CS244607B1 - Heat-resistant insulation of the rotary kiln burner - Google Patents

Abstract

To achieve effective protection against the effects of high temperatures and prolong the operating life of the rotary kiln burner, a refractory insulation is used, made of reinforced or unreinforced rings of refractory material. These rings have an inner diameter larger than the outer diameter of the burner and their thickness is 5 to 10% of the outer diameter of the rings. The rings are mechanically clamped directly on the burner. This insulation will allow to reduce the time for repairing the burner insulation to a minimum.

Description

BACKGROUND OF THE INVENTION The present invention relates to refractory insulation of a rotary furnace burner for effective protection thereof. against the effects of high temperatures and prolong its operation capability.

The purpose of the invention is to protect the burner with a resistant insulation of refractory material in order to prevent breakdowns during its separation in a rotary kiln.

It is known that in burners of industrial furnaces, eg rotary, heating, firing and other furnaces, gaseous, pulverized or liquid fuels are burned to which the required amounts of air are supplied either by natural draft or by fan.

These burners are provided with a protective cover which protects against the radiant heat of the furnace or chamber. For technological reasons, the burner and fuel nozzles must be located at a relatively large distance from the front of the combustion chamber or furnace.

So far, these protections! used a casing formed of an alluminous tube wrapped with a thick layer of ceramic refractory material. Through the inside of the housing ee, primary combustion air is supplied to the nozzle.

Furthermore, it is known that in the case of an industrial furnace burner, it is necessary to take into account the versatile expansion, since the expansion occurs not only in the horizontal but 1 in the vertical direction. The burner is provided with a bandage to protect it against this expansion.

Another method of protecting the burners is to provide a housing by providing a front portion of the housing before ending the ceramic layer siege with a series of cylindrical or conical solutions of gradually decreasing diameter, the edges of which are rigidly connected by transition ribs, an annular gap being provided between individual cylindrical or conical sections.

Furthermore, it is known that a new burner, for example in a rotary furnace, before it is put into operation, is either provided with welding or screwing long pieces of iron of different distances, eg stripwires, or wrapped with a mesh. refractory material. After drying, the burner is ready to be mounted in a rotary kiln.

The disadvantages of the burner insulation hitherto are that for a relatively short time! In operation, the ceramic or other refractory layer may be damaged as a result of the damage of the protective tube or other housing.

They are caused by the considerable losses caused by breaking the rope by replacing polkezehýeh parts. Tightly refractory fitting on the burner and must be repaired again after drying into the furnace.

The above disadvantages are overcome by the refractory insulation of the rotary furnace burner according to the invention, which is formed from the burner-clamped reinforced or unininned rings with heat resistant material and internal diameter greater than the outer diameter of the burner and 5 to 10% outer diameter.

The advantages of the refractory burner insulation of a rotary kiln according to the invention are that it allows to reduce the burner insulation repair time to a minimum. The rings can be manufactured with the refractory material in advance and kept in stock for use. When the burner insulation of the rotary kiln is found to be disturbed that the burner is ejected from the furnace, the disturbed ring ee knocks by but instead of moving all the rings away from the front of the burner. The missing ring is placed on the forehead eo and tightened by the ee nut, limiting the burner in a short time to further operation.

A further advantage of the refractory insulation of the burner according to the invention is that it prolongs the operability of the burner under the severe thermal conditions prevailing in rotary kilns.

In the accompanying drawing, the echemetic is shown the heat-resistant insulation of a rotary pan burner according to the invention, wherein Fig. 1 represents a ring in front view of Fig. 2 a rotary pscs burner in algae and threaded rings mounted on the front side of the burner.

The rings for insulating the burner 2 of the rotary kiln are formed and the refractory material is reinforced or non-reinforced with an inside diameter 6, which is controlled by the outer diameter of the burner 2.

The thickness of the rings 1 is 5 l and 10% and the outer diameter of the rings. The burner i ee puts the rings i in the necessary places and tighten the nut J covering the entire front diameter of the ring i.

The inventive refractory insulation is not limited to the insulation of the rotary furnace burners, but can be advantageously applied to all burners that are exposed to high temperatures within the burning space.

Claims (1)

Refractory isolation of the burner by a rotary lever, characterized in that reinforced or non-reinforced rings and refractory material having an inner diameter greater than the outer diameter of the burner and having a thickness of 5 to 10% of the outer diameter of the rings are formed on the burner. 1 drawing