CS256572B1 - Suspension for boiler's header - Google Patents

Abstract

Different membrane dilatation the wall and the supporting part of the boiler is a problem hanging chambers that fit on support and are firmly bonded to the membrane wall with boilers. According to the solution consists single-arm lever suspension, strut, of the arms and the beam, each of which is cantilevered interconnected. The chamber is hung on the free end of the single arm lever, the second the end is swiveled by brace arms with the support part, the strut divides the lever v wall ratio. Any deflection the beam joining the membrane wall boilers with a bearing part, with a lever transmission deflects the chamber so that its position does not change against the membrane wall.

Description

The invention relates to the hanging of heating chamber chambers in steam boilers. It solves the necessary shifts of the chambers resulting from the vertical thermal expansion of the boiler.

For small and medium capacity boilers, spring hinges or constant force hinges are used to suspend the chambers. For large boilers, special hinges are used. To reduce the dilatation differences between the chamber support part and the boiler membrane wall, with which the chambers are connected through the tube bundles, suspension tubes supplied with the working medium as the membrane wall of the boiler are used as the chamber support part for the chambers. The chambers are located in a hot space between the suspension tubes and the membrane wall. The hinge of the chamber is formed by a beam or a drawbar, articulated to each other, by means of which the reaction to the same chamber is led out of the hot, dusty environment behind the suspension pipes and for the insulation of the spring boilers. The disadvantage of all existing solutions is a large load on the pipe bundles. Pipe bundles exert a force to compress the hinge spring due to differences in the thermal expansion of the membrane wall and the boiler support. If a hinge with a high frictional resistance has to be moved, the load on the pipe bundles is greater. As a result of low cycle fatigue, tube bundles or welds fail. The spring itself, with its spring characteristic and hysteresis, also increases the stress on the tube bundles. By passing beams, levers, rods through boiler insulation, thermal bridges and boiler heat loss are created.

The above-mentioned disadvantages are eliminated by a device consisting of a beam, a single-arm lever, a connection, two struts and joints, located between the membrane wall of the boiler and the boiler support part, which consists in that the beam whose ends are supported on the membrane wall; The support part is connected to a single-arm lever, at the free end of which the chamber is hinged and the pivoted end is connected to the support part by struts. The dilatation differences are transferred from the beam movement to the movement of the single-arm lever. The length conditions on the lever and the beam are determined so that the relative position of the chamber relative to the boiler wall does not change.

It is an object of the present invention to eliminate stress on the tube bundles that enter the chambers, thereby substantially reducing their failure rate. Since no hinge elements pass through the boiler insulation, heat loss is reduced and the boiler insulation is simplified.

The accompanying drawings show different designs of hinges and their location on the boiler, where in FIG. 1 shows the upper part of the tower boiler with the arrangement of the chambers and heating plots; FIG. 2 is a strut with a strut and the principle of its operation, FIG. 3 is a drawbar hinge; FIG. 4 is a loose support hinge.

In FIG. 2, the chamber 1 is connected to the diaphragm wall 2 via tube bundles 9 and hung at the movable end (point G) of the single-arm lever 4. The joint S, the center of rotation of the lever 4, is rigidly connected to the boiler support part 3 by brace arms 7, 8. Between points G and S there is a point F at which a strut 6 is articulated to the lever 4. The other end of the strut 6 is articulated to a beam 5 connecting the support part 3 and the boiler wall 2. During operation of the boiler there is a difference and dilatation of the carrier part 3 and the membrane wall 2 of the boiler. The ends of the beam 5 rise or fall with these dilatations. From the movement of the beam 5 is derived the movement of the lever 4, which rotates around the point S. On the lever 4 we can reach the deflection and the point G and the chamber 1 by a suitable choice of the distance m. k + mm

The lengths k and L are given by the design of the boiler, m is the distance of the pivoting end of the single-arm lever from the free end of the single-arm lever. The hinge of FIG. 3 has a rod instead of strut 6, the hinge in FIG. 4, the single-arm lever 4 is loosely supported by the beam

5. The principle of operation of these hinges is exactly the same as that of the hinge of FIG. Second

The invention is advantageously used for hanging chambers in boilers of high capacity, where suspension tubes are used as a support part and in transition states there are large differences in the dilatation of the membrane wall of the boiler and the suspension tubes. It can be used in all medium and large boilers instead of spring hinges or constant force hinges.

25B572

SUBJECT

A boiler chamber hinge comprising a beam, a single-arm lever, a connection, two struts and joints, located between the boiler membrane wall and the boiler support, characterized in that the beam (5) whose ends are supported on the membrane wall (2). ) and the support part (3) is connected to a single-arm lever (4), at the free end of which a hinged chamber (1j) is connected and the pivoted end is supported by supporting arms (7, 8) to the support part (3); from the pivoted end of the single-arm lever is

Claims (4)

of the invention k is the distance of the chamber from the boiler support, m is the distance of the swinging end of the single-arm lever from the free end of the single-arm lever, and L is the length of the beam and where all connections are jointed. Boiler chamber hinge according to claim 1, characterized in that the connection of the single-arm lever (4) and the beam (5) is formed by a strut (6). Boiler chamber hinge according to claim 1, characterized in that the connection of the single-arm lever (4) and the beam (5) is formed by a pull rod. 4. Boiler chamber hinge according to claim 1, characterized in that the single-arm lever is loosely supported by the beam (5).