CN201026541Y - Bi-metal arc cusp, gear milling tool, namely gleason milling tool - Google Patents

Abstract

The utility model provides a double metal arc bevel gear milling cutter or a grison milling cutter, comprising a knife tooth body and a knife blade which are in a two body structure, the knife blade is embedded in the knife tooth body the connecting face of which is not non-plane, the double metal arc bevel gear milling cutter after being improved mainly has the following advantages, first, the strength of the knife tooth body is improved, second, as the knife blade meshes with the knife body, the connection becomes more solid, third, the area of the top of the knife blade is increased so as to improve the mechanical strength of the top of the knife blade, increase the welding or gluing area between the knife blade and the knife tooth body, and improve the connecting strength between the knife blade and the knife tooth body, four, the top of the knife tooth body has an angle, when the knife blade and the knife tooth body are welded or glued together, the knife blade and the knife tooth body can be self locked so as to improve the integral strength of the knife tooth, five, the joining part between the tooth surface of the knife tooth body and the knife blade is in the shape of a tooth, so as to improve the welding or gluing area between the knife blade and the knife tooth body and further improve the strength of the knife tooth.

Description

Bimetallic curved-tooth bevel gear milling cutter is the Gleason milling cutter

(1) technical field

The utility model relates to a kind of metal cutting tool, specifically a kind of milling cutter that is used to process curved-tooth bevel gear.

(2) background technology

The curved-tooth bevel gear milling cutter is a kind of important tool of processing curved-tooth bevel gear, and it is widely used in the processing industry to automobile, tractor, machine tool gears.The overall structure that the present employed curved-tooth bevel gear milling cutter of these processing industries is to use high-speed tool steel to process.Produce the Arc-shaped milling cutter of this structure, need to consume a large amount of high-speed tool steels, waste of material is serious, the production cost height.Applicant of the present utility model also once applied for the patent of relevant bimetallic milling cutter before this, the utility model patent of patent No. ZL 200520020826.0 etc. for example, but the bimetallic milling cutter of putting down in writing in these patent application documents also exists at the aspects such as syndeton of two kinds of metals and needs improved place.

(3), utility model content

The purpose of this utility model is to provide that a kind of consumption, production cost that can reduce high-speed tool steel is low, the combination between two kinds of metals is more firm, the better bimetallic curved-tooth bevel gear of properties of product milling cutter is the Gleason milling cutter.

The purpose of this utility model is achieved in that it comprises cutter tooth body and blade, and cutter tooth body and blade are two body structures, and blade is set on the cutter tooth body, and the joint face of blade and cutter tooth body is an on-plane surface.

The utility model can also comprise some architectural features like this:

1, to be set on the cutter hub be blade welding or gluing being connected on the cutter tooth body to described blade.

2, the joint face of described blade and cutter tooth body is Z-shaped.

3, the joint face of described blade and cutter tooth body is corrugated.

4, described corrugated face is the zigzag ripple.

Product of the present utility model is with traditional integral curved bevel gear milling cutter, promptly the product made from a high-speed tool steel resolves into two bodies, make cutter tooth body portion wherein can adopt cheap alloy tool steel to make, and blade section adopt expensive high-speed tool steel material to make.Cutter tooth body and blade section adopt welding or gluing connection technology and become one respectively after Overheating Treatment, and its serviceability meets or exceeds original integral curved bevel gear milling cutter.The utility model is compared with integral curved bevel gear milling cutter, and not only its serviceability is more superior, and can make the consumption of high-speed tool steel save 70-80%, and the production cost of curved-tooth bevel gear milling cutter is reduced greatly.Demonstrated fully and use the best steel to make the knife's edge.

Bimetallic curved-tooth bevel gear milling cutter of the present utility model, after further improving, its major advantage mainly shows:

1, the intensity of cutter tooth body has increased.

2, blade and cutter hub are connected, and connect more firm.

3, the area of blade tip has increased, thereby has improved the mechanical strength of blade tip.And increased the soldering of blade and cutter tooth body or gluing area, improved the bond strength of blade and cutter tooth body.

4, an angle is arranged at cutter tooth body top, and after blade and soldering of cutter tooth body or gluing connecing, blade and cutter tooth body form self-locking, have improved the bulk strength of cutter tooth.

5, the cutter tooth body flank of tooth and blade junction are thread form, have increased blade and the soldering of cutter tooth body or gluing area, have further improved the intensity of cutter tooth.

The utility model is suitable for " new construction " that specification is 6 " 18 ", and " old structure " rough lumber, essence are cut the curved-tooth bevel gear milling cutter.

(4) description of drawings

Fig. 1 and Fig. 3 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Fig. 2 and Fig. 4 are respectively the A-A cutaway views of Fig. 1 and Fig. 3;

Fig. 5 and Fig. 7 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Fig. 6 and Fig. 8 are respectively the A-A cutaway views of Fig. 5 and Fig. 7;

Fig. 9 and Figure 11 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 10 and Figure 12 are respectively the A-A cutaway views of Fig. 9 and Figure 11;

Figure 13 and Figure 15 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 14 and Figure 16 are respectively the A-A cutaway views of Figure 13 and Figure 15;

Figure 17 and Figure 19 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 18 and Figure 20 are respectively the A-A cutaway views of Figure 17 and Figure 19;

Figure 21 and Figure 23 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 22 and Figure 24 are respectively the A-A cutaway views of Figure 21 and Figure 23;

Figure 25 and Figure 27 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 26 and Figure 28 are respectively the A-A cutaway views of Figure 25 and Figure 27;

Figure 29 and Figure 32 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 30 and Figure 32 are respectively the A-A cutaway views of Figure 29 and Figure 31;

Figure 33 and Figure 35 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 34 and Figure 36 are respectively the A-A cutaway views of Figure 33 and Figure 35;

Figure 37 and Figure 39 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 38 and Figure 40 are respectively the A-A cutaway views of Figure 37 and Figure 39;

Figure 41 and Figure 43 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 42 and Figure 44 are respectively the A-A cutaway views of Figure 41 and Figure 43;

Figure 45 and Figure 47 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 46 and Figure 48 are respectively the A-A cutaway views of Figure 45 and Figure 47;

Figure 49 and Figure 51 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 50 and Figure 52 are respectively the A-A cutaway views of Figure 49 and Figure 51;

Figure 53 and Figure 55 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 54 and Figure 56 are respectively the A-A cutaway views of Figure 53 and Figure 55;

Figure 57 and Figure 59 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 58 and Figure 60 are respectively the A-A cutaway views of Figure 57 and Figure 59;

Figure 61 and Figure 63 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 62 and Figure 64 are respectively the A-A cutaway views of Figure 61 and Figure 63;

Figure 65 and Figure 67 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 66 and Figure 68 are respectively the A-A cutaway views of Figure 65 and Figure 67;

Figure 69 and Figure 71 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 70 and Figure 72 are respectively the A-A cutaway views of Figure 69 and Figure 71;

Figure 73 and Figure 75 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 74 and Figure 76 are respectively the A-A cutaway views of Figure 73 and 75;

Figure 77 and Figure 79 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 78 and Figure 80 are respectively the A-A cutaway views of Figure 77 and Figure 79;

Figure 81 and Figure 83 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 82 and Figure 84 are respectively the A-A cutaway views of Figure 81 and 83;

Figure 85 and Figure 87 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 86 and Figure 88 are respectively the A-A cutaway views of Figure 85 and Figure 87;

Figure 89 and Figure 91 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 90 and Figure 92 are respectively the A-A cutaway views of Figure 89 and 91;

Figure 93 and Figure 95 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 94 and Figure 96 are respectively the A-A cutaway views of Figure 93 and Figure 95;

Figure 97 and Figure 99 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 98 and Figure 100 are respectively the A-A cutaway views of Figure 97 and 99;

Figure 101 and Figure 103 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 102 and Figure 104 are respectively the A-A cutaway views of Figure 101 and Figure 103;

Figure 105 and Figure 107 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 106 and Figure 108 are respectively the A-A cutaway views of Figure 105 and 107;

Figure 109 and Figure 111 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 110 and Figure 112 are respectively the A-A cutaway views of Figure 109 and Figure 111;

Figure 113 and Figure 115 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 114 and Figure 116 are respectively the A-A cutaway views of Figure 113 and 115;

Figure 117 and Figure 119 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 118 and Figure 120 are respectively the A-A cutaway views of Figure 117 and Figure 119;

Figure 121 and Figure 123 are two kinds of the present utility model " old structure " rough lumber milling cutter construction schematic diagrames;

Figure 122 and Figure 124 are respectively the A-A cutaway views of Figure 121 and 123;

Figure 125 and Figure 127 are two kinds of the present utility model " old structure " finishing bevel gear cuter structural representations;

Figure 126 and Figure 128 are respectively the A-A cutaway views of Figure 125 and Figure 127;

Figure 129 and Figure 131 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 130 and Figure 132 are respectively the A-A cutaway views of Figure 129 and Figure 131;

Figure 133 and Figure 135 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 134 and Figure 136 are respectively the A-A cutaway views of Figure 133 and Figure 135;

Figure 137 and Figure 139 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 138 and Figure 140 are respectively the A-A cutaway views of Figure 137 and Figure 139;

Figure 141 and Figure 143 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 142 and Figure 144 are respectively the A-A cutaway views of Figure 141 and Figure 143;

Figure 145 and Figure 147 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 146 and Figure 148 are respectively Figure 145 and Figure 147 Guilin A-A cutaway view;

Figure 149 and Figure 151 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 150 and Figure 152 are respectively the A-A cutaway views of Figure 149 and Figure 151;

Figure 153 and Figure 155 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 154 and Figure 156 are respectively the A-A cutaway views of Figure 153 and Figure 155;

Figure 157 and Figure 159 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 158 and Figure 160 are respectively the A-A cutaway views of Figure 157 and Figure 159;

Figure 161 and Figure 163 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 162 and Figure 164 are respectively the A-A cutaway views of Figure 161 and Figure 163;

Figure 165 and Figure 167 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 166 and Figure 168 are respectively the A-A cutaway views of Figure 165 and Figure 167;

Figure 169 and Figure 171 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 170 and Figure 172 are respectively the A-A cutaway views of Figure 169 and Figure 171;

Figure 173 and Figure 175 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 174 and Figure 176 are respectively the A-A cutaway views of Figure 173 and Figure 175;

Figure 177 and Figure 179 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 178 and Figure 180 are respectively the A-A cutaway views of Figure 177 and Figure 179;

Figure 181 and Tu 083 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 182 and Figure 184 are respectively the A-A cutaway views of Figure 181 and Figure 183;

Figure 185 and Figure 187 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 186 and Figure 188 are respectively the A-A cutaway views of Figure 185 and Figure 187;

Figure 189 and Figure 191 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 190 and Figure 192 are respectively the A-A cutaway views of Figure 189 and Figure 191;

Figure 193 and Figure 195 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 194 and Figure 196 are respectively the A-A cutaway views of Figure 193 and Figure 195;

Figure 197 and Figure 199 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 198 and Figure 200 are respectively the A-A cutaway views of Figure 197 and Figure 199;

Figure 20 1 and Figure 20 3 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 20 2 and Figure 20 4 are respectively the A-A cutaway views of Figure 20 1 and Figure 20 3;

Figure 20 5 and Figure 20 7 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 20 6 and Figure 20 8 are respectively the A-A cutaway views of Figure 20 5 and Figure 20 7;

Figure 20 9 and Figure 21 1 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 21 0 and Figure 21 2 are respectively the A-A cutaway views of Figure 20 9 and Figure 21 1;

Figure 21 3 and Figure 21 5 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 21 4 and Figure 21 6 are respectively the A-A cutaway views of Figure 21 3 and Figure 21 5;

Figure 21 7 and Figure 21 9 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 21 8 and Figure 22 0 are respectively the A-A cutaway views of Figure 21 7 and Figure 21 9;

Figure 22 1 and Figure 22 3 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 22 2 and Figure 22 4 are respectively the A-A cutaway views of Figure 22 1 and Figure 22 3;

Figure 22 5 and Figure 22 7 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 22 6 and Figure 22 8 are respectively the A-A cutaway views of Figure 22 5 and Figure 22 7;

Figure 22 9 and Figure 23 1 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 23 0 and Figure 23 2 are respectively the A-A cutaway views of Figure 22 9 and Figure 23 1;

Figure 23 3 and Figure 23 5 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 23 4 and Figure 23 6 are respectively the A-A cutaway views of Figure 23 3 and Figure 23 5;

Figure 23 7 and Figure 23 9 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 23 8 and Figure 24 0 are respectively the A-A cutaway views of Figure 23 7 and Figure 23 9;

Figure 24 1 and Figure 24 3 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 24 2 and Figure 24 4 are respectively the A-A cutaway views of Figure 24 1 and Figure 24 3;

Figure 24 5 and Figure 24 7 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 24 6 and Figure 24 8 are respectively the A-A cutaway views of Figure 24 5 and Figure 24 7

Figure 24 9 and Figure 25 1 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 25 0 and Figure 25 2 are respectively the A-A cutaway views of Figure 24 9 and Figure 25 1;

Figure 25 3 and Figure 25 5 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 25 4 and Figure 25 6 are respectively the A-A cutaway views of Figure 25 3 and Figure 25 5;

Figure 25 7 and Figure 25 9 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 25 8 and Figure 26 0 are respectively the A-A cutaway views of Figure 25 7 and Figure 25 9

Figure 26 1 and Figure 26 3 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 26 2 and Figure 26 4 are respectively the A-A cutaway views of Figure 26 1 and Figure 26 3;

Figure 26 5 and Figure 26 7 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 26 6 and Figure 26 8 are respectively the A-A cutaway views of Figure 26 5 and Figure 26 7;

Figure 26 9 and Figure 27 1 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 27 0 and Figure 27 2 are respectively the A-A cutaway views of Figure 26 9 and Figure 27 1

Figure 27 3 and Figure 27 5 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 27 4 and Figure 27 6 are respectively the A-A cutaway views of Figure 27 3 and Figure 27 5;

Figure 27 7 and Figure 27 9 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 27 8 and Figure 28 0 are respectively the A-A cutaway views of Figure 27 7 and Figure 27 9;

Figure 28 1 and Figure 28 3 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 28 2 and Figure 28 4 are respectively the A-A cutaway views of Figure 28 1 and Figure 28 3

Figure 28 5 and Figure 28 7 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 28 6 and Figure 28 8 are respectively the A-A cutaway views of Figure 28 5 Figure 28 7;

Figure 28 9 and Figure 29 1 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 29 0 and Figure 29 2 are respectively the A-A cutaway views of Figure 28 9 and Figure 29 1;

Figure 29 3 and Figure 29 5 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 29 4 and Figure 29 6 are respectively the A-A cutaway views of Figure 29 3 and Figure 29 5

Figure 29 7 and Figure 29 9 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 29 8 and Figure 30 0 are respectively the A-A cutaway views of Figure 29 7 Figure 29 9;

Figure 30 1 and Figure 30 3 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 30 2 and Figure 30 4 are respectively the A-A cutaway views of Figure 30 1 and Figure 30 3;

Figure 30 5 and Figure 30 7 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 30 6 and Figure 30 8 are respectively the A-A cutaway views of Figure 30 5 and Figure 30 7

Figure 30 9 and Figure 31 1 are two kinds of " new construction " rough lumber milling cutter construction schematic diagrames of the present utility model;

Figure 31 0 and Figure 31 2 are respectively the A-A cutaway views of Figure 30 9 Figure 31 1;

Figure 31 3 and Figure 31 5 are two kinds of " new construction " finishing bevel gear cuter structural representations of the present utility model;

Figure 31 4 and Figure 31 6 are respectively the A-A cutaway views of Figure 31 3 and Figure 31 5;

Figure 31 7 and Figure 31 9 are two kinds of " new construction " finishing bevel gear cuters of the present utility model (single cycle or circular broach) structural representations;

Figure 31 8 and Figure 32 0 are respectively the A-A cutaway views of Figure 31 7 and Figure 31 9.

(5) specific embodiment

For example the utility model is done more detailed description below in conjunction with accompanying drawing:

No matter be " new construction ", " old structure " finishing bevel gear cuter or rough lumber milling cutter in the figure, its composition all is by cutter tooth body 1; Brazing layer or adhesive layer 2; Form with high-speed steel blade 3, cutter tooth body and blade are two body structures, and blade makes it to become one with soldering or gluing being connected on the cutter tooth body.

In conjunction with Fig. 1-Fig. 8, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, and contact-making surface is 90 ° of angles at the bottom of the tooth.

In conjunction with Fig. 9-Figure 16, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, has the side contacts face, and contact-making surface is 90 ° of angles at the bottom of the tooth.

In conjunction with Figure 17-Figure 24, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, and contact-making surface is presented oblique acute angle at the bottom of the tooth.

In conjunction with Figure 25-Figure 32, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, has the side contacts face, and contact-making surface is presented oblique acute angle at the bottom of the tooth.

In conjunction with Figure 33-Figure 40, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, and contact-making surface is the declivity obtuse angle at the bottom of the tooth.

In conjunction with Figure 41-Figure 48, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, has the side contacts face, and contact-making surface is the declivity obtuse angle at the bottom of the tooth.

In conjunction with Figure 49-Figure 56, the joint face of blade and cutter tooth body is a zigzag ripple face, and the tooth top contact-making surface is 60 °-hexagonal angle, and contact-making surface is 90 ° of angles at the bottom of the tooth.

In conjunction with Figure 57-Figure 64, the joint face of blade and cutter tooth body is a zigzag ripple face, and contact-making surface is 90 ° of angles at the bottom of the tooth.

In conjunction with Figure 65-Figure 72, the joint face of blade and cutter tooth body is a zigzag ripple face, and the tooth top contact-making surface is 60 °-hexagonal angle, and contact-making surface is 90 ° of angles at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 73-Figure 80, the joint face of blade and cutter tooth body is a zigzag ripple face, and contact-making surface is 90 ° of angles at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 81-Figure 88, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-hexagonal angle, and contact-making surface is 90 ° of angles at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 89-Figure 96, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-hexagonal angle, has the side contacts face, and contact-making surface is 90 ° of angles at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 97-Figure 104, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-hexagonal angle, and contact-making surface is presented oblique acute angle at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 105-Figure 112, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-hexagonal angle, has the side contacts face, and contact-making surface is presented oblique acute angle at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom,

In conjunction with Figure 113-Figure 120, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-hexagonal angle, and contact-making surface is the declivity obtuse angle at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 121-Figure 128, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-hexagonal angle, has the side contacts face, and contact-making surface is the declivity obtuse angle at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 129-Figure 140, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, and contact-making surface is 90 ° of angles at the bottom of the tooth.

In conjunction with Figure 141-Figure 152, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, has the side contacts face, and contact-making surface is 90 ° of angles at the bottom of the tooth.

In conjunction with Figure 153-Figure 164, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, and contact-making surface is presented oblique acute angle at the bottom of the tooth.

In conjunction with Figure 165-Figure 176, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, has the side contacts face, and contact-making surface is presented oblique acute angle at the bottom of the tooth.

In conjunction with Figure 177-Figure 188, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, and contact-making surface is the declivity obtuse angle at the bottom of the tooth.

In conjunction with Figure 189-Figure 200, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, has the side contacts face, and contact-making surface is the declivity obtuse angle at the bottom of the tooth.

In conjunction with Figure 20 1-Figure 21 2, the joint face of blade and cutter tooth body is a zigzag ripple face, and the tooth top contact-making surface is 60 °-120 °, and contact-making surface is 90 ° of angles at the bottom of the tooth.

In conjunction with Figure 21 3-Figure 22 4, the joint face of blade and cutter tooth body is a zigzag ripple face, and contact-making surface is 90 ° of angles at the bottom of the tooth.

In conjunction with Figure 22 5-Figure 23 6, the joint face of blade and cutter tooth body is a zigzag ripple face, and the tooth top contact-making surface is 60 °-120 °, and contact-making surface is 90 ° of angles at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 23 7-Figure 24 8, the joint face of blade and cutter tooth body is a zigzag ripple face, and contact-making surface is 90 ° of angles at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 24 9-Figure 26 0, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, and contact-making surface is 90 ° of angles at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 26 1-Figure 27 2, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, has the side contacts face, and contact-making surface is 90 ° of angles at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 27 3-Figure 28 4, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, presents oblique acute angle at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 28 5-Figure 29 6, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, has the side contacts face, presents oblique acute angle at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 29 7-Figure 30 8, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, is the declivity obtuse angle at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

In conjunction with Figure 30 9-Figure 32 0, the joint face of blade and cutter tooth body is Z-shaped, and the tooth top contact-making surface is 60 °-120 °, has the side contacts face, is the declivity obtuse angle at the bottom of the tooth, and blade is shape wide at the top and narrow at the bottom.

Claims (5)

1. a bimetallic curved-tooth bevel gear milling cutter is the Gleason milling cutter, and it comprises cutter tooth body and blade, it is characterized in that: cutter tooth body and blade are two body structures, and blade is set on the cutter tooth body, and the joint face of blade and cutter tooth body is an on-plane surface.

2. bimetallic curved-tooth bevel gear milling cutter according to claim 1 is the Gleason milling cutter, it is characterized in that: the joint face of described blade and cutter tooth body is Z-shaped.

3. bimetallic curved-tooth bevel gear milling cutter according to claim 1 is the Gleason milling cutter, it is characterized in that: the joint face of described blade and cutter tooth body is corrugated.

4. bimetallic curved-tooth bevel gear milling cutter according to claim 3 is the Gleason milling cutter, it is characterized in that: described corrugated face is the zigzag ripple.

5. be the Gleason milling cutter according to any one described bimetallic curved-tooth bevel gear milling cutter of claim 1-4, it is characterized in that: it is blade welding or gluing being connected on the cutter tooth body that described blade is set on the cutter hub.

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