DE367127C - Stone heat exchange device - Google Patents

Description

Gagenstand the invention is a stone heat exchange device with a plurality of alternately arranged side by side, vertical rows of air and gas ducts. The novelty of the invention consists in the combination of two devices, some of which are known to Siich, namely that on the one hand the air ducts are formed by box-like duct stones with a rectangular cross-section, which are positioned directly on top of one another with their narrow sides, while the likewise rectangular gas ducts are Plates subdivided spaces are formed between the channel stones, and that on the other hand the superimposed air channels at the ■ entry and exit points as well as. the reversal points of the air are connected directly to one another or to the inlet and outlet channels for the air through passages provided in the upper and ¹ lower walls of the channel stones, while the corresponding, likewise direct connections or gas channels are made by omitting partition plates.

This primarily results in a very simple and clear structure of the Device and at the same time achieved that damaged stones can be replaced easily and quickly because, on the one hand, each row of channel stones is independent of the neighboring rows, and on the other hand, the previous ones necessary connecting chambers or shafts at the front ends of the device fall away. Furthermore, despite the direct stacking of channel stones due to the doubling of part of the walls, an advantageous space

utilization achieved, as all of them due to the rectangular, upright cross-section Channels the vertical walls common to the gas and air channels, d. H. the direct heating surfaces in comparison to the duct cross-sections and thus in relation to the amount of gas and air flowing through that channel, very large, on the other hand the horizontal walls, i.e. H. than the indirect ones Heating surfaces eligible walls, are small, while dead stone masses completely absent. Finally there is still the advantage that the number of joints, which can lead to leaks between the air and gas ducts, quite considerably is decreased.

In the drawing, an embodiment of the invention is shown, namely demonstrate:

Fig. Ι a vertical cross section through the heat exchange apparatus along the line AA of Fig. 2,

Fig. 2 is a vertical longitudinal section along the line BB in Fig. 1,

Fig. 3 is a vertical cross-section along the line CC in Fig. 2,

Fig. 4 is a vertical longitudinal section along the line DD in Fig. 1.

Fig. 5 shows a detail, namely the special design of the passages containing Canal stones in vertical cross-section through two stacked Stones.

The air ducts α and the gas ducts b are, as is known, arranged in vertical rows in such a way that a series of air ducts always alternates with a series of gas ducts. The air ducts are formed by duct stones c of rectangular cross-section interlocking in the known manner by means of annular projections and annular grooves, which are placed in rows with their pubic sides directly on top of one another, while the gas ducts are formed by the spaces between the duct stones c . These intermediate spaces are divided into channels running parallel to the air channels by horizontal plates d which engage in grooves of the latter provided at the joints of the channel stones c. Both the air ducts and the gas ducts can be divided into any number of groups connected one behind the other. In the exemplary embodiment, there are two groups, namely an upper, larger and a lower, smaller group, of air and gas ducts. The at the ends of the air channels, ie on the one hand at the entry and exit point, on the other hand at the reversal point of the air, located channel 6a stones c contain in the upper and lower wall openings /, which Ibzw as a passage from a channel to the channel above it . serve to supply and discharge ducts for the air. In a similar way, the gas channels are thereby each other or. connected to inlet and outlet channels for the gas that the plates d are omitted at the ends of the channels. The air enters the recuperator at χ and first flows through the lower group of air ducts to pass at the opposite end of the same into the upper group of air ducts, through which it flows to exit point y . The gas, on the other hand, enters at y and flows in the opposite direction through the two groups of gas channels, ie in pure countercurrent to the air, through the recuperator, which it leaves at χ.

While special sealing strips are not required along the entire length of the channels on the long sides of the hollow blocks, it is recommended that the end blocks c containing the passages f , as shown in Fig To achieve sealing of the air and gas channels against each other.

Claims (1)

Patent claim: Stone heat exchange device with a plurality of alternately vertical rows of air and gas ducts arranged side by side, marked by combining the following facilities: a) The air ducts are rectangular through box-like duct stones Formed cross-section, which are directly on top of each other with their narrow sides, while the also rectangular gas ducts through the spaces between them, which are subdivided by means of horizontal plates the channel stones are formed. b) The air ducts lying one above the other are at the entry and exit points as well as at the reversal points of the air through in the upper and lower Walls of the channel stones provided passages directly with one another or with the inlet and outlet channels for the air connected, while the corresponding, likewise immediate connections the gas channels are made by omitting partition plates. 1 sheet of drawings.