CN101817104A - Large-allowance unequal-diameter double-layer milling cutter and large-allowance surface milling method - Google Patents

Abstract

The invention relates to a large-allowance unequal-diameter double-layer milling cutter. The cutter body is provided with an upper layer milling blade and a lower layer milling blade, wherein the upper layer milling blade is composed of a plurality of upper layer axial blades which are arranged circumferentially and uniformly; the lower layer milling blade is a three-face milling blade which is composed of a plurality of upper end face blade, a lower end face blade and a lower layer axial blade; the upper layer axial blades and the lower layer axial blade extend in the axial direction; and the cutting diameter D of the lower layer milling blade is greater than the cutting diameter d of the upper layer milling blade. The cutter can reduce the power consumption of the cutter blades and the machine tool, enhance the working efficiency and reduce the material waste. The large-allowance surface milling method comprises the steps of: carrying out surface milling on the workpiece by using the large-allowance unequal-diameter double-layer milling cutter, completely removing the allowance prime material of the workpiece by using the three-face milling blade, removing the middle of the allowance surface layer material of the workpiece by using the upper layer milling blade, forming a cutting admission channel in the middle of the allowance surface layer material, and integrally shedding the allowance non-cutting material on two sides of the allowance surface layer material in a non-cutting removal mode.

Description

Big surplus unequal-diameter double-layer milling cutter and big surplus slabbing method

Technical field

The present invention relates to field of machining, relate in particular to slabbing process tool and processing method.

Background technology

At present, generally all there is the problem that working (machining) efficiency is low, processing cost is high in domestic Mechanical Manufacturing Enterprises in the man-hour that adds of carrying out heavy parts such as engine housing, and these workpieces to be machined often have the characteristics that working (finishing) area is big, chipping allowance is big.For the situation of this big surplus plane processing, use common face milling cutters usually, adopt the processing mode of layered milling to process, also can adopt the processing mode of a milling of big cutting-in milling cutter to process sometimes.But all there is certain defective in above-mentioned two kinds of processing technologys: if 1 employing layered milling processing, owing to need the surplus of removal big, especially for the bigger plane in enormous quantities processing of area, layered milling processing will influence process velocity greatly, cause working (machining) efficiency low; If 2 adopt a milling of big cutting-in milling cutter to put in place, then very high to the machine power requirement, and the very big cutting force that in working angles, will produce, this not only can cause machine vibration, also can influence the life-span of cutter, generally not adopt this processing technology in the therefore actual processing; 3, owing to be the removal of big surplus, long-time cutting and big cutting force cutting all will blade cause very lossy, and this has increased processing cost to a certain extent.

Summary of the invention

The technical problem to be solved in the present invention is to overcome the deficiencies in the prior art, and a kind of loss of blade, the big surplus unequal-diameter double-layer milling cutter that reduces machine power loss, raising working (machining) efficiency, minimizing waste of material and big surplus slabbing method of reducing is provided.

For solving the problems of the technologies described above, the present invention by the following technical solutions:

A kind of big surplus unequal-diameter double-layer milling cutter, comprise cutter hub, described cutter hub is provided with upper strata milling edge and lower floor's milling edge, described upper strata milling edge is made up of many axial swords in upper strata, the axial sword in described many upper stratas is along circumferentially evenly arranging, described lower floor milling edge is three milling edges, described three milling edges are made up of many upper surface swords, the axial sword of lower surface sword and lower floor, the axial sword of axial sword in described upper strata and lower floor continues vertically, and the cutting diameter D of described lower floor milling edge is greater than the cutting diameter d of upper strata milling edge.

The cutting diameter D of described lower floor milling edge is 1.5～4 times of cutting diameter d of described upper strata milling edge.

The axial cutting width L of the axial sword of described lower floor is less than the axial cutting width W of the axial sword in described upper strata.

Described cutter hub comprises square shoulder step end mill body and face and side cutter body, described upper strata milling edge is located on the square shoulder step end mill body, described lower floor milling edge is located on the face and side cutter body, and the bottom surface of described square shoulder step end mill body and the upper surface of described face and side cutter body are fitted.

The bottom surface of described square shoulder step end mill body is provided with the location endoporus, and the upper surface of described face and side cutter body is provided with the setting circle annulated column, described location endoporus and the socket of described setting circle annulated column.

Be provided with the keyway that cooperatively interacts with described setting circle annulated column in the endoporus of described location, described square shoulder step end mill body is connected by the key of being located in the keyway with described face and side cutter body.

A kind of big surplus slabbing method, it is with above-mentioned big surplus unequal-diameter double-layer milling cutter workpiece to be carried out slabbing, by lower floor's milling edge the surplus primer of workpiece is removed fully, by the upper strata milling edge surplus skin-material middle part of workpiece is removed, form cutting feeding passage at surplus skin-material middle part, the form integral body that the non-excision material of the surplus of surplus skin-material both sides is removed with non-cutting comes off.

Compared with prior art, the invention has the advantages that: big surplus unequal-diameter double-layer milling cutter of the present invention passes through the cooperation of upper strata milling edge and lower floor's milling edge when excision workpiece surplus, the form integral body that the surplus material that can make surplus skin-material both sides is removed with non-cutting comes off, the surplus that needs directly to remove by cutting is tailed off, thereby reduced the loss of blade, reduced the loss of machine power; One-pass can be removed two-layer surplus, the material of big surplus once can be removed and be put in place, has improved working (machining) efficiency greatly; The surplus material that integral body comes off can be utilized by secondary, reduces the waste of material.Cutter hub adopts square shoulder step end mill body and face and side cutter body to combine, when connecting, the two fits by the bottom surface of square shoulder step end mill body and the upper surface of face and side cutter body, the two is made axial location, can guarantee that the axial sword in upper strata milling edge and three milling edges continues vertically, runs through whole removal surplus part; Square shoulder step end mill body and face and side cutter body are done radial location by location endoporus and the socket of setting circle annulated column to the two, guarantee the radially assembly precision of cutter combination, make cutting more steady, reduce cutting vibration; Square shoulder step end mill body and face and side cutter body are connected by keyway and key, and the two is done circumferentially location, are used to transmit cutting force.Big surplus slabbing method of the present invention adopts above-mentioned big surplus unequal-diameter double-layer milling cutter that workpiece is carried out slabbing, can reduce blade and machine power loss, improves working (machining) efficiency, reduce waste of material.

Description of drawings

Fig. 1 is the structural representation of the big surplus unequal-diameter double-layer milling cutter of combined type of the present invention embodiment;

Fig. 2 is the decomposition texture schematic diagram of the big surplus unequal-diameter double-layer milling cutter of combined type of the present invention embodiment;

Fig. 3 is the side view of the big surplus unequal-diameter double-layer milling cutter of combined type of the present invention embodiment;

Fig. 4 is the square shoulder step end mill body structural representation of the big surplus unequal-diameter double-layer milling cutter of combined type of the present invention embodiment;

Fig. 5 is the big surplus unequal-diameter double-layer milling cutter of a monoblock type of the present invention example structure schematic diagram;

Fig. 6 adopts big surplus slabbing method of the present invention to carry out the schematic diagram of big cutting-in Milling Process;

Fig. 7 is the schematic diagram that workpiece material is removed part when adopting big surplus slabbing method of the present invention to carry out big cutting-in Milling Process;

Fig. 8 adopts big surplus slabbing method of the present invention the large tracts of land workpiece to be carried out the schematic diagram of big cutting-in Milling Process.

Each label is represented among the figure:

1, upper strata milling edge 2, lower floor's milling edge

3, square shoulder step end mill body 4, face and side cutter body

5, keyway 6, key

7, general-purpose interface 8, surplus primer

9, surplus skin-material 10, cutting feeding passage

11, the axial sword 12 in upper strata, workpiece

13, the non-excision material 21 of surplus, upper surface sword

22, lower surface sword 23, the axial sword of lower floor

31, bottom surface 32, location endoporus

41, upper surface 42, setting circle annulated column

The specific embodiment

Fig. 1 to Fig. 4 shows big surplus unequal-diameter double-layer milling cutter embodiment of the present invention, the cutter hub of this milling cutter is a combined type, it is assembled by square shoulder step end mill body 3 and face and side cutter body 4, square shoulder step end mill body 3 is provided with upper strata milling edge 1, face and side cutter body 4 is provided with lower floor's milling edge 2, upper strata milling edge 1 is made up of many axial swords 11 in upper strata, many the axial swords 11 in upper strata are along circumferentially evenly arranging, lower floor's milling edge 2 is three milling edges, three milling edges are by many upper surface swords 21, the axial sword 23 of lower surface sword 22 and lower floor is formed, the axial sword 11 in upper strata continues vertically with the axial sword 23 of lower floor, and the cutting diameter D of lower floor's milling edge 2 is greater than the cutting diameter d of upper strata milling edge 1.As shown in Figure 6, big surplus unequal-diameter double-layer milling cutter of the present invention passes through the cooperation of lower floor's milling edge 2 and upper strata milling edge 1 when the surplus of excision workpiece 12, the form integral body that the non-excision material 13 of surplus that can make surplus skin-material 9 both sides is removed with non-cutting comes off, the surplus that needs directly to remove by cutting is tailed off, thereby reduced the loss of blade, reduced the loss of machine power; One-pass can be removed two-layer surplus, the disposable processing of the material of big surplus can be put in place, has improved working (machining) efficiency greatly; The non-excision material 13 of the surplus that integral body comes off can be utilized by secondary, reduces the waste of material.The axial cutting width L of the axial sword 23 of lower floor's milling edge 2 levels is less than the axial cutting width W of the axial sword 11 in upper strata, the cutting diameter D of lower floor's milling edge 2 is 2.5 times of cutting diameter d of upper strata milling edge 1, and 1.5～4 times of cutting diameter d that usually the cutting diameter D of lower floor's milling edge 2 are set at upper strata milling edge 1 can guarantee to cut stable and have higher stock-removing efficiency.When assembling square shoulder step end mill body 3 and face and side cutter body 4, fit with the upper surface of face and side cutter body 4 41 in the bottom surface 31 of square shoulder step end mill body 3, the two is made axial location, can guarantee that upper strata milling edge 1 and the axial sword 23 of lower floor continue vertically, make the axial arranged cutting edge in whole cutter hub upper edge can run through whole removal surplus part, thereby guarantee the feed smoothness; The bottom surface 31 of square shoulder step end mill body 3 is provided with location endoporus 32, the upper surface 41 of face and side cutter body 4 is provided with setting circle annulated column 42, with 42 sockets of setting circle annulated column the two is done radial location by location endoporus 32, guarantee the radially assembly precision of cutter combination, make cutting more steady, reduce cutting vibration; Be provided with the keyway 5 that cooperatively interacts with setting circle annulated column 42 in the location endoporus 32, square shoulder step end mill body 3 is connected by the key of being located in the keyway 56 with face and side cutter body 4, and the two is done circumferentially location, is used to transmit cutting force; Location endoporus 32 is combined to form general-purpose interface 7 with the endoporus of setting circle annulated column 42, is used for being connected with the driving shaft of lathe.

Fig. 5 shows another embodiment of big surplus unequal-diameter double-layer milling cutter of the present invention, cutter hub is a monoblock type, the structure of all-in-one-piece big surplus unequal-diameter double-layer milling cutter and knockdown big surplus unequal-diameter double-layer milling cutter is basic identical, difference only is the overall structure that the cutter hub of all-in-one-piece big surplus unequal-diameter double-layer milling cutter is one of the forming, do not need the docking structure of combined cutter has been saved in two cutter hub butt joints.

Below in conjunction with accompanying drawing big surplus slabbing method embodiment of the present invention is described in further detail, as shown in Figure 6 and Figure 7, it is that the big surplus unequal-diameter double-layer milling cutter of combined type with the foregoing description carries out slabbing to workpiece 12, feed along the direction of arrow in the figure during cutter incision workpiece 12, by lower floor's milling edge 2 the surplus primer 8 of workpiece 12 is removed fully, by upper strata milling edge 1 surplus skin-material 9 middle parts of workpiece 12 are removed, form cutting feeding path 10 at surplus skin-material 9 middle parts, the form integral body that the non-excision material 13 of the surplus of surplus skin-material 9 both sides is removed with non-cutting comes off, and realizes that thus one-pass finishes the removal fully to workpiece 12 whole surpluses.

As shown in Figure 8, when the large tracts of land workpiece is carried out big cutting-in Milling Process, cutter can carry out echelon processing by parallel line, the surplus primer 8 of workpiece 12 is removed fully by lower floor's milling edge 2, remove by upper strata milling edge 1 at surplus skin-material 9 middle parts of workpiece 12, form cutting feeding path 10 at surplus skin-material 9 middle parts, the form integral body that the non-excision material 13 of the surplus of surplus skin-material 9 both sides is removed with non-cutting comes off.

Big surplus slabbing method of the present invention adopts above-mentioned big surplus unequal-diameter double-layer milling cutter that workpiece is carried out slabbing, has can reduce blade and machine power loss, improve working (machining) efficiency, reduce advantage such as waste of material.

The above only is a preferred implementation of the present invention, and protection scope of the present invention also not only is confined to the foregoing description, and all technical schemes that belongs under the thinking of the present invention all belong to protection scope of the present invention.Should be pointed out that for those skilled in the art, also should be considered as protection scope of the present invention in the some improvements and modifications that do not break away under the principle of the invention prerequisite.

Claims (7)

1. one kind big surplus unequal-diameter double-layer milling cutter, comprise cutter hub, it is characterized in that: described cutter hub is provided with upper strata milling edge (1) and lower floor's milling edge (2), described upper strata milling edge (1) is made up of many axial swords in upper strata (11), the axial swords in described many upper stratas (11) are along circumferentially evenly arranging, described lower floor milling edge (2) is three milling edges, described three milling edges are by many upper surface swords (21), the axial sword of lower surface sword (22) and lower floor (23) is formed, the axial sword in described upper strata (11) continues vertically with the axial sword of lower floor (23), and the cutting diameter D of described lower floor milling edge (2) is greater than the cutting diameter d of upper strata milling edge (1).

2. according to the big surplus unequal-diameter double-layer milling cutter of claim 1, it is characterized in that: the cutting diameter D of described lower floor milling edge (2) is 1.5～4 times of cutting diameter d of described upper strata milling edge (1).

3. according to the big surplus unequal-diameter double-layer milling cutter of claim 2, it is characterized in that: the axial cutting width L of the axial sword of described lower floor (23) is less than the axial cutting width W of the axial sword in described upper strata (11).

4. according to the big surplus unequal-diameter double-layer milling cutter of claim 1 or 2 or 3, it is characterized in that: described cutter hub comprises square shoulder step end mill body (3) and face and side cutter body (4), described upper strata milling edge (1) is located on the square shoulder step end mill body (3), described lower floor milling edge (2) is located on the face and side cutter body (4), fits with the upper surface (41) of described face and side cutter body (4) in the bottom surface (31) of described square shoulder step end mill body (3).

5. according to the big surplus unequal-diameter double-layer milling cutter of claim 4, it is characterized in that: the bottom surface (31) of described square shoulder step end mill body (3) is provided with location endoporus (32), the upper surface (41) of described face and side cutter body (4) is provided with setting circle annulated column (42), described location endoporus (32) and described setting circle annulated column (42) socket.

6. according to the big surplus unequal-diameter double-layer milling cutter of claim 5, it is characterized in that: be provided with the keyway (5) that cooperatively interacts with described setting circle annulated column (42) in the described location endoporus (32), described square shoulder step end mill body (3) is connected by the key of being located in the keyway (5) (6) with described face and side cutter body (4).

7. one kind big surplus slabbing method, it is characterized in that: it is with as each big surplus unequal-diameter double-layer milling cutter in the claim 1 to 6 workpiece being carried out slabbing, by described lower floor milling edge (2) the surplus primer (8) of workpiece is removed fully, by described upper strata milling edge (1) surplus skin-material (9) middle part of workpiece is removed, form cutting feeding passage (10) at surplus skin-material (9) middle part, the form integral body that the non-excision material of surplus (13) of surplus skin-material (9) both sides is removed with non-cutting comes off.

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