SU918767A1 - Regenerative heat exchanger - Google Patents

Description

(54) REGENERATIVE HEAT EXCHANGER

Claims (2)

The invention relates to heat exchangers and may be used in the design of regenerators for all separation plants. A regenerative heat exchanger is known; However, the regenerative heat dissipation class (/) is characterized by insufficient reliability of operation, due to curvature and wedging of pneumatic-cycling rods rigidly connected to the pressure plate, which MOtyT is due to In order to improve the operational reliability of the regenerative heat exchanger. The goal is achieved by the fact that the clamping mechanisms contain hollow glasses with axially spring-loaded bushings having circular and helical grooves on the side surface, in which spherical elements, elastic elements and adjusting screws, and in the upper part of the glasses, which protrudes above the 1fold, there are made through radial holes, and elastic elements are installed in these holes in contact with the adjuster (screw screws and spherical elements of the annular grooves. FIG. I shows a heat exchanger, an obscure view; 2, node J in FIG. 1; FIG. 3 shows section A-A in FIG. 2. The regenerative heat exchanger includes a housing 1 with a bottom 2 and a cover 3, located inside the housing 1, an operatic plate 4 and a pressure plate 5 with a packing 6 between them, an inlet 7 of the inlet and a gas outlet of 8. The clamping mechanism fixed on the lid 3 combines hollow glasses 9 with axuli sprung in the axial direction 10, having a latch groove 11 and a helical groove 12 in the axial direction in which are spherical elements 13 and 14. In the upper part of the glasses 9 which protrudes the lid 3 , through radial holes 15 are made, in which elastic elements 16 are installed with inter-spherical elements .13 and adjusting screws 17. Spherical elements 14 are located in screw grooves 12 of bushes 10 that are spring-loaded with elastic elements 1 The regenerative heat exchanger works as follows. The cold gas passes through the nozzle 7 and the heated output of the nozzle 8. In this case, the metal nozzle 6 cools down almost the temperature of the cold gas, Pos; this warm gas enters the apparatus through the same nozzles and is cooled by the cold accumulated in the nozzle 6, and the nozzle It becomes warm. Over time, Cadac 6 begins to sit down. Crush mechanisms are installed to press the presser plate 5 to the nozzle 6. Pepper starting the operation of the regenerative heat exchange adjustment screws 17 are mutated so that the force from the elastic element 16 exceeds the force from the elastic element 18, the spherical elements 13 enter the annular groove 11 of the sleeve 1O, thus the sleeve 10 is held in the upper position. The adjustment 17 is then inverted until the axial force of the elastic element 18 exceeds the axial force of the elastic element 16, the sleeve 10 under the action of the axial force of the elastic element 18 is lowered while rotating around its axis, due to the rolling of the spherical elements 14 along the vitovik canal & , before contact with the pressure plate 5, the spherical elements 13 are then pushed out of the annular groove 11 in the bore hole of the hole .15 and later on. work does not participate, oh. With shrinkage of the nozzle 6 in the length of 1O under the action of the axial force of the elastic hell-. Ment 18 continues to lower the force transferred to the presser plate 5, thereby ensuring a constant compression of f nasatski. When the regenerative heat transfer is heated, the nasca 6 increases in size in height. The resulting force through the pressing plate 5 is transferred to the sleeve 1O, which moves freely in the opposite direction. In the case of clamping the clamping mechanism, the sleeve 10 is returned to its original position, the rotational movement of the spherical element until it returns. The copiers 13, spring-loaded with elastic elements 16, will enter the annular groove 11, and fix them in this position by adjusting screws 17. The use of the proposed invention will ensure long and efficient operation of the nozzle and prevent the lid of the regenerative heat exchange from changing when the temperature regimes in the apparatus change . Claims of the invention A regenerative heat exchanger comprising a housing with a bottom and a lid, support and pressure plates placed inside the housing with a nozzle between them and clamping mechanisms mounted on the lid, so that, in order to increase its operational reliability , the clamping mechanisms contain hollow glasses with axially spring-loaded sleeves having an annular and win- ding on the side surface. to grooves in which sphe- are placed. The tricky elements, elastic elements and adjustment screws, the upper parts of the glasses protruding above the lid are made through through branches, and the elastic elements are installed in these openings in contact with the adjusting screws and spherical elements of the annular grooves. Sources of information taken into account in the examination. , USSR Copyright Certificate No. 640109, cl. F23D 17/00, 1977,