JP2007100193A - Method for manufacturing roller shell in carrier at lower part of construction machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for manufacturing a roller shell in a carrier at the lower part of a construction machine, capable of reducing the number of heating furnaces. <P>SOLUTION: The method for manufacturing the roller shell in the carrier at the lower part of the construction machine is performed as the followings, that is; a crude material composed of a middle carbon alloy steel is hot-forged to make a roller shell-shaped blank and a quenching is applied to the above blank by utilizing the heat in the hot-forging, and the heat at high temperature of a core part in the blank is heat-conducted onto the surface part of the blank by stopping the cooling on the way of quenching and a tempering is applied on the surface part of the blank by utilizing this heat. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a forging direct quenching and tempering method for a roller shell of a construction machine lower traveling body.

Conventionally, a roller shell (Japanese Patent Laid-Open No. 2004-230907) of a construction machine lower traveling body has been manufactured according to the following steps, as indicated by a broken line in FIG.
(I) After heating the rough material, hot forging is performed to obtain a roller shell-shaped material.
(Ii) The roller shell-shaped material is subjected to heat treatment having any of the following specifications in order to impart wear resistance and toughness.
(Ii-1) (a) Whole heating quenching → (b) Whole heating high temperature quenching → (c) High frequency induction heating quenching at the outer periphery → (d) Whole heating low temperature quenching
Here, (a) and (b) are collectively referred to as base tempering.
(Ii-2) Whole heating quenching → Whole heating low temperature tempering

The number of heating furnaces required in the manufacturing process is as follows.
(I) Forging --- furnace x 1 (furnace x n indicates that n heating furnaces are required, the same applies hereinafter)
(Ii) Heat treatment In the case of heat treatment with the specifications of (ii-1)
Furnace x 2 for whole heating quenching and whole heating high temperature tempering
1 power source for high-frequency heating and 1 furnace for overall heating and low-temperature tempering
In the case of heat treatment with the specifications of (ii-2)
Furnace x 2 for whole heating quenching and whole heating low temperature tempering
JP 2004-230907 A

  In the conventional method, the rough material is heated and forged into a roller shell-shaped material, then allowed to cool, and the roller shell-shaped material that is at room temperature is re-heated and quenched, and then cooled to quench and cooled to room temperature. Since the roller shell-shaped material is reheated and tempered, a forging heating furnace, a quenching heating furnace, and a tempering heating furnace are required. When performing base tempering, a furnace is required for quenching and tempering for base tempering. As a result, the equipment becomes enormous and the equipment cost increases.

  The objective of this invention is providing the manufacturing method of the roller shell which can reduce the number of furnaces compared with the past.

The present invention for achieving the above object is as follows.
A raw material made of medium carbon alloy steel is hot-forged into a roller shell-shaped material, and the material is quenched by using the heat of the hot-forging, and the cooling of the quenching is stopped halfway. A method for manufacturing a roller shell of a lower traveling body of a construction machine, wherein the high-temperature heat of the core portion is thermally conducted to the surface portion of the material and the surface portion of the material is tempered by using the heat.

  According to the method for manufacturing a roller shell of the present invention, the heat of hot forging is used to perform quenching immediately thereafter (this is referred to as “forging direct quenching”), so that no quenching furnace is required. Further, since quenching cooling is stopped halfway to obtain the same effect as low-temperature tempering (this is referred to as “self-tempering”), a low-temperature tempering furnace is unnecessary. Therefore, only one forging heating furnace is sufficient as the furnace. As a result, the quenching and tempering furnace x2 for the base tempering and the tempering furnace x1 for the overall heating and low-temperature tempering which are necessary in the conventional heat treatment method (ii-1) are unnecessary, The furnace for total heating quenching and total heating low temperature tempering, which was necessary in the conventional heat treatment method of (ii-2), is no longer required, the number of furnaces is reduced compared to the conventional, and the equipment Costs are greatly reduced.

  Below, the manufacturing method of the roller shell of this invention is demonstrated with reference to FIGS.

  As shown in FIGS. 3 and 4, the undercarriage of the construction machine is such that a roller 2 (a roller includes a track roller 2a and a carrier roller 2b, also called a roller shell or a roller) rolls on the crawler belt 1. The roller shell 2 is rotatably supported on the track frame 3 via a bracket 4 and a shaft 5, and the crawler belt 1 has a structure driven by a sprocket 6 supported on the track frame 3. The crawler belt 1 includes a link 8 to which a shoe 7 is fixed and is connected in a band shape by a pin / bush 9. The roller shell 2 is rotatably supported by a shaft 5 fixed to a bracket 4 via a bearing 10. Yes. The roller shell 2 rolls on the link 8. Since the outer peripheral surface of the roller shell 2 rolls on the link 8 with a load, the surface portion needs strength and hardness, and the core portion needs toughness.

In the present invention, the roller shell 2 around the undercarriage of the construction machine is manufactured according to the following process. FIG. 1 shows the temperature of the material in each step.
(I) Medium carbon alloy steel is selected as the coarse material, and for the purpose of modeling, the coarse material is heated and then hot forged to obtain a roller shell-shaped material.
The forging heating temperature is about 1200 ° C.
An example of the component (weight%) of the material is as follows.
C: 0.28 to 0.50
Si: 0.1-1.8
Mn: 0.3 to 1.8
P: 0 to 0.035
S: 0 to 0.035
Ni: 0 to 0.25
Cr: 0 to 1.0
Mo: 0 to 1.0
Cu: 0 to 0.35
B: 0.0005 to 0.0040
Al: 0.010-0.080
Ti: 0.010 to 0.060
(Ii) For the purpose of imparting hardness, strength, and toughness, the roller shell-shaped material is quenched using the heat of hot forging (this is called “forged direct quenching”), and the quenching is cooled. The same effect as tempering on the surface part of the roller shell-shaped material by stopping the heat on the way and conducting the high-temperature heat of the core part of the roller shell-shaped material to the surface part of the material and using the heat (This is called "self-tempering").

  Quenching is performed immediately after hot forging, when the temperature of the entire roller shell-shaped material is lowered from the forging temperature, and when it is still at a temperature above the Ar3 point, water (water, water-soluble quenching liquid, etc. is injected from the outside of the material) Strong cooling) and quench the surface of the roller shell material. The metal structure of the surface portion of the material of the roller shell shape after quenching becomes medium carbon martensite, which is large in hardness and strength but slightly low in toughness.

Time T ₀ to stop the strong cooling of the quenching is transmitted to the material surface portion remaining heat by heat conduction in the core of the material of the roller shell shape in the strong cooling stop time T _0, the strong cooling stop time T ₀ It is a time when the temperature of the surface portion that has fallen below 200 ° C. rises to about 200 ° C. Thereby, the same effect as low-temperature tempering can be imparted to the surface portion of the material (see FIG. 2). By this treatment, the metal structure of the material surface part is changed from medium carbon martensite (low carbon martensite + carbide), hardness and strength are slightly reduced, but toughness is improved and it can be used as a roller shell. Become.

  The roller shell 2 is divided into two pieces in the axial direction, is made into two pieces, and is joined to one piece by welding or friction joining. This welding or friction joining is performed after “hot forging direct quenching self-tempering”, after shot blasting and roughing, and after finishing joining. In the present invention, “hot forging direct quenching self-tempering” is performed in one temperature cycle (normal temperature-1200 ° C.-about 800 ° C.-about 200 ° C.-normal temperature). On the other hand, in the conventional method, hot forging (room temperature-1200 ° C-room temperature), quenching of the base tempering (room temperature-about 800 ° C-room temperature), tempering of the base tempering (room temperature-about 400 ° C-room temperature) ), High-frequency induction heating quenching of the outer periphery (room temperature—about 1000 ° C.—room temperature), total heating low temperature tempering (room temperature—about 200 ° C.—room temperature), or hot forging (room temperature—1200 ° C.) -Normal temperature), total heat quenching (normal temperature-about 800 ° C-normal temperature), and overall heat low temperature tempering (normal temperature-about 200 ° C-normal temperature). In the present invention, hot forging and quenching / tempering heat treatment are performed in one furnace. On the other hand, the conventional method is performed in five or three furnaces.

  In the hot forging direct quenching, the hot forging heating temperature is about 1200 ° C., and the coarsening of the austenite crystal grains deteriorates the toughness. Therefore, it is necessary to add an element for preventing the coarsening. In the above medium carbon boron steel, Ti is added, and TiN is effective in preventing grain coarsening.

The reason why 0.0005 to 0.0040% by weight of B is added is to ensure hardenability and toughness in a high hardness region.
If it is difficult to ensure the necessary hardenability with B alone with a large roller shell, other elements that improve hardenability, such as Mn, Cr, and Mo, may be added in addition to B. .

Next, functions and effects of the present invention will be described.
In the manufacturing method of the roller shell of the present invention, using the heat of hot forging (using the heat of hot forging in the state where the material is at a temperature of Ar3 point or higher by the heat of hot forging), immediately thereafter Since quenching is performed, a quenching furnace (furnace for reheating a roller shell-shaped material for quenching) is unnecessary.
In addition, strong quenching cooling is stopped halfway (using the heat of quenching) to obtain the same effect as low-temperature tempering, so a tempering furnace is unnecessary.

As a result, a hot forging heating furnace (a furnace that heats the material to about 1200 ° C., which is a conventional furnace) is sufficient as the furnace, because of the basic tempering that was necessary in the past. No need for 2 quenching / tempering furnaces or 2 quenching / tempering furnaces for overall heating / quenching / overheating low temperature tempering, which reduces the number of furnaces and reduces equipment costs. Significantly reduced.
Conventionally, hot forging and subsequent heat treatment were performed by different manufacturers, but in the present invention, hot forging and subsequent heat treatment were performed by the same manufacturer and heated for hot forging. After that, by using the heat, it is not only forging (forming from a rough material into a roller shell-shaped material) but also heat treatment such as quenching and tempering until it falls to room temperature. is there.

It is a change figure of the temperature of the roller shell raw material of the order of a process in the manufacturing method of the roller shell of the present invention (the change of the temperature of the conventional raw material is also shown). It is a temperature change figure of the surface part and core part of a roller shell in the self-tempering process of FIG. It is a schematic side view of the construction machine with which the roller shell (roller) manufactured by the manufacturing method of the roller shell of this invention is mounted | worn. It is sectional drawing of the roller shell (roller) of the construction machine of FIG. 3, and its vicinity.

Explanation of symbols

1 Track 2 Roller (roller shell)
2a Track roller 2b Carrier roller 3 Track frame 4 Bracket 5 Shaft 6 Sprocket 7 Shoe 8 Link 9 Bush 10 Bearing

Claims (1)

  A raw material made of medium carbon alloy steel is hot-forged into a roller shell-shaped material, and the material is quenched by using the heat of the hot-forging, and the cooling of the quenching is stopped halfway. A method for manufacturing a roller shell of a lower traveling body of a construction machine, wherein the high-temperature heat of the core portion is thermally conducted to the surface portion of the material and the surface portion of the material is tempered by using the heat.

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