FI124829B - Heat recovery Stack - Google Patents

Description

FIELD OF HEAT RECOVERY CHIP TECHNOLOGY

The present invention relates to a heat recovery chimney comprising a chimney tube and a jacket tube mounted around a chimney tube so that the chimney tube and the jacket tube define a fluidized water space which is formed in both ends of the heat sink a flue pipe from which the fluid is adapted for recovery.

BACKGROUND OF THE INVENTION The artistic chimneys of heat are known per se. Applicant's multifunctional ripple, in which there is a container space formed around the chimney tube by means of a jacket tube, which is thus limited on the inside by the chimney tube and on the outside by said jacket tube. The reservoir recycles liquid, preferably water, as a heat-retaining agent. More or more heat exchangers may be provided in the tank space. The heat of the flue gases is transferred from the flue pipe directly to the fluid in the tank space and further through a heat exchanger, if any, to its heat transfer circuit. The fluid in the tank space can also be recycled directly, for example, to a radiant heat generating element for radiators or underfloor heating. The so-called waste heat from the flue gases can be transferred, for example, to underfloor heating and / or radiator heating or domestic hot water heating. The chimney pipe is connected to a fireplace, e.g. In order to efficiently recover heat, the jacket bean surrounding the tank space is further provided with an external thermal insulation.

Although the prior art heat recovery chimney described above is functional as such and provides heat recovery for the flue gases, there is a problem with the structure that pipes connected to the tank space for circulating water in the tank space are connected to the tank space. Although the other pipe, which usually draws water into the tank space, can easily be connected to the heating pipe, the other pipe has to be transported from the outside of the pipe. This has been detrimental, for example, to the fact that the barrel insulation has to be made for the groove pipe or the piping has been done completely outside the pipe. This has imposed certain restrictions on the installation of the barrel and the pipe connections.

The prior art is disclosed in a heat recovery dam. in DE 10062390 A1. Another prior art heat recovery chimney is disclosed in FR 584246 A.

SUMMARY OF THE INVENTION

The object of the present invention is to provide a novel and improved heat recovery barrel. To achieve this goal, the invention is substantially characterized in that a flow passage extending substantially from the lower end of the water space to its upper end is provided within the water space of the heat recovery chimney, at one end of which discharges into a water space, from which it is utilized by a liquid outlet connection connected along the length of the jacket tube heat recovery chimney to the inlet end, and according to the invention, the water space is provided with an a the venting channel continues as a thin tube or similar channel within the water space adjacent to the flow channel to the opposite end of the water space. Most of the pipe connections for the heat recovery chimney are preferably arranged at the same end of the heat recovery chimney.

The depth of the flow channel according to the invention, i.e. the radial dimension of the heat recovery chimney, is substantially smaller than the width of the flow channel, i.e. the circumferential dimension of the heat recovery chimney. In the water space of the heat recovery chimney, there are support flanges, which are arranged mainly in the transverse direction of the heat recovery chimney, in the direction of the length of the heat recovery chimney, in the transverse direction. The support flanges form truncated flanges with gaps between the truncated ends of the support flanges and the flow duct to allow water to circulate in the water space. The heat recovery chimney is, as is well known, provided with an insulator mounted on the jacket pipe. The heat recovery chimney is preferably arranged to act as an insert for a ingot or chimney.

The invention provides significant advantages over the prior art. In the heat recovery pipe according to the invention, all water connections can be made at the same end of the barrel heat recovery section. The solution of the invention enables an intact casing structure, which allows the heat recovery section of the barrel to be installed inside the barrel structure without breaking the insulation. The structure can be utilized e.g. such that the barrel according to the invention can be installed first. into the barrel, the hole in the ingot. The water channel can provide the water circulation necessary for the heat recovery peak within the water space of the heat recovery section, which space is very limited. The invention also makes it possible to introduce the heat recovery structure to the side of the outdoor space. All pipe connections to the barrel can be made at the lower or upper end of the barrel, which results in clear cost savings in pipe work.

In the structure of the invention, the venting of the water space can be treated at the lower end of the barrel, which also results in cost savings in plumbing. Ventilation ducts or air clocks at the upper end of the heat recovery section are not required.

In the structure according to the invention, new types of guides and reinforcements around the flue pipe are used in the water space. This solution allows for a thicker wall of chimney pipe, which in turn leads to cost savings in material and manufacturing costs. The guide and reinforcement components enhance the heat recovery of the flue gas thanks to the thinner wall structure of the turbulent flow and the flue pipe.

The structure of the invention further comprises an outer space-limiting jacket tube and an interior-limiting chimney tube connected in a manner that permits thermal expansion of the chimney tube without straining the weld seams or chimney tube. This is accomplished by the invention with heat recovery chimney type top and bottom end pieces which are shaped to function as both end and spring toe members.

Other advantages and features of the invention will become apparent from the following detailed description of the invention, in which the invention is described with reference to the accompanying drawings, in which the invention is not specifically limited.

BRIEF DESCRIPTION OF THE FIGURES

Figure 1 is a side elevational view of a heat recovery top according to the invention.

Figure 2 shows a detail of the upper end of the heat recovery chimney of Figure 1.

Figure 3 shows a detail of the lower end of the heat recovery chimney of Figure 1.

Figure 4 is an enlarged detail of Figure IV.

Figure 5 is an enlarged detail V of Figure 3.

Fig. 6 is an enlarged detail VI of Fig. 3.

Figure 7 is a schematic side view of the flow passage of the heat recovery chimney according to the invention in the same direction as Figure 1.

Fig. 8 shows a flow channel according to the invention, viewed in direction VIII from Fig. 7.

Fig. 9 is a schematic sectional view of the flow channel fitting into the water space of the heat recovery chimney.

Fig. 10 shows the fit of the support flanges to the structure of the heat recovery barrel.

Figure 11 illustrates the use of a heat recovery chimney according to the invention in connection with a ingot chimney.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

In the figures of the drawing, the same reference numerals are used for like components, and for simplicity of the figures, only the essential components of the invention are indicated therein.

Fig. 1 is thus a side view of a heat recovery chimney according to the invention. In Figure 1, the heat recovery chimney is generally designated 10. In the following description, for the sake of simplicity, the heat recovery barrel 10 will also be referred to as "barrel" alone. The structures of the barrel 10 are better reflected in the details of the barrel.

The barrel 10 comprises a chimney pipe 11 for connection to a fireplace (not shown), e.g. A jacket tube 12 is disposed around the chimney tube 11 such that the chimney tube 11 and the diaper tube 12 define an annular reservoir space water barrel 10 (not shown in Figure 1). At its upper foot, the water space 21 is further closed by end pieces 16. These structures are better illustrated in Figures 2-5.

Figure 1 shows in dashed lines a flow passage 13 in the water space 21 of the barrel 10, whereby in the embodiment of Figure 1, water is circulated from the lower end of the water space 21 to the upper end, where water flows from the flow passage 13 to the water space21. The circulating water is led to the flow channel 13 through the inlet 17 at its lower end and out of the water chamber 21 through the outlet 18, both of which are located at the same end of the barrel 10 at the lower end of Figure 1. Also, the venting channel 19 and the sensor connection 20 are arranged at the same end of the chimney 10 at the inlet and outlet of the circulating water 17, 18, whereby all pipe connections are made or in the area of the same end of the barrel 10.

According to Fig. 1, an embodiment 14 may be formed in the upper end region of the jacket tube 12 for receiving the expansion and contraction of the chimney tube 11 due to the thermal expansion 12. However, this can also be accomplished in other ways, e.g., as described in the prior art Other embodiments are not excluded.Figure 1 further shows that a bottom plate 15 is provided underneath the water space 21 in the area of the bottom end of the barrel 10, although not shown in Figure 1, it is clear that the jacket tube 12 surrounding the water space 21 is to efficiently recover heat. The structures of the heat recovery chimney 10, the barrel water space 21 and the flow channel 13 arranged in the water mode are better illustrated in Figures 2-10. 2 and 4, the upper end of the water space 21 is provided with a closed end piece 16. The end piece 16 is shaped so as to connect the chimney tube 11 to the jacket tube 12 in a flexible manner, allowing thermal expansion of the chimney tube 11 the corresponding resilient end piece 16 is also arranged at the lower end of the water space 21 for closing the water space 21 and for the flexible connection of the flue pipe 11 and the jacket pipe 12. Further, Figures 3 and 6 show in more detail the pipe connections of the barrel 10. According to said figures, the inlet 17 is connected to the flow passage 13 and the outlet 18 to the jacket tube 12. The sensor connector 20 is also connected to the jacket tube 12 and, as shown in particular in Figure 6, it should be noted that the sleeve end that it should come into contact with the flue pipe 11. Referring to Figures 1 and 2, it is noted that the venting channel 19 engages the jacket tube 12 at the lower end of the barrel 10 and extends as a thin tube within the water channel 21 adjacent the flow channel 13 to the upper end of the water space 21.

As shown in Figure 10, the heat recovery barrel 10 further comprises support flanges 26 in the water space 21 which are suitably secured by welding to the chimney tube 11. The support flanges 26 do not extend completely around the chimney tube 11 since the flow passage 13 extends from the lower end to the upper barrel. The support flanges 26 are arranged at several planar intervals along the length of the barrel 10 and are interrupted by the flanges such that gaps 27 remain between the support flanges 26 and the flow channel 13 to allow water to circulate. The water circulation in Figure 10 is illustrated by arrows and, as said figure, water is led from the inlet 17 to the flow passage 13 through which it rises up from the gaps 27 between the support flanges 26 and the flow passage 13 and out of the water space 21. off-road 18 The support flanges 26 enhance the heat recovery from the flue gases by providing a downward swirling flow into the water space 21.

Thus, Figures 7 to 9 show an example of the implementation of the flow passage 13 and its adaptation to the water space 21 of the heat recovery chimney 10. According to this example, the flow passage 13 consists of two elongated substantially U-shaped pieces, i.e. the bottom cover part 24 facing the jacket tube 12 and the bottom part. In order to better shape the flow channel 13 into the shape of the companion jacket tube 12 and the chimney tube 11, both the cover portion 24 and the base portion 25 of the flow channel 13 are centered in longitudinal folds 28, 29 such that the cover portion 24 becomes convex and bottom portion 25 concave. Since the water space 21 is very small in the radial direction of the heat recovery barrel 10, the depth dimension, i.e. the dimension in the radial direction of the heat recovery barrel 10, is substantially smaller than the width dimension or the dimension in the circumferential direction of the heat recovery barrel. According to Figures 7-9, the inlet connection 17 is connected to the cover section 24 of the flow channel 13 by suitable welding.

The flow passage 13 is assembled from the cover portion 24 and the bottom portion 25 such that said U-shaped lid portion and the bottom portion are made as tight as possible and joined by hitting them together. The lower end22 of the flow passage 13 is closed and the upper end 23 is open. The flow passage 13 is fitted inside the jacket tube 12 by first welding the inlet 17 into the cover portion 24, connecting the cover portion 24 and the bottom portion 25, threading the flow passage 13 into the jacket tube 12 so that the inlet 17 goes into the bore 17 formed in the jacket tube 12.

11, the heat recovery barrel 10 according to the invention is suitable for use with a prior art ingot chimney. Normally, a ingot ingot is assembled by masonry ingot 30 having a vertically penetrating hole 31 into which a gutter tube is inserted, each consisting of, for example, a steel tube and / or a ceramic tube with an insulator on the member. When the heat recovery chimney 10 according to the invention, due to its structure, achieves a smooth exterior surface and is suitable for a normal chimney ingot 30, the invention brings with it the possibility to use the heat recovery chimney 10 in connection with the ingot chimney. The heat recovery chimney 10 according to the invention thus functions as an insert for ingot or chimney 30. This is simply accomplished by making the chimney blocks30 normally made by masonry in a hole 31 in which a heat recovery barrel 10 according to the invention is fitted, on which a heat insulating layer 32 is mounted. It is also contemplated that a barrel 10 according to the invention the chimney blocks 30 are threaded over, which are then laid in place.

The invention has been described above by way of example with reference to the figures in the accompanying drawing. However, the invention is not limited to the examples shown in the figures, but various embodiments of the invention may vary within the scope of the inventive idea defined in the appended claims.

Claims (7)

A heat extraction chimney, comprising a flue pipe (11) to be connected to a fireplace and a casing tube (12) arranged around the flue pipe so that the flue pipe (11) and the casing tube (12) delimit a ring-shaped water chamber (21) at each end with end pieces (16) parallel to the length of the heat recovery chimney (10) to form a closed space, in which water space (21) circulates heat accumulating liquid which absorbs heat generated by flue gas directly from the flue pipe (11), whereby the heat is arranged use from the liquid, whereby a flow channel (13) extending substantially from the lower end of the water space (21) to its upper end, and to the one end of which has been connected to the upper end, is arranged inside the water compartment (21) of the heat recovery chimney (10). entrance tubes (17) for introducing liquid to be circulated in the ice flow channel (13) and the liquid to be circulated via the opposite of the flow channel (13) open end (23) flows out into the water compartment (21), from which it is used with an exit pipe (18) liquid connected to the casing pipe (12) parallel to the length of the heat recovery chimney (10) at the same end of the water compartment (21). 17), characterized in that the water compartment (21) is provided with a single air duct (19) which is connected to the casing pipe (12) at the same end of the heat recovery chimney (10) as the entrance pipe (17) and the outlet pipe (18). for liquid to be circulated, from which the aeration duct (19) forms in the form of a thin tube or corresponding duct inside the water compartment (21) adjacent the flow duct (13) to the opposite end of the water compartment (21). 2. The heat recovery chimney according to claim 1, characterized in that all of the heat recovery chimney (10) are arranged at the same end of the heat recovery chimney (10). 3. The heat recovery chimney according to any of the preceding patent claims, characterized in that the depth of the flow channel (13), ie. the radial dimension of the heat recovery chimney (10) is substantially smaller than the width of the flow channel (13), ie. the peripheral dimension of the heat recovery chimney (10). 4. The heat recovery chimney according to any of the preceding patent claims, characterized in that in the water recovery chimney (10) of the heat recovery chimney (10), in parallel with the length of the heat recovery chimney (10), the arrangement support flanges (26) are arranged substantially in heat ) transverse direction mainly rotates around the flue tube (11). 5. The heat recovery chimney according to claim 4, characterized in that the support flanges (26) are truncated flanges, so that slots (27) frusto-cut between the support flanges (26) and slots (27) open to allow water circulation in the water space (21). 6. The heat recovery chimney according to any of the preceding patent claims, characterized in that the heat recovery chimney (10) is provided in an arrangement known per se with an insulation arranged on the casing tube (12). 7. The heat recovery chimney according to any of the preceding patent claims, characterized in that the heat recovery chimney (10) thus functions as an insert in a single-block smoke duct, ie. a flue duct formed by flue duct block (30).