JPS61261419A - Continuous heating furnace for round steel - Google Patents

Abstract

PURPOSE:To reduce a furnace length and to economize energy by disposing zigzag rotary disks at prescribed intervals and subjecting the round steels imposed on such disks to a heating treatment while rotating the same. CONSTITUTION:The rotary disks 5 having hollow arc-shaped notches 6 on the outside circumferential part are disposed zigzag in the continuous heating furnace 1. The round steel 4 introduced into the furnace 1 through a heating chamber inlet 2 is guided by the notch 6 when the rotary disk 5 rotates. The round steel is thereby transferred to the next disk 5. The round steel is thus successively transferred to the next disks 5 while the steel is subjected to the heating treatment. The treated steel is rolled out of an outlet 3.

Description

[Detailed description of the invention] (b) Field of invention This invention applies to rotating round steel, especially deformed round steel.

This article relates to a continuous heating furnace for round steel that enables continuous heat treatment.

BACKGROUND OF THE INVENTION Conventionally, in this type of continuous heating furnace for round steel, horizontal feeding of round steel has mainly been carried out using the War Cow Shita Beam method,
In the case of vertical feeding, the round steel placed in a guiding cylindrical case is placed on a drum-shaped roller, and the round steel inside is rotated by rotating the cylindrical case to perform heat treatment.

In the former method, it is difficult to heat-treat the round steel while constantly rotating it, and as a result, it is difficult to heat the round steel uniformly. Insertion into and extraction from the case is required, and the guide cylindrical case is heated and the temperature is increased, resulting in a large loss of thermal energy f-, and the rotation of the internal round steel due to the rotation of the guide cylindrical case is unstable. Because of the vertical feed, the furnace length was extremely long, resulting in an inefficient heating furnace.

Purpose of the Invention This invention aims to shorten the length of the heating furnace by transversely feeding round steel and deformed round steel while constantly rotating, and to directly heat the round steel and deformed round steel to reduce thermal energy loss. The purpose of the present invention is to provide a continuous heating furnace for round steel that can heat round steel and deformed round steel efficiently without the need for heat treatment.

(:)Characteristics of the Invention This invention includes rotating disks arranged in a staggered manner at predetermined intervals, and heating a round steel placed on the rotating disks while being rotated by the rotation of the rotating disks. It is characterized by being a round steel continuous heating furnace configured to be sequentially transferred on a rotating disk.

Effects of the Invention According to this invention, the round steel and deformed round steel can be fed horizontally so that the round steel and deformed round steel can be heated while being rotated, and the length of the furnace can be shortened. In addition to greatly contributing to energy savings, it is also possible to improve the quality of heat-treated materials and the efficiency of processing furnaces.

(f) Examples of the invention An embodiment of the present invention will be described in detail below based on the drawings.

The drawing shows a round steel continuous heating furnace, (1) is the heating chamber, (2)
(8) is the heating furnace inlet, and (8) is the heating furnace outlet.

(4) is a round steel to be heated, and this round steel (4) is a heating furnace with 4 ports (
2) into the heating chamber (1) and transferred out through the outlet (3).

(6) is a rotating disk, and the rotating disks (5) are arranged in a staggered manner at predetermined intervals, and both ends of the circle II (4) are mounted and rotated.

The above-mentioned rotating disk (5) has a concave arc-shaped notch (6
) is provided, and the 9111 (4) is guided through the notch (6) by the rotation of the rotary disk (5) to the next rotary disk (5).
Transfer to.

A rotating shaft (8) with the above-mentioned rotating disk (5) attached to both ends.
is the bearing α of both walls (9) (9) of the heating chamber (1) mentioned above.
0) The sprocket (b), which is supported by α0) and provided at the end of each rotating shaft (8), is rotated by a chassis to rotate each rotating disk (5) in the same direction.

Figures 8 to 5 show the notch (6) in the rotating disk (5).
) shows how to transfer the round bar (4) to the next rotating disk (5), and explains how to transfer the round bar (4) to the next rotating disk (5) through the notch (6) in Figure 3. rotating disk (5
) The round steel (4-1) that is being rotated on the rotating disk (5) rotates like the round steel (4) when the notch (6) of the next rotating disk (5) rotates to the position shown in the drawing. It is transferred into the notch (6) and then transferred to the next rotating disk (5) by the rotation of the rotating disk (5).

Further, the small diameter light 11 (4-4) is also transported in the same manner.

Figure 4 shows the round steel (
4-8) comes into contact with the next rotating disk (5), and the round steel (4)
As shown, it escapes from the notch (6) and is placed on the circumference of both rotating disks (5), rotating in the state of the round bar (4-1) in Fig. 8 until the next moving process. stand by.

Figure 5 is a small path light! I (4-4) then contacts the rotating disk (5) and escapes from the notch (6) like a small diameter light 11 (4-2) and becomes like a small diameter round steel (4-5). It is placed on two rotating disks (5) and rotates while waiting until the next process.

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention, in which Fig. 1 is a longitudinal side view of a round steel continuous heating furnace, Fig. 2 is a longitudinal sectional front view, Fig. 3 is a state diagram of the next rotating disk, and Figs. FIG. 5 is a diagram showing the state of the round steel that has escaped from the notch and is placed on both rotating disks. (1)...Heating chamber, (2)...Heating chamber entrance, (3)
...Heating chamber exit. (4)...Round steel% (5)...Rotating disk, (6)...
・Notch.

Claims (2)

[Claims] (1) Rotating disks are arranged in a staggered manner at predetermined intervals,
This round steel continuous heating furnace is configured so that the round steel placed on the rotating disk is heated while being rotated by the rotation of the rotating disk, and is sequentially transferred on the rotating disk. (2) The continuous heating furnace for round steel according to claim (1), wherein the rotary disk is provided with a notch, and the round steel is guided and transferred by the notch.