CN219405444U - Forming equipment for 3D printing - Google Patents

Abstract

The utility model discloses forming equipment for 3D printing, and relates to the technical field of 3D printing. Comprising the following steps: the printer comprises a forming box, a mounting plate, a printing mechanism, a refrigerating mechanism and a printing box, wherein the mounting plate is fixedly arranged on the inner wall of the forming box, the printing mechanism is arranged in the forming box and comprises a printer main body and a printing table, the printer main body is arranged on the top of the inner wall of the forming box, the printing table is fixedly arranged on the top of the outer wall of the mounting plate, and the refrigerating mechanism is arranged on the top of the outer wall of the mounting plate. This a former for 3D prints, reduce air temperature through the semiconductor refrigeration piece, the cooling fan accelerates the velocity of flow of air, the air conditioning of making is through two sets of radiator unit, enter into the mounting panel top, can cool down the object of printing fast, and accelerate cooling rate, thereby improve cooling efficiency, this a former for 3D prints drives the annular plate through drive unit and rotates on the printing platform, can drive radiator unit rotation, the object that makes the printing out can cool down uniformly, avoid the cooling uneven.

Description

Forming equipment for 3D printing

Technical Field

The utility model relates to the technical field of 3D printing, in particular to forming equipment for 3D printing.

Background

3D printing is a rapid prototyping technology, also called additive manufacturing, which is a technology for constructing objects by using powdery metal or plastic or other bondable materials based on digital model files in a layer-by-layer printing mode, and 3D printing is usually realized by adopting a digital technical material printer. Often in the fields of mould manufacture, industrial design, etc., are used to manufacture models, and later gradually in the direct manufacture of some products, parts have been printed using this technique.

When carrying out 3D printing now, because can produce higher temperature when carrying out processing preparation, so can lead to the object of printing to take place deformation when printing, the object of printing the completion needs just can take out it after waiting for its complete cooling simultaneously, has not only increased the time of printing like this, has reduced the efficiency of processing simultaneously.

The authority publication number CN217258421U describes a forming device for production and processing of 3D printing equipment, and the technical scheme is as follows: including the bottom plate, the cavity has been seted up to inside the bottom plate, and the cavity is inside to be equipped with power unit, and power unit extends to the cavity outside, and power unit includes the motor, and the motor is fixed to be equipped with the bottom plate bottom, and motor output fixedly connected with bull stick, bull stick top run through the bottom plate bottom and extend to inside the cavity, and the bull stick passes through bearing connection with the bottom plate, and the equal fixedly connected with flabellum in bull stick both sides, the beneficial effect of the utility model is: through increasing power unit and cooling subassembly, power unit's setting can be well for the cooling subassembly provides power in, can inhale the outside air of cavity to the cavity inside to blow the object of being printed out well through cooling subassembly's setting, make it can cool down the cooling fast and take out it, avoided needing waiting for its cooling for a long time just can take out it, increased the efficiency of printing.

The above-mentioned patent can blow the object that is printed out well with the air, makes it can cool down cooling fast and shaping fast, but above-mentioned patent only cools down the object that prints out through normal atmospheric temperature wind, and the cooling speed is slow, and is inefficiency, and can not evenly cool down the processing to the object that prints out.

Disclosure of Invention

The utility model provides forming equipment for 3D printing, which reduces the air temperature through a semiconductor refrigerating sheet, accelerates the flow speed of air through a refrigerating fan, and makes cold air enter the upper part of a mounting plate through two groups of radiating components, so that the printed object can be rapidly cooled, and the cooling speed is accelerated, thereby improving the cooling efficiency, and the annular plate is driven to rotate on a printing table through a driving component, so that the radiating components can be driven to rotate, the printed object can be uniformly cooled, and uneven cooling is avoided.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a molding apparatus for 3D printing, comprising:

a forming box;

the mounting plate is fixedly arranged on the inner wall of the forming box;

the printing mechanism is arranged in the forming box and comprises a printer main body and a printing table, wherein the printer main body is arranged at the top of the inner wall of the forming box, and the printing table is fixedly arranged at the top of the outer wall of the mounting plate;

the refrigerating mechanism is arranged in the forming box and comprises a semiconductor refrigerating sheet, a refrigerating fan and two groups of radiating components, wherein the semiconductor refrigerating sheet is arranged at one side of the outer wall of the forming box and is close to the edge of the bottom, the refrigerating fan is arranged at one side of the inner wall of the forming box, and each group of radiating components are symmetrically arranged in the forming box; and

the rotating mechanism is arranged on the printing table and comprises an annular plate and a driving part, the annular plate is movably sleeved on the outer wall of the printing table, and the driving part is arranged on the mounting plate.

Further, every group the radiating part includes fan, tuber pipe and lifting unit, the fan passes through the bolt to be installed in the inner wall bottom of shaping case, the tuber pipe is fixed to be set up in the output of fan, and the outer wall of tuber pipe slides and runs through in the outer wall top of mounting panel, lifting unit locates on the annular plate.

Further, every group lifting unit all includes first positive and negative motor, threaded rod, movable block and guide bar, first positive and negative motor passes through the bolt to be installed in the outer wall top of annular plate, the threaded rod is fixed to be set up in the output of first positive and negative motor, movable block threaded connection in the outer wall of threaded rod, the guide bar is fixed to be set up in the outer wall top of annular plate, the outer wall of guide bar is located to movable block movable sleeve, the one end of tuber pipe is installed in outer wall one side of movable block.

Further, the driving part comprises a second positive and negative motor, a pinion and a large gear, the second positive and negative motor is mounted on the top of the outer wall of the mounting plate through a bolt, the pinion is fixedly sleeved at the output end of the second positive and negative motor, the large gear is movably sleeved at the outer wall of the printing table, the large gear is fixedly arranged at the bottom of the outer wall of the annular plate, and the large gear is meshed with the small gear.

Further, a plurality of ventilation holes are formed in the position, close to the bottom edge, of one side of the outer wall of the forming box.

Further, a plurality of heat dissipation holes are formed in the top of the inner wall of the forming box.

The utility model provides a forming device for 3D printing. The beneficial effects are as follows:

(1) This a former for 3D prints, through semiconductor refrigeration piece reduction air temperature, the refrigerating fan accelerates the velocity of flow of air, and the air conditioning of making is through two sets of radiator unit, enters into the mounting panel top, can cool down the object of printing fast to accelerate cooling rate, thereby improve cooling efficiency.

(2) This a former for 3D prints drives the annular plate through drive part and rotates on the print table, can drive the radiator unit rotation, makes the object that prints can cool down uniformly, avoids the uneven cooling.

Drawings

FIG. 1 is a perspective view of a first view of the present utility model;

FIG. 2 is a second perspective view of the present utility model;

FIG. 3 is a cross-sectional view of the present utility model;

fig. 4 is an enlarged schematic view of fig. 3 a in accordance with the present utility model.

In the figure: 1. a forming box; 2. a mounting plate; 3. a printer main body; 4. a printing table; 5. a semiconductor refrigeration sheet; 6. a refrigerating fan; 7. an annular plate; 8. a blower; 9. an air duct; 10. a first reversible motor; 11. a threaded rod; 12. a moving block; 13. a guide rod; 14. a second forward and reverse motor; 15. a pinion gear; 16. a large gear; 17. a vent hole; 18. and the heat dissipation holes.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model. It is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present utility model are within the protection scope of the present utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: a molding apparatus for 3D printing, comprising:

a molding box 1;

the mounting plate 2 is fixedly arranged on the inner wall of the forming box 1;

the printing mechanism is arranged in the forming box 1 and comprises a printer main body 3 and a printing table 4, wherein the printer main body 3 is arranged at the top of the inner wall of the forming box 1, and the printing table 4 is fixedly arranged at the top of the outer wall of the mounting plate 2;

the refrigerating mechanism is arranged in the forming box 1 and comprises a semiconductor refrigerating sheet 5, a refrigerating fan 6 and two groups of radiating components, wherein the semiconductor refrigerating sheet 5 is arranged at the position, close to the bottom edge, of one side of the outer wall of the forming box 1, the refrigerating fan 6 is arranged at one side of the inner wall of the forming box 1, and each group of radiating components are symmetrically arranged in the forming box 1; and

the rotating mechanism is arranged on the printing table 4 and comprises an annular plate 7 and a driving part, the annular plate 7 is movably sleeved on the outer wall of the printing table 4, and the driving part is arranged on the mounting plate 2.

In this embodiment: through mounting panel 2 in the shaping case 1, can separate the space in the shaping case 1, printer main part 3 is the 3D printer, print table 4 is used for placing the object that 3D printed out, reduce air temperature through semiconductor refrigeration piece 5, refrigerating fan 6 accelerates the velocity of flow of air, can reduce the temperature of mounting panel 2 below air fast, through two sets of radiator unit, make the air conditioning that makes enter into mounting panel 2 top, can cool down the object that prints fast, and accelerate cooling rate, thereby improve cooling efficiency, drive annular slab 7 through the drive unit and rotate on print table 4, can drive radiator unit rotation, make the object that prints can cool down uniformly, avoid the uneven cooling, semiconductor refrigeration piece 5 inlays and locates the outer wall one side of shaping case 1, the cold junction of semiconductor refrigeration piece 5 is linked together with the inside of shaping case 1, the hot junction of semiconductor refrigeration piece 5 is located the outer wall of shaping case 1, avoid influencing the refrigeration effect, refrigerating fan 6 is located one side of semiconductor refrigeration piece 5 cold junction, improve cooling efficiency.

Specifically, every group of radiating parts includes fan 8, tuber pipe 9 and lifting unit, and fan 8 passes through the bolt to be installed in the inner wall bottom of shaping case 1, and tuber pipe 9 is fixed to be set up in the output of fan 8, and the outer wall slip of tuber pipe 9 runs through in the outer wall top of mounting panel 2, and lifting unit locates on the annular plate 7.

In this embodiment: the air after cooling is pumped into the air pipe 9 through the fan 8, one end of the air pipe 9 is driven by the lifting component to move up and down, the printed object can be cooled down rapidly, the cooling speed is increased, the cooling efficiency is improved, the air pipe 9 is a hose, and the length of the air pipe 9 can be set according to the actual use condition.

Specifically, every group lifting assembly all includes first positive and negative motor 10, threaded rod 11, movable block 12 and guide bar 13, and first positive and negative motor 10 passes through the bolt to be installed in the outer wall top of annular plate 7, and threaded rod 11 is fixed to be set up in the output of first positive and negative motor 10, and movable block 12 threaded connection is in the outer wall of threaded rod 11, and guide bar 13 is fixed to be set up in the outer wall top of annular plate 7, and the outer wall of guide bar 13 is located to movable block 12 movable sleeve, the one end of tuber pipe 9 is installed in outer wall one side of movable block 12.

In this embodiment: the first positive and negative motor 10 on the annular plate 7 drives the threaded rod 11 to rotate under the condition of being electrified, the moving block 12 can be driven to move, sliding fit between the moving block 12 and the guide rod 13 can play a role in guiding the moving direction of the moving block 12, and one end of the air pipe 9 can be driven to move along with the up-and-down movement of the moving block 12.

Specifically, the driving part includes a second positive and negative motor 14, a pinion 15 and a large gear 16, the second positive and negative motor 14 is mounted on the top of the outer wall of the mounting plate 2 through a bolt, the pinion 15 is fixedly sleeved at the output end of the second positive and negative motor 14, the large gear 16 is movably sleeved at the outer wall of the printing table 4, the large gear 16 is fixedly arranged at the bottom of the outer wall of the annular plate 7, and the large gear 16 is meshed with the small gear 15.

In this embodiment: the pinion 15 is driven to rotate under the condition of electrifying through the second positive and negative motor 14, the bull gear 16 is driven to rotate, the bull gear 16 drives the annular plate 7 to rotate on the printing table 4, thereby drive the lifting assembly to move, the printed object can be uniformly cooled, uneven cooling is avoided, the power of the second positive and negative motor 14, the first positive and negative motor 10, the semiconductor refrigerating sheet 5, the refrigerating fan 6 and the fan 8 is sourced from an external power supply, the second positive and negative motor 14, the first positive and negative motor 10, the semiconductor refrigerating sheet 5, the refrigerating fan 6 and the fan 8 are electrically connected with the external power supply, the internal circuit principle structure of the second positive and negative motor is common knowledge of a person skilled in the art, the model of the second positive and negative motor can be selected according to the actual use condition.

Specifically, a plurality of ventilation holes 17 are formed in the side of the outer wall of the molding box 1 near the bottom edge.

In this embodiment: air outside the molding box 1 is introduced into the molding box 1 through the vent hole 17.

Specifically, a plurality of heat dissipation holes 18 are formed in the top of the inner wall of the molding box 1.

In this embodiment: through the heat dissipation holes 18 for ventilation and heat dissipation.

When the printer is used, the printer body 3 in the forming box 1 prints objects on the printing table 4, the semiconductor refrigerating sheet 5 and the refrigerating fan 6 are opened again, the flow speed of air in the forming box 1 is accelerated, the air temperature is reduced, cooled air is pumped into the air pipe 9 through the fan 8, the first positive and negative motor 10 is synchronously driven to drive the threaded rod 11 to rotate, the moving block 12 is driven to move, one end of the air pipe 9 is driven to move, the printed objects can be quickly cooled, the cooling speed is accelerated, the cooling efficiency is improved, the second positive and negative motor 14 is simultaneously started to drive the pinion 15 to rotate, the bull gear 16 is driven to rotate, the bull gear 16 drives the annular plate 7 to rotate on the printing table 4, the position of the air outlet of each air pipe 9 is changed, the printed objects can be uniformly cooled, and uneven cooling is avoided.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. A molding apparatus for 3D printing, comprising:

a molding box (1);

the mounting plate (2) is fixedly arranged on the inner wall of the Cheng Xingxiang (1);

the printing mechanism is arranged in the forming box (1) and comprises a printer main body (3) and a printing table (4), the printer main body (3) is arranged at the top of the inner wall of the forming box (1), and the printing table (4) is fixedly arranged at the top of the outer wall of the mounting plate (2);

the refrigerating mechanism is arranged in the forming box (1) and comprises a semiconductor refrigerating sheet (5), a refrigerating fan (6) and two groups of radiating components, wherein the semiconductor refrigerating sheet (5) is arranged at the position, close to the bottom edge, of one side of the outer wall of the forming box (1), the refrigerating fan (6) is arranged at one side of the inner wall of the forming box (1), and each group of radiating components are symmetrically arranged in the forming box (1); and

the rotary mechanism is arranged on the printing table (4) and comprises an annular plate (7) and a driving part, the annular plate (7) is movably sleeved on the outer wall of the printing table (4), and the driving part is arranged on the mounting plate (2).

2. A molding apparatus for 3D printing as claimed in claim 1, wherein: every group the radiating part includes fan (8), tuber pipe (9) and lifting unit, fan (8) are installed in the inner wall bottom of shaping case (1) through the bolt, tuber pipe (9) are fixed to be set up in the output of fan (8), and the outer wall slip of tuber pipe (9) runs through in the outer wall top of mounting panel (2), lifting unit locates on annular plate (7).

3. A molding apparatus for 3D printing as claimed in claim 2, wherein: every group lifting unit all includes first positive and negative motor (10), threaded rod (11), movable block (12) and guide bar (13), first positive and negative motor (10) are installed in the outer wall top of annular plate (7) through the bolt, threaded rod (11) are fixed to be set up in the output of first positive and negative motor (10), movable block (12) threaded connection in the outer wall of threaded rod (11), guide bar (13) are fixed to be set up in the outer wall top of annular plate (7), the outer wall of guide bar (13) is located to movable block (12) movable sleeve, the one end of tuber pipe (9) is installed in outer wall one side of movable block (12).

4. A molding apparatus for 3D printing as claimed in claim 1, wherein: the driving part comprises a second positive and negative motor (14), a pinion (15) and a large gear (16), the second positive and negative motor (14) is mounted on the top of the outer wall of the mounting plate (2) through bolts, the pinion (15) is fixedly sleeved at the output end of the second positive and negative motor (14), the large gear (16) is movably sleeved at the outer wall of the printing table (4), the large gear (16) is fixedly arranged at the bottom of the outer wall of the annular plate (7), and the large gear (16) is meshed with the small gear (15).

5. A molding apparatus for 3D printing as defined in claim 4, wherein: a plurality of ventilation holes (17) are formed in the position, close to the bottom edge, of one side of the outer wall of the forming box (1).

6. A molding apparatus for 3D printing as defined in claim 5, wherein: a plurality of heat dissipation holes (18) are formed in the top of the inner wall of the forming box (1).