NO138495B - HEATING BOILER. - Google Patents

Description

The present invention relates to a boiler which

is composed of two largely symmetrical cast iron boiler sections where mirror-image recesses in the boiler sections form a boiler room and several flue gas exhausts that lie one above the other and above the boiler room, and where each boiler section includes a separate water chamber.

The usual type of boiler construction made of cast iron is

the so-called sectional boiler where each of the individual vertical sections is connected to each other on the water side with two nipples and on the flue gas side with a putty seal. Such constructions require three different types of boiler sections: A front section for storing and sealing the burner doors, a middle section for forming the boiler room and convection heating surface, as well as a rear section for closing the boiler room and for attaching the exhaust gas connection. The smallest existing boiler must have at least two middle sections. This makes a total of four sections and six nipple locations.

From US patent 2,251,589, a boiler is known in which the flue gas outlets are connected in series and exert a strong flow resistance. The construction of the boiler according to the patent document is complicated and does not satisfy the latest developments in the area.

The purpose of the invention is to produce a boiler where the disadvantages of known boilers are avoided and which can be produced at a favorable price.

According to the invention, this is achieved by the fact that between the boiler sections a draft diverting plate is loosely placed to separate the boiler room from the first flue gas exhaust, and that the second flue gas exhaust consists of two parallel-coupled délav drafts whose walls are water-conducting hollow bodies with a wavy surface.

By the parallel connection of the second flue gas exhaust into two partial exhausts, the flow resistance is reduced while the heat transfer due to the wave-shaped walls is increased. By placing a loose draft diverting plate between the boiler room and the first flue gas outlet, optimal flue gas guidance is achieved while the material requirement is low.

According to an advantageous embodiment, half-pipes which form an exhaust pipe are designed in one with the boiler sections. This results in additional material savings and savings on assembly.

An embodiment of the invention will be described in more detail below with reference to the accompanying drawings, in which:

Fig. 1 shows a front view of a boiler.

Fig. 2 shows a vertical section through the boiler along the line II-II in fig. 1. Fig. 3 shows a vertical section through the boiler along the line III-III in fig. 2. Fig. 4 shows a horizontal section through the boiler along the line IV-IV in fig. 1.

As can best be seen from fig. 3, in a boiler house 18, a left cast iron boiler section la and a right cast iron boiler section lb are pressed against each other by means of anchor rods 13 and nuts 14 and clamped together. The two boiler sections la, lb are designed symmetrically in relation to each other and touch each other in a vertical plane E which runs perpendicular to the front of the boiler. Mirror-image boiler section recesses form a boiler room 3, a first flue gas exhaust 5 and parallel-connected partial exhausts 6, 7 in a second flue gas exhaust. An exhaust diversion plate 4 separates the boiler room 3 from the first flue gas outlet 5. With the help of this device and the design of the two boiler sections la, lb, the necessity of a front and a rear section as in known boilers is eliminated.

Fig. 2 shows the left boiler section la, where arrows mark the path of the flue gases from the boiler room 3 to the first flue 5 and from there through the two partial flues 6, 7 in the second flue to an exhaust duct 8 and finally to a flue duct 9. One half of the exhaust duct 8 is molded to each of the boiler sections, and the smoke channel 9 is inserted directly into the spigot 8.

The two boiler sections la, lb are delimited on the front side by a burner door 10. This is stored in hinges 20 and pressed tightly against the narrow sides of the boiler sections la, lb so that the boiler room 3 and the flue gas vents 5-7 are closed. The burner door 10 is equipped with an opening 21 for a burner not shown and with a flange 17 for fixing this. Moreover, it is in the familiar way

placed an explosion flap 12 with a sight glass 11.

On the water side, each boiler section is equipped with a separate water chamber 2a and 2b respectively. The water chambers 2a, 2b are connected below to a common return 16 and above to a common supply pipe 15. As a result of this parallel connection of the two water spaces 2a, 2b in the boiler, the free circulation of water is favourable, and thermal stresses are avoided to a large extent.

The described heating boiler can be manufactured at a favorable price as it comprises only two boiler sections and as the burner door can be fitted directly. As a result of the advantageous design of the boiler sections, the otherwise usual exhaust gas box becomes redundant, and the smoke duct can be easily connected to the exhaust gas connection.

As a result of the longitudinal division of the water space, favorable flow conditions are achieved which contribute to the reduction of thermal stresses in the boiler.

Claims (2)

1. Boiler which is composed of two largely symmetrical cast iron boiler sections (la, lb) where mirror-image recesses in the boiler sections (la, lb) form a boiler room (3) and several flue gas exhausts (5-7) that lie above each other and above the boiler room, and where each boiler section includes a separate water chamber , characterized in that between the boiler sections (la, lb) a draft diverting plate (4) is loosely placed to separate the boiler room (3) from the first flue gas exhaust (5), and that the second flue gas exhaust consists of two parallel-connected partial exhausts (6,7) if walls are water-bearing hollow bodies with wavy surface. 2. Boiler in accordance with requirement 1, characterized in that half-pipes that form an exhaust pipe (8) are designed in one with the boiler sections (la, lb).