CS209115B1 - Steam boiler connection channel - Google Patents

Abstract

The invention relates to the field of conventional boilers. In the field of steam boiler construction, the problem of connecting the "steam boiler discharge pipe with the water heater's discharge pipe often occurs. The problem of this connection lies in the fact that the discharge pipe, which is located mainly along the second stroke of the steam boiler, performs a significant expansion effect, as the relatively little moving flue gas channel heats the air. The connecting channel of the steam boiler is formed in such a way that the boxes of the water pipe penetration are connected on both sides in the center of gravity of the connecting channel by means of pivoting joints with hanging flat rods, which through rockers and hanging rods are connected to constant force hinges - placed on the beams of the water pipes and, further, that reinforcing frames are fixed to the box of the water pipe penetration to which a system of stiffeners is fixedly connected.

Description

(54)

Connecting channel of the steam boiler

The invention relates to the field of small boilers.

In the field of steam boiler construction, there is often a problem of the soaking of the so-called "steam boiler heater with a water heater". The problem with this soaking is that the jutting is positioned substantially opposite the second thrust of the steam boiler. a low-moving flue gas duct heats the air.

The connecting channel of the steam boiler is formed so that the boxes or the penetration of the irrigation pipes are rotatably connected with both flats at the center of gravity of the soybean canal with hanging flat rods which are connected with constant force hinges - mounted on the girder tubes. , further, that to the box of stall the penetration of irrigation pipes are unfavorable. non-connected reinforcing frames to which the reinforcement system is attached in an improper manner.

209,115 ·. · · WITH . '..

The invention relates to a steam boiler sewage channel, in which it is solved by hanging and fitting it with dilatation parts, a steam boiler.

In the field of construction of steam boilers there is often a problem of connection of the dump of the steam boiler with the flue gas duct of the air heater. The problem with this connection is that the hopper, located substantially below the second draft of the steam boiler, performs a non-spatial expansion movement significantly greater than the relatively low-flexing flue gas duct of the air heater, which, in addition, has an expansion leg. In most cases, the problem is e.g. The connection of the steam boiler hopper to the flue gas duct of the air heater is provided by a plurality of connecting channels connected to each other by compensators which allow their axial expansion caused by the temperature of the outgoing flue gases and also allow compensation of expansion movements of the steam boiler. Such a solution is extremely complicated by the problems of appropriately suspending these connecting channels performing spatial movement, by directing the foot in the desired direction, and by absorbing the forces resulting from the reaction of various deformations of these compensators. Furthermore, in such a solution, the spatial movement is decomposed into the individual x, y, z coordinate axes, which also creates horizontal conduit channels in which the fly ash settles, thereby reducing the flue gas flow, increasing pressure losses, increasing abrasion and last but not least they also increase. For some time, these problems have been solved by the use of fabric asbestos compensators of good non-absorbing relative large displacement shifts, whereby their number has decreased significantly compared to the wave compensators. However, the compensators so constructed and used have proved to be unreliable over time, due to their low resistance to the flue gas chemical effects. Shear compensators have not proved their worth, because of their considerable simplicity they are still being used, but only in isolated cases. their great advantage is the leakage through which air is sucked into the flue gas tract, which ultimately worsens the overall efficiency of the steam boiler.

The aforementioned drawbacks are eliminated by the steam channel connecting channel of the present invention, the essence of which is that the boxes for the penetration of the irrigation tubes are rotatably connected on both sides in the center of gravity by pins with hanging flat bars which are connected with constant force bearings via pendulums and suspension rods. on the girders of the irrigation pipes, and further that the main crossbeams are fixedly connected to the boxes for the penetration of the irrigation pipes, to which in turn the rigid reinforcement system is fixed. The longitudinal axis of the steam boiler fertilizer channel passes through the compensator pin through the compensator pins and the center of gravity of the channel, the transverse axis passing through the box pins or the penetration of the irrigation tubes and the center of gravity of the steam boiler connecting channel.

By hanging the steam boiler duct in its center of gravity by means of boxes to penetrate the water pipes and the pivot pin, it is achieved that this duct, overstretched by constant force hinges, assumes a light position by acting on the driving arms with the oval recess, stressing the compensators. small. The connecting duct consists of only one piece connected to the expansion parts of the steam boiler with only two compensators. At the same time, the reinforcement of the connecting channel against multiplication forces is overlaid by frame beams, two of which are anchored to the boxes for penetration of the irrigation pipes and further by a system of elevators guided parallel to its longitudinal axis. The connecting duct is mounted in an inclined flat which is also the working position. In this position, it can not be clogged with ashes and abrasions from increased speeds at the deposition sites. A great advantage of this solution is that the resulting force from the expansion shifts does not prevent the expansion movement of the steam boiler, but on the contrary assists this movement in the desired direction, i.e. from the axis of the combustion chamber to the air heaters. '

In the accompanying drawings, the connecting channel of the steam boiler is shown. 1 shows its location within a steam boiler; FIG. 2 is a detail thereof; FIG. 3 shows its section A-A and FIG. 4 detail of box for penetration of irrigation pipes in section

B-B.

From the furnace 1 of the steam boiler (FIG. 1), the flue gas path 2 is guided so that after leaving the second draft of the steam boiler from the hopper 4, the connecting duct 5 and the flue gas duct 8 of the air heater enters the air heaters 1. Expansion of the steam boiler from its outer expansion axis JS towards the air heaters J is ensured by means of a connecting duct J through which the irrigation pipes 3, the boiler body pass through. The connecting duct J is connected to the nipple flange 4 with compensator 18a and flue gas duct. 18b. The lower nipple 20 of the compensator is provided with double driving arms 22 and the upper compensator flange 18 of the compensator arm 21 has an oval opening. Both arms are connected to both sides of the compensator 13a by means of the 23rd compensator. the upper compensator flange 24 and the lower compensator flange 18b are connected by joints which form the double entrainment arms of the upper compensator flange 26, the arms with the oval opening of the compensator lower flange 26 and the compensator lines 28. This allows the coupling channel g to take a new position - see the axis of the coupling channel after the expulsion 17, which is at the same time the resultant of the discharge point of the discharge flange point lg with the resultant of the flange point 16 of the air heater flange.

Because the weight of the fertilizer channel g / see FIG. 3), through the suspension flat bars 12, the weighing devices 3g, the suspension rods 6, the constant force hinges 6 and the beams 37 carried into the irrigation tubes 8, the joints of the compensators are stressed only by small resultant forces. One of the components of the resultant force resulting from shifting the axis of the suspension tubes 10 to the position of the axis 11 deflects the axis 14 of the suspension flat bars and acts horizontally. plane while assisting the dilatation displacement of the hopper 4 ^and hence the entire second draft of the steam boiler J.

The weight of the connecting channel g is transferred to the boxes 2g for the penetration of the suspension pipes (Fig. 4) by the frame beams 40 and the longitudinal reinforcements 41 · The box 29 for the suspension pipe suspension (section BB, Fig. 4) is on the front side provided with JO joists combed with it. The boxes 2g for the penetration of the irrigation tubes 8 are in the transverse axis of symmetry passing through the gravity channel fissure 12, after the gravity center 11j is disposed with a chanrai 3J, including the stiffeners J4 and the hanging flat bars J2 forming a pivot joint. curtains. Box 2g; For the penetration of the irrigation pipes 8, it is provided at the rear with a suitable shaped cover plate 31 which directs the flue gas flow.

The connection duct according to the invention can be used wherever the connection of two parts of dilators is connected and where its suspension is possible in the center of gravity. When the weight of the connecting channel is transferred to the irrigation pipes, it is saved on the hinges of a constant force, which is sufficient to dimension only on the difference of expansion shifts of the second draft of the steam boiler and the corresponding section of the irrigation pipes.

Claims (2)

The non-extending expansion axis JS towards the air heaters 2 is provided by means of a connecting channel 5 through which the irrigation tubes 3, the boiler body are connected. The connecting channel 5 is connected to the flange 4 of the hopper 4 with the corpensator 18a and the flue-gas flange 6 of the air compensator 18b. The compensator lower flange 20 is provided with dual driving arms 22 and a hot flange compensator flange 22 with an oval hole. The two arms are both sides of the compensator 13a connected by a compensator 23. the compensator upper flange 24 and the lower flange 22 of the compensator 18b are connected by the flanges, which form the double entrainment arms of the upper compensator flange 27, the oval-opening legs of the compensator lower flange 26 and the compensator hay 22. In this way, the connection channel g is allowed to assume a new position - see the axis of the connecting channel after the splitting 17, which at the same time results in the movement of the hopper flange point 1g with the resultant movement of the point flange 16 of the air heater channel, since the gravity of the suction channel g / see FIG. / is through the hinge flat rods 30, the balance 3g, the hinge rods g6, the hinges gg of the constant force and the beams 37 embedded in the irrigation tubes 8, the joints of the comonomers are stressed only by small resulting forces. One of the components of the resultant force resulting from the displacement of the hinge tube axis 10 to the position of the axis 11 deflects the axis 14 of the hinge flat bars and acts in a horizontal position; The trajectory of the connecting channel g is transferred to the boxes 2g for the penetration of the suspension tubes (FIG. 4) through the frame beams 40 and the different reinforcements 41. 4 is provided on the front side, at the point of impact of the flue gas, with a crest 30 combed therewith. Box 2g for the penetration of the irrigation tubes 8 is in the transverse axis of symmetry passing through the channel 12 of the connecting channel, after the die 1g is provided with a chanel 3g, which including the g4 and hinge flat bars g2 forms a pivoting pin joint, which extends the weight of the channel into the other parts of the vessels. The infiltration tube penetration box 2g is provided on the rear with a suitable molded cover 31 to control the exhaust gas. The connecting channel of the nodal of the invention can be used wherever there is a connection of parts of the dilatation devices and where its suspension is possible in the center of gravity. When transferring the heavy-duty duct into the irrigation pipes, it is saved on the hinges of the constant force, which is insufficient to dimension only to the dilatation displacements of the second draft of the steam boiler and the respective irrigation pipe section. P Η E D Μ E T / / Y S T T. A steam boiler connection channel with frame reinforcement beams, longitudinal extensions, corrugated tube penetration boxes, and commodators, characterized in that the irrigation tubes (29) of the irrigation tubes (3) are on both sides in the center of gravity (12) of the connection channel (5). / rotatably coupled to the hinged flat bars (33), which are connected to the hinges (39) of the stubs mounted on the beams (37) of the irrigation tubes (3) and which are connected to the hinges (39) and the hinge rods (36), to the box (29) of the irrigation pipes (3) the reinforcements of the frames (40) are connected to which the set of reinforcements (41) is fixedly attached. 2. The steam boiler connecting duct according to claim 1, wherein its retentive extends through the lower pivot (23) of the compensator (13a), the center of gravity of the connecting duct (12), and the top end (28) of the compensator (13b). for the penetration of the irrigation tubes (3) and the center of gravity of the connection channel (12).