NO147156B - Heat recovering SYSTEM. - Google Patents

Description

The present invention relates to a heat recovery system, comprising a vertical, preferably cylindrical chimney flue from an incinerator via an exhaust flue in a heat exchanger to free air and an air circulation flue from an air intake for air to be heated via an air flow in the heat exchanger to an air outlet for heated air.

It is a problem in connection with heat recovery systems in connection with chimney flues to have a satisfactory cleaning (sweeping) and other inspection of the heat recovery system carried out in a simple and easy way. The present invention aims at a simple and efficient system which is easy to assemble and dismantle and which is easy to clean (sweep) and inspect.

The solution according to the invention consists in the heat exchanger forming a separate unit which is suspended axially displaceable in the chimney flue and which joins relatively closely to the chimney flue in the form of a largely sleeve-shaped insert part with the exhaust flue delimited centrally and axially through the heat exchanger, as the heat exchanger is equipped with a laterally directed air intake opening which is arranged to communicate with a corresponding opening in an upper air intake channel and a laterally directed air outlet opening which is arranged to communicate with a corresponding opening in a lower air outlet channel.

According to the invention, it is possible, as a result of easy assembly and disassembly, to pull the heat exchanger as a unit separately out of the chimney flue for inspection and possible repair as well as cleaning, if necessary. At the same time, it is possible, by axial displacement of the heat exchanger unit, to scrape (sweep) the chimney flue itself with the help of the heat exchanger unit.

It is possible to attach the heat exchanger unit, e.g. by means of a support line which is anchored to the upper end of the chimney and by means of additional stopping devices. According to the invention, it is preferred that a first sleeve part which is displaceable towards and from the air intake opening forms a sealing element between the heat exchanger and the air intake duct, and that a second sleeve part which is displaceable towards and from the air outlet opening forms a sealing element between the heat exchanger and the air outlet duct, the sleeve parts preferably being axially displaceable inside it associated air intake or air outlet duct.

It will also be possible to combine the sealing devices and the aforementioned additional stopping devices. On this occasion, it is preferred that at least one sleeve part has a conically pointed part which forms a sealing member for the heat exchanger's air intake and air outlet opening and which at the same time forms a locking member for the heat exchanger in the chimney flue.

In order to achieve accurate sealing and exact adaptation between the heat exchanger unit and the air intake duct and the air outlet duct, it is preferred that at least one sleeve part and preferably both sleeve parts have the inlet end arranged eccentrically in relation to the outlet end and that the sleeve part(s) is rotatably stored in a corresponding guide in the associated (input or output) channel.

Further features of the invention will be apparent from the following description with reference to the accompanying drawings, in which:

Fig. 1 schematically shows the system according to the invention,

with the chimney flue shown partly in section.

Fig. 2 shows a horizontal section along the line 2-2 in fig. 1. Fig. 3 shows a detail of the sealing between the heat exchanger and an adjacent air duct.

In fig. 1 shows a chimney 10 which has a vertical chimney run 11 from an incinerator 12 to the open air at a level above the roof ridge 13. A removable hood 14 is attached to the top of the chimney.

In the embodiment shown, the chimney 10 is walled up by "Leca" stone sections 10a with separate, cylindrical inner pipe sections 10b and intermediate insulation 10c.

At 15, the stove's 12 exhaust inlet channel to the chimney flue 11 is shown. Just above the channel 15, there is a hot-air channel 16 that runs from a heat exchanger 17 and has an outlet 16a that opens into the room 18 in which the stove 12 is located. Just below the roof ridge 13, an air intake channel 19 is shown through the chimney 10. One end 19a of the channel 19 is connected to the upper end of the heat exchanger, while the opposite end 19b of the channel opens out at the level of the inner ceiling in the room 18. In the channel 19, a fan 20 is placed which sucks air from the room 18 via an air filter 21 and blows the air into the heat exchanger 17's upper end.

The heat exchanger consists of an upper distribution box 22 and a lower distribution box 23 as well as intermediate vertically running pipes 24 - The distribution boxes 22, 23 and the adjacent pipes connect relatively closely to the inner wall of the chimney flue 11 and are designed with a sleeve-like shape with a central axial recess 25 which forms the exhaust passage through the heat exchanger . The distributor boxes 22, 23 are rigidly connected to each other by means of the associated pipes 24, i.e. the distributor boxes 22, 23 and the pipes 24 form a coherent, relatively rigid unit, but due to the length of the pipes (e.g. 3 m length) and the inherent elasticity of the pipes, the distributor boxes 22, 23 can be turned at a certain angle in relation to each other - while ensuring a gas-tight connection between the distributor boxes 22, 23 and the pipes 24. By means of a support line 26, the heat exchanger 17 is suspended in a bracket 27 at the chimney 10 upper end. If necessary, the heat exchanger unit can be pulled out separately from the chimney flue 11 for inspection, repair and cleaning (sweeping).

The distribution box 22 of the heat exchanger 17 (Fig. 3) is equipped with a laterally directed opening 28. The opening 28 is formed by means of a radially inwardly directed collar part 29 in which a heat-resistant sealing ring 31 is inserted in a circumferential groove 30. In the channel 19, there is axially displaceable and rotatably supported, a sleeve part 32 which forms a connecting member between the heat exchanger 17's distribution box 22 and the channel 19. The sleeve part 32 is equipped with a cylindrical main part 32a in which two external ■ circumferential grooves 33, 34 are formed which each receive a heat-resistant sealing ring 35, 36 which form seal against the inside of the channel 19. A handle 37 for axial displacement and rotation of the sleeve part 32

in the channel 19 protrudes laterally outwards through the channel in a groove 38. It is ensured that the groove 38 is located between the sealing rings 35, 36 at all times. The outer end 32b of the sleeve part runs conically to the point^ and the center axis of the outer end is arranged axially

trisk in relation to the main party's 32a central axis. In the embodiment shown, the sleeve part is pivotable over an angle of

approximately 90°, which is limited by the handle 37 and the

hearing groove 38 and is axially displaceable from the fully inserted position shown in fig. 1 to a retracted position just inside the inner mouth of the channel 19 in the chimney flue 11. The sleeve part 32 is equipped with a solid wall thickness, so that the outer end 32b of the sleeve part 32, at the same time as it forms a sealing member for the sealing ring 31, also forms a support system for the collar pair

the tie's 29 upper edge part. Hereby, the sleeve part 32 can both ensure effective sealing between the sleeve part and the distributor box 22 in a controlled (self-centering) intervention between them and further ensure the isolation of the heat exchanger 17 and its distributor box 22 in relation to the channel 19.

The distributor box 23 can be designed in a similar way

as described for the distribution box 2 2 and can cooperate with a sleeve part 39 (fig. 1) corresponding to the sleeve part 32.

Instead of resting the heat exchanger on the sleeve parts 32,

39, the heat exchanger can rest via the lower distribution box 23 against a separate stop part (not shown) which is stationary fixed in the chimney flue. In such a case, the sleeve parts can be more easily pushed into place in precisely adapted sealing engagement with the sealing ring in the associated distributor box, and by turning the sleeve part's eccentrically arranged outer end, the

fit the sleeve parts separately to the opening in the associated distributor box, as the distributor boxes as mentioned above are in-

directed to be able to turn a certain angle in relation to each

second .

Claims (4)

1. Heat recovery system, comprising a vertical, preferably cylindrical chimney flue (11) from a combustion oven (12) via an exhaust pipe (25) in a heat exchanger (17) to fresh air and an air circulation pipe from an air intake (19b) for air to be heated via an air passage in the heat exchanger (17) to an air outlet (16a) for heated air , k a r a k - that the heat exchanger (17) constitutes a separate unit which is suspended axially displaceable in the chimney flue (11) and which fits relatively close to the chimney flue in the form of a largely sleeve-shaped insert part with the exhaust flue (25) delimited centrally and axially through the heat exchanger, in that the heat exchanger (17) is equipped with a laterally directed air intake opening (28) which is arranged to communicate with a corresponding opening (19a) in an upper air intake channel (19) as well as a laterally directed air outlet opening (at 39) which is arranged to communicate with a corresponding opening in a lower air outlet channel (16). 2. System in accordance with claim 1, characterized by that a first sleeve part (32) which is displaceable towards and from the air intake opening (28) forms a sealing device (at 31, 35, 36) between the heat exchanger (17) and the air intake channel (19), and that another sleeve part (39), which is displaceable towards and from the air outlet opening, forms a sealing device between the heat exchanger (17) and the air outlet channel (16), in that the sleeve parts (32, 39) are preferably axially displaceable inside the associated air intake or air outlet channel (19, 16). 3. System in accordance with claim 2, characterized by that at least one sleeve part (32) has a conically pointed part (32b) which forms a centering device for the heat exchanger's (17) air intake opening (28) and air outlet opening respectively and which at the same time forms a blocking device for the heat exchanger (17) in the chimney flue (11). 4. System in accordance with claim 3, characterized by that at least one sleeve part (32) and preferably both sleeve parts (32, 39) have the center axis of the inlet end (32b) arranged eccentrically in relation to the center axis of the outlet end (32a), and that the sleeve part(s) is rotatably stored in an associated guide in the associated (inlet or outlet) channel (19, 16).