TWM522127U - Multi-functional 3D printer - Google Patents

Description

Multifunctional 3D printer

The utility model is applied to the technical field of a 3D printing machine, in particular to a technically provided 3D printing machine with multifunctional functions, which is formed by integrally forming a plurality of machine columns to improve the rigidity and stability of the overall structure, and the number correction The structure can adjust the error of displacement wear to maintain the original high precision performance; and the processing module can perform single and multi-color printing functions without stopping the machine and other purposes.

Industrial manufacturing technology is changing with each passing day. With the advancement of computer-aided manufacturing, the three-dimensional printing technology of the manufacturing industry can quickly create the original design concept. In addition, the three-dimensional printing technology is actually a series of rapid prototyping. The general principle of technology is that the basic principle is laminated manufacturing. The rapid prototyping machine forms the cross-sectional shape of the workpiece through the scanning form in the X plane and the Y plane, and intermittently makes the displacement of the layer thickness in the Z coordinate, and finally forms a three-dimensional object; However, in the case of a single extruder with a single-injector and a single-head 3D printer, the low rigidity is often accompanied by insufficient structural rigidity, the color must be stopped when the color is changed, the color boundary is obviously rough, and the workpiece is worn under long-term use. There are many problems, such as printing errors and the inability to replace the modules, which have plagued the relevant personnel for a long time and are necessary for improvement.

Therefore, in view of the problems existing in the above-mentioned conventional 3D printing machine, how to develop an innovative structure with more ideal and practicality is really eagerly awaited by consumers, and it is also the goal and direction of relevant industry players to make efforts to develop breakthroughs.

The technical problems to be solved are as follows: the conventional structure is insufficient in rigidity, the color must be stopped when the color is changed, the color boundary is obviously rough, the wear of the parts under long-term use causes errors in the printing of the workpiece, and the module cannot be replaced.

Technical feature of solving the problem: The present invention provides a multifunctional 3D printing machine, which comprises: a horizontal base which is polygonal and has an embedded control panel on the vertical side of the surface, and at this level The pedestal extends upwardly from the plurality of columnes, and each of the columns is equidistant from each other and a sliding slot is respectively recessed toward a longitudinal center line of the horizontal pedestal. Each of the sliding slots is longitudinally and slidably arranged with a correcting structure. The plurality of pulleys are arranged on the two sides of the correction structure, and the plurality of pulleys are respectively disposed on the opposite sides of the sliding structure, and the levers are respectively pivotally disposed on opposite sides of the correction structure, and each of the rods extends to one side of the processing module The processing module is located above the horizontal base; a chassis component, the surface of the chassis component is fixed with a plating structure, and a plurality of adsorption components are fixed on the periphery of the bottom, and each of the adsorption components is adsorbed on the top of the horizontal base; a feeding assembly, the feeding assembly is detachably disposed on one side of one of the machine columns, and is connected with a feeding tube to a top surface of the processing module; and a feeding structure, the feeding structure is fixed at each The column relative to the level The other end of the seat, and a connecting pipe to the feeding assembly.

Each of the machine columns is an integrally formed aluminum alloy structure, and one of the ones is fixed with a signal plug on the top side, and the signal plug is electrically connected to the top end of the processing module.

The processing module is one of a heating nozzle module, a 3D printing nozzle, a laser engraving module, a mechanical engraving module or a mechanical drilling module.

Wherein, when the processing module is a heating nozzle module, the processing module has a function of self-heat dissipation and a nozzle element is disposed on the bottom surface, and the nozzle component has a self-crushing design.

Among them, the feed always becomes an aluminum alloy and a stainless steel structure.

Wherein, a top cover is fixed on the top of each of the column, and the top cover corresponds to the shape of the horizontal base.

Compared with the efficacy of the prior art: the novel significantly improves the rigidity and stability of the overall structure by each of the machine columns, and the correction structure can adjust the error of the displacement wear to maintain the original high precision performance; and can be operated without stopping the machine Various functions such as single-color and multi-color printing.

With regard to the techniques, means and functions of the present invention, a preferred embodiment will be described in detail with reference to the drawings and drawings, and the reviewer will be able to have a more detailed understanding of the novel and familiarize himself with the The skilled artisan can implement the following, and the following description is only for explaining the preferred embodiment and is not intended to limit the scope of the present invention. Therefore, any configuration of the present invention based on the configuration of the present invention may be Modifications are within the scope of this new type of protection.

10‧‧‧ horizontal base

11‧‧‧ embedded control panel

12‧‧‧Top cover

20‧‧‧ machine column

21‧‧‧Chute

22‧‧‧Signal plug

30‧‧‧Correction structure

31‧‧‧ lever

32‧‧‧Processing module

33‧‧‧Shrinking head components

34‧‧‧ pulley

40‧‧‧Chassis components

41‧‧‧coating structure

42‧‧‧Adsorption elements

50‧‧‧Feeding assembly

60‧‧‧Feed structure

Fig. 1 is a perspective view of the appearance of the present invention.

Fig. 2 is a perspective exploded view of the present invention.

Figure 3: This is a magnified view of the total body of the new type of feed.

Fig. 4 is a three-dimensional enlarged view of the sliding groove of the machine column of the present invention.

Figure 5: The stereoscopic exploded view of the calibration structure and processing module of the present invention.

Figure 6 is a perspective exploded view of the feed structure of the present invention.

Figure 7 is an exploded perspective view of the chassis component of the present invention.

Please refer to FIG. 1 to FIG. 7 as follows. This embodiment provides a multi-functional 3D printer comprising: a horizontal base 10 having a polygonal shape and a vertical side of the surface. The control panel 11 is embedded with the plurality of columnes 20 extending upwardly from the horizontal base 10, and the column 20 is equidistant from each other and a slot 21 is recessed toward the longitudinal center line of the horizontal base 10, Each of the sliding slots 21 is longitudinally and slidably disposed with a correcting structure 30. The plurality of pulleys 34 are respectively disposed on the two sides of the correcting structure 30, and the correcting structure 30 is respectively pivoted on opposite sides. a pull rod 31, each of the pull rods 31 extending to one side of the processing module 32 to the horizontal base 10, so that the processing module 32 is located above the horizontal base 10; a chassis member 40, the surface of the chassis member 40 A plating structure 41 is fixed and a plurality of adsorption elements 42 are fixed on the periphery of the bottom, each of the adsorption elements 42 is adsorbed on the top end of the horizontal base 10; a feeding assembly 50, the feeding assembly 50 is detachably disposed therein One side of the column 20, and a feeding tube (not shown) is connected to the processing module 32 Surface; a feed structure 60, the feed structure 60 is fixed to each post 20 to the machine and the other end of the horizontal base 10 and is connected to a tube (not shown) to the feed assembly 50.

Each of the chassis 20 is an integrally formed aluminum alloy structure, and one of the signal plugs 22 is fixed to the top end of the machining module 32.

The processing module 32 is one of a heating nozzle module, a 3D printing nozzle, a laser engraving module, a mechanical engraving module or a mechanical drilling module.

When the processing module 32 is a heating head module, the processing module 32 has a function of self-heat dissipation and a nozzle element 33 is disposed on the bottom surface, and the nozzle element 33 has a self-crushing design.

The feed assembly 50 is an aluminum alloy and a stainless steel structure.

A top cover 12 is fixed on the top of each of the column 20s, and the top cover 12 corresponds to the shape of the horizontal base 10.

When the present invention is activated, firstly, each of the adsorption elements 42 of the chassis component 40 is fixed on the horizontal base 10, and then the power of the embedded control panel 11 is turned on and connected to transmit the workpiece data to be processed to the embedded control. In the panel 11, the printing material is conveyed downwardly from the feeding structure 60 into the feeding structure, and the printing material is extruded to the processing module 32; and each of the correction structures 30 is disposed on each of the machine frames 20 Each of the chutes 21 is vertically slid, and the processing module 32 heats the printing material to the chassis member 40 on the horizontal pedestal 10 for workpiece printing; it is particularly remarkable that not only Each of the machine columns 20 is integrally formed to strengthen the overall structural rigidity, and the feed assembly 50 can be directly changed in color during operation, and can be seamlessly coupled without stopping the command, and each of the correction structures 30 is subjected to wear error. The adjustment module is used to maintain high-precision printing performance under long-term operation; in addition, when the processing module 32 is a heating nozzle module, the processing module 32 has a function of self-heat dissipation, and the nozzle element 33 has a self-destruction function. Design, The purpose of avoiding improper operation is to damage the head element 33 and eliminating the need to install a fan to effectively simplify the internal structure. At the same time, the feeding structure 60 is integrally formed on the top of each of the column 20 to improve the overall rigidity, and the horizontal base 10 cooperates. The embedded control panel 11 obtains a better overall sense. Further, each of the adsorption elements 42 of the chassis member 40 is detachably separated from the horizontal base 10, so that the finished product can be conveniently separated.

In summary of the above, the present invention has the above-mentioned numerous effects and practical values. And can effectively improve the overall economic benefits, so this new model is indeed an excellent structure, and the same or similar products are not used publicly in the same field technology, should meet the requirements of the new patent, and apply according to law. Please also give this new patent.

10‧‧‧ horizontal base

11‧‧‧ embedded control panel

12‧‧‧Top cover

20‧‧‧ machine column

21‧‧‧Chute

30‧‧‧Correction structure

31‧‧‧ lever

32‧‧‧Processing module

33‧‧‧The head element’

34‧‧‧ pulley

40‧‧‧Chassis components

41‧‧‧coating structure

50‧‧‧Feeding assembly

60‧‧‧Feed structure

Claims (6)

A multi-functional 3D printing machine comprises: a horizontal base, the horizontal base is polygonal, and an embedded control panel is fixed on a vertical side of the surface, and a plurality of machine columns are extended upwards on the horizontal base Each of the machine columns is equidistant from each other and has a sliding slot respectively facing a longitudinal center line of the horizontal base. Each of the sliding slots is longitudinally and respectively slidably provided with a correcting structure, and each of the correcting structures is provided with a plurality of pulleys on both sides thereof. Correspondingly matched to each of the sliding slots, and the correction structure is further configured with a pull rod on each of the opposite sides, and each of the pull rods extends to one side of the processing module to the horizontal base, so that the processing module is located at the side Above the horizontal base; a chassis component, the surface of the chassis component is fixed with a plating structure and a plurality of adsorption elements are fixed on the periphery of the bottom, each of the adsorption components is adsorbed on the top of the horizontal base; a feeding assembly, the feeding assembly Removably disposed on one side of the column and connected to a feeding tube to a top surface of the processing module; a feeding structure fixed to each of the column relative to the horizontal base The other end of the seat, and connected to a discharge pipe to Feed assembly. The versatile 3D printing machine according to claim 1, wherein each of the machine columns is an integrally formed aluminum alloy structure, and one of the ones is fixed with a signal plug on the top side, and the signal plug is electrically connected to The top of the processing module. The multi-functional 3D printing machine according to claim 1, wherein the processing module is a heating nozzle module, a 3D printing nozzle, a laser engraving module, a mechanical engraving module or a mechanical drilling module. One. The multi-function 3D printing machine according to claim 3, wherein when the processing module is a heating nozzle module, the processing module has a function of self-heat dissipation and a nozzle element is provided on the bottom surface, and the nozzle component has Broken design. The multifunctional 3D printing machine according to claim 1, wherein the feeding material is always aluminum alloy and stainless Steel structure. The versatile 3D printer of claim 1, wherein a top cover is fixed on the top of each of the column, and the top cover corresponds to the shape of the horizontal base.