CN105500721A - 3D printer for construction engineering - Google Patents

Abstract

The invention discloses a 3D printer for construction engineering. The 3D printer comprises Y-axis sliding rails, X-axis sliding rails and Z-axis sliding rails, wherein the X-axis sliding rails and the Y-axis sliding rails are connected in a sliding manner; the Y-axis sliding rails are connected in a sliding manner with the Z-axis sliding rails via pulleys b; locking device used for locking and positioning the Y-axis sliding rails and the Z-axis sliding rails are arranged on the pulleys b; a telescopic printing mechanism is connected with the X-axis sliding rails via pulleys a. The 3D printer has the benefits that a sliding rack replaces an axis Z to fulfil all instructions, the moving system of the axis Z is changed, and height can be controlled precisely, so that the phenomena such as unbalanced operation caused by orbit shifting and axis Y compression during operation of the 3D printer are avoided.

Description

Architectural engineering 3D printer

Technical field

The present invention relates to a kind of printer, particularly relate to a kind of 3D printer.

Background technology

Day by day perfect along with 3D printing technique, utilizes 3D printing technique to carry out building the new problem be printed as people's research.Application number be 2015208777475 patent application document disclose a kind of architectural engineering 3D printer, the technical scheme of this patent application is, printhead is fixed on slide rail dolly, controls printhead height carry out print job by winding level slide rail; The defect that this technical scheme exists is that printer, when operation, easily occurs the skew of track, and the phenomenons such as operation imbalance appear in Y-axis pressurized.

Summary of the invention

For solving the defect that prior art exists, the object of this invention is to provide a kind of architectural engineering 3D printer that precisely can carry out Z axis printing.

Technical scheme of the present invention is: architectural engineering 3D printer, comprise Y-axis slide rail, X-axis slide rail and Z axis slide rail, described X-axis slide rail and Y-axis slide rail are slidably connected, Y-axis slide rail is slidably connected by coaster b and Z axis slide rail, described coaster b is provided with for the locking device by Y-axis slide rail and Z axis slide rail locking positioning, and flexible printing mechanism is slidably connected by coaster a and X-axis slide rail 13.

Described flexible printing mechanism comprises printhead, and printhead is provided with motor for feeding, and motor for feeding connects helical axis, and helical axis extends in printhead.

Described printhead top connects balladeur train, balladeur train is provided with screw bolt seat and screw rod, screw rod is external screw thread, screw and external thread of screw match, screw is fixed on screw frame, and screw frame is fixedly connected with support, and screw rod connects lifting motor by shaft coupling, support is fixed on coaster a, and balladeur train is connected with described bracket slide.

Described screw is metal screw.

Described screw is that copper wire is female.

Described screw rod is metal screw.

The invention has the beneficial effects as follows: the mobile system changing Z axis, the motion process realizing Z axis is moved up and down with middle printhead self, in print procedure, first X-axis and Y-axis are promoted suitably height locked, again printhead is moved to bottom, the printing height of the lifting Electric Machine Control printhead carried by printing mechanism, it is locked that Z axis and Y-axis pass through locking device, balladeur train substitutes Z axis and completes instructions, change the mobile system of Z axis, Altitude control is accurate, avoid printer when operation, the phenomenons such as the operation that the orbit displacement occurred and Y-axis pressurized cause is uneven.

Accompanying drawing explanation

The present invention has accompanying drawing 5 width.

Fig. 1 is overall structure figure of the present invention;

Fig. 2 is printing mechanism structure chart of the present invention;

Fig. 3 is partial enlarged drawing of the present invention;

Fig. 4 is the first working state figure of the present invention;

Fig. 5 is the second working state figure of the present invention.

In figure, Reference numeral is as follows: 1, printhead, and 2, helical axis, 3, motor for feeding, 4, screw bolt seat, 5, screw rod, 6, balladeur train, 7, coaster a, 8, screw frame, 9, screw, 10, lifting motor, 11, support, 12, Y-axis slide rail, 13, X-axis slide rail, 14, Z axis slide rail, 15, coaster b, 16, locking device.

Detailed description of the invention

Below in conjunction with accompanying drawing 1-5, the present invention will be further described:

Architectural engineering 3D printer, comprise Y-axis slide rail 12, X-axis slide rail 13 and Z axis slide rail 14, described X-axis slide rail 13 is slidably connected with Y-axis slide rail 12, Y-axis slide rail 12 is slidably connected by coaster b15 and Z axis slide rail 14, described coaster b15 is provided with for the locking device 16 by Y-axis slide rail 12 and Z axis slide rail 14 locking positioning, and flexible printing mechanism is slidably connected by coaster a7 and X-axis slide rail 13.

Described flexible printing mechanism comprises printhead 1, and printhead 1 is provided with motor for feeding 3, and motor for feeding 3 connects helical axis 2, and helical axis 2 extends in printhead 1.

Described printhead 1 top connects balladeur train 6, balladeur train 6 is provided with screw bolt seat 4 and screw rod 5, screw rod 5 is external screw thread, screw 9 and screw rod 5 external screw thread match, screw 9 is fixed on screw frame 8, and screw frame 8 is fixedly connected with support 11, and screw rod 5 connects lifting motor 10 by shaft coupling, support 11 is fixed on coaster a7, and balladeur train 6 and described support 11 are slidably connected.

Described screw 9 is metal screw.

Described screw 9 is that copper wire is female.

Described screw rod 5 is metal screw.

Before printing, first X-axis and Y-axis are promoted suitably height locked, again printhead 1 is moved to bottom, the lifting motor 10 carried by printing mechanism controls the printing height of printhead, Altitude control is accurate, avoid printer when operation, the phenomenons such as the operation that the orbit displacement of appearance and Y-axis pressurized cause is uneven; After printing to certain altitude, stop print job, then X-axis and Y-axis to be moved up and locked, and then printhead 1 is moved to lower end, namely printed the position stopped last time, start to print, repeat said process.In the technical program except flexible printing mechanism, other structures are identical with application number architectural engineering 3D printer arrangement disclosed in the patent application document of 2015208777475.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the technology of the present invention principle; can also make some improvement and modification, these improve and modification also should be considered as protection scope of the present invention.

Claims (6)

1. architectural engineering 3D printer, it is characterized in that, comprise Y-axis slide rail (12), X-axis slide rail (13) and Z axis slide rail (14), described X-axis slide rail (13) and Y-axis slide rail (12) are slidably connected, Y-axis slide rail (12) is slidably connected with Z axis slide rail (14) by coaster b (15), described coaster b (15) is provided with for the locking device (16) by Y-axis slide rail (12) and Z axis slide rail (14) locking positioning, and flexible printing mechanism is slidably connected with X-axis slide rail (13) by coaster a (7).

2. architectural engineering 3D printer according to claim 1, it is characterized in that, described flexible printing mechanism comprises printhead (1), printhead (1) is provided with motor for feeding (3), motor for feeding (3) connects helical axis (2), and helical axis (2) extends in printhead (1).

3. architectural engineering 3D printer according to claim 2, it is characterized in that, described printhead (1) top connects balladeur train (6), balladeur train (6) is provided with screw bolt seat (4) and screw rod (5), screw rod (5) is external screw thread, screw (9) matches with the external screw thread of screw rod (5), screw (9) is fixed on screw frame (8), screw frame (8) is fixedly connected with support (11), screw rod (5) connects lifting motor (10) by shaft coupling, support (11) is fixed on coaster a (7), balladeur train (6) and described support (11) are slidably connected.

4. the 3D printer of the architectural engineering according to any one of claim 1-3, is characterized in that, described screw (9) is metal screw.

5. architectural engineering 3D printer according to claim 4, is characterized in that, described screw (9) is copper wire mother.

6. architectural engineering 3D printer according to claim 5, is characterized in that, described screw rod (5) is metal screw.