CN213702036U - Hard alloy saw blade - Google Patents

Abstract

The utility model relates to a carbide saw bit belongs to the metalworking instrument and makes technical field, and it is applicable to and uses with hand-held type instrument is supporting. The utility model discloses a carbide strip, saw bit main part and installation stalk portion, its structural feature lies in: still include sawtooth and welding point, be provided with the welding point on the installation stalk portion, the welding point is connected with the saw bit main part, and the saw bit main part sets up with installation stalk portion formula structure as an organic whole, carbide strip is connected with the saw bit main part, and carbide strip and saw bit main part formula structure as an organic whole set up, carbide strip is located the lateral part of saw bit main part, be provided with the sawtooth on the carbide strip, be provided with the interface on the installation stalk portion. The hard alloy saw blade does not need welding filler when the hard alloy strip is welded with the saw blade main body, and has the advantages of firm welding, convenient processing, production and manufacturing cost reduction, long service life, wide application range, high cost performance, small environmental pollution and the like.

Description

Hard alloy saw blade

Technical Field

The utility model relates to a carbide saw bit belongs to the metalworking instrument and makes technical field, and it is applicable to and uses with hand-held type instrument is supporting.

Background

The existing hard alloy saw blade (strip) generally adopts a single-tooth welding process, has complex working procedures and is easy to fall teeth; the welding of the filler has certain environmental protection influence and welding quality problems, particularly, the single-tooth welding is only suitable for coarse-tooth products, the main application range is limited to a certain extent, the cost is high, and the saw cutting performance, the service life, the application range and the cost performance have certain defects.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned not enough that exists among the prior art, and provide a structural design is reasonable, and the welding is firm, need not to use the carbide saw bit of welding additive when the welding.

The utility model provides a technical scheme that above-mentioned problem adopted is: this carbide saw bit, including carbide strip, saw bit main part and installation stalk portion, its structural feature lies in: the saw blade is characterized by further comprising saw teeth and a welding point, the welding point is arranged on the installation handle and connected with the saw blade main body, the hard alloy strip is connected with the saw blade main body and located on the side portion of the saw blade main body, the saw teeth are arranged on the hard alloy strip, and an interface is arranged on the installation handle.

Further, the hard alloy strips are welded with the saw blade main body.

Further, the saw blade main body and the mounting handle are arranged in an integrated structure or welded.

Furthermore, the saw blade main body is provided with a saw blade front end face, a saw blade upper plane and a saw blade lower plane, the saw blade lower plane is provided with a saw blade lower welding face, the saw blade lower welding face is welded with the installation handle, and the saw blade front end face is welded with the hard alloy strip.

Further, the installation handle part is provided with an upper welding surface of the installation handle part, the upper welding surface of the installation handle part is provided with a welding point, and the welding point is welded with the saw blade main body.

Further, the hard alloy strip is provided with a front end face of the hard alloy strip, a rear end face of the hard alloy strip, an upper inclined face of the hard alloy strip and a lower inclined face of the hard alloy strip, the rear end face of the hard alloy strip is welded with the saw blade body, the upper inclined face of the hard alloy strip and the lower inclined face of the hard alloy strip are respectively located on two sides of the hard alloy strip, and the upper inclined face of the hard alloy strip and the lower inclined face of the hard alloy strip are symmetrically arranged.

Further, the thickness of the mounting handle is D1, the width of the mounting handle is W1, the thickness of the saw blade body is D2, the width of the saw blade body is W2, the thickness of the rear end face of the cemented carbide strip is D3, the thickness of the front end face of the cemented carbide strip is D4, the width of the cemented carbide strip is W3, D1 > D4 > D3 > D2, and W1= W2= W3.

Further, hard alloy bevel angles R exist between the upper bevel of the hard alloy strip and the lower bevel of the hard alloy strip and the upper plane and the lower plane of the saw blade respectively, wherein R ranges from 2 degrees to 3 degrees, and the two hard alloy bevel angles R are equal.

Further, a front gap A and a rear gap B are arranged between the hard alloy strips and the saw blade main body, wherein the front gap A and the rear gap B are both 0.05 mm.

Further, another technical object of the present invention is to provide another cemented carbide saw blade.

The above technical object of the present invention can be achieved by the following technical solutions.

Another kind of carbide saw bit, including carbide strip, saw bit main part and installation stalk portion, its structural feature lies in: the saw blade is characterized by further comprising saw teeth, the installation handle is connected with the saw blade main body, the hard alloy strip is connected with the saw blade main body and located at the bottom of the saw blade main body, and the saw teeth are arranged on the hard alloy strip.

Compared with the prior art, the utility model has the advantages of this carbide saw bit of following advantage, need not welded filler when carbide strip and saw bit main part welding, it is firm to have the welding, and the processing of being convenient for reduces production manufacturing cost, long service life, and the range of application is extensive, and the sexual valence is high, little to environmental pollution.

Drawings

Fig. 1 is a schematic top view of a cemented carbide saw blade according to an embodiment of the present invention.

Fig. 2 is a front view structure diagram of a cemented carbide saw blade according to an embodiment of the present invention.

Fig. 3 is a schematic top view of a mounting handle according to an embodiment of the present invention.

Fig. 4 is a front view structure diagram of the installation handle of the embodiment of the present invention.

Fig. 5 is a schematic top view of a saw blade body according to an embodiment of the present invention.

Fig. 6 is a front view of the saw blade body according to the embodiment of the present invention.

Fig. 7 is a schematic top view of a cemented carbide strip according to an embodiment of the present invention.

Fig. 8 is a schematic front view of a cemented carbide strip according to an embodiment of the present invention.

Fig. 9 is a schematic top view of a cemented carbide strip and a saw blade body according to an embodiment of the present invention.

Fig. 10 is a schematic front view of the structure of the hard alloy strip and the saw blade body according to the embodiment of the present invention after welding.

Fig. 11 is a schematic top view of the hard alloy strip and the saw blade body according to the embodiment of the present invention after welding and processing the saw teeth.

Fig. 12 is a schematic structural view of the hard alloy strip welded to the saw blade body and the saw teeth machined in accordance with the embodiment of the present invention.

Fig. 13 is a schematic top view of a cemented carbide strip with serrations formed thereon according to an embodiment of the present invention.

Fig. 14 is a schematic front view of a hard alloy strip with serrations formed thereon according to an embodiment of the present invention.

Fig. 15 is a partially enlarged schematic view of fig. 12.

Fig. 16 is a schematic top view of a cemented carbide strip and a saw blade body according to another embodiment of the present invention.

Fig. 17 is a schematic top view of a cemented carbide strip with serrations formed thereon according to another embodiment of the present invention.

Fig. 18 is a schematic top view of a hard alloy strip according to another embodiment of the present invention welded to a saw blade body and having saw teeth machined.

In the figure: a hard alloy bar 1, a saw blade main body 2, a mounting handle 3, sawteeth 4, a welding point 5,

A saw blade front end surface 6, a saw blade upper plane 7, a saw blade lower plane 8, a saw blade lower welding surface 9,

An upper welding surface 10 of the installation handle part,

A front end surface 11 of the hard alloy strip, a back end surface 12 of the hard alloy strip, an upper inclined surface 13 of the hard alloy strip, a lower inclined surface 14 of the hard alloy strip,

An interface 15.

Detailed Description

The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.

Examples

Referring to fig. 1 to 18, it should be understood that the structures, ratios, sizes, etc. shown in the drawings attached to the present specification are only used for matching with the contents disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essence, and any modification of the structures, changes of the ratio relationship, or adjustment of the sizes should still fall within the scope that the technical contents disclosed in the present invention can cover without affecting the efficacy and the achievable purpose of the present invention. Meanwhile, in the present specification, if there are terms such as "upper", "lower", "left", "right", "middle" and "one", they are used for clarity of description only, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof are considered as the scope of the present invention without substantial changes in the technical content.

The hard alloy saw blade in this embodiment (as shown in fig. 1-15) includes a hard alloy strip 1, a saw blade main body 2, saw teeth 4 and a welding point 5 of an installation handle 3, the welding point 5 is arranged on the installation handle 3, the welding point 5 is connected with the saw blade main body 2, the hard alloy strip 1 is located on the side of the saw blade main body 2, the saw teeth 4 are arranged on the hard alloy strip 1, an interface 15 is arranged on the installation handle 3, the hard alloy strip 1 is welded with the saw blade main body 2, and the saw blade main body 2 and the installation handle 3 are arranged or welded in an integrated structure.

The saw blade main body 2 in the embodiment is provided with a saw blade front end face 6, a saw blade upper plane 7 and a saw blade lower plane 8, the saw blade lower plane 8 is provided with a saw blade lower welding face 9, the saw blade lower welding face 9 is welded with the mounting handle 3, and the saw blade front end face 6 is welded with the hard alloy strip 1.

The installation stalk portion 3 in this embodiment is provided with welding face 10 on the installation stalk portion, is provided with welding point 5 on the welding face 10 on the installation stalk portion, and welding point 5 and saw bit main part 2 welding set up.

In this embodiment, the hard alloy strip 1 is provided with a front end face 11 of the hard alloy strip, a rear end face 12 of the hard alloy strip, an upper inclined face 13 of the hard alloy strip and a lower inclined face 14 of the hard alloy strip, the rear end face 12 of the hard alloy strip is welded to the saw blade body 2, the upper inclined face 13 of the hard alloy strip and the lower inclined face 14 of the hard alloy strip are respectively located on two sides of the hard alloy strip 1, and the upper inclined face 13 of the hard alloy strip and the lower inclined face 14 of the hard alloy strip are symmetrically arranged.

The thickness of the mounting shank 3 in this embodiment is D1, the width of the mounting shank 3 is W1, the thickness of the blade body 2 is D2, the width of the blade body 2 is W2, the thickness of the rear end face 12 of the cemented carbide strip is D3, the thickness of the front end face 11 of the cemented carbide strip is D4, the width of the cemented carbide strip 1 is W3, D1 > D4 > D3 > D2, and W1= W2= W3.

In the embodiment, hard alloy bevel angles R exist between the hard alloy strip upper bevel 13 and the hard alloy strip lower bevel 14 and the saw blade upper plane 7 and the saw blade lower plane 8 respectively, wherein R is 2-3 degrees, the two hard alloy bevel angles R are equal, a front gap a and a rear gap B are arranged between the hard alloy strip 1 and the saw blade main body 2, and the front gap a and the rear gap B are both 0.5 mm.

Another cemented carbide saw blade (as shown in fig. 13, 14, and 16-18) in this embodiment includes a cemented carbide strip 1, a saw blade main body 2, a mounting shank 3, and saw teeth 4, the mounting shank 3 is connected to the saw blade main body 2, the cemented carbide strip 1 is located at the bottom of the saw blade main body 2, and the cemented carbide strip 1 is provided with the saw teeth 4, which may also be referred to as a saw blade.

The machining process of the hard alloy saw blade in the embodiment comprises the following steps:

the sawtooth 4 is provided with uniformly corresponding tooth profiles according to the requirements of a cutting mode and a cutting object, wherein the tooth profiles comprise a tooth pitch P and a tooth depth d, the tooth pitch P is 0.8-1.8 mm, the d is less than or equal to 1.5mm, the cutting depth is 40-70 mm, and the mode (the tooth number TPI of each inch is less than 14) is suitable for fine tooth products, cutting metals or steel nails and anti-crushing long-life types;

the saw blade main body 2 adopts a high-precision near-net forming die pressing process technology, the dimensional tolerance and the raw material consumption are controlled, the high-precision grinding process ensures the D2 tolerance requirement, the roughness and the flatness of the front end surface 6 of the saw blade and the dimensional tolerance requirement of the subsequent welding strength and the welded back side clearance, the side clearance comprises a front clearance A and a back clearance B, the laser deep melting welding of the hard alloy strip 1 and the saw blade main body 2 is ensured under the welding tool, and the front clearance A and the back clearance B formed after the welding on the two sides are evenly divided, wherein the front clearance A = (D4-D2)/2, the back clearance B = (D3-D2)/2, the front clearance A and the back clearance B are both 0.05mm, the back clearance B can ensure the welding strength and the sufficient operation impact strength of the hard alloy strip 1 and the saw blade main body 2, protect the hard alloy strip 1 from being damaged, and simultaneously ensure that the saw blade main body 2 does not, the front gap a ensures cutting efficiency and a certain operational impact strength resistance of the cemented carbide strip 1.

The welding assembly is cleaned by adopting a hydrocarbon process, a welded seam is smooth and firm, the welding strength reaches the requirement of 150MPA service performance verification, and a welding tool ensures that two ends of the hard alloy strip 1 and the saw blade main body 2 in the width direction are parallel and level, so that W3= W2, wherein W3= W2 is 50-70 mm, the size of a welding position and the material are effectively utilized, and the welding assembly is suitable for the width requirements of different cutting modes;

the sawtooth 4 is subjected to high-precision grinding according to the tooth pitch P, the tooth depth d is uniformly distributed on the front end surface 11 of the hard alloy bar, and the sawtooth 4 is subjected to strength treatment by adopting a passivation process so as to prevent tooth breakage damage in subsequent procedures or operation.

A tooth dividing and grinding mode is not needed, the cutting width D of the cemented carbide saw blade is ensured to be larger than the thickness D2 of the saw blade main body 2 through the gap A after welding, wherein D is 1.2-1.3 mm, and D2 is 0.9-1.0 mm, so that cemented carbide bevel angles R exist between the upper inclined plane 13 of the cemented carbide strip and the lower inclined plane 14 of the cemented carbide strip respectively and the upper plane 7 and the lower plane 8 of the saw blade, wherein R is 2-3 degrees, the two cemented carbide bevel angles R are equal, the cutting efficiency can be ensured without tooth dividing, the saw teeth 4 participate in cutting during operation, the high wear resistance and the hot hardness of the cemented carbide high-speed steel material and the toughness of the saw blade main body 2 are fully utilized, the saw blade main body 2 does not contact with a cutting object to generate friction and heat, the side gap is convenient for discharging chips, D1 is larger than D4 larger than D3 larger than D2, and W1= W2= 3.

A certain number of welding points 5 with concave-convex structures are arranged on the mounting handle 3 to ensure that the welding strength with the saw blade main body 2 reaches 150MPA, the hanging weight of 25KG is met after welding without falling test, and the welding tool ensures that the welding size and the parallelism tolerance are less than 1.5MM and the central line positions of the welding size and the parallelism tolerance are matched correctly; wherein D1 > D4 > D3 > D2, W = W1= W2= W3, L = (L1 + L5) -2L7, L4= L2+ L3, L5= L2+ L6, and L tolerance is controlled to (L3 + L2+ L1-2L 7) ± 0.05mm, d1 is 1.2 mm-1.4 mm, namely the material utilization maximization under the condition of ensuring enough rigidity strength, D4= D is 1.2 mm-1.3 mm, D3 is 1.1 mm-1.2 mm, the cutting efficiency can be ensured by a hard alloy bevel angle R with a certain angle, D2 is 0.9 mm-1.0 mm, the welding and impact-resistant buffer strength is ensured, W = W1= W2= W3 is 50 mm-70 mm, L is determined according to a cutting mode and controlled to be 85 mm-110 mm, L4 and L5 are 50 mm-70 mm, the difference of 0.05mm exists between L4 and L5, H is 8 mm-10 mm, the height of the mounting head of the matched tool is ensured to be larger than, and the bottom position working face with the maximum limit can be cut.

The material of installation stalk portion 3 is high carbon steel, and the material of saw bit main part 2 is alloy steel, and the material of carbide strip 1 is carbide, and its carbon content of three has the following relation: hard alloy > high carbon steel > alloy steel; after the heat treatment process, different hardness requirements are met, according to the functional requirements of different parts, the installation handle 3 has rigidity and obdurability, the saw blade main body 2 has obdurability, and the hard alloy strip 1 has high hardness and wear resistance; the hardness HV1400 or more (HRC 70 or more) of the saw teeth 4 is much larger than that of the mounting shank (HRC) and the saw blade (HRC), and the mounting shank (HRC 38 or more) is slightly larger than that of the saw blade (HRC 38 or more).

The hard alloy is brittle and hard, has poor toughness and high price, so the size is reduced as much as possible under the condition of meeting the requirements of the process and the performance, and the size can be quantitatively fixed corresponding to a cutting mode and a main cutting object; the saw blade main body 2 and the installation handle 3 adopt high-carbon steel with high toughness, the cutting toughness is met, and the cost performance is good; the use is safe and reliable, the application range is wider, and the technical process of the hard alloy strip 1 is suitable for saw blades and saw blades (such as curve saw blades, reciprocating saw blades, multifunctional saw blades and the like) and can be applied to various stone, wood and metal cutting modes in the decoration industry.

The length of the mounting handle 3 is L1, and L1 is referred to as the mounting handle length.

Wherein, the thickness of the mounting handle 3 is D1, D1 is called as the mounting handle thickness.

Here, the height of the mounting shank 3 is H, which is referred to as the mounting shank height.

The width of the mounting shank 3 is W1, and W1 is referred to as the mounting shank width.

The length of the blade body 2 is L2, and L2 is referred to as blade length.

The thickness of the blade body 2 is D2, and D2 is referred to as blade thickness.

The width of the blade body 2 is W2, and W2 is referred to as blade width.

The length of the cemented carbide strip 1 is L3, and L3 is called cemented carbide strip length.

The thickness of the rear end face 12 of the cemented carbide strip is D3, i.e. the thickness of the rear end face 12 of the cemented carbide strip 1 before machining is D3, D3 is referred to as the rear end face thickness of the cemented carbide strip.

The thickness of the end face 11 of the cemented carbide strip is D4, i.e. the thickness of the end face 11 of the cemented carbide strip 1 before machining is D4, D4 is referred to as the end face thickness of the cemented carbide strip.

The width of the cemented carbide strip 1 is W3, and W3 is referred to as cemented carbide strip width.

And hard alloy bevel angles R exist between the hard alloy strip upper bevel 13 and the hard alloy strip lower bevel 14 and the horizontal plane, the R is called as a hard alloy bevel angle, and the saw blade upper plane 7 and the saw blade lower plane 8 are parallel to the horizontal plane.

The length of the cemented carbide strip 1 welded to the blade body 2 is L4, and L4 is referred to as the cemented carbide strip welded length.

Wherein, a front gap A and a back gap B are arranged between the hard alloy strip 1 and the saw blade body 2.

The front gap A is the minimum distance between the upper inclined plane 13 of the hard alloy strip and the upper plane 7 of the saw blade or between the lower inclined plane 14 of the hard alloy strip and the lower plane 8 of the saw blade after the hard alloy strip 1 and the saw blade body 2 are welded.

Wherein, the back clearance B is the maximum distance between the upper inclined plane 13 of the hard alloy strip and the upper plane 7 of the saw blade or between the lower inclined plane 14 of the hard alloy strip and the lower plane 8 of the saw blade after the hard alloy strip 1 and the saw blade body 2 are welded.

The length of the cemented carbide strip 1 welded to the blade body 2 and the saw teeth 4 machined is L5, and L5 is referred to as the length after welding and tooth machining.

The pitch of the saw teeth 4 is P, i.e., the distance between two adjacent saw teeth 4 after machining is referred to as the pitch.

The depth of the saw tooth 4 is d, i.e., the depth of the machined saw tooth 4 is referred to as the depth of the tooth.

The length of the cemented carbide strip 1 after the serrations 4 were machined was L6, and L6 was the length of the cemented carbide strip 1 after the serrations 4 were machined.

The length of the cemented carbide saw blade is L, and L is called the length of the cemented carbide saw blade.

The width of the cemented carbide saw blade is W, and W is called the cemented carbide saw blade width.

Wherein, the cutting width of the hard alloy saw blade is D, namely the thickness of the processed hard alloy strip 1 is D.

Here, the welding range length of the blade body 2 and the attachment shank 3 is L7, i.e., the length of the overlapping portion of the blade body 2 and the attachment shank 3, and L7 is referred to as the welding range length.

The processing technology can be applied to processing of multifunctional saw blades, double-head multifunctional saw blades, curve saw blades, reciprocating saw blades and the like, wherein the saw blades are suitable for special purposes of fine-toothed products, such as cutting of metal and nails, and have the advantages of high efficiency, long service life, good breakage resistance, low price and the like.

The processing technology is mainly suitable for processing the following four types of products, such as double-side cutting, single-side cutting, saw blades and reciprocating saw blades, but is not limited to the four types of products.

The size and the structure of the product can be split or integrated; the mounting shank 3 may be of a straight shape or a bent shape; the cutting direction of the mounting hole and the hard alloy saw blade 1 is the vertical direction as described above, and can also be the parallel direction (the product length L in the parallel direction is 76 mm-200 mm, and the W is 5 mm-25 mm); other processes, tolerance requirements and performance are the same.

In the hard alloy saw blade in the embodiment, the hard alloy strips and the saw blade main body are welded without welding filler, so that the hard alloy saw blade has the advantages of firm welding, convenience in processing, reduction in production and manufacturing cost, long service life, wide application range, high cost performance, small environmental pollution and the like.

In addition, it should be noted that the specific embodiments described in the present specification may be different in the components, the shapes of the components, the names of the components, and the like, and the above description is only an example of the structure of the present invention. All the equivalent changes or simple changes made according to the structure, characteristics and principle of the utility model are included in the protection scope of the utility model. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a carbide saw blade, includes carbide strip (1), saw bit main part (2) and installation stalk portion (3), its characterized in that: still include sawtooth (4) and welding point (5), be provided with welding point (5) on installation stalk portion (3), welding point (5) are connected with saw bit main part (2), carbide strip (1) is located the lateral part of saw bit main part (2), be provided with sawtooth (4) on carbide strip (1), be provided with interface (15) on installation stalk portion (3).

2. The cemented carbide saw blade as set forth in claim 1, wherein: the hard alloy strip (1) is welded with the saw blade main body (2).

3. The cemented carbide saw blade as set forth in claim 1, wherein: the saw blade main body (2) and the installation handle part (3) are arranged or welded in an integrated structure.

4. The cemented carbide saw blade as set forth in claim 1, wherein: the saw bit is characterized in that the saw bit main body (2) is provided with a saw bit front end face (6), a saw bit upper plane (7) and a saw bit lower plane (8), the saw bit lower plane (8) is provided with a saw bit lower welding face (9), the saw bit lower welding face (9) is welded with the installation handle portion (3), and the saw bit front end face (6) is welded with the hard alloy strip (1).

5. The cemented carbide saw blade as set forth in claim 1, wherein: the saw blade is characterized in that a welding surface (10) on the installation handle part is arranged on the installation handle part (3), a welding point (5) is arranged on the welding surface (10) on the installation handle part, and the welding point (5) is welded with the saw blade main body (2).

6. The cemented carbide saw blade as set forth in claim 1, wherein: the saw blade is characterized in that the hard alloy strip (1) is provided with a hard alloy strip front end face (11), a hard alloy strip rear end face (12), a hard alloy strip upper inclined face (13) and a hard alloy strip lower inclined face (14), the hard alloy strip rear end face (12) is welded with the saw blade main body (2), the hard alloy strip upper inclined face (13) and the hard alloy strip lower inclined face (14) are respectively located on two sides of the hard alloy strip (1), and the hard alloy strip upper inclined face (13) and the hard alloy strip lower inclined face (14) are symmetrically arranged.

7. The cemented carbide saw blade as set forth in claim 6, wherein: the thickness of the mounting handle (3) is D1, the width of the mounting handle (3) is W1, the thickness of the saw blade body (2) is D2, the width of the saw blade body (2) is W2, the thickness of the rear end face (12) of the cemented carbide strip is D3, the thickness of the front end face (11) of the cemented carbide strip is D4, the width of the cemented carbide strip (1) is W3, D1 > D4 > D3 > D2, and W1= W2= W3.

8. The cemented carbide saw blade as set forth in claim 6, wherein: hard alloy bevel angles R are respectively arranged between the hard alloy strip upper bevel (13) and the hard alloy strip lower bevel (14) and the saw blade upper plane (7) and the saw blade lower plane (8), wherein R is 2-3 degrees, and the two hard alloy bevel angles R are equal.

9. The cemented carbide saw blade as set forth in claim 1, wherein: a front gap A and a rear gap B are arranged between the hard alloy strip (1) and the saw blade main body (2), wherein the front gap A and the rear gap B are both 0.05 mm.

10. The utility model provides a carbide saw blade, includes carbide strip (1), saw bit main part (2) and installation stalk portion (3), its characterized in that: still include sawtooth (4), installation stalk portion (3) are connected with saw bit main part (2), carbide strip (1) is located the bottom of saw bit main part (2), be provided with sawtooth (4) on carbide strip (1).

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