CN217451996U - Integral cutting blade and cutter for high-speed upsetter - Google Patents
Integral cutting blade and cutter for high-speed upsetter Download PDFInfo
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- CN217451996U CN217451996U CN202221313617.5U CN202221313617U CN217451996U CN 217451996 U CN217451996 U CN 217451996U CN 202221313617 U CN202221313617 U CN 202221313617U CN 217451996 U CN217451996 U CN 217451996U
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Abstract
The utility model discloses an integral cutting blade for a high-speed upsetter, which comprises an integral blade body and a blade edge, wherein the blade body and the blade edge are not provided with a hole groove structure; the knife edge is in an inwards concave arc shape and is arranged on the front side of the knife body; the rear side, the lower surface and the left side of the blade body are tightly attached to a tool rest of a high-speed upsetter; the left side surface of the knife body is a first inclined surface which is inclined outwards from top to bottom; the right side surface of the knife body is a second inclined surface which inclines from outside to inside to left. The utility model also discloses a cutoff tool for high-speed upsetter, including the knife rest, as above integral cutting blade, pressing blade and puller bolt. The utility model has the advantages that: the whole blade is made of hard alloy, and a mounting hole groove is not formed in the blade, so that the service life of the blade is prolonged; the blade and the tool rest are designed to be locked by an inclined plane based on a wedge-shaped compression principle, and the blade is fixed in the tool rest by tightly pressing the pressing piece through the bolt.
Description
Technical Field
The utility model relates to a hot shearing technique in the hot forging technology, in particular to an integral cutting blade and a cutter for a high-speed upsetter.
Background
The high-speed upsetter is a high-efficiency precise hot forming press, and adopts a horizontal design, and can complete the manufacture from a bar stock to a precise forge piece in one stroke from the heating of the bar stock to the cutting, the cake upsetting, the preforming, the forming and the punching. The forging has high precision and little allowance, wherein the very key factor is the realization of precise hot shearing. In precision thermal shearing processes, the machine is typically a fixed blade on one side and a moving blade on the other side. It is known that high speed upsetters are very efficient, up to over one hundred strokes per minute, which means that the moving and stationary blades also effect the hot shearing action of the bar at high speed. The fixed blade is relatively stable, only once thermal shock is caused in one shearing action, the working condition of the movable blade is severe, a second shearing action needs to be prepared, a retracting action is required after the first shearing action is finished, and the movable blade needs to rub a hot bar during retracting, so that the fixed blade is fast in abrasion and short in service life.
At present, the design and machining technology of the blade is relatively mature, and the service life of the blade is generally prolonged by adopting a cobalt-based alloy surfacing process on a working surface (see the failed patent CN 2033567821U). In recent years, with the progress of technology, part of the unit fixed blades applied are made of hard alloy, so that the effect is better; the moving blade is not much improved. Some foreign countries adopt the mosaic type hard alloy (carbide insert) structure design, and good effect is achieved. As shown in fig. 1 and 2, the blade is a blade commonly used in the industry, the blade edge is made of stellite, and the blade body is made of hot-work die steel; the knife rest is provided with a knife groove, the knife body is arranged in the knife groove and is directly pressed on the knife rest through a bolt, and the knife rest is shown in figures 3 and 4 (in figures 1-4, the reference numbers are as follows: 1, knife body; 2, knife edge; 3, knife rest; 4, knife groove). However, although cemented carbide has good red hardness, it has poor toughness and impact resistance, and in particular, cemented carbide parts having a mounting hole structure have a poor life span, and generally have a problem of cracking at these portions of the hole.
Therefore, there is a need for improvements in the prior art.
Disclosure of Invention
An object of the utility model is to provide a longe-lived, install and remove convenient integral cutting blade and cutter for high-speed upsetter to prior art not enough.
The utility model adopts the technical proposal that: an integral cutting blade for a high-speed upsetter comprises an integral blade body and a blade edge, wherein the blade body and the blade edge are not provided with a hole-groove structure; the knife edge is in an inwards concave arc shape and is arranged on the front side of the knife body; the rear side, the lower surface and the left side of the blade body are tightly attached to a tool rest of a high-speed upsetter; the left side surface of the knife body is a first inclined surface which is inclined outwards from top to bottom; the right side surface of the knife body is a second inclined surface which inclines from outside to inside to left.
According to the scheme, the included angle alpha between the first inclined plane and the vertical plane is 10-20 degrees.
According to the scheme, the included angle beta between the second inclined plane and the vertical plane is 0-10 degrees.
According to the scheme, the knife body and the knife tool are made of hard alloy materials.
The utility model also provides a cutting tool for the high-speed upsetter, which comprises a tool rest, the integral cutting blade, the pressing blade and the puller bolt; a cutter groove is formed in the front side of the cutter frame, and the integral cutting blade is installed in the cutter groove; the pressing piece is arranged between the right side face of the integral type cutting blade and the right groove face corresponding to the side face, and the puller bolt penetrates through the bolt hole formed in the tool rest and is tightly propped against the outer side face of the pressing piece.
According to the scheme, the left groove surface of the cutter groove is a third inclined surface matched with the first inclined surface, namely the third inclined surface is opposite to the first inclined surface in inclination direction, and the inclination angles are consistent.
According to the scheme, the right groove surface of the cutter groove is a fourth inclined surface which is inclined outwards from top to bottom, and the included angle gamma between the fourth inclined surface and the vertical surface is 0-10 degrees.
According to the scheme, the front side of the bottom surface of the cutter groove is provided with an arc-shaped opening matched with the cutter edge.
According to the scheme, the front side of the integral cutting blade exceeds the cutter frame.
According to the scheme, one side of the tool rest is provided with the connecting rod, and the tool rest is connected with the high-speed upsetter through the connecting rod.
The utility model has the advantages that: the utility model is made of hard alloy, and has no installation hole groove, which improves the service life of the blade; the blade and the tool rest are designed to be locked by an inclined plane based on a wedge-shaped compression principle, and the blade is fixed in the tool rest by tightly pressing the pressing piece through the bolt.
Drawings
Fig. 1 is a front view of a conventional blade of the related art.
Fig. 2 is a left side view of a conventional blade.
Fig. 3 is a front view of a conventional tool holder.
Fig. 4 is a left side view of a conventional tool holder.
Fig. 5 is a schematic structural view of the cutting blade of the present invention.
Fig. 6 is a top view of fig. 5.
Fig. 7 is a front view of fig. 5.
Fig. 8 is a schematic view of the overall structure of the cutter in this embodiment.
Fig. 9 is a schematic view of the structure of the tool holder and the connecting rod in this embodiment.
Fig. 10 is a top view of the tool holder of this embodiment.
Fig. 11 is a front view of the cutter.
Detailed Description
For a better understanding of the present invention, reference will now be made to the following detailed description taken in conjunction with the accompanying drawings.
In fig. 5 to 7, the reference numerals are as follows: 5. a blade body; 5.1, a first inclined plane; 5.2, a second inclined plane; 6. a knife edge; 7. a tool holder; 8. a knife slot; 8.1, a third inclined plane; 8.2, a fourth inclined plane; 9. a connecting rod; 10. a compression sheet; 11. and tightly pushing the bolt.
The integral cutting blade for the high-speed upsetter as shown in fig. 5-7 comprises a blade body 5 and a blade 6 which are integral, wherein the blade body 5 and the blade 6 are not provided with a hole-groove structure; the knife edge 6 is in an inwards concave arc shape and is arranged on the front side of the knife body 5; the rear side, the lower surface and the left side of the cutter body 5 are tightly attached to a cutter frame 7 of the high-speed upsetter; the left side surface of the knife body 5 is a first inclined surface 5.1 which is inclined outwards from top to bottom; the right side surface of the knife body 5 is a second inclined surface 5.2 which is inclined from outside to inside to left.
Preferably, the included angle α between the first inclined surface 5.1 and the vertical surface is 10 ° to 20 °.
Preferably, the included angle β between the second inclined surface 5.2 and the vertical surface is 0 ° to 10 °, preferably 5 °.
Preferably, the blade body 5 and the cutter are made of hard alloy materials.
In this embodiment, an included angle between the first inclined surface 5.1 and the vertical surface is 15 °, and an included angle between the first inclined surface 5.1 and the vertical surface is 15 °; other designs of the integral cutting blade, such as chamfering, have the prior conventional technical means, and are not described in detail herein.
A cutting tool for a high speed upsetter shown in fig. 8 comprises a blade holder 7, an integral cutting blade as described above, a pressing piece 10 and a jack bolt 11; a cutter groove 8 is formed in the front side of the cutter frame 7, and the integral cutting blade is installed in the cutter groove 8; the pressing piece 10 is arranged between the right side face of the integral type cutting blade and the right groove face corresponding to the side face, and the puller bolt 11 penetrates through a bolt hole formed in the tool rest 7 and is tightly propped against the outer side face of the pressing piece 10. The structure of the tool holder 7 is shown in fig. 9 to 11.
Preferably, the left groove surface of the knife groove 8 is a third inclined surface 8.1 matched with the first inclined surface 5.1, that is, the third inclined surface 8.1 is opposite to the first inclined surface 5.1 in inclination direction, and the inclination angle is consistent; the right groove surface of the cutter groove 8 is a fourth inclined surface 8.2 which is inclined outwards from top to bottom, and the included angle gamma between the fourth inclined surface 8.2 and the vertical surface is 0-10 degrees, preferably 5 degrees; the bolt hole is opened in fourth inclined plane 8.2. In this embodiment, the included angle between the third inclined surface 8.1 and the vertical surface is 15 °; the fourth inclined plane 8.2 forms an angle gamma of 5 deg. with the vertical plane.
Preferably, an arc-shaped opening matched with the knife edge 6 is formed in the front side of the bottom surface of the knife groove 8.
Preferably, the front side of the integral cutting blade extends beyond the blade holder 7.
Preferably, a connecting rod 9 is arranged on one side of the tool rest 7, and the tool rest 7 is connected with the high-speed upsetter through the connecting rod 9.
In this embodiment, the total length of the cutter groove 8 is greater than the length of the integral cutting blade by 4mm, the thickness of the pressing piece 10 is 3mm, the pressing piece is convenient to be inserted between the right side surface of the integral cutting blade and the cutter groove 8, and the height of the assembly surface of the integral cutting blade is equal to that of the cutter groove 8. One side of the knife rest 7 is provided with two bolt holes, and the blade and the pressing piece 10 are pressed tightly by two tightening bolts 11 after being plugged. Other designs of the tool holder 7, such as a mounting hole formed in the upper portion of the tool holder 7, an inclined surface on the front side of the tool holder 7, a chamfer design and the like, are conventional technologies, and are not described herein again.
The utility model discloses an installation does: the integral cutting blade is inserted into the mounting groove of the cutter holder 7 from the front side, the pressing piece 10 is inserted between the right side surface of the integral cutting blade and the corresponding groove surface, the puller bolt 11 is inserted into the bolt hole to jack the outer side surface of the pressing piece 10, the pressing piece 10 acts on the integral cutting blade, and the integral cutting blade is fixed in the cutter groove 8.
The utility model is suitable for a high-speed upsetter hot shearing scene, the working face (the right flank that the blade is cut off to the integral (also with the one side of compressing tightly 10 contacts) can normally be reprocessed after using certain number of times wearing and tearing, can continue to use after reprocessing, only needs to increase the gasket in 7 recesses of knife rest, let the total height accord with original groove height can, reprocess the number of times and look the stereoplasm and close blade gold final life and confirm.
It should be noted that the above is only a preferred embodiment of the present invention, and the present invention is not limited thereto, and although the present invention has been described in detail with reference to the embodiments, it will be apparent to those skilled in the art that the technical solutions described in the foregoing embodiments can be modified or some technical features can be replaced with equivalents, but any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.
Claims (10)
1. An integral cutting blade for a high-speed upsetter is characterized by comprising a blade body and a blade edge which are integrated, wherein the blade body and the blade edge are not provided with a hole groove structure; the knife edge is in an inwards concave arc shape and is arranged on the front side of the knife body; the rear side, the lower surface and the left side of the blade body are tightly attached to a tool rest of a high-speed upsetter; the left side surface of the knife body is a first inclined surface which is inclined outwards from top to bottom; the right side surface of the knife body is a second inclined surface which inclines from outside to inside to left.
2. The integral cutoff blade defined in claim 1 wherein the angle α between said first beveled surface and the vertical surface is between 10 ° and 20 °.
3. The integral cutoff blade defined in claim 1 wherein the angle β between said second beveled surface and said vertical surface is between 0 ° and 10 °.
4. The integrated cutting insert according to claim 1 wherein said body and said tool are formed of cemented carbide material.
5. A cutting tool for a high-speed upsetter, characterized by comprising a tool holder, an integral type cutting blade according to any one of claims 1 to 4, a pressing piece and a puller bolt; a cutter groove is formed in the front side of the cutter frame, and the integral cutting blade is installed in the cutter groove; the pressing piece is arranged between the right side face of the integral type cutting blade and the right groove face corresponding to the side face, and the puller bolt penetrates through the bolt hole formed in the tool rest and is tightly propped against the outer side face of the pressing piece.
6. The cutting tool of claim 5 wherein the left flute face of the flute is a third bevel surface adapted to the first bevel surface, i.e., the third bevel surface slopes in the opposite direction and at the same angle as the first bevel surface.
7. The cutting tool according to claim 5, wherein the right groove surface of the pocket is a fourth inclined surface inclined outwardly from top to bottom, and the angle γ between the fourth inclined surface and the vertical surface is 0 ° to 10 °.
8. The cutting tool according to claim 5, wherein the front side of the bottom surface of the pocket is provided with an arc-shaped opening adapted to the blade edge.
9. The cutoff tool according to claim 5 wherein the front side of the integral cutoff insert extends beyond the toolholder.
10. The cutoff tool according to claim 5 wherein the blade carrier is provided with a connecting rod on one side thereof, the blade carrier being connected to the high speed upsetter by the connecting rod.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221313617.5U CN217451996U (en) | 2022-05-24 | 2022-05-24 | Integral cutting blade and cutter for high-speed upsetter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221313617.5U CN217451996U (en) | 2022-05-24 | 2022-05-24 | Integral cutting blade and cutter for high-speed upsetter |
Publications (1)
Publication Number | Publication Date |
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CN217451996U true CN217451996U (en) | 2022-09-20 |
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CN202221313617.5U Active CN217451996U (en) | 2022-05-24 | 2022-05-24 | Integral cutting blade and cutter for high-speed upsetter |
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CN (1) | CN217451996U (en) |
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2022
- 2022-05-24 CN CN202221313617.5U patent/CN217451996U/en active Active
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