NO127396B - - Google Patents

Description

Support device for refractory lining in firebox for boiler with oil burner.

Combustion chambers in boilers with oil burners are previously known. They are often partly lined with refractory stone, partly to

create an atmosphere around the flame with

high temperature which is needed for complete combustion and partly to protect

the walls of the chamber directly against the flame

impact.

The purpose of the invention is to provide a good support device made of metal for refractory lining in boiler fireboxes, especially for heating boilers. The device i

according to the invention has a number of advantages: It can thus for such liners

support systems are set up which consist of a

small quantity in advance in standard size

manufactured items that can be used for

fire boxes of any kind. The

ready-made elements can be produced easily and

cheap. The elements can be assembled and dismantled within a very short time. The material used has little weight and low thermal inertia.

The special feature of the device is that it

are used hollow elements of plate material, or similar flat constructions, that

transverse and longitudinal are used

elements each consisting of two by means

of rivets or otherwise interconnected sections, so that it can

elements are formed that fit the length and width of a fire box, and that the connection

between the elements of the two mentioned types

is provided by carvings above which

the elements crosswise engage each other.

The invention must be explained with help

of two examples of designs for use with fireboxes in boilers for heating purposes.

In the drawings, fig. 1 a perspective view of a transverse element formed by two sections and connected by a longitudinal element, fig. 2 shows a cross section through a transverse element along the line A—A in fig. 1 and 6, fig. 3 is a perspective view of a longitudinal element, and fig. 4 shows a longitudinal section along the line C—C in fig.

5. Fig. 5 shows a cross-section along the line

B—B in fig. 4, fig. 6 is a perspective view of a transverse element in a modified version, fig. 7 is a perspective view of an element for use with the element according to fig. 6, and fig. 8 is a perspective view of a device according to the invention with the elements according to fig. 6 and 7.

In fig. 1 shows a transverse element consisting of two sections made of sheet metal or the like, where the sections are largely L-shaped and comprise an upwardly directed arm which is arranged to carry the lining which is to protect the side walls of the firebox. The horizontal arm of the section 1 is provided with a cut-out 2 which forms a facility for the lower edge of the liner, and with a downwardly open cut-out 3 which, together with a corresponding upwardly open cut-out 11 in the adjacent section of the longitudinal element 10, ensures the connection between the transverse and the longitudinal element .

Directly opposite the cut-out 3, the element 1 is provided with small recesses or corrugations 4, which are shown in section in fig. 2, so that the element has thus been given a local thickening which also provides a certain strengthening of the inter-element connection. The corrugation 4 is only of interest if the elements are made of particularly thin plates. The sections are also designed with openings 5 and a number of through holes 6 which are arranged in two rows above and below the openings 5. Two and two sections are connected to each other so that together they form a symmetrical mirror image-like figure. The sections lie with their horizontal arms partially above each other, and the connection between them is secured by rivets 7 which are passed through the holes 6 after the distance between the sections' vertical arms has been adapted to the width of the firebox. In cases where narrow fire boxes are used, the transverse element can be designed as shown in fig. 6. The difference between section 1 according to fig. 1 and the section 21 according to fig. 6 consists in the vertical arm being cut off, and the upper edge of the section being provided with a further cut-out 22. In this case, the function that the vertical arm had in the embodiment according to fig. 1 of a new section 23 which is shown in fig. 7. The section 23 is generally rectangular and planar and is provided with openings to keep the weight down. Section 23 may optionally be provided with stiffening ribs (not shown). The lower edge of the section is provided with two cut-outs 24 which are at such a distance from each other that during assembly they fit the corresponding cut-outs 22 in two adjacent cross-member sections 21.

As shown in fig. 3, a longitudinal element consists of a rail 10 adapted to the length of the firebox which is connected to an upward facing section 8 with the shape shown in the figure, where the vertical section's task is to support the lining at the end wall of the firebox. The rail 10 is provided with a number of through holes 12 whose mutual distance and diameter correspond to the distance between and the diameter of the holes 9 in the section 8. The plate rail 10 can be of any length and connected to the section 8 by means of rivets 19 or the like . The rail 10 is provided at its upper edge with cut-outs 11, which, as mentioned above, must go into corresponding cut-outs in the cross members according to fig. 1 or 6.

The distance between the cutouts 11 must be such that each liner section 13 will be supported by at least two transverse elements that engage in two successive cutouts, as shown in fig. 4, and the distance will therefore vary depending on the size of the lining section.

The liner is inserted in the following way: First, the elements are shaped as shown in fig. 1 and 6 by riveting sections 1 or 21 together, so that the finished element has the same total width as the firebox. Next, the longitudinal elements are formed by cutting two rails 10 with the same length as the firebox, and the section 8 is riveted to the ends of the rails, rivets 19 being passed through the openings 12 and 9 respectively. 1, over two longitudinal elements so that the cutouts 3 in section 1 are placed across and against the corresponding cutouts in the rails 10. The corrugations 4 cause a certain local thickening which contributes to the sections being better locked into each other, so that the whole device becomes more rigid.

The size of the sections and the depth of the cut-outs must be chosen so that the upper and lower edges of the rail 10 will protrude outside the section 1, as shown in fig. 5. Cross - the number of elements depends on the length of the firebox and the length of the lining sections.

The fire box is lined with refractory lining sections of relatively small thickness, where the sections 13 and 15 lie against the elements 1 and form the side walls, the lining sections 14 lie on the upper edge of the rails 10 and form the bottom, and the sections 16 and 17 are supported by the longitudinal elements sections 8 and constitute a flame deflector.

If a boiler has a long and narrow firebox, the sections 21 and 23 are assembled, replacing the elements 1, as shown in fig. 8. The lining sections 16 and 17 are held in the correct position by means of two appropriately designed lining sections 15.

As a result of the fact that each liner section is supported along its entire length and has the opportunity to expand freely, the risk of the sections cracking or breaking is significantly reduced, and if breakage were to occur anyway, it would not cause any collapse of the entire device; on the other hand, it will only be necessary to replace the relevant section, without dismantling the other lining sections.

As the lining sections are not required to have a significant load-bearing capacity, these can be made with a very small thickness, and corrugated elements can be used which are even lighter. This has the effect that the system's thermal inertia (capacity — thermal inertia), including the boiler, the burner and

the liner according to the invention is significantly lower than with the system with a

other lining type. The bottom of the battle box, they

two rails 10, and the bottom lining sections 14

delimits a chamber which is arranged for

flow of the tertiary air which

enters the firebox through the opening

5 in the elements 1 or 21. From said chamber, the tertiary air flows through the slots 18 between the bottom lining sections 14

into the firebox, being a section 20 which is

arranged at one of the cross members 20, which

shown in fig. 4, prevents the air from going directly

ti] the chimney.

If the width of the firebox is proportional

large, more longitudinal elements than two can be arranged. Correspondingly will

the cooperating elements 1 and 21 be designed with a greater number of cutouts

than the cutouts 3 shown in fig. 1 and 6. The openings 15 must then be arranged and designed so that the sections have sufficiently large plate sections that can be provided with such cutouts. Modifications of this kind, however, need no further explanation.

Claims (7)

1. Support device for refractory lining in fire boxes for boilers with oil burners, of the type that allows an appropriate conduction of tertiary air and the use of pre-manufactured transverse and longitudinal elements, characterized in that the elements are of flat construction and each made of two sections which are arranged to be connected to each other in a way that gives rise to a change in the length of the elements, where the transverse elements are connected to the longitudinal elements by means of cutouts that provide a cross connection of the kind where the cutout in one element is folded into the cutout in the second element. 2. Device according to claim 1, characterized in that the transverse elements consist of two largely L-shaped sections which are connected so that they form the mirror image of each other, where each section comprises an upwardly directed arm and a horizontal arm that is close to the raised arm is provided with a recess for providing a refractory section a facility, and also at least one opening and at least one cut-out for jointing of a longitudinal element with a transverse element, where the cooperating sections are provided with a number of respectively in line with each other lying holes for the introduction of rivets or similar bodies which hold the sections of the elements together. 3. Device according to claims 1 and 2, characterized in that the sections' upwardly directed arms are looped, the horizontal parts of the sections instead being provided with auxiliary cut-outs for embedding independent auxiliary sections. 4. Device according to claim 3, characterized in that the auxiliary section, which has an essentially rectangular shape, is provided at its shortest edge with cut-outs which cooperate with the cut-outs in two successive transverse elements, so that the auxiliary sections form a connecting element between the elements. 5. Device according to one or more of the preceding claims, characterized in that each longitudinal element comprises a rail which is provided with a number of evenly spaced holes, and off to the end part of the rail, by means of rivets or the like, is attached an upwardly directed section which by its the corresponding end is at least provided with two through holes, whose diameter and mutual distance correspond to the holes in the rail, so that rivets or similar bodies which are passed through the cooperating holes hold the upward-facing section on the rail. 6. Device according to one or more of the preceding claims, characterized in that the transverse element sections are provided at their lower edge with cutouts and that at least two deflections or small corrugations are formed in the sections directly opposite said cutouts to locally increase the part's thickness and to provide a tight fit between the transverse members and the edges of the cooperating cutouts in the longitudinal member. 7. Device according to one or more of the preceding claims, characterized in that the length of the longitudinal elements and of the connections is chosen so that the upper and lower edges of the rail or similar longitudinal elements after joining protrude beyond the horizontal arms or sections of the transverse elements.