CN204263551U - A kind of 3D printer imaging device - Google Patents

Abstract

A kind of 3D printer imaging device, its technical essential is: comprise device body, described device body comprises the field lens that print platform bottom is arranged, the bottom of field lens is provided with galvanometer fixed mount, one end of galvanometer fixed mount is connected with horizontal galvanometer, the other end of galvanometer fixed mount is connected with casing, the bottom of galvanometer arranges the second galvanometer being also provided with a horizontal parallel and placing, one end of second galvanometer is connected with galvanometer fixed mount, the bottom of galvanometer fixed mount is provided with horizontal convex lens, convex lens are connected with convex lens mirror holder, the bottom of convex lens is provided with dmd chip, the bottom of dmd chip is provided with wafer support plate, the oblique upper of dmd chip is provided with light source, adopt this technical scheme, improve the compact dimensions of photocuring 3D printer, improve the printing precision of photocuring 3D printer, improve the print speed of photocuring 3D printer, reduce printing cost.

Description

A kind of 3D printer imaging device

Technical field

The utility model relates to 3D printer configuration technical field, specifically a kind of 3D printer imaging device.

Background technology

It is large that current SLA photocuring 3D printer prints volume, and formed precision is better, and shaping efficiency is better, but its spot diameter is directly proportional to shaping speed, and spot diameter and formed precision are inversely proportional to, and three cannot reach best effect.

The 3D printer printing precision of DLP is high, and shaping efficiency is high, but prints small volume, if require that type-script sum printing precision and speed all improve, then often kind of forming principle limitation of having it intrinsic, it is larger that it prints the larger shaping volume of the conical surface, formed precision and shaping speed lower.

Utility model content

In order to solve the problem, the utility model provides a kind of 3D printer imaging device.

A kind of 3D printer imaging device, comprise device body, it is characterized in that: described device body comprises the field lens that print platform bottom is arranged, the bottom of field lens is provided with galvanometer fixed mount, one end of galvanometer fixed mount is connected with horizontal galvanometer, the other end of galvanometer fixed mount is connected with casing, the bottom of galvanometer arrange also be provided with that a horizontal parallel places the second galvanometer, one end of second galvanometer is connected with galvanometer fixed mount, the bottom of galvanometer fixed mount is provided with horizontal convex lens, convex lens are connected with convex lens mirror holder, the bottom of convex lens is provided with dmd chip, the bottom of dmd chip is provided with wafer support plate, the oblique upper of dmd chip is provided with light source.

Further, described field lens is horizontal.

Further, described convex lens are two.

Further, described light source is UV spot light.

Further, described second galvanometer connect galvanometer fixed mount side not disposed thereon galvanometer fixed mount immediately below.Advantage of the present utility model:

1, improve the compact dimensions of photocuring 3D printer;

2, the printing precision of photocuring 3D printer is improved;

3, improve the print speed of photocuring 3D printer;

4, printing cost is reduced.

Accompanying drawing explanation

Fig. 1 is overall structure simplified schematic diagram of the present utility model.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated; Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Embodiment 1

As shown in Figure 1, a kind of 3D printer imaging device, comprise device body 1, described device body 1 comprises the field lens 3 that print platform 2 bottom is arranged, the bottom of field lens 3 is provided with galvanometer fixed mount 4, one end of galvanometer fixed mount 4 is connected with horizontal galvanometer 10, the other end of galvanometer fixed mount 4 is connected with casing, the bottom of galvanometer 10 arrange also be provided with that a horizontal parallel places the second galvanometer 9, one end of second galvanometer 9 is connected with galvanometer fixed mount 4, the bottom of galvanometer fixed mount 4 is provided with horizontal convex lens 8, convex lens 8 are connected with convex lens mirror holder, the bottom of convex lens is provided with dmd chip 7, the bottom of dmd chip 7 is provided with wafer support plate 6, the oblique upper of dmd chip 7 is provided with light source 5.

Embodiment 2

As shown in Figure 1, a kind of 3D printer imaging device, comprise device body 1, described device body 1 comprises the horizontal field lens 3 that print platform 2 bottom is arranged, the bottom of field lens 3 is provided with galvanometer fixed mount 4, one end of galvanometer fixed mount 4 is connected with horizontal galvanometer 10, the other end of galvanometer fixed mount 4 is connected with casing, the bottom of galvanometer 10 arrange also be provided with that a horizontal parallel places the second galvanometer 9, one end of second galvanometer 9 is connected with galvanometer fixed mount 4, immediately below the galvanometer fixed mount 4 of galvanometer fixed mount 4 side not disposed thereon that the second galvanometer 9 connects, the bottom of galvanometer fixed mount 4 is provided with two horizontal convex lens 8, convex lens 8 are connected with convex lens mirror holder, the bottom of convex lens is provided with dmd chip 7, the bottom of dmd chip 7 is provided with wafer support plate 6, the oblique upper of dmd chip 7 is provided with UV spot light 5.

The ultraviolet that UV spot light 5 sends projects on dmd chip 7, light beam body able to programme is formed by dmd chip 7 reflection source, the light beam of direct projection angle is formed again by convex lens 8, again by galvanometer 10 deflected beam direction, be refracted in field lens 3, the light beam formed perpendicular to print platform 2 is focused on by field lens 3, finally project and need in shaping structure, printed by superposition and form 3D model, dmd chip 7 is controlled by computer program, make the projection able to programme of its reflecting surface formative dynamics, tube bank is made to become a facet to move on print platform 2 by convex lens 8 with the deflection of galvanometer 10 and field lens 3 again, computer control system controls perspective plane in real time, make itself and galvanometer 10 deflection speed linear, a little perspective plane deflection then finally can be used to project a large perspective plane, and because the collaborative work of DLP system and laser galvanometer system makes final perspective plane can be any pattern able to programme.

Claims (5)

1. a 3D printer imaging device, comprise device body, it is characterized in that: described device body comprises the field lens that print platform bottom is arranged, the bottom of field lens is provided with galvanometer fixed mount, one end of galvanometer fixed mount is connected with horizontal galvanometer, the other end of galvanometer fixed mount is connected with casing, the bottom of galvanometer arrange also be provided with that a horizontal parallel places the second galvanometer, one end of second galvanometer is connected with galvanometer fixed mount, the bottom of galvanometer fixed mount is provided with horizontal convex lens, convex lens are connected with convex lens mirror holder, the bottom of convex lens is provided with dmd chip, the oblique upper of dmd chip is provided with light source.

2. a kind of 3D printer imaging device according to claim 1, is characterized in that: described field lens is horizontal.

3. a kind of 3D printer imaging device according to claim 1, is characterized in that: described convex lens are two.

4. a kind of 3D printer imaging device according to claim 1, is characterized in that: described light source is UV spot light.

5. a kind of 3D printer imaging device according to claim 1, is characterized in that: immediately below the galvanometer fixed mount of the galvanometer fixed mount side not disposed thereon that described second galvanometer connects.