RU70961U1 - BOILER - Google Patents

Abstract

The utility model relates to boiler building and can be used in waste heat boilers, converter gas coolers. The boiler contains two gas ducts lifting and lowering and two covers of these flues, consisting of a horizontal membrane screen and frame. The frame of the covers is made of intersecting I-beams and a closed metal sheet welded around the perimeter of the gas-tight membrane screen. Cups are fixed along the perimeter of the sheet, in which spring return blocks are located. Guide angles are installed at the corners of the metal sheet. This design allows the boiler to simplify its design and operation while increasing its reliability and durability. 1 n.p.f.

Description

The utility model relates to boiler building and can be used, for example, in waste heat boilers, converter gas coolers and other power plants where it is necessary to discharge gases with a pressure higher than the working one, in particular, when popping in the furnace and quickly penetrating into the flues for repair works.

As an analogue, the “Lid of the flue” according to the patent of the Russian Federation No. 1663327, containing a frame frame and collectors interconnected by cooling pipes, was adopted. The pipes are fixed on top with a heat-insulating material, which is closed by a casing. This design of the duct is unreliable, since cotton will damage both the duct and the body.

The closest technical solution to the proposed utility model is the “Rectangular gas duct cover of the boiler” according to RF patent No. 2076997, which includes a frame of collectors interconnected by cooling pipes, and on the outside of the duct, parallel to the collectors of the lid, manifolds of the duct screens are placed. The lid is double-winged, the wings are pivotally connected to the opposite manifolds of the gas duct screens by means of eyes and rollers. Ropes are also attached to the flaps, passing through pulleys installed above the gas duct cover and equipped with counterweights. The manifolds of the screens of the flue are pivotally connected to

cover manifolds, with levers attached to the latter with counterweights mounted on them, located outside the duct path. Counterweights are fixed on levers by means of cables with the possibility of moving the fastening place along the lever. The flaps and the adjacent manifolds of the gas duct screens are interconnected by couplers.

The disadvantages of the known cover should include the complexity of the design, consisting of many cables, pulleys, ties, eyes. Despite the large number of parts, after each clap, a process shutdown is required to restore broken seals. In addition, the double-leaf design of the lid swings vertically up to 90 ° during cotton, which requires free space above the boiler at least half the size of the lid, which is unacceptable in the conditions of old workshops.

The task the utility model is aimed at simplifying the design and operation of the boiler while increasing reliability and durability.

The reliability and durability of the converter gas cooler boilers is mainly determined by damage to the riser duct by explosions in the convector or duct, in which significant pressures develop. The boiler can be protected from destruction during explosions in various ways, one of which is to limit the maximum explosion pressure using special relief devices. The blast wave propagates from the converter upwards, therefore, it can protect against the destruction of the lifting gas duct

only an explosive valve located on the ceiling of the riser duct. Since usually the ceiling of the lifting gas duct is formed by a removable cover, this cover should be able to rise during explosions by an amount sufficient to relieve pressure to safe values.

The problem is solved due to the fact that the lowering and lifting flues are provided with covers and both covers are made of intersecting I-beams and a closed metal sheet welded along the perimeter of the gas-tight membrane screen, in turn, glasses are located around the perimeter of the sheet, in which spring return blocks are located, and guide corners are installed at the corners of the sheet.

Thus, the problem of the utility model is solved.

The essence of the proposed utility model is illustrated by drawings, where in Fig.1 - shows the flues of the boiler with covers; figure 2 is a plan view of figure 1; figure 3 - node a in figure 2 (closed metal sheet); figure 4 is a section bB in figure 3.

The boiler has two gas ducts lifting 1 and lowering 2, sealed in the upper part by covers 3. Covers 3 consist of gas-tight membrane screens 4 and a frame made of intersecting I-beams 5 and a closed metal sheet 6. Covers are tightly mounted on counter flanges 7 and asbestos gaskets 8 and with a knife 9

included in the sealing material 10. Along the perimeter of the flange connector of the covers, glasses 11 are installed, inside which springs 12 and tightening bolt connections 13 with pressure plates 14 are inserted. Guide angles 15 are installed at the corners of the covers.

The boiler works as follows. In normal operation, the removal of covers 3 is necessary only for repair work in gas ducts. Why do we need to disassemble the tightening bolt connections 13 and remove the pressure sheets 14, glasses 11 and springs 12.

In the event of an emergency involving cotton in the flues 1 and 2, the covers 3 along the guide angles 15 rise by the amount of permissible compression of the springs 12, while the knife 9 leaves the seal 10 and the gases with excess pressure are discharged into the atmosphere. After normalizing the gas pressure, the covers 3 return to the design position by the force of unclenching of the springs 12 with their subsequent landing on the oncoming flanges 7.

The possibility of implementing a utility model with the implementation of the task is confirmed by the well-known means and methods. Thus, the possibility of implementing a utility model is confirmed.

Claims (1)

A boiler comprising two flues - a lifting and lowering, the lowering gas duct equipped with a lid consisting of a horizontal membrane screen and a frame, characterized in that the lifting gas duct is equipped with a lid, and both covers are made of intersecting I-beams and a closed metal sheet welded on the perimeter of the gas-tight membrane screen, in turn, glasses are fixed on the perimeter of the sheet, in which spring return blocks are located, and guide corners are installed at the corners of the sheet.