CN212538735U - Heat-preservation hearth of rotary furnace - Google Patents

Abstract

The utility model discloses a rotary furnace heat preservation furnace, furnace encircles and sets up in the outside of rotary furnace boiler tube, furnace includes furnace and last furnace down, furnace and last furnace all include tip flange and a plurality of first furnace section and second furnace section down, tip flange joint in the furnace body both ends that first furnace section and second furnace section are constituteed, second furnace section centre gripping is linking to each other two between the first furnace section, the internal diameter of second furnace section is less than the internal diameter of first furnace section, first furnace section internal surface is provided with a plurality of heater mounting grooves. The utility model discloses an increase the space between furnace and the boiler tube, simultaneously with this space separation for a plurality of little heating spaces, improve heating efficiency, rational in infrastructure, it is convenient to maintain, possesses good thermal-insulated heat preservation effect, improves the heat utilization ratio.

Description

Heat-preservation hearth of rotary furnace

Technical Field

The utility model relates to a rotary furnace technical field, concretely relates to rotary furnace heat preservation furnace.

Background

The rotary furnace is equipment widely applied to the industries of chemical industry, metallurgy, building materials and the like, is mainly used for the operations of drying, roasting and the like of materials, and has large treatment capacity and high operation stability, so that the rotary furnace is also greatly applied to the catalyst preparation industry in recent years.

The rotary furnace body is a long steel cylinder, the lining is made of refractory materials, and the furnace body is supported on a plurality of pairs of supporting rollers and has 3% -6% of inclination. The furnace body is driven by the motor to rotate slowly through the gear. The material is added from the higher tail end and discharged from the lower furnace head end. The end of the furnace end sprays fuel (coal powder, heavy oil or gas fuel) to burn in the furnace, and the smoke is discharged from the higher end (the material and the smoke flow reversely). Because the diameter of the rotary furnace tube is large and the rotary furnace tube continuously rotates, hot flue gas directly flows to an outlet along the axial direction in the hearth, and only a small amount of hot flue gas is diffused along the circumferential direction, so that the hot flue gas is unevenly distributed in the circumferential direction of the furnace tube, the materials in the rotary furnace tube are unevenly heated, and the heating efficiency and the product quality are influenced.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a rotary furnace heat preservation furnace, through increasing the space between furnace and the boiler tube, separate this space for a plurality of little heating spaces simultaneously, improve heating efficiency, rational in infrastructure, it is convenient to maintain, possesses good thermal-insulated heat preservation effect, improves the heat utilization ratio.

In order to solve the technical problem, the utility model provides a rotary furnace heat preservation furnace, furnace encircles and sets up in the outside of rotary furnace boiler tube, furnace includes furnace and last furnace down, furnace and last furnace all include tip flange and a plurality of furnace section and heated board down, the heated board centre gripping is adjacent two form the furnace body between the furnace section, tip flange joint in furnace body both ends, the internal diameter of heated board is less than the internal diameter of furnace section, furnace section internal surface inlays and is equipped with a plurality of heater. The hearth section is not directly contacted with the furnace tube, the space between the hearth section and the furnace tube is divided into a plurality of small heating spaces by the heat insulation board, the heating speed is high, the furnace tube is uniformly heated, the structure is simple, and the heating efficiency is improved.

Furthermore, a gap between the heat insulation plate and the hearth section is filled with a high-purity alumina blanket. Preventing heat leakage.

Further, the heat insulation board is a high-purity alumina fiberboard. High strength, high modulus, high temp resistance and high heat insulating performance.

Further, the inner diameter of the heat insulation plate is matched with the outer diameter of the furnace tube. And a closed heating space is formed among the heat insulation plate, the furnace tube and the hearth section.

Further, the hearth section is formed by integral stamping. Convenient processing and long service life.

Furthermore, the heating wires are embedded along the circumferential direction of the hearth section, and the plurality of heating wires are uniformly arranged along the axial direction of the hearth section. So that the heating space is heated uniformly.

The utility model discloses a rotary furnace heat preservation furnace compares beneficial effect with prior art is, through increasing the space between furnace and the boiler tube, separates this space for a plurality of little heating spaces simultaneously, improves heating efficiency, and is rational in infrastructure, and it is convenient to maintain, possesses good thermal-insulated heat preservation effect, improves the heat utilization ratio.

Drawings

Fig. 1 is a sectional view of the overall structure of the present invention;

fig. 2 is a schematic view of the lower furnace chamber structure of the present invention.

The reference numbers in the figures illustrate: 10. the high-purity aluminum oxide heating furnace comprises a furnace chamber, 10a upper furnace chamber, 10b lower furnace chamber, 11 end flanges, 12 furnace chamber sections, 13 insulation boards, 14 heating spaces, 15 heating wires, 16 high-purity aluminum oxide blankets, 20 furnace tubes.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Referring to fig. 1, a schematic view of an embodiment of a heat-preserving furnace 10 of a rotary kiln according to the present invention is shown. The utility model discloses a furnace 10 encircles and sets up in the outside of rotary furnace boiler tube 20, carries out the even heating to rotary furnace a week. The furnace 10 comprises a lower furnace 10b and an upper furnace 10a, the lower furnace 10b and the upper furnace 10a are buckled and connected on the outer side of the furnace tube 20, the furnace tube 20 is clamped in the middle of the furnace 10, and a sealing space is formed between the inner wall of the furnace 10 and the outer wall of the furnace tube 20, so that the heat for heating the furnace tube 20 cannot be radiated outwards. In this embodiment, lower furnace 10b and last furnace 10a all include tip flange 11 and a plurality of furnace section 12 and heated board 13, heated board 13 centre gripping is adjacent two form the furnace body between the furnace section 12, tip flange 11 connect in furnace body both ends, the internal diameter of tip flange 11 matches with the boiler tube 20 external diameter, guarantees the sealed of being connected of furnace 10 and boiler tube 20. And a gap between the heat insulation plate 13 and the hearth section 12 is filled with a high-purity alumina blanket 16. The high-purity alumina blanket 16 is filled in the gap, and the high-purity alumina blanket has the characteristics of expansion with heat and contraction with cold, so that the high-purity alumina blanket is conveniently filled in the gap, and when the high-purity alumina blanket works, the temperature rises, the high-purity alumina blanket expands to fill the gap, so that the heat cannot leak. In this embodiment, the insulation board 13 is a high-purity alumina fiberboard, and the high-purity alumina fiber belongs to a high-performance inorganic fiber, and has excellent properties such as high strength, high modulus, high temperature resistance, and good high-temperature oxidation resistance and electrical insulation. And the high-purity alumina fiber has low raw material cost, simple production process and higher cost performance.

The inner diameter of the heat insulation board 13 is smaller than that of the hearth section 12, so that heating spaces 14 are formed by the inner wall of the hearth section 12, the side faces of the heat insulation boards 13 on the two sides and the outer wall of the furnace tube 20, the space between the inner wall of the hearth 10 and the outer wall of the furnace tube 20 is divided into a plurality of independent heating spaces 14, each heating space 14 is small in size and high in temperature rise speed, and the hearth section 12 and the heat insulation board 13 play a good heat insulation role, so that the furnace tube is heated uniformly. In order to enhance the heat preservation effect of the heating space 14, the inner diameter of the heat preservation plate 13 is matched with the outer diameter of the furnace tube 20, and the sealing of the heating space 14 is ensured, so that the heating efficiency in the rotary furnace is improved, the temperature rising speed is improved, and the waste of energy is reduced. In order to heat the heating space 14, a plurality of heating wires 15 are embedded in the inner surface of the furnace section 12. In this embodiment, the furnace section 12 is formed by integral stamping, so that the heating wire 15 and the furnace section 12 are integrally formed. The hearth section 12 is formed quickly at one time, the processing is simple, and the service life is long. The heating wire 15 is connected with an external circuit, and the adjustment of the temperature inside the rotary furnace body can be realized by externally adjusting the current. In order to ensure that the furnace tube 20 is heated uniformly, the heating wire 15 is embedded along the circumferential direction of the hearth section, so that the furnace tube is heated axially at the same time; the plurality of heating wires are uniformly arranged along the axial direction of the hearth section 12, so that the furnace tube 20 is uniformly heated along the axial direction.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (6)

1. The utility model provides a rotary furnace heat preservation furnace, its characterized in that, furnace encircles and sets up in the outside of rotary furnace boiler tube, furnace includes furnace and last furnace down, furnace and last furnace all include tip flange and a plurality of furnace section and heated board down, the heated board centre gripping is adjacent two form the furnace body between the furnace section, the tip flange joint in furnace body both ends, the internal diameter of heated board is less than the internal diameter of furnace section, furnace section internal surface inlays and is equipped with a plurality of heater.

2. The rotary furnace heat preservation hearth according to claim 1, wherein a gap between the heat preservation plate and the hearth section is filled with a high-purity alumina blanket.

3. The rotary furnace holding hearth according to claim 1, wherein said holding plate is a high purity alumina fiberboard.

4. The rotary furnace heat preservation hearth according to claim 1, characterized in that the inner diameter of the heat preservation plate is matched with the outer diameter of the furnace tube.

5. The rotary kiln holding furnace of claim 1, wherein the furnace sections are formed by integral stamping.

6. The heat-insulating hearth of the rotary furnace according to claim 1, wherein the heating wires are embedded along the circumferential direction of the hearth section, and a plurality of the heating wires are uniformly arranged along the axial direction of the hearth section.

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