KR200319386Y1 - Sleeve mounting structure of a hearth roll for heat treatment furnace - Google Patents

Abstract

The present invention relates to a sleeve mounting structure of a hearth roll for a heat treatment furnace, and a hearth roll for a heat treatment furnace consisting of a sleeve made of a ceramic material resistant to high temperature and penetrating in a longitudinal direction through the center of the sleeve and having a central axis made of iron. In the, the buffer plate 30 is installed between the flange 22 fixed to the central shaft 20 and one end of the sleeve 10, the flange is mounted so as to slide on the central shaft ( The buffer plate 30 is inserted between the other end of the sleeve 10 and the sleeve 10, and the flange 40 is elastically supported toward the sleeve 10 by the spring 50. To provide a sleeve mounting structure. This has the effect of preventing damage to the ceramic sleeve forming the outer surface of the hearth roll.

Description

Sleeve mounting structure of a hearth roll for heat treatment furnace

The present invention relates to a sleeve mounting structure of a hearth roll for a heat treatment furnace, and relates to a sleeve mounting structure of a hearth roll for a heat treatment furnace in which damage to a ceramic sleeve constituting an outer surface of the hearth roll can be prevented.

In general, inside the heat treatment furnace 110 for performing annealing (annealing) or the like, as shown in Figure 1, is mounted to be rotatable apart a predetermined interval along the traveling direction of the steel sheet (S) of the steel sheet (S) A plurality of hearth rolls 120 supporting the lower portion are installed, and sprockets 121 are respectively mounted at one end of the hearth rolls 120, and the sprockets 121 are connected to the driving motor 140 and are connected to the endless track. By being coupled to the chain 142 to move, the hearth roll 120 is rotated by the rotational drive of the driving motor 140.

The hearth roll 120 should have a predetermined mechanical strength for supporting the lower portion of the steel sheet and the heat resistance that can withstand the high temperature region, the former is in charge of the sleeve 122 of a ceramic material resistant to high temperature, The latter is fitted to penetrate the center of the sleeve 122 in the longitudinal direction and is in charge of a central shaft 124 made of iron. The central shaft 124 is extended to both sides of the sleeve 122 so as to be rotatably supported by the bearings 125, and one side of the central shaft 124 extending from the sprocket 121 is extended. Has

In addition, the central shaft 124 is integrally formed with flanges 126A and 126B that cover both ends of the sleeve 122, and each of the flanges 126A and 126B protrudes toward the sleeve 122. The bolt 128 is mounted, and bolt receiving grooves 122a in which the protrusions of the bolt 128 are slidably received are formed at both ends of the sleeve 122. At this time, the gap between the flanges 126A and 126B is slightly larger than the length of the sleeve 122 in consideration of the length of expansion and contraction by thermal expansion.

However, such a conventional hearth roll has a gap G between the sleeve 122 and the flange so that the spacing between the flanges 126A and 126B is slightly larger than the length of the sleeve 122, so that the hearth roll When the rotation of the 120 is driven, the sleeve 122 collides with the flanges 126A and 126B, which causes cracks C to be formed in the ceramic sleeve 122 that is relatively susceptible to impact. ) Propagates during thermal expansion and thermal contraction, thereby decreasing the life of the sleeve 122.

In addition, it takes a lot of time and labor to replace the sleeve 122 has a problem that causes a decrease in productivity.

The present invention is to solve the above-mentioned conventional problems, the object is to provide a sleeve mounting structure of the hearth roll for the heat treatment furnace that can improve the life by preventing damage to the ceramic sleeve.

1 is a view for showing a sleeve mounting structure of the hearth roll for a heat treatment furnace according to the prior art;

2 is an overall configuration diagram of a hearth roll having a sleeve mounted by a structure according to the present invention;

3 is an exploded perspective view of the main part of the present invention;

4 is a cross sectional view of FIG. 3.

※ Explanation of symbols about main part of drawing ※

10: sleeve 20: central axis

22: flange 26: extension shaft

30: buffer plate 40: flange

50: spring 60: flow cap

80: adjusting screw

As a technical configuration for achieving the above object, the present invention, a heat-resistant furnace for the heat treatment furnace made of a sleeve made of a ceramic material resistant to high temperatures, the center of the sleeve in the longitudinal direction and made of a central axis made of iron In the above, the buffer plate is fitted between the flange fixed to the central axis and one end of the sleeve, the buffer plate is installed between the flange and the other end of the sleeve and slidably mounted on the central shaft, the flange Is to provide a sleeve mounting structure of the hearth roll for the heat treatment furnace, characterized in that it is elastically supported toward the sleeve by a spring.

In addition, the spring is characterized in that the contraction and expansion by the flow cap to be movable in the longitudinal direction of the central axis by the adjustment screw.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an overall configuration diagram of a hearth roll having a sleeve mounted by the structure according to the present invention. The hearth roll 1 of the present invention has a sleeve 10 made of a ceramic material resistant to high temperature, and the sleeve ( 10) is fitted to penetrate the center of the longitudinal direction and has a central axis 20 made of iron.

The central shaft 20 is formed to extend on both sides of the sleeve 10 to the outside, the ends of both ends of the central shaft 20 is extended through the bearing 125 to the structure forming the heat treatment furnace 110 Each is supported so as to smoothly rotate in the axial direction.

Both sides of the central shaft 20 are mounted with flanges 22 and 40 each having a shape covering both ends of the sleeve 10, one side flange 22 is formed integrally with the central shaft 20 , The other side flange 40 is installed to be free to slide in the longitudinal direction along the central axis (20). Between the sleeve 10 and the flanges 22 and 40 is inserted into the buffer plate 30 made of a material having a slight elasticity, such as asbestos, such as asbestos and heat-resistant, thereby, the sleeve 10 and the flange 22 Even when the) 40 is relatively moved by thermal expansion and thermal contraction, the sleeve 10 and the flanges 22 and 40 are respectively maintained on both sides of the buffer plate 30 without a gap. .

In addition, the sleeve 10 and the flanges 22 and 40 are connected to each other by the connector 24, so that both ends of the sleeve 10 are slidable in the longitudinal direction of the ends of the connector 24. A connector receiving groove 12 is formed to be elongated in the longitudinal direction to accommodate the connector, and the flange 22 and the connector fitting groove are disposed at a position corresponding to the connector receiving groove 12 to have a female screw shape. 22a and 40a are formed therethrough, and the connector 24 has a screw thread to be coupled to the connector mounting grooves 22a and 40a on the outer surface of one end portion.

Slider mounting grooves 27a are formed on the outer surface of the extension shaft 26, which is a portion in which the flange 40 is installed, of the extended ends of the central shaft 20 in the continuous and opposing directions. In addition, one end of the slider mounting groove 27a is fixed to the flange 40 and the other end of the slider mounting groove 27a is slidably fitted to the slider 42 located outside the heat treatment furnace 110. In this case, the slider 42 has the surface of the part farthest from the center of the extension shaft 26 to have the same radius of curvature as the outer surface of the extension shaft 26 to form a smooth curved surface of each other As a result, the structure in which the extension shaft 26 is rotatably supported by the bearing 125 should be prevented. In addition, the outer surface of the extension shaft 26 is formed with a key groove 27b in a portion located outside the heat treatment furnace 110, so that the sprocket 121 is fixed to the extension shaft 26 via the key. Has a configuration.

In particular, the outer diameter of the extension shaft 26 is set slightly smaller than the outer diameter of the central axis 20, the inner diameter of the flange 40 is set smaller than the outer diameter of the central axis 20, In addition, the inner diameter of the buffer plate 30 inserted between the sleeve 10 and the flange 40 is also set smaller than the outer diameter of the central axis 20, thereby bringing the flange 40 toward the sleeve 10. When pushing, the inner diameter side edge portion of the buffer plate 30 and the flange 40 is caught in the step formed in the boundary between the central axis 20 and the extension axis 26 has a configuration that can transmit the force of the flange 40. .

In addition, a spring 50 is mounted to the slider 42 extending out of the heat treatment furnace 110 to provide an elastic force in a direction in which the slider 42 is pushed toward the sleeve 10, wherein the spring 50 is provided. One end of the) is supported by a stepped protrusion protruding outward to the end of the slider 42, the other end of the spring (50) by the flow cap 60 located at the end of the extension shaft (26) Supported.

In addition, the flow cap 60 is mounted to be movable toward the heat treatment furnace 110 by the adjustment screw 80, the adjustment screw 80 of the support cap 112 is fixed to the heat treatment furnace 110 It is coupled to the nut 114, the handle 82 is installed at the end of the adjustment screw 80 by rotating the adjustment screw 80 using the handle 82, the flow cap 60 is the heat treatment side ( 110). And, the connection portion of the adjustment screw 80 and the flow cap 60 is a ball joint 62, the flow cap 80 is moved toward the heat treatment furnace 110 without rotating when the adjustment screw 80 is rotated. It is configured to only.

In addition, a ball 70 is installed between the end of the extension shaft 26 and the flow cap 80, the rotation of the extension shaft 26 is configured freely, preferably the ball 70 is an extension shaft ( 26 is mounted on the end, it is preferable that the flow cap 80 has a hemispherical groove 72 is accommodated so that the ball 70 is rotatable.

The operation of the present invention with the above configuration will be described.

When the buffer plate 30 is inserted between the end of the sleeve 10 and the flanges 22 and 40 and the connector 24 is fastened to the connector mounting grooves 22a and 40a, respectively, the sleeve 10 is centered ( 20) is supported so as not to rotate about the center.

Then, by turning the handle 82 to move the adjustment screw 80 toward the heat treatment furnace 110, the flow cap 60 connected to the adjustment screw 80 is also moved to the heat treatment furnace 110, such a flow cap Movement of the 60 is transmitted through the spring 50 and the slider 42 to bring the flange 40 into close contact with the buffer plate 30. Therefore, the buffer plate 30 is also in close contact with both ends of the sleeve 10 to block the sleeve 10 from flowing along the longitudinal direction of the central axis 20.

At this time, the shock absorbing plate 30 prevents the flange 40 from directly contacting both ends of the sleeve 10 and at the same time absorbs the impact between the sleeve 10 and the flange 40, thereby providing a shock to the sleeve 10. Prevents cracking

Of course, the degree to which the buffer plate 30 is in close contact with the sleeve 10 and the flange 40 is appropriately adjusted by the movement of the adjustment screw (80).

As described above, according to the sleeve mounting structure of the hearth roll for the heat treatment furnace according to the present invention, a shock absorbing plate such as asbestos is inserted closely between the both ends of the sleeve and the flange so that the flange does not directly impact the sleeve, thereby relatively impacting the sleeve. Has an excellent effect of preventing the breakage of the sleeve vulnerable to.

Claims (2)

A hearth roll for a heat treatment furnace comprising a sleeve made of a ceramic material resistant to a high temperature and a center shaft made of iron material and inserted through a center of the sleeve in a longitudinal direction, A flange 40 is installed between the flange 22 fixed to the central shaft 20 and one end of the sleeve 10, and the flange 40 is slidably mounted to the central shaft 20. The buffer plate 30 is inserted between the other ends of the sleeve 10, and the flange 40 is sleeve-mounted for the hearth roll for the heat treatment furnace, characterized in that the flange 40 is elastically supported toward the sleeve 10 by a spring 50. rescue. The method of claim 1, wherein the spring 50 is contracted and expanded by the flow cap 60 to be movable in the longitudinal direction of the central axis 20 by the adjustment screw 80, the hearth for the heat treatment furnace. Sleeve mounting structure of the roll.