SU1455141A1 - Seal of rotor of regenerative air heater - Google Patents

Abstract

The invention relates to a heat exchange technique and can be used in boiler building. The purpose of the invention is to improve the tightness of the seal. Along the perimeter of the rotor j Gas (P) 1 there are spring elements, made in the form of rectangular plates 2, mounted vertically between the cover 3 and the end P close to each other. One end of each element is fixed on the lid, to the other there is a block 4 made of antifriction material, one end of the interaction with P. The other ends of all the pads placed horizontally are circumscribed around P with a common flexible clamping element made in the form of a cable 6 installed with tension This embodiment allows to establish the minimum gap between the P and the seal at the very initial stage of operation, which ensures minimal air flow. When cooling P or partial wear of the pads, the cable ensures that the pads return to their original position. 3 il. iBesdyx fto А (Л 4) 1 g

Description

I

Jl hb l

The invention relates to a heat exchange technique and can be used in boiler building,

The aim of the invention is to improve the seal tightness.

1 shows an air preheater equipped with the proposed seal; figure 2 - section aa in figure 1; on fig.Z - view B in figure 1.

The air heater contains a rotor seal 1, made in the form of spring elements located along the perimeter of the latter — rectangular plates 2, one end of each of which is fixed on the air heater cover 3, and horizontally arranged an antifriction material 4, for example graphite, interconnected to the other acting with one end with the rotor 1 through its flange 5. The second ends of all the pads 4 are covered on the circumferential, rotor, with a common flexible clamping element, in the form of a cable 6, installed with tension. The rectangular plates 2 are installed vertically between the cover 3 and the end of the rotor 1 close to each other, and the gaps between the adjacent plates 2 are covered with flexible plates .7. The gas and air nozzles 9 and 10 are attached to the body 8 of the air preheater,

 Seal works as follows.

When the air preheater is in operation. After the rotor 1 is heated, the latter expands and retracts the pads 4 to a larger diameter. In this case, the flexible plates 2 are bent away from the rotor 1. The slots between the plates 2 are enlarged, but remain covered with inclinations. 7. The air pressure in the air pipe 10 tends to withdraw the pads 4 from the rotor 1 to a greater value than caused by its thermal expansion, but they are returned to the rotor 1 by the cable covering the seal 6, the tension of which is created by a spring or cargo (not shown).

When abrasion pads 4 cable 6 presses pads 4 to the rotor 1.

Making the seals in the form of flexible plates 2 and pads 4 of antifriction material, pressed against the rotor 1 by means of a cable 6, allows the minimum clearance between the rotor 1 and the seal to be set at the very initial stage of operation (in a cold state). When the rotor 1 is heated and expanded, it pushes the pads 4, which move freely to the appropriate size due to the presence of flexible plates 2. When the rotor 1 is cooled or the pads 4 are partially worn, the cable 6 surrounding them will return the pads 4 to their original position. Flexible lining 7 overlap the gap between the flexible plates 2 for any width.

Thus, during operation of the seal, at any time, minimal gaps between the rotor 1 and the seals, and consequently, minimal air flows, are provided. This increases the density of the air preheater, reduces heat and fuel losses with overflowing air and reduces power losses due to traction and blowing.

Claims (1)

Invention Formula The rotor seal of the regenerative air preheater contains spring elements located around the rotor perimeter, one end of each of which is fixed on the air preheater lid, and an antifriction material block is attached to the other, one end of which interacts with the rotor, and the second ends of all the pads are covered by the circumference of the rotor with a common flexible The clamping element, characterized in that, in order to increase the tightness of the seal, the spring elements are made in the form of rectangular plates, nnyh vertically between the cover and the rotor end face close to each other, horizontally arranged pads, and the presser member comprises a cable mounted with interference fit. Compiled by G. Petrov Editor A. Lezhnin Tehred L. Oliynyk Order 7437/44 Circulation 488 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, st. Project, 4 Wi05 FIG. 3 Proofreader O. Kravtsov Subscription