CN205110792U - Wolfram steel powder milling cutter 3D printing apparatus - Google Patents

Abstract

The utility model discloses a wolfram steel powder milling cutter 3D printing apparatus, including display screen manipulation, the rack, high temperature heating unit and sinter molding unit, the high temperature heating unit, the sinter molding unit is fixed to be set up in the rack, prestore milling cutter model data in the display screen manipulation, the high temperature heating unit includes the laser instrument, the spectacle lenses, X -Y scanning mirror and heat conduction subassembly, the sinter molding unit includes the powder jar, the automatic powder component of spreading, the flattening rod, shaping jar and clout discharge component, horizontal reciprocating motion is wolfram steel powder flattening to shaping jar to the flattening rod, X -Y scanning mirror basis wolfram steel powder in the model data scanning shaping jar in the display screen manipulation forms the sintering route, and the laser instrument sinters wolfram steel powder milling cutter rough blank into according to the sintering route, form the sintering route through scanning scanning mirror model data, the laser instrument sinters the powder into rough blank according to the sintering route, high efficiency, and simple process need not a lot of equipment input, workman low in labor strength, tungsten powder material utilization rate is high, and production cycle is short.

Description

Wolfram steel powder milling cutter 3D printing device

Technical field

The utility model belongs to 3D and prints field, particularly a kind of wolfram steel milling cutter 3D printing device for CNC Digit Control Machine Tool.

Background technology

CNC CNC milling machine widely uses in industry manufacture, milling cutter is one of them very crucial parts, also be easily-consumed products, just current, milling cutter production technology is first tungsten powder and nylon powder mix and blend, and be squeezed into tungsten bar, by vacuum sintering furnace, tungsten bar is sintered into high duty metal tungsten bar again, by milling machine, the milling of metal tungsten bar is become cutter again, a runner is gone out finally by lathe car, this mode can manufacture out milling cutter, but there is larger defect, tungsten powder stock utilization is low, need various equipment and equipment cost has high input, complex process, production efficiency is low, production cycle is long, labor strength is large.

The technical problems to be solved in the utility model is to provide the novel tungsten steel powder milling cutter 3D printing device that a kind of stock utilization is high, equipment investment is few, technique is simple, production efficiency is high, with short production cycle, labor strength is low.

Utility model content

For solving the problems such as prior art stock utilization is low, equipment investment large, complex process, production efficiency are low, the cycle is long, labor strength is large, the utility model adopts following technical scheme:

The utility model provides a kind of wolfram steel powder milling cutter 3D printing device, comprise operating display, rack, high heating element and sinter molding unit, described high heating element, sinter molding unit is fixedly installed in described rack, the model data of wolfram steel powder milling cutter is prestored in described operating display, described high heating element comprises laser instrument, flexible focal length lenses group, X-Y scanning mirror and heat-conductive assembly, described laser instrument, flexible focal length lenses group, X-Y scanning mirror is arranged in the same horizontal line, described sinter molding unit comprises powder cylinder, automatic power spreading component, leveling rod, component discharged by moulding cylinder and clout, described moulding cylinder is arranged on the right side of described powder cylinder, described automatic power spreading component is arranged on described powder cylinder bottom portion, described leveling rod to be arranged on above described powder cylinder and to do horizontal reciprocating and moves a wolfram steel powder and level to described moulding cylinder, described X-Y scanning mirror scans the wolfram steel powder in described moulding cylinder according to the model data in described operating display and forms sintering path, described clout is discharged component and is arranged on bottom described moulding cylinder, described laser instrument sinters wolfram steel powder milling cutter crude green body into according to sintering path.

The beneficial effects of the utility model are: form sintering path by scanning mirror scan model data, laser instrument is by sintering path powder sintered one-tenth crude green body, rapidly and efficiently, technique is simple, and without the need to a lot of equipment investment, labor strength is low, tungsten powder stock utilization is high, with short production cycle, novel production technology has thoroughly overturned tradition, leads the production new trend of milling cutter.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of embodiment of the utility model.

Fig. 2 is the close-up schematic view of high heating element and sinter molding unit in the utility model.

Detailed description of the invention

Preferred embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.

Refer to Fig. 1, a kind of wolfram steel powder milling cutter 3D printing device, comprise operating display 1, rack 2, high heating element 3 and sinter molding unit 4, described high heating element 3, sinter molding unit 4 is fixedly installed in described rack 2, the model data of wolfram steel powder milling cutter is prestored in described operating display 1, described high heating element 3(is as shown in Figure 2) comprise laser instrument 31, flexible focal length lenses group 32, X-Y scanning mirror 33 and heat-conductive assembly 34, described laser instrument 31, flexible focal length lenses group 32, X-Y scanning mirror 33 arranges in the same horizontal line, described sinter molding unit 4 comprises powder cylinder 41, automatic power spreading component 42, leveling rod 43, component 45 discharged by moulding cylinder 44 and clout, described moulding cylinder 44 is arranged on the right side of described powder cylinder 41, described automatic power spreading component 42 is arranged on bottom described powder cylinder 41, described leveling rod 43 to be arranged on above described powder cylinder 41 and to do horizontal reciprocating and moves a wolfram steel powder and level to described moulding cylinder 44, described clout is discharged component 45 and is arranged on bottom described moulding cylinder 44, described X-Y scanning mirror 33 scans the wolfram steel powder in described moulding cylinder 44 according to the model data in described operating display 1 and forms sintering path, described laser instrument 31 sinters wolfram steel powder milling cutter crude green body into according to sintering path, during operation, first model data is imported in operating display 1, high temperature sintering unit starting, laser instrument 31 is opened, X-Y scanning mirror 33 scan model data also form sintering path, automatic power spreading component 43 is the tungsten powder mixed, powder cylinder 41 sent into by nylon powder batch mixing, leveling rod 43 levels to the compound sent in moulding cylinder 44, the instantaneous high-temperature that laser instrument 31 produces is amplified by flexible focal length lenses group 32, heat-conductive assembly 34 is transmitted on batch mixing, laser instrument 31 sinters out milling cutter crude green body according to sintering path, unnecessary batch mixing is discharged component 45 by clout and is discharged, repeat above-mentioned steps continuous sintering and go out crude green body, unnecessary batch mixing can circulate and import to automatic power spreading component, material automatic cycle utilizes, last finished product is sintered out by vacuum sintering furnace again after crude green body completes, adopt novel 3D printing device product rapidly and efficiently, production efficiency is high, with short production cycle, technique is simple, equipment investment is few, labor strength is low, and traditional milling cutter production technology is first tungsten powder and nylon powder mix and blend, and be squeezed into tungsten bar, by vacuum sintering furnace, tungsten bar is sintered into high duty metal tungsten bar again, by milling machine, the milling of metal tungsten bar is become cutter again, a runner is gone out finally by lathe car, this mode can manufacture out milling cutter, but there is larger defect, tungsten powder stock utilization is low, need various equipment and equipment cost has high input, complex process, production efficiency is low, production cycle is long, labor strength is large, traditional problem can be solved by above-mentioned novel process.

It is a kind of novel production technology that 3D provided by the utility model prints, revolutionize traditional mode of production, emerging 3D technology effective is fused to traditional manufacture, overturn the intrinsic thinking of traditional manufacture, and following manufacturing development trend will be become, be not only the production of milling cutter, the production of other any complexity all prints by 3D.

Above-described embodiment and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field, to its suitable change done or modification, all should be considered as not departing from patent category of the present utility model.

Claims (1)

1. a wolfram steel powder milling cutter 3D printing device, it is characterized in that: comprise operating display (1), rack (2), high heating element (3) and sinter molding unit (4), described high heating element (3), sinter molding unit (4)) be fixedly installed in described rack (2), the model data of wolfram steel powder milling cutter is prestored in described operating display (1), described high heating element (3) comprises laser instrument (31), flexible focal length lenses group (32), X-Y scanning mirror (33) and heat-conductive assembly (34), described laser instrument (31), flexible focal length lenses group (32), X-Y scanning mirror (33) is arranged in the same horizontal line, described sinter molding unit (4) comprises powder cylinder (41), automatic power spreading component (42), leveling rod (43), component (45) discharged by moulding cylinder (44) and clout, described moulding cylinder (44) is arranged on described powder cylinder (41) right side, described automatic power spreading component (42) is arranged on described powder cylinder (41) bottom, described leveling rod (43) is arranged on described powder cylinder (41) top and does horizontal reciprocating and moves a wolfram steel powder and level to described moulding cylinder (44), described clout is discharged component (45) and is arranged on described moulding cylinder (44) bottom, described X-Y scanning mirror (33) is scanned the wolfram steel powder in described moulding cylinder (44) according to the model data in described operating display (1) and is formed sintering path, described laser instrument (31) sinters wolfram steel powder milling cutter crude green body into according to sintering path.