CN205272599U - Three -dimensional processing all -in -one of printing of FDM - Google Patents

Abstract

The utility model relates to a three -dimensional processing all -in -one of printing of FDM, including longmen frame, extruding means, walking track, storage silo, electric main shaft, enclose in the frame of longmen and has laid the walking track, and with longmen frame in enclose each other and does not meet, it is provided with the transportation dolly to move on the walking track, longmen frame includes XY axle mobile location mechanism and Z axle mobile location mechanism, XY axle mobile location mechanism side upper end is provided with the reinforced mechanism of side position, XY axle mobile location mechanism is equipped with XY plane moving mechanism, XY plane moving mechanism bottom is provided with print platform perpendicularly, be provided with the slide on the moving mechanism of XY plane, be provided with extruding means on the slide, the storage silo is fixed to be set up on slide or extruding means, the electricity main shaft is fixed to be set up on slide or extruding means. The beneficial effects of the utility model are that: the fund input of equipment has improved production efficiency, the three -dimensional industrial application that prints of effective FDM cost is reduced.

Description

A kind of FDM 3 D-printing processing all-in-one

Technical field

The utility model relates to a kind of printing processing units being applied in casting mould, is specifically related to a kind of FDM 3 D-printing processing all-in-one, belongs to industrial machinery casting class field.

Background technology

Use in casting mould field FDM three-dimensional printer printer model can shorten the design change time, and it is directly used in product certification test and is applied to synchronous development fixture, cubing, shortening product development cycle can be reached and be about 40%-50%. Traditional printing technique is because printing the factor such as size limitation, core assembling technology, perhaps need to carry out secondary processing process without the workpiece of aftertreatment, such as assemble screw, boring light etc., cause FDM 3 D-printing product to turn sequence for two times, considerably increase time and the cost of printed product.

For this reason, how a kind of processing all-in-one of FDM 3 D-printing efficiently is provided, is the purpose of the utility model research.

Practical novel content

For overcoming the deficiencies in the prior art part, the utility model provides a kind of FDM 3 D-printing processing all-in-one, can realize the function of 3D printing, digital control processing simultaneously, greatly reduce the fund input of equipment, greatly improve production efficiency, meet the developing direction of present combined type lathe.

For solving the problem of prior art, the technical solution adopted in the utility model is:

A kind of FDM 3 D-printing processing all-in-one, comprises gantry frame, extrusion mechanism, print platform, transport carriage, walking track, storage bin, position, side charging mechanism, electro spindle; Enclose in described gantry frame and it is equipped with walking track, and do not connect mutually with enclosing in gantry frame; Described walking track moves and is provided with transport carriage; Described gantry frame comprises X/Y axle mobile positioning mechanism and Z axle mobile positioning mechanism, and described Z axle mobile positioning mechanism comprises Z axle moving assembly and Z axle drives assembly, and described Z axle moving assembly is guide rail leading screw, and described Z axle drives assembly to be servomotor; Described upper end, X/Y axle mobile positioning mechanism side is provided with position, side charging mechanism; Described position, side charging mechanism comprises feed bin, feeding pump, material level detection mechanism and Pneumatic butterfly valve; Described X/Y axle mobile positioning mechanism is provided with X/Y planar movement mechanism; Described X/Y planar movement mechanism bottom is vertically installed with print platform; Described X/Y planar movement mechanism is provided with slide; Described slide is provided with extrusion mechanism; Described storage bin is fixedly installed on slide or extrusion mechanism; Described electro spindle is fixedly installed on slide or extrusion mechanism; Described electro spindle comprises W axle mobile positioning mechanism; Described W axle mobile positioning mechanism is cylinder and guide rail.

Further, described X/Y planar movement mechanism comprises X-axis moving assembly, Y-axis moving assembly and X/Y axle and drives assembly; Described X-axis moving assembly and Y-axis moving assembly are guide rail, rack-and-pinion transmission or guide rail, lead screw transmission; Described X/Y axle drives assembly to be servomotor.

Further, described extrusion mechanism comprise extrude driving mechanism, extrusion device, extrude heating arrangements, cooling body; Described driving mechanism comprises servomotor, step-down gear; Described extrusion device comprises screw rod, extrusion nozzle and well heater; Described cooling body comprises water cooling tube.

Further, described print platform is provided with positioning clamping body; Described positioning clamping body acts on Z axle mobile positioning mechanism and transport carriage.

Further, on described print platform, the internal surface of plane is provided with well heater; Described well heater set-up mode is that bonding, welding or card connect; Described print platform lower plane is provided with heat-insulating shield in the two ends supporting platform contact.

Further, described walking track is by V axle mobile positioning mechanism running fix on V direction of principal axis; Described V axle mobile positioning mechanism comprises V axle moving assembly, V axle drives assembly; Described V axle moving assembly is roller-way, rack-and-pinion; Described V axle drives assembly to be servomotor.

Further, described storage bin comprises vibratory blanking machine structure and level gage.

Further, described all-in-one utilizes automatically controlled mechanism controls; Described automatically controlled mechanism is digital control system.

The beneficial effects of the utility model are: the fund input reducing equipment, it is to increase production efficiency, effectively reduce the cost of FDM 3 D-printing industrial application.

Accompanying drawing explanation

Fig. 1 is device schematic diagram of the present utility model.

Fig. 2 is the vertical view of the utility model device.

Wherein: gantry frame 1, extrusion mechanism 2, print platform 3, transport carriage 4, carriage walking track 5, storage bin 6, position, side charging mechanism 7, electro spindle 8, X/Y axle mobile positioning mechanism 9, X/Y planar movement mechanism 10, slide 11, Z axle mobile positioning mechanism 12.

Embodiment

In order to make those skilled in the art understand the technical solution of the utility model better, below in conjunction with specific embodiment, the utility model is described in further detail.

Below in conjunction with accompanying drawing 1-2, the utility model is further analyzed.

As shown in Figure 1, FDM 3 D-printing of the present utility model processing all-in-one, comprises gantry frame 1, extrusion mechanism 2, print platform 3, transport carriage 4, carriage walking track 5, storage bin 6, position, side charging mechanism 7, electro spindle 8; Enclose in described gantry frame and it is equipped with walking track, and do not connect mutually with enclosing in gantry frame; Described walking track moves and is provided with transport carriage; Described gantry frame comprises X/Y axle mobile positioning mechanism and Z axle mobile positioning mechanism, and described Z axle mobile positioning mechanism comprises Z axle moving assembly and Z axle drives assembly, and described Z axle moving assembly is guide rail leading screw, and described Z axle drives assembly to be servomotor; Described upper end, X/Y axle mobile positioning mechanism side is provided with position, side charging mechanism; Described position, side charging mechanism comprises feed bin, feeding pump, material level detection mechanism and Pneumatic butterfly valve; Described X/Y axle mobile positioning mechanism is provided with X/Y planar movement mechanism; Described X/Y planar movement mechanism bottom is vertically installed with print platform; Described X/Y planar movement mechanism is provided with slide; Described slide is provided with extrusion mechanism; Described storage bin is fixedly installed on slide or extrusion mechanism; Described electro spindle is fixedly installed on slide or extrusion mechanism; Described electro spindle comprises W axle mobile positioning mechanism; Described W axle mobile positioning mechanism is cylinder and guide rail.

Wherein, gantry frame 1 is fixed on the ground by wall screw, comprises mobile positioning mechanism and the Z axle mobile positioning mechanism 12 of X, Y two axles; Extrusion mechanism 2 is arranged on slide 11, and slide 11 is arranged in X/Y planar movement mechanism 10. Extrusion mechanism 2 is by slide 11 running fix on X/Y direction of principal axis.

X/Y planar movement mechanism 10 comprises X-axis moving assembly, Y-axis moving assembly, and X/Y axle drives assembly. Moving assembly can be guide rail, rack-and-pinion transmission or guide rail, lead screw transmission. Driving assembly is servomotor.

Extrusion mechanism 2 comprise extrude driving mechanism, extrusion device, extrude heating arrangements, cooling body. Extruding driving mechanism and comprise servomotor, step-down gear, extrusion device comprises extrusion screw rod, extrusion nozzle, well heater. Cooling body comprises water cooling tube.

Print platform 3 be respectively arranged with Z axle mobile positioning mechanism 12 positioning clamping body I and with transport carriage 4 positioning clamping body II. If positioning clamping body II blocks tightly, positioning clamping body unclamps I, and print platform 3 can running fix in the Z-axis direction; Blocking tightly if positioning clamping body I unclamps positioning clamping body II, print platform 3 is by transport carriage 4 running fix on V direction of principal axis. Print platform 3 is tightly non-interference with the location card of Z axle and transport carriage 4.

Print platform 3 inside is provided with well heater, and well heater is placed on the internal surface of plane on print platform 3, well heater can be bonding, weld or be connected on the internal surface of plane on print platform 3; Print platform 3 lower plane is provided with heat-insulating shield in the two ends supporting platform contact;

Z axle mobile positioning mechanism 12 comprises Z axle moving assembly, Z axle drives assembly. Moving assembly is guide rail leading screw, and driving assembly is servomotor.

As shown in Figure 2, walking track 5 is placed on ground, comprises V axle mobile positioning mechanism; Transport carriage 4 is placed on walking track 5, by V axle mobile positioning mechanism running fix on V direction of principal axis. Transport carriage 4 is placed on carriage walking track 5, comprises the locating device chimeric with print platform 3, V axle mobile positioning mechanism.

V axle mobile positioning mechanism comprises V axle moving assembly, V axle drives assembly. V axle moving assembly is roller-way, rack-and-pinion, and V axle drives assembly to be servomotor. Its middle gear, servomotor are arranged on transport carriage 4, and roller-way, tooth bar are arranged on walking track 5.

Electro spindle 8 is arranged on slide 11 or extrusion mechanism 2, comprises W axle mobile positioning mechanism.

W axle mobile positioning mechanism is cylinder and guide rail. Electro spindle 8 is by W axle mobile positioning mechanism running fix on W direction of principal axis.

Storage bin 6 is arranged on slide 11 or extrusion mechanism 2, comprises storage bin 6, vibratory blanking machine structure, level gage. Position, side charging mechanism 7 fixes on the ground, comprises feed bin, feeding pump, material level detection mechanism, Pneumatic butterfly valve.

All-in-one described in the utility model utilizes automatically controlled mechanism controls; Automatically controlled mechanism is digital control system,

The motion of control X/Y, Z, V, W.

Device of the present utility model in actual moving process, such as following step:

The first step, the three-dimensional model import slices software that will print, production models print code, and shift to an earlier date import system;

2nd step, is placed on transport carriage 4 by print platform 3, and positioning clamping body card is tight. Print platform 3 is urged to printing region below by digital control system by V axle mobile positioning mechanism with transport carriage 4;

3rd step, unclamps positioning clamping body I, blocks tight positioning clamping body II, starts Z axle mobile positioning mechanism 12. Print platform 3 to print zone is driven by Z axle mobile positioning mechanism 12 by digital control system;

4th step, starts heater heats print platform 3;

5th step, starts extrusion mechanism 2 and heats;

6th step, moving model print code, carries out product; After printing completes, close the well heater of print platform 3 and extrusion mechanism 2;

7th step, starts W axle, electro spindle 8 is placed process zone, and printed product is processed by editing run work program. (electro spindle 8 starting position is higher than extrusion nozzle)

8th step, after completing processing, returns electro spindle 8. Fall and return print platform 3, take out the workpiece printed and machine.

Described in the utility modelOneKind of FDM 3 D-printing processing all-in-one, when in print procedure, the detection of storage bin 6 level gage lacks material, print routine interrupts, and slide 11(comprises extrusion mechanism 2, storage bin 6) move to position, side reinforced place and feed in raw material, complete reinforced after return and continue to print.

What the utility model adopted is that numerical control machine tool prints the mode combined with 3D, and same equipment can carry out FDM 3 D-printing, can carry out again digital control processing. Avoid the problem that FDM 3 D-printing product secondary processing turns sequence, greatly reduce the fund input of equipment, greatly improving production efficiency, the cost of the FDM 3 D-printing industrial application effectively reduced, has promoted FDM three-dimensional printing technology in the application in casting mould field further.

Illustrating just for helping the method understanding the application and core concept thereof of above embodiment; Meanwhile, for one of ordinary skill in the art, according to the thought of the application, all will change in specific embodiments and applications, in sum, this description should not be construed as the restriction to the application.

Claims (8)

1. a FDM 3 D-printing processing all-in-one, it is characterised in that: comprise gantry frame, extrusion mechanism, print platform, transport carriage, walking track, storage bin, position, side charging mechanism, electro spindle; Enclose in described gantry frame and it is equipped with walking track, and do not connect mutually with enclosing in gantry frame; Described walking track moves and is provided with transport carriage; Described gantry frame comprises X/Y axle mobile positioning mechanism and Z axle mobile positioning mechanism, and described Z axle mobile positioning mechanism comprises Z axle moving assembly and Z axle drives assembly, and described Z axle moving assembly is guide rail leading screw, and described Z axle drives assembly to be servomotor; Described upper end, X/Y axle mobile positioning mechanism side is provided with position, side charging mechanism; Described position, side charging mechanism comprises feed bin, feeding pump, material level detection mechanism and Pneumatic butterfly valve; Described X/Y axle mobile positioning mechanism is provided with X/Y planar movement mechanism; Described X/Y planar movement mechanism bottom is vertically installed with print platform; Described X/Y planar movement mechanism is provided with slide; Described slide is provided with extrusion mechanism; Described storage bin is fixedly installed on slide or extrusion mechanism; Described electro spindle is fixedly installed on slide or extrusion mechanism; Described electro spindle comprises W axle mobile positioning mechanism; Described W axle mobile positioning mechanism is cylinder and guide rail.

2. a kind of FDM 3 D-printing processing all-in-one according to claim 1, it is characterised in that: described X/Y planar movement mechanism comprises X-axis moving assembly, Y-axis moving assembly and X/Y axle and drives assembly; Described X-axis moving assembly and Y-axis moving assembly are guide rail, rack-and-pinion transmission or guide rail, lead screw transmission; Described X/Y axle drives assembly to be servomotor.

3. a kind of FDM 3 D-printing processing all-in-one according to claim 1, it is characterised in that: described extrusion mechanism comprise extrude driving mechanism, extrusion device, extrude heating arrangements, cooling body; Described driving mechanism comprises servomotor, step-down gear; Described extrusion device comprises screw rod, extrusion nozzle and well heater; Described cooling body comprises water cooling tube.

4. a kind of FDM 3 D-printing processing all-in-one according to claim 1, it is characterised in that: described print platform is provided with positioning clamping body; Described positioning clamping body acts on Z axle mobile positioning mechanism and transport carriage.

5. a kind of FDM 3 D-printing processing all-in-one according to claim 1, it is characterised in that: on described print platform, the internal surface of plane is provided with well heater; Described well heater set-up mode is that bonding, welding or card connect; Described print platform lower plane is provided with heat-insulating shield in the two ends supporting platform contact.

6. a kind of FDM 3 D-printing processing all-in-one according to claim 1, it is characterised in that: described walking track is by V axle mobile positioning mechanism running fix on V direction of principal axis; Described V axle mobile positioning mechanism comprises V axle moving assembly, V axle drives assembly; Described V axle moving assembly is roller-way, rack-and-pinion; Described V axle drives assembly to be servomotor.

7. a kind of FDM 3 D-printing processing all-in-one according to claim 1, it is characterised in that: described storage bin comprises vibratory blanking machine structure and level gage.

8. a kind of FDM 3 D-printing processing all-in-one according to claim 1, it is characterised in that: described all-in-one utilizes automatically controlled mechanism controls; Described automatically controlled mechanism is digital control system.