DE7518268U - Heat exchanger to be laid in the ground - Google Patents

Description

Diving. E. BERKtNTELD · DIpI.-Ing. H. SERKENFELD, patent attorneys, Cologne

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The invention relates to a heat exchanger to be laid in the ground for the equipment of a heat pump heating system.

The primary energies commonly used to heat houses like coal, oil and natural gas are becoming more expensive and scarce. There are also ever higher demands on your combustion. Crazy In the present context, it is sufficient to describe these requirements with the keyword environmental protection.

Looking for new for heating houses applicable cheap and environmentally friendly energies are one on the natural Geothermal energy. This can be used with the physically well-known principle of the heat pump for a long time Use house heating. With such a heat pump, the geothermal energy is raised to a higher level by bringing in mechanical energy Brought temperature level. Put simply, it is about the refrigeration machine process known from ice cabinets, which is now is traversed in the other direction. In this cycle, which now runs counter-clockwise, the condenser of the heat pump, in which is a vaporous operating medium with the release of the largest Part of the heat contained in it is liquefied, designed as a heat exchanger. He gives the fetched from the resource Heat energy to the heat transfer medium of the heating system.

An essential component of a heat pump heating system, which forms the subject of the present invention, is the heat exchanger to be laid in the ground. This is flowed through by the equipment uno so ¹ ! Bring this into contact with the earth as long as possible. It absorbs heat from this.

J In previous attempts at the practical realization of a

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Heat pump heating has been laid in the ground as a heat exchanger, pipes or hoses, if necessary in back and forth loops. According to a rule of thumb, to heat 1 square meter of floor space you have to cover about 3 - 4 square meters of ground. Because the soil temperature increases with increasing depth, the heat exchanger should be laid as deep as possible. Among other things, the heat exchanger is laid in the pit dug for the house foundation. This pit, the area of which is slightly larger than the floor area of the house, is by no means three to four times larger than the floor area. So you had to use the garden or courtyard next to the house for covering with the pipes or hoses. This drives the investment costs to intolerable heights. Even with low operating costs, they can hardly be removed.

Proceeding from this, the task of the present invention is to develop a heat exchanger with a high use of space. Land use is the relationship between the contact path between the ground and the equipment on the one hand and Understand the excavated floor area on the other hand. According to the invention, a construction has proven to be the solution to this problem highlighted, which is characterized by two rectangular, one on top of the other and at their longitudinal and transverse edges, welded plastic films, an operating fluid inlet at one and an operating fluid outlet at the other longitudinal end: jnd parallel to the transverse edges with mutual spacing welds running from longitudinal edge to longitudinal edge between the two foils, which alternate on one or the other Start the longitudinal edge and just before the respective opposing leg End longitudinal edge. This results in a meandering flow path for the equipment. The length of this flow path is roughly equal to the width of a film multiplied by the number of washings. This length exceeds the distance by an essential part of the occupation of the same floor area with pipes or hoses, even when laying back and forth in loop form, is achievable. The heat exchanger according to the invention thus brings about such a high use of space that the

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Occupying the floor area of the foundation alone is sufficient for many applications.

In an expedient embodiment, the welds end in a distance corresponding to their mutual distance the respective opposite longitudinal edge. So that gets through the flow channel formed by the welds also has the same cross section at the reversal points. This avoids unnecessary flow losses.

Instead of the explained embodiment with the operating fluid inlet at one and the operating fluid outlet at the other longitudinal end and welds running parallel to the transverse edges, other embodiments are also possible in which the decisive factor lies in the elongation of the flow path. With such a Embodiment, the operating fluid inlet and the operating fluid outlet are arranged at the same longitudinal end on the two longitudinal edges. The welds now run parallel to the longitudinal edges from transverse edge to transverse edge. They each start on one and end just before the opposite longitudinal edge.

As an illustrative, and not a limitation, one A numerical example is that the foils have a length of 10 and a width of 2 m. The welds are about 3 cm apart. The pressure of the equipment is around 1 atü. This means that the heat exchanger gets off despite its structure elastic foils have a high degree of rigidity. This is so high that it can be laid under the foundation in the excavation pit without endangering the foundation.

Using the example of the embodiment shown in the drawing the invention will now be further described. In the drawing is:

Figure 1: a simplified plan view of an embodiment of the Heat exchanger,

FIG. 2: on an enlarged scale, a section along the line in FIG

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-4-Figure 1 drawn cutting line and

Figure 3; a simplified supervision of a second version of the year.

The heat exchanger consists of the lower foil 12 and the upper film 14. These are welded to one another at their two longitudinal edges 16 and 18 and their two transverse edges 20 and 22 The wedges 24 run at a mutual distance the embodiment shown in Figure 1 across the Folitn. Finally, the operating medium inlet 26 and the operating medium outlet 28 also belong to the heat exchanger.

This heat exchanger is in any or better in an economically achievable depth in the ground and in particular in the excavation, laid above the operating fluid inlet 26 and the operating fluid outlet 28, it is transferred to the primary circuit connected to the heat pump heating. In operation, he is through the operating medium flowing through it with pressure inflated to its shape shown in FIG. With that he also achieves one for high static requirements, sufficient rigidity.

In the embodiment shown in FIG. 3, the operating fluid inlet 26 and the operating fluid outlet 28 are arranged on the same transverse edge 20. The welds 24 now run parallel to the longitudinal edges 16 and 18. The flow path is stretched again. The arrows indicate it.

EXPECTATIONS

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Claims (4)

D -.- lng. E. BERKENFELD · Dipl.-Ing. H. SiRKENFELD, patent attorneys, Cologne Attachment file number flrtUS FeiSt, BenSberg- zurEingabevom ς .Ιιιητ 1 Q 7 R mi / Name d. Note F 41/61 CLAIMS 1. Heat exchanger to be laid in the ground for the equipment of a heat pump heating system, characterized by two rectangular, superimposed and at their longitudinal and Transverse edges (16, 18; 20, 22) welded to one another plastic films (12, 14), an operating fluid inlet (26) on one and an operating fluid outlet (28) at the other longitudinal end, and parallel to the transverse edges (20, 22) with mutual spacing from longitudinal edge to longitudinal edge (16,18) extending welds (24) between the two foils (12,14), which alternate on the begin one or the other longitudinal edge and end just before the respective opposite longitudinal edge. 2. Heat exchanger according to claim 1, characterized in that the welds (24) end at a distance corresponding to their mutual spacing from the longitudinal edges (16, 18). 3. Heat exchanger to be laid in the ground for the equipment of a heat pump heating system, characterized by two rectangular, one on top of the other and at their longitudinal and Transverse edges (16,18; 20,22) welded to one another plastic films (12,14), an operating fluid inlet (26) on one and an operating medium outlet (28) on the other side of one Longitudinal end and parallel to the longitudinal edges (16,18) at a mutual distance from transverse edge to transverse edge (20,22) Welds (24) between the two foils (12, 14), which alternately begin at one or the other transverse edge and are short end in front of the respective opposite transverse edge. 4. Heat exchanger according to claim 2, characterized in that the weldments (24) at a distance from one another end corresponding distance from the transverse edges (20,22). 7518268 25.09.7E