JPH04192286A - Heater roll - Google Patents

Abstract

PURPOSE:To replace a heater easily and to uniform the temperature distribution in the axial direction of a roll by providing a pocket at the central axis of the roll to allow to open to the atmosphere, housing a low melting point metal and a heater and sealing a heating medium of a specific condition around the pocket. CONSTITUTION:In an inner tube 5 at the center of a hollow roll 1, a heater 2 and a Wood's metal as a low melting point metal are housed and closed by a lid 6 to form a pocket. As a result, the heater 2 melts the metal 4 and heats the roll in a good heat transport efficiency, while the heater can be replaced regardless of a heating medium 3. In a space between the tube 5 and the roll 1, potassium is sealed as a heating medium 3. The heating medium 3 is set to wet at least a part of the inner tube 5, and the vapor molar fraction in a gaseous phase is made 80% or higher in the service temperature scope. Consequently, the temperature can be uniformed without disturbing the condensation of the heating medium vapor to the lower temperature side wall surface of the roll.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a heater roll such as a ringer roll in iron-making mechanical process equipment or a heating roll in a continuous annealing furnace.

[Prior Art] As shown in FIGS. 6 and 7, the conventional heater roll is arranged so that the roll 01 is placed on the central axis of the roll 01 or on the roll 01 so as to contact the heating medium 03 sealed inside the hollow roll 01. A heater 02 is installed close to the inner surface.

Note that 041 is a plate used as a conveying material that is passed through a heater roll and exchanges heat with the heater roll.

[Problems to be Solved by the Invention] In the conventional heater roll described above, when the heater breaks and requires replacement, it is necessary to expose the heating medium to the atmosphere. For this reason, it is necessary to remove the roll from the line and change its position to prevent the heating medium from leaking. Further, if a heat medium whose vapor pressure is lower than atmospheric pressure at room temperature is sealed in a vacuum state, it is necessary to evacuate the inside of the roll again after replacing the heater. These require a lot of cost to maintain the rolls.

In addition, with the conventional heater roll described above, when the plate is passed through as a conveyed material, the heat load received from the plate and the liquid adhering to it causes a difference in temperature between the contact area and other parts in the axial direction of the roll. It is not possible to exchange heat uniformly between the plate and the plate, and a thermal crown is formed on the roll due to the temperature difference in the axial direction of the roll! -The pressure applied to the plate is not uniform in the roll axis direction.

In particular, the heater roll (
In the case of ringer rolls, in order to pass a high-temperature steel plate, the roll temperature increases significantly only in the contact area of the steel plate in the roll axis direction, and the temperature at the roll end is low, resulting in the above-mentioned problem. However, in addition to this, the temperature at the end of the roll becomes lower than the freezing point of the wiped liquid, which causes pseudo-solids to accumulate at the end of the roll, making continuous operation difficult. There is a drawback that it becomes impossible.

:Means to solve the lesson order: The heater roll of the present invention takes the following measures.

(1) In a heater roll equipped with a heater that seals a heating medium in a hollow roll and heats it, a pocket 7) that can be opened to the atmosphere is provided in the roll, and a low melting point metal and a heater are placed in the pocket. was accommodated.

(2) A heating medium is sealed in a hollow roll, and the heating medium is placed on a heater roll equipped with a heater to energize it. is enclosed in an amount greater than the lower limit of wettability with the heating medium, and the heating medium vapor molar fraction in the gas phase within the roll is 8 in the temperature range during use of the roll.
It was set to 0% or more.

(3) In the heater roll of (2) above, instead of the heater, a pocket that accommodates a low melting point metal and a heater and can be opened to the atmosphere is arranged on the central axis of the roll.

[Function] In the present invention described in (1) above, the low melting point metal is melted by the heater, and the heat generated by the heater is transmitted to the heating medium through the heat transfer medium, thereby heating the roll with good heat transport efficiency.

When replacing the heater, the heater is removed from the roll by heating the roll to a temperature above the melting point of the low melting point metal and opening the melted upper pocket to the atmosphere. Therefore, the heater can be replaced easily and independently of the heating medium without exposing the heating medium in the roll to the atmosphere. Additionally, this allows the heater to be replaced while keeping the heater roll on-line.

In the present invention described in (2) above, at least a part of the cross-sectional outer periphery of the heater is wetted by the heating medium, and the heating medium is heated by the heater to approximately the same temperature in the axial direction of the roll. When the temperature rises in some areas due to heat load from the plate that the roll passes through, the heating medium heated by the heater evaporates in the area where the temperature has risen, and the brown gas flows in the axial direction of the roll. It condenses on the low-temperature inner surface of the roll-el, providing partial condensation heat.

In this way, the heating medium performs a heat transport function as a heat pipe, and the temperature of all parts inside the roll that the heating medium can reach is made uniform. Moreover, in the gas phase inside the roll, the heating medium vapor molar fraction is 80% or more, and the condensation of the heating medium on the low-temperature side wall surface of the roll is not prevented, and the temperature of the roll is lowered. Uniformity will be fully achieved. This prevents the occurrence of a thermal crown of the roll, keeps the pressing pressure on the plate constant, and also increases the temperature at the end of the roll, preventing the liquid wiped from the plate from solidifying.

Furthermore, by activating the heater before passing the sheet through the roll, the entire area of the roll is uniformly preheated to a predetermined temperature.

The present invention (3) above employs the heater of the present invention (1) and a pocket containing a low melting point metal in place of the heater of the present invention (2) above, (
The effects of 1) and (2) can be achieved together.

〔Example〕

A first embodiment of the present invention will be described with reference to FIG.

This embodiment is a ringer roll for wiping molten salt adhering to a steel plate at a temperature of about 450°C. A cylinder 5 is provided integrally with the roll 1, and the inner cylinder 5
Potassium is sealed as a heat medium 3 in the space between the roll 1 and the roll 1. The inside of the inner cylinder 5 contains a heater 2 and two metals (55% Bi, 45% Pb) 4 as low melting point metals.
is accommodated. One end of the inner cylinder 5 is closed by the roll 1, and the other end is open, and this opening is closed by the lid 6↓ attached to the inner cylinder 5 by the port 8.
Seven points are formed. 7 is an electric wire that supplies current to the heater 2, and 20 is a steel plate through which the heater roll is passed.

A heating medium 3 is sealed in the roll 1 so as to wet at least a part of the cross-sectional outer circumference of the inner cylinder 5, and the roll 1
The vapor mole fraction of the heating medium 3 in the gas phase inside the roll 1 is 80% in the temperature range during use of the roll.
It is set to be more than that.

In assembling this embodiment, the heating medium 3 is sealed between the roll l and the inner cylinder 5, the metal 4 is inserted into the inner cylinder 5, and the melting point of the wood metal 4 is (124°C)
Heater 2 heated to a temperature above (for example, 200°C) is
Insert the inside. The wood metal 4 is thereby melted and penetrates into the gap between the inner cylinder 5 and the heater 2. In this state, the lid 6 is attached to the end face of the inner cylinder 5 with bolts 8, and the inside of the inner cylinder 5 is closed.

In this embodiment, when the heater 2 is energized, the wood metal 4 as a low-melting point metal is heated as an intermediate heat medium, and the heat medium 3 in the space between the inner cylinder 5 and the roll 1 is heated. will be heated, and the roll l will be heated. As mentioned above, since the metal 4 penetrates into the gap between the heater 2 and the inner cylinder 5, heat transfer is performed with high heat transport efficiency.

When replacing the heater 2, the entire roll is heated above the melting point (124° C.) of the wood metal 4 to melt the metal 4. In this state, the lid 6 can be removed and the heater 2 can be taken out from inside the inner cylinder 5. At this time, the heating medium 3 is not exposed to the atmosphere, there is no leakage of the heating medium 3, and there is no need to perform evacuation after replacing the heater.

Further, since at least a part of the outer periphery of the cross section of the inner cylinder 5 is wetted by the heating medium 3, the heating medium 3 is wetted by the heater 2.
are heated to approximately the same temperature in the axial direction of roll l. When the roll 1 receives heat load from the net plate 20 through which it passes, and the temperature rises locally, the heating medium 3 heated by the heater 2 as described above is emitted in the area where the temperature has risen, and The brown air flows in the axial direction of the roll 1 and condenses on the inner surface of the roll shell where the temperature is low, and this portion receives the heat of condensation. In this way, the heating medium 3 performs a heat transport function as a heat pipe, and the temperature of all the parts inside the roll l that the heating medium vapor can reach is made uniform.

In addition, the mole fraction of the heating medium brown in the gas phase inside the roll 1 is 80% or more, so that the condensation of the heating medium brown on the low temperature side wall surface of the roll is not hindered, and the roll l The internal temperature can be made sufficiently uniform.

As described above, by making the temperature of the roll 1 uniform in the axial direction, the occurrence of thermal crown on the roll 1 is suppressed, the pressing pressure against the copper plate 20 to be passed becomes constant, and the wiping ability of the adhering liquid is reduced. never decreases. Further, by making the temperature of the roll 1 uniform in the axial direction, the temperature at the end of the roll 1 increases and the wiped liquid is prevented from solidifying.

Furthermore, by operating the heater 2 before threading the roll 1, the roll 1 can be uniformly preheated to a predetermined temperature in the axial direction.

A second embodiment of the present invention will be described by Section 2V.

In this example, the temperature was 450°C as in the first example.
This is a ringer roll for wiping 1 volume of molten salt adhering to a steel plate, and inside the hollow roll 1,
Potassium is sealed as a heating medium 3, and a sheath heater 10 is arranged on the central axis of the roll 1. The sheath heater 10 is connected to the electric wire 12 by an electric wire 11.

The heating medium 3 in the hollow roll 1 is filled in 50% of the internal volume of the space in the hollow roll 1 so as to wet approximately half of the outer periphery of the cross section of the sheath heater (potassium vapor at 20°C). pressure is 0.0001 Torr or less).

Further, the gas other than the heating medium inside the hollow roll 1 is exhausted, and the vapor pressure of the components other than the heating medium in the gas phase inside the hollow roll 1 is 20°C.
It is set to be 0.0 ITorr or less.

In this embodiment, since about half of the outer periphery of the cross section of the sheath heater 10 is wetted by the heating medium 3, the heating medium 3 is heated by the sheath heater 10 to approximately the same temperature in the axial direction of the roll 1. When the salinity rises partially due to the heat load caused by the steel plate 20 through which the roll l passes, the heating medium 3 heated by the sheath heater 10 as described above evaporates in the area where the temperature has increased. The brown gas flows in the axial direction of the roll 1 and condenses on the inner surface of the roll shell, where the temperature is low, and this portion receives the heat of condensation. In this way, the heating medium 3 performs a heat transport function as a heat vibrator, and the temperature of all the parts inside the roll 1 that can be reached by the heating medium γ air is made uniform.

Moreover, in this embodiment where the m-plate is passed through at a temperature of about 450'C as described above, the roll temperature is about 400°C, and the power as a heating medium is I! Umu's tea pressure is 4 tons or
r, while the tea pressure other than potassium is 0.
．． 01 x 293 = 0.02 Torr, and the heating medium brown mole fraction is 0.995. Therefore, the condensation of the heating medium on the low-temperature wall surface of the roll is not hindered by other components, and the temperature inside the roll 1 can be made sufficiently uniform.

As described above, in this embodiment, by making the temperature of the roll 1 uniform in the axial direction, the occurrence of thermal crown on the roll 1 is suppressed, and the pressing pressure on the steel plate 20 to be threaded becomes constant. The wiping ability of attached liquid does not deteriorate. Furthermore, by making the temperature of the roll 1 uniform in the axial direction, the temperature at the end of the roll 1 increases and the wiped liquid does not solidify.

Furthermore, by operating the sheath heater 10 before passing the steel plate 20, the roll can be uniformly preheated to a predetermined temperature in the axial direction.

The present invention will be explained in detail below.

A device consisting of a roll having an outer diameter of I00 mm, an inner diameter of 80 mm, and a length of 2000 mm according to the second embodiment shown in FIG. % was enclosed. Further, the pressure in the gas phase of components other than potassium in the gas phase was set to 0.0 ITorr or less. 4
When a 50"C steel plate is passed through the roll at 100 mpm, the temperature distribution of the roll is shown by curve a in FIG. 3. In contrast, the temperature distribution of a conventional hollow ringer roll is already shown by the curve. As a result, according to the present invention, the temperature difference in the roll axis direction is 173 or less than that of the conventional roll, and the thermal crown is also 1/3 or less. It was confirmed that the coagulation of salt at the end of the roll had been resolved.

FIG. 4 shows the maximum temperature difference in the roll axis direction when the amount of heat medium enclosed was changed in the above-mentioned experimental example of the present invention.

When the heating medium no longer wets the heater, the electric heat from the heater to the heating medium disappears, and the temperature difference between the rolls becomes large.

FIG. 5 shows the relationship between the heat medium brown mole fraction in the gas phase inside the roll and the maximum temperature difference in the roll axis direction in the above-mentioned experimental example of the present invention. When the proportion of vapor other than the heating medium is 20% or more, condensation of the heating medium on the low-temperature side wall surface is inhibited, thereby reducing the amount of heat transfer and increasing the temperature difference between the rolls.

(Effect of the invention) Conventionally, when replacing the heater of a heater roll, the roll was removed from the line, and after the heater was replaced, the roll was checked to make sure there was no leakage of heat medium before being returned to the line. However, the present invention as claimed in claim (1) accommodates the low melting point metal and the heater in a pocket that can be opened to the atmosphere within the roll nonyl, so that it can remain online regardless of the heating medium. The heater can be replaced and maintenance costs can be reduced.

In the present invention as defined in claim (2), the temperature in the axial direction of the roll can be made uniform, and thermal crown of the roll can be reduced. As a result, when pinching and wiping the threaded material, uniform wiping in the width direction of the material is possible, and coagulation of the wiping liquid at the end of the roll can be prevented, making roll maintenance unnecessary.

Furthermore, the present invention as claimed in claim (3) can provide the effects of the present invention as claimed in claims (1) and (2).

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram of a ringer roll according to a first embodiment of the present invention, and FIG. 2 is an explanatory diagram of a ringer roll according to a second embodiment of the present invention.
An explanatory diagram of the roll, FIG. 3 is a graph showing the axial temperature distribution of the experimental example of the present invention and a conventional roll, and FIG. FIG. 5 is a graph showing the relationship between the maximum temperature difference in the roll axis direction and the heat medium vapor mole fraction, and FIGS. 6 and 7 are explanatory diagrams of a conventional ringer roll, respectively. 1...Roll, 2...Heater, 3...
Heat medium, 4... Runt metal, 5... Inner cylinder, 6... Lid, 10... Sheath heater, 2o... Steel plate. Agent: Patent Attorney Akira Sakama, 2-person roll, 9 fruits, 9 fruit, 1 mole, 100% (Figure 6 [, 13, Figure 7]

Claims (3)

[Claims] (1) In a heater roll equipped with a heater that seals a heating medium in a hollow roll and heats the roll, a pocket that can be opened to the atmosphere is provided in the roll, and a low melting point metal and a heater are housed in the pocket. A heater roll characterized by: (2) In a heater roll equipped with a heater that seals a heat medium in a hollow roll and heats the roll, the heater is placed on the center axis of the roll, and a part of the outer periphery of the cross section of the heater is heated as the heat medium. is enclosed in an amount greater than the lower limit of wettability, and the heating medium vapor molar fraction in the gas phase within the roll is 80% in the temperature range during use of the roll.
% or more. (3) The heater roll according to claim (2), characterized in that a pocket that accommodates a low melting point metal and a heater in place of the heater and can be opened to the atmosphere is arranged on the central axis of the roll.