comprises a first rotating base, a first rotating motor connected with and driving the first rotating base to rotate, a first upright post arranged on the first rotating base, and a first lifting driving mechanism arranged on the first upright post, wherein the first lifting driving mechanism is connected with the printing arm.
Furthermore, the printing arm comprises a lifting arm and a swinging stretching arm, the first lifting driving mechanism is connected with the driving lifting arm, the swinging stretching arm is hinged with the lifting arm, and the first swinging driving motor device connected with the driving stretching arm for swinging is arranged on the lifting arm.
Furthermore, a first guide rail is arranged on the first upright post, the first lifting driving mechanism comprises a first lifting driving cylinder and a first lifting sliding block fixed on a first piston rod of the first lifting driving cylinder, the first lifting sliding block is in sliding connection with the first guide rail, and the printing arm is fixed on the first lifting sliding block.
Furthermore, the first rotating base comprises a first rotating wheel fixed at the bottom end of the first upright post through a rotating shaft, the first rotating motor is arranged on the printing arm, and a first driving belt is connected between the first rotating motor and the first rotating wheel
Furthermore, the position adjusting mechanism II comprises a rotating base II, a rotating motor II which is connected with and drives the rotating base II to rotate, an upright post II arranged on the rotating base II, and a lifting driving mechanism II arranged on the upright post II, wherein the lifting driving mechanism II is connected with the milling cutter arm.
Furthermore, the milling cutter arm comprises a mechanical stretching rear arm and a mechanical stretching front arm, the lifting driving mechanism I is connected with and drives the mechanical stretching rear arm, the mechanical stretching rear arm is hinged with the mechanical stretching front arm, and the mechanical stretching rear arm is provided with a second swing driving motor device which is connected with and drives the mechanical stretching front arm to swing.
Further, a milling cutter fixture is fixed on the mechanically stretched forearm, and a milling cutter is arranged on the milling cutter fixture.
The utility model adopts the beneficial effect that above-mentioned technical solution can reach is:
the utility model discloses a waste recovery device who mainly comprises the air exhauster of wind-pumping chamber and setting up, easy operation is convenient, can satisfy the demand of processing, great improvement production efficiency.
Drawings
Fig. 1 is a schematic structural view of the present invention;
fig. 2 is a schematic structural diagram of the present invention.
Description of reference numerals: 1. the device comprises a rack 2, a 3D printing device 2-1, a printing arm 2-2, a printing nozzle 2-3, a position adjusting mechanism I2-31, a rotating base I2-32, a rotating motor I2-33, an upright post I2-34, a lifting driving mechanism I3, a feeding device 4, a mechanical arm type milling cutter device 4-1, a position adjusting mechanism II 4-2, a milling cutter arm 4-3, a milling cutter clamp 5, a drying device 6 and a drying device.
Detailed Description
The technical solution is described in detail with reference to specific embodiments below.
Example 1
As shown in fig. 1-2, the utility model relates to a waste recovery device of ceramic 3D printer, wherein, the ceramic 3D printer includes frame 1 and the work area, 3D printing device 2, feedway 3, mechanical arm type milling cutter device 4, drying device 5 and waste recovery device 6 that set up on it, 3D printing device includes printing arm 2-1, printing shower nozzle 2-2, position control mechanism one 2-3, the printing arm sets up on position control mechanism one, the printing shower nozzle connects the feedway; the mechanical arm type milling cutter device 4 is arranged outside the 3D printing device and comprises a position adjusting mechanism II 4-1, a milling cutter arm 4-2 and a milling cutter clamp 4-3 arranged on the milling cutter arm; the printing arm and the milling cutter arm respectively extend to the working area to switch work; the drying device is arranged outside the working area and is used for drying in the product printing process; the waste recovery device is arranged outside the working area, and dust is absorbed in the working process of the mechanical arm type milling cutter device, so that ceramic waste is recovered. The position adjusting mechanism I2-3 comprises a rotating base I2-31, a rotating motor I2-32 connected with and driving the rotating base I to rotate, an upright post I2-33 arranged on the rotating base I, and a lifting driving mechanism I2-34 arranged on the upright post I, wherein the lifting driving mechanism I is connected with the printing arm. The printing arm comprises a lifting arm and a swinging extension arm, a first lifting driving mechanism is connected with the driving lifting arm, the swinging extension arm is hinged with the lifting arm, and a first swinging driving motor device connected with the driving extension arm for swinging is arranged on the lifting arm. The first upright post is provided with a first guide rail, the first lifting driving mechanism comprises a first lifting driving cylinder and a first lifting sliding block fixed on a first piston rod of the first lifting driving cylinder, the first lifting sliding block is in sliding connection with the first guide rail, and the printing arm is fixed on the first lifting sliding block. The first rotating base comprises a first rotating wheel fixed at the bottom end of the first upright post through a rotating shaft, the first rotating motor is arranged on the printing arm, and a first driving belt is connected between the first rotating motor and the first rotating wheel.
Furthermore, the position adjusting mechanism II comprises a rotating base II, a rotating motor II connected with and driving the rotating base II to rotate, an upright post II arranged on the rotating base II, and a lifting driving mechanism II arranged on the upright post II, wherein the lifting driving mechanism II is connected with the milling cutter arm 4-2. The milling cutter arm comprises a mechanical stretching rear arm and a mechanical stretching front arm, a lifting driving mechanism I is connected with the mechanical stretching rear arm and drives the mechanical stretching rear arm to be hinged with the mechanical stretching front arm, and a swing driving motor device II connected with the mechanical stretching front arm to swing is arranged on the mechanical stretching rear arm.
Further, a milling cutter fixture is fixed on the mechanically stretched forearm, and a milling cutter is arranged on the milling cutter fixture.
Further, the feeding device adopts a screw feeder, and the screw feeder is provided with a conveying pipe connected with the printing nozzle. The drying device comprises an electric heating device and a fan corresponding to the electric heating device, and the air supply direction of the fan faces to a working area. The waste recovery device comprises an air extraction chamber and an exhaust fan arranged in the air extraction chamber.
Example 2
In this embodiment, feedway adopts the mode of air pressure drive pay-off, including the material pumping pump with connect the conveying pipe between material pumping pump and print the shower nozzle.
Compared with the prior art, the utility model adopts the ceramic 3D printing device which mainly comprises a 3D printing device, a feeding device, a mechanical arm type milling cutter device, a drying device and a waste recovery device, wherein the 3D printing device comprises a printing arm, a printing spray head and a position adjusting mechanism I, the printing arm is arranged on the position adjusting mechanism I, and the printing spray head is connected with the feeding device; the mechanical arm type milling cutter device is arranged outside the 3D printing device and comprises a position adjusting mechanism II, a milling cutter arm and a milling cutter clamp arranged on the milling cutter arm; the printing arm and the milling cutter arm respectively extend to the working area to switch work; the drying device is arranged outside the working area and is used for drying in the product printing process; the waste recovery device is arranged outside the working area, dust is absorbed in the process of working of the mechanical arm type milling cutter device, ceramic waste is recovered, the operation is simple and convenient, the processing requirement can be met, and the production efficiency is greatly improved. .
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.
Claims (7)
1. The waste recovery device of the ceramic 3D printer is characterized by comprising a rack, a working area arranged on the rack, an air suction chamber and an exhaust fan arranged in the air suction chamber, wherein an air suction opening of the exhaust fan is opposite to the working area.
2. The waste recycling device of the ceramic 3D printer according to claim 1, wherein a 3D printing device and a mechanical arm type milling cutter device are respectively arranged on two sides of the working area, the 3D printing device comprises a printing arm, a printing nozzle and a first position adjusting mechanism, the printing arm is arranged on the first position adjusting mechanism, and the printing nozzle is connected with a feeding device;
the mechanical arm type milling cutter device comprises a position adjusting mechanism II, a milling cutter arm and a milling cutter clamp arranged on the milling cutter arm; the printing arm and the milling cutter arm respectively extend to the working area to switch the work.
3. The waste recycling device of a ceramic 3D printer as claimed in claim 2, wherein the first position adjusting mechanism comprises a first rotating base, a first rotating motor connected to drive the first rotating base to rotate, a first upright post arranged on the first rotating base, and a first lifting driving mechanism arranged on the first upright post, and the first lifting driving mechanism is connected to the printing arm.
4. The waste recycling device of the ceramic 3D printer as claimed in claim 1, wherein the printing arm comprises a lifting arm and a swinging extension arm, the lifting driving mechanism I is connected with and drives the lifting arm, the swinging extension arm is hinged with the lifting arm, and the lifting arm is provided with a swinging driving motor I connected with and drives the extension arm to swing.
5. The waste recycling device of a ceramic 3D printer according to claim 3, wherein the first column is provided with a first guide rail, the first lifting driving mechanism comprises a first lifting driving cylinder and a first lifting slider fixed on the first piston rod of the first lifting driving cylinder, the first lifting slider is slidably connected with the first guide rail, and the printing arm is fixed on the first lifting slider.
6. The waste recycling device of a ceramic 3D printer as claimed in claim 3, wherein the first rotating base includes a first rotating wheel fixed to a bottom end of the column via a rotating shaft, the first rotating motor is disposed on the printing arm, and a first driving belt is connected between the first rotating wheel and the first rotating motor.
7. The waste recycling device of the ceramic 3D printer according to claim 2, wherein the second position adjusting mechanism comprises a second rotating base, a second rotating motor connected to drive the second rotating base to rotate, a second upright post arranged on the second rotating base, and a second lifting driving mechanism arranged on the second upright post, and the second lifting driving mechanism is connected with the milling cutter arm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821158369.5U CN210148349U (en) | 2018-07-21 | 2018-07-21 | Waste recovery device of ceramic 3D printer |
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CN201821158369.5U CN210148349U (en) | 2018-07-21 | 2018-07-21 | Waste recovery device of ceramic 3D printer |
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CN210148349U true CN210148349U (en) | 2020-03-17 |
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CN201821158369.5U Active CN210148349U (en) | 2018-07-21 | 2018-07-21 | Waste recovery device of ceramic 3D printer |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108858661A (en) * | 2018-07-21 | 2018-11-23 | 佛山职业技术学院 | A kind of waste material recovery device of ceramics 3D printer |
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2018
- 2018-07-21 CN CN201821158369.5U patent/CN210148349U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108858661A (en) * | 2018-07-21 | 2018-11-23 | 佛山职业技术学院 | A kind of waste material recovery device of ceramics 3D printer |
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