CN211194493U - Carbon rod center material taking machine structure - Google Patents
Carbon rod center material taking machine structure Download PDFInfo
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- CN211194493U CN211194493U CN201921803836.XU CN201921803836U CN211194493U CN 211194493 U CN211194493 U CN 211194493U CN 201921803836 U CN201921803836 U CN 201921803836U CN 211194493 U CN211194493 U CN 211194493U
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Abstract
The utility model discloses a carbon rod central material taking machine structure; belonging to the technical field of lathes; the technical key points of the utility model comprise a lathe body, a carbon rod fixing mechanism and a cutter mechanism are sequentially arranged on the lathe body, the carbon rod fixing mechanism and the cutter mechanism form the main body structure of the utility model, the carbon rod fixing mechanism is formed by a chuck and a workpiece supporting roller, the chuck is used for fixing one end of a carbon rod workpiece, the workpiece supporting roller is used for supporting the carbon rod workpiece, through lathe saddle, cutter fixing base, get material cutter, frame blade holder, inhale bits cover and blinker constitution cutter mechanism, lathe saddle drives and gets the material cutter and remove, and cutter fixing base and frame blade holder are used for the fixed material cutter of getting, get the material cutter and be used for the cutting to get the material, inhale the bits cover and be used for inhaling the carbon dust under the cutting, the deep bead is used for taking out the carbon dust, the utility model discloses change the extravagant phenomenon of punching at the center of course of working of carbon-point work piece, less to pollution, the material saving of environment, increase substantially than current structure machining efficiency.
Description
Technical Field
The utility model relates to a lathe structure, more specifically say, especially relate to carbon-point center reclaimer structure.
Background
Smelting steel is a general term for steel and iron metallurgy process. The iron produced in industry is divided into pig iron (with carbon content more than 2%) and steel (with carbon content less than 2%), most of modern iron making adopts blast furnace iron making, and direct reduction iron making method and electric furnace iron making method are adopted individually. The steel-making is mainly made by using pig iron smelted by blast furnace, sponge iron smelted by direct reduction iron-smelting method and waste steel as raw materials and smelting them into steel by different methods. The basic production process is that iron ore is smelted into pig iron in an iron-smelting furnace, then the pig iron is used as raw material, and is smelted into steel by different methods, and then the steel is casted into steel ingot or continuous casting billet.
When an electric furnace in a steel plant is used for smelting steel, a carbon rod (graphite) is used as an electrode, a large-ampere current is conducted to heat the steel, the originally used carbon rod is solid, and residual carbon enters the steel during the steel smelting, so that the carbon content in the steel exceeds the standard and a large amount of carbon rods are wasted. The carbon rod used in the modern steel smelting technology is required to be hollow, but the carbon rod is subjected to high-temperature die casting during manufacturing, is difficult to be made into a hollow structure, can only be subjected to punching in subsequent processing, the material at the center of the carbon rod is changed into powder, the punching efficiency is low, the carbon rod cannot be recycled after being changed into powder, the environment is polluted, and materials are wasted. The cutter that original center punched processes three to four carbon-point just scrapped, and the life of cutter is short, for this reason, we have proposed carbon-point center reclaimer structure.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an easy operation, waste material forming device is used in powder workshop convenient to use to the not enough of above-mentioned prior art.
The technical scheme of the utility model is realized like this: the carbon rod center material taking machine structure comprises a lathe body, wherein a carbon rod fixing mechanism and a cutter mechanism are sequentially arranged on the lathe body;
the carbon rod fixing mechanism comprises a chuck, the chuck is horizontally arranged on the lathe body, a workpiece supporting roller is arranged on one side, close to the chuck, of the lathe body, the workpiece supporting roller comprises a base, the base is connected with the lathe body, a carrier roller is arranged on the base, a carbon rod workpiece is arranged on the chuck, and the carbon rod workpiece is in contact with the carrier roller;
the cutter mechanism comprises a machine tool saddle, the machine tool saddle is vertically arranged on the machine tool body, a cutter fixing seat is arranged on the machine tool saddle, a material taking cutter is arranged on the cutter fixing seat, a holder is arranged between one side of the material taking cutter and the machine tool body, a chip suction cover is arranged on the other side of the material taking cutter, the material taking cutter and the chip suction cover are vertically arranged, a chip walking hole is formed in the material taking cutter, the chip walking hole is communicated with the chip suction cover, and a baffle plate is arranged on one side of the material taking cutter close to the chip suction cover.
In the above structure of the carbon rod center material taking machine, the lathe body is a CW61 series horizontal lathe.
In the above structure of the carbon rod center material taking machine, the dust suction cover is provided with a dust suction machine used in cooperation with the dust suction cover.
In the above structure of the carbon rod center material taking machine, the circle center of the carbon rod workpiece and the circle center of the material taking cutter are located on the same horizontal line.
In the above carbon rod center material taking machine structure, the surfaces of the workpiece support rollers are all subjected to polishing treatment.
The utility model adopts the above structure after, constitute through lathe body, carbon-point fixed establishment and cutter mechanism the utility model discloses a major structure, wherein lathe body is CW61 series horizontal lathe, constitute carbon-point fixed establishment through chuck and work piece bearing roller, wherein the chuck is used for the one end of fixed carbon-point work piece, the work piece bearing roller is used for holding the carbon-point work piece, through lathe saddle, cutter fixing base, get the material cutter, a knife rest, inhale bits cover and a shelves aerofoil constitution cutter mechanism, wherein lathe saddle drives and gets the material cutter and remove, cutter fixing base and a knife rest are used for fixed material cutter of getting, it gets the material to get the material cutter to be used for the cutting, it is used for inhaling the carbon dust under the cutting to inhale bits cover, be used for taking out the carbon dust, can the abrasive utilization once more after the use, it is simple and convenient to change the. The utility model discloses change the extravagant phenomenon of punching at the center of carbon-point work piece in the course of working, to pollution, the material saving of environment less, increase substantially than current structure machining efficiency.
Drawings
The present invention will be described in further detail with reference to the following examples, which are not intended to limit the invention.
Fig. 1 is a schematic view of a main structure of a carbon rod central material taking machine structure of the present invention;
FIG. 2 is a schematic view of a partially enlarged structure A in the structure diagram 1 of the carbon rod center reclaimer of the present invention;
FIG. 3 is a schematic structural view of a workpiece carrier roller in the structure of a carbon rod central reclaimer according to the present invention;
fig. 4 is a schematic view of the structure of the holder of the carbon rod central reclaimer of the present invention.
In the figure: the automatic chip removing machine comprises a lathe body 1, a chuck 2, a workpiece carrier roller 3, a base 301, a carrier roller 302, a carbon rod workpiece 4, a lathe saddle 5, a cutter fixing seat 6, a material taking cutter 7, a tool post 8, a chip suction cover 9, a chip moving hole 10 and a wind shield 11.
Detailed Description
Referring to fig. 1 to 4, the carbon rod center reclaimer structure of the present invention includes a lathe body 1, wherein a carbon rod fixing mechanism and a cutter mechanism are sequentially disposed on the lathe body 1;
the carbon rod fixing mechanism comprises a chuck 2, the chuck 2 is horizontally arranged on the lathe body 1, a workpiece supporting roller 3 is arranged on one side, close to the chuck 2, of the lathe body 1, the workpiece supporting roller 3 comprises a base 301, the base 301 is connected with the lathe body 1, a supporting roller 302 is arranged on the base 301, a carbon rod workpiece 4 is arranged on the chuck 2, and the carbon rod workpiece 4 is in contact with the supporting roller 302;
the lathe body 1 is a CW61 series horizontal lathe, and a workpiece supporting roller 3 is arranged on the lathe body of the lathe body 1 by utilizing the prior CW61 series horizontal lathe to support a carbon rod workpiece 4 and enable the carbon rod workpiece 4 to rotate on the workpiece supporting roller 3;
the cutter mechanism comprises a machine tool saddle 5, the machine tool saddle 5 is vertically arranged on the lathe body 1, a cutter fixing seat 6 is arranged on the machine tool saddle 5, a material taking cutter 7 is arranged on the cutter fixing seat 6, a holder 8 is arranged between one side of the material taking cutter 7 and the machine tool body 1, a chip suction cover 9 is arranged on the other side of the material taking cutter 7, the material taking cutter 7 is vertically arranged with the chip suction cover 9, a chip removing hole 10 is arranged in the material taking cutter 7, the chip removing hole 10 is communicated with the chip suction cover 9, and a wind baffle plate 11 is arranged on one side of the material taking cutter 7, which is close to the chip suction cover 9;
a frame cutter seat 8 is arranged on the lathe body of the lathe body 1, wherein the frame cutter seat 8 can slide and be fixed on the lathe body of the lathe body 1, and the distance between the frame cutter seat 8 and the carbon rod workpiece 4 needs to be adjusted when the carbon rod workpiece 4 with different lengths is processed. A tool fixing seat 6 is arranged on a sliding plate of a machine tool saddle 5 and used for fixing a material taking tool 7. One end of the carbon rod workpiece 4 is placed and clamped on the chuck 2, the other end of the carbon rod workpiece is placed on the workpiece supporting roller 3, the lathe body 1 is started, and the carbon rod workpiece 4 rotates along with the rotation of the main shaft of the lathe body 1. The lathe saddle 5 is started to move forwards, the material taking cutter 7 moves forwards along with the material taking cutter, when the material taking cutter 7 is in contact with the carbon rod workpiece 4, an annular groove is machined in the center of the carbon rod workpiece 4 through the material taking cutter 7 due to rotation, a carbon rod with the same size as the hole of the material taking cutter 7 is machined in the center of the carbon rod workpiece 4 along with the deep movement of the material taking cutter 7, the carbon rod material which becomes powder is sucked away along the chip walking hole 9 in the middle of the material taking cutter 7 under the action of a dust suction machine matched with the chip suction cover, and after the lathe body 1 finishes the whole process, the center taken down by the material taking cutter 7 is taken out from the back side of the opened wind shield 11. When the length of the carbon rod workpiece 4 is longer, one side of the carbon rod workpiece 4 can be machined at the moment, the machining length is more than half of the length of the carbon rod tool 4, and then the material taking cutter 7 is withdrawn. The carbon rod workpiece 4 is taken down from the chuck 2 and the workpiece roller 3, then one end of the carbon rod workpiece 4 which is processed is fixed on the chuck 2, and the other end of the carbon rod workpiece 4 is processed to complete a complete processing process.
Preferably, the lathe body 1 is a CW61 series horizontal lathe.
Preferably, the dust suction cover 9 is provided with a dust suction machine matched with the dust suction cover.
Preferably, the circle center of the carbon rod workpiece 4 and the circle center of the material taking cutter 7 are located on the same horizontal line.
Preferably, the surfaces of the workpiece support rollers 3 are polished.
Firstly, a lathe body 1 is a CW61 series horizontal lathe, and a workpiece carrier roller 3 is arranged on the lathe body of the lathe body 1 by utilizing the prior CW61 series horizontal lathe to support a carbon rod workpiece 4 and enable the carbon rod workpiece 4 to rotate on the workpiece carrier roller 3. A frame cutter seat 8 is arranged on the lathe body of the lathe body 1, wherein the frame cutter seat 8 can slide and be fixed on the lathe body of the lathe body 1, and the distance between the frame cutter seat 8 and the carbon rod workpiece 4 needs to be adjusted when the carbon rod workpiece 4 with different lengths is processed. A tool fixing seat 6 is arranged on a sliding plate of a machine tool saddle 5 and used for fixing a material taking tool 7. One end of the carbon rod workpiece 4 is placed and clamped on the chuck 2, the other end of the carbon rod workpiece is placed on the workpiece supporting roller 3, the lathe body 1 is started, and the carbon rod workpiece 4 rotates along with the rotation of the main shaft of the lathe body 1. The lathe saddle 5 is started to move forwards, the material taking cutter 7 moves forwards along with the material taking cutter, when the material taking cutter 7 is in contact with the carbon rod workpiece 4, an annular groove is machined in the center of the carbon rod workpiece 4 through the material taking cutter 7 due to rotation, a carbon rod with the same size as the hole of the material taking cutter 7 is machined in the center of the carbon rod workpiece 4 along with the deep movement of the material taking cutter 7, the carbon rod material which becomes powder is sucked away along the chip walking hole 9 in the middle of the material taking cutter 7 under the action of a dust suction machine matched with the chip suction cover, and after the lathe body 1 finishes the whole process, the center taken down by the material taking cutter 7 is taken out from the back side of the opened wind shield 11. When the length of the carbon rod workpiece 4 is longer, one side of the carbon rod workpiece 4 can be machined at the moment, the machining length is more than half of the length of the carbon rod tool 4, and then the material taking cutter 7 is withdrawn. Take off carbon-point work piece 4 from chuck 2 and work piece bearing roller 3, then fix the one end of carbon-point work piece 4 that finishes on chuck 2, process the other end of carbon-point work piece 4 and can accomplish a complete course of working, the utility model discloses change the carbon-point work piece and punch the extravagant phenomenon at the center of course of working, to pollution, the material saving of environment less, than current structure machining efficiency increase substantially, the powder that produces at the in-process of getting the material is few, and the powder of production also can effectually be siphoned away. The bar stock taken down from the center of the carbon rod can be used as other products, and the processing efficiency can be improved by four to five times compared with the existing structure. Can be ground again after use. The material taking cutter 7 is simple and convenient to replace, and the material taking cutter 7 is saved. Because there is dust extraction at the back of the material taking cutter 7, the pollution to the environment is reduced. The carbon rod with the center taken out can be made into a small carbon rod.
The above embodiment is the preferred embodiment of the present invention, which is only used to facilitate the explanation of the present invention, it is not right to the present invention, which makes the restriction on any form, and any person who knows commonly in the technical field can use the present invention to make the equivalent embodiment of local change or modification without departing from the technical features of the present invention.
Claims (5)
1. The carbon rod center material taking machine structure comprises a lathe body (1) and is characterized in that a carbon rod fixing mechanism and a cutter mechanism are sequentially arranged on the lathe body (1);
the carbon rod fixing mechanism comprises a chuck (2), the chuck (2) is horizontally arranged on the lathe body (1), a workpiece roller (3) is arranged on one side, close to the chuck (2), of the lathe body (1), the workpiece roller (3) comprises a base (301), the base (301) is connected with the lathe body (1), a carrier roller (302) is arranged on the base (301), a carbon rod workpiece (4) is arranged on the chuck (2), and the carbon rod workpiece (4) is in contact with the carrier roller (302);
the cutter mechanism comprises a machine tool saddle (5), wherein the machine tool saddle (5) is vertically arranged on a lathe body (1), a cutter fixing seat (6) is arranged on the machine tool saddle (5), a material taking cutter (7) is arranged on the cutter fixing seat (6), a rack cutter seat (8) is arranged between one side of the material taking cutter (7) and the lathe body (1), a chip suction cover (9) is arranged on the other side of the material taking cutter (7), the material taking cutter (7) is vertically arranged between the chip suction covers (9), a chip walking hole (10) is formed in the material taking cutter (7), the chip walking hole (10) is communicated with the chip suction cover (9), and the material taking cutter (7) is close to one side of the chip suction cover (9) and is provided with a wind shield (11).
2. The carbon rod central reclaimer structure of claim 1, characterized in that said lathe body (1) is a CW61 series horizontal lathe.
3. The carbon rod central reclaimer structure of claim 1, characterized in that said dust suction hood (9) is provided with a dust suction machine cooperating therewith.
4. The carbon rod center reclaimer structure of claim 1, wherein the center of the carbon rod workpiece (4) and the center of the reclaiming cutter (7) are located on the same horizontal line.
5. The carbon rod center reclaimer structure of claim 1, wherein the workpiece carrier roller (3) surface is polished.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921803836.XU CN211194493U (en) | 2019-10-25 | 2019-10-25 | Carbon rod center material taking machine structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921803836.XU CN211194493U (en) | 2019-10-25 | 2019-10-25 | Carbon rod center material taking machine structure |
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| Publication Number | Publication Date |
|---|---|
| CN211194493U true CN211194493U (en) | 2020-08-07 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201921803836.XU Active CN211194493U (en) | 2019-10-25 | 2019-10-25 | Carbon rod center material taking machine structure |
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| Country | Link |
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| CN (1) | CN211194493U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112078022A (en) * | 2020-08-27 | 2020-12-15 | 程彦周 | Former stone processing apparatus for magnetotherapy mattress |
-
2019
- 2019-10-25 CN CN201921803836.XU patent/CN211194493U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112078022A (en) * | 2020-08-27 | 2020-12-15 | 程彦周 | Former stone processing apparatus for magnetotherapy mattress |
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