SU1726910A1 - Sealing plate - Google Patents

Abstract

Invention m. B. used to seal the regenerative rotary air preheater. During the start-up process, the gas passing through the air preheater heats the casing, which increases in diameter and moves attached to the non-sealing plates, thereby reducing the gap, the permissible value of which is established during adjustment. The sections of the plate are heated on the respective sides in different ways, since the air temperature is below the temperature of the heating gas, and the grippers are heated to approximately the arithmetic average temperature of the gas and air, as they are located in the zone of gas stagnation. The grippers interact with the plate sections at some distance, as a result of which the difference in thermal displacements in this region will not cause the formation of crescent-shaped compaction. 3 il. sl C

Description

The invention relates to boiler construction and can be used in the structures of regenerative rotating air-. heaters.

A known sealing structure of a regenerative rotary air preheater is a one-piece plate.

The disadvantage of this seal is that as a result of the difference in heating of the plate on the side of the casing and the gas, it becomes crescent-shaped, which degrades the sealing ability and reduces reliability.

The closest in technical essence and the achieved result is the design of an air preheater seal consisting of a trough-shaped side plate fixed with the minimum possible gaps in the armhole of the body with the help of studs with springs.

A disadvantage of the known construction is that the side plate of the seal is subject to intense distortion, as it is designed to separate the gas from the air volume of the annular space between the rotor and the housing, and the air temperature is about 100 ° C below the gas temperature, as a result, the plate takes on a sickle shape its sealing ability deteriorates and reliability decreases.

The purpose of the invention is to increase reliability.

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FIG. 1 shows an air heater with the proposed sealing plate, general view; in fig. 2 is a view A of FIG. one; in fig. 3 shows a section BB in FIG. 2

A regenerative rotary air preheater, equipped with sealing plates between the gas and air streams, includes a housing 1, in which a rotor 3 is placed axially with an annular gap 2. The rotor 3 is installed below in the bearing housing 4 fixed to the beam 5, and above in the housing bearing 6 and has a drive 7.

The housing 1 has an opening closed by a lid 8, on which rods 9 are fastened with a spring unit 10, interacting with an axial seal made in the form of a plate 11 consisting of upper 12 and lower 13 sections fastened together by means of grippers 15 and protrusions 16. The end sections of sections 12 and 13 are made obliquely to form gaps 14 with a width that gradually decreases away from the gas compartment to the air gap. Part of the claws 15, pairwise alternately, is tightly attached to the lower section 13 and interacts in the transverse and longitudinal direction gripping with the protrusions 16 of the upper section 12, which has a gap 17 with the clamp, and the other part is tightly attached to the upper section 12 and interacts like the first one bottom section 13.

The gap 14 is covered with a lining 18, rigidly attached to one of the sections. Between the radial seals 19 and the axial seal 11, gaps 20 and 21 are provided, respectively.

Sealing plate works as follows.

During the start-up process, the gas passing through the air preheater heats the casing 1, which increases in diameter and displaces the sealing plates 11 fixed on it, consequently, the gap 14 decreases, the permissible value of which is established during commissioning. Sections 12 and 13 are heated on their respective sides differently, since the air temperature is below the temperature of the heating gas, and the clamps 15 are heated to approximately the arithmetic mean temperature of the gas and air, as they are located in the zone of gas stagnation. The grippers 15 interact with sections 12 and 13 at some distance, as a result of which the difference in thermal displacements in this region does not cause the formation of crescent-shaped compaction.

Thus, the crescent of the seal in the tangential plane and its deformation in the radial direction are reduced, which allows for increased reliability.

Fo rmu l and z obre tn Sealing plate between the gas and air compartments of the regenerative air preheater, containing several sections fastened together with the formation of gaps by its end sections by means of clamps, characterized in that in order to increase reliability when using it in axial compaction of an air preheater, mutually converted end sections of sections are made obliquely to form the said gaps with a width that gradually decreases away from the gas compartment towards the air The noises, and the said grippers are divided into two groups, in the first of which they are tightly fastened to one adjacent plate and movably to the other, and in the second - vice versa.

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Claims (1)

Claim A sealing plate between the gas and air compartments of the regenerative air heater, containing several sections fastened together with the formation of gaps with their end sections by means of grippers, characterized in that, in order to increase reliability when used in the axial seal of the air heater, the inverted end sections of the sections are made beveled with the formation of the aforementioned gaps with a width gradually decreasing to the side from the gas compartment to the air, and the said grips Lena into two groups, the first of which they are tightly secured to one adjacent plate and adjustably - on the other hand, in the second - on the contrary. FIG. 1 8idA 6-6