DE3002096A1 - Heating equipment utilising environmental energy - comprises heat-exchanger with vertical corrugated pipes roughened internally, fitted between manifolds - Google Patents

Abstract

The equipment utilises energy from the environment for heating purposes, having a heat pump whose cold-side heat- exchanger is exposed to the atmosphere. The heat-exchanger comprises a large number of vertical corrugated pipes (7) in rows one behind the other, connected between horizontal outlet (2) and inlet (1) manifolds at top and bottom respectively. The pipes are roughened on the inside, typically by sand-blasting, or embossing. The exchanger can be built up from easily assembled grilles, each comprising two rows of vertical tubes and two each inlet and outlet manifolds, joined together at the ends.

Description

300209

Cable and metal works Gutehoffnungshütte Aktiengesellschaft

1-1730 18.01.00

Device for the use of ambient energy for heating purposes

The invention relates to a device for using ambient energy for heating purposes, consisting of a heat pump system, whose cold-side heat exchanger is exposed to the atmosphere.

Due to the increasing shortage and price increase in primary energy such as crude oil, coal, natural gas, etc., the utilization of low-temperature heat such as waste heat, gains heat the ambient air and the globar radiation Meaning.

It has therefore already been suggested that so-called To integrate solar collectors and the energy obtained from solar radiation, for example for Water heating and also usable for heating do. However, such solar collectors are not particularly suitable for the heating application, since in particular in Central Europe the number of sunny days is not sufficient to absorb the required energy.

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In addition, relatively large memories are necessary are heated up during the solar periods and are deprived of heat when the sky is overcast and at night.

A much more advantageous solution is to design the roof of the building to be heated as a heat exchanger, for example in the form of copper sheets in which pipe channels are integrated through which a heat transfer medium flows. Since the heat transfer medium - normally this is a brine - has a temperature below the ambient temperature, condensation can form, which necessitates an expensive substructure for the roof. Such systems, which work with a heat pump, allow the building to be heated at outside temperatures of up to -2 C. At lower temperatures, you should work with a buffer or bivalent, ie work with an additional heater. Nevertheless, such heating systems are suitable for reducing the consumption of primary energy by up to 70 % compared to conventional oil or gas heating systems.

The present invention is based on the object of specifying a device for heating buildings, which can be produced much more economically and without major economic and technical effort enables direct evaporation of the refrigerant in the heat pump system. In addition, the plant is intended to dem easily adaptable to different heat requirements of different sized buildings. This task is performed with a device of the type mentioned in that the heat exchanger consists of a plurality of essentially vertical extending corrugated pipes, which are arranged in rows one behind the other, that the corrugated pipes each Row at the lower end to a substantially horizontal feed line and at the upper end to an im

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essentially horizontally extending manifold are connected, and that the corrugated pipes on their inner Surface are roughened. The inner surface of the corrugated pipes is sandblasted with particular advantage. One Another possibility of creating a roughening of the inner surface is that the inner surface of the Corrugated pipe is roughened by embossing. Both the embossing and the sandblasting intensify the evaporation of the Refrigerant, as the heat transfer is improved. the In addition to the relatively large surface area per unit of length, the use of corrugated pipes also has the advantage that Changes in length due to different temperatures in the individual pipe registers due to the corrugation itself be compensated. The arrangement of horizontally running supply and collecting lines, which are carried out by a multitude of of corrugated pipes are interconnected, ensures that each corrugated pipe of approximately the same Amount of refrigerant per unit of time flows through if care is taken that the refrigerant which is expediently fed into the corrugated pipes at the lower end, at the opposite end of the collecting lines is discharged. The adaptation to different heat requirements is expediently done in that the heat exchanger is made up of easy-to-assemble registers, each of which consists of two vertical rows Corrugated pipes, as well as two connected at one end Supply lines and two collecting lines also connected at the ends and that of each connecting piece a branch goes off. The free closed ends of the collecting lines are expediently in one Perforated rail supported. The same applies to the free closed ends of the supply lines. This is ensures in a simple manner that the distance between the individual rows of corrugated pipes is kept constant will. All branches of the collecting lines and the supply lines should each end in a pipe. To this Way is achieved that to connect the heat exchanger in

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Only two connections are required for the heat pump circuit. The distance between two adjacent corrugated pipes should be at least 15 cm plus the outer diameter of the corrugated pipe. This is necessary so at temperatures of, for example below 4 C if the corrugated pipes freeze up, they do not freeze together. To the geometric dimensions To restrict the heat exchanger, it is provided for this reason, the corrugated tubes of two adjacent Arrange rows offset to one another. The corrugated pipes made of copper tape are particularly advantageous Longitudinal seam welding and shafts made. The corrugated pipes produced in a continuous work process are first rolled up and then cut into predetermined lengths. It is useful for the corrugation to be interrupted at the points where the pipes pierced will. In this way, the corrugated pipes can be connected to the collecting or supply lines like sliding pipes. The collecting lines and supply lines and the connecting pieces are expediently considered to be seamless Drawn copper pipes are formed and the branches are corresponding tees. The seamlessly drawn copper pipes ensure the necessary stability of the heat exchanger. Because the branches are designed as T-pieces, these can be installed very easily.

The invention is shown schematically on the basis of the figure Embodiment explained in more detail.

The heat exchanger according to the teaching of the invention consists from a large number of supply lines 1 running horizontally and parallel to one another and in one at a higher level Level also horizontally and parallel to each other leading collecting lines 2. Feed lines 1 and Manifolds 2 are closed at one end and held in a perforated rail 3 and 4, respectively. The opposite The ends of two adjacent lines 1 or 2 are connected by connecting pieces 5, which carry a branch 6,

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tied together. Each supply line 1 is connected to the collecting line 2 located above it via a number of corrugated pipes connected in such a way that several rows of corrugated pipe arise in the direction of the rails 3 and 4 one behind the other. The heat exchanger is attached to the perforated rails 3 and 4 and the connecting pieces 5 on a frame, so that a self-supporting heat exchanger is created. The supply lines 1 and the collecting lines 2 are considered to be seamless Drawn copper pipes are formed, to which the branches 5 and the corrugated pipes 7 are connected in a technique known per se are. Two feed lines 1 and two each. Manifolds 2 with the corresponding connectors. 5 and branches 6 and the corrugated pipes 7 form a register, several of which exchange the heat »- form.

An adjustment to the heat demand of different sizes Building can thus be carried out in a simple manner.

The refrigerant of the heat pump system is first fed into the supply lines 1 via the branches 6 and flows from these into the corrugated tubes 7. In the area of the corrugated tubes 7, the refrigerant is evaporated and via the Manifolds 2 and branches 6 of the heat pump system are fed back. For the purpose of accelerating the absorption of heat and evaporation of the working medium are the corrugated pipes, which in themselves already ensure good turbulence in them flowing refrigerant due to their corrugation, roughened on their inner surface. The distance of the individual corrugated pipes 7 to each other should be at least 15 cm plus the outer diameter of the corrugated pipes 7 to a Avoid freezing together of the corrugated pipes due to ice formation. For this reason and to make it as compact as possible To achieve the construction, the corrugated pipes 7 of two adjacent rows of corrugated pipes are in a manner not shown arranged offset to one another.

The entire heat exchanger is in a trough 8, at the lower end of which one or more probes 9 are arranged,

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which detect the escaping refrigerant in the event of a leak and give the alarm.

The supply lines 1 can be shaped upwards so that the other components of the heat pump system under the formations can be stored in a protected manner. The heat exchanger and the other parts of the heat pump can be connected to be placed in a suitable location outside the building, for example in the garden or in the house. There all branches 6 both the supply lines 1 and the collecting lines 2 open into a common pipe are in each If necessary, the installer has to make two connections, as the entire unit is prefabricated at the factory. The installer only needs to connect the heat exchanger of the heat pump system and in the case of an electrically operated one Make the electrical connection to the heat pump.

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Claims (10)

Cable and metal works Gutehoffnungshütte Aktiengesellschaft 1-1730 01/18/80 Claims Device "from a heat pump system, the cold-side heat exchanger is to use 'ambient energy for heating purposes consisting exposed to the atmosphere, characterized in _p that the heat exchanger consists of a plurality of substantially vertically extending conduits (7) which are arranged in rows one behind the other, that the corrugated pipes (7) of each row are connected at the lower end to a substantially horizontally extending supply line (1) and at the upper end to a substantially horizontally extending collecting line (2) and that the inner surface of the corrugated pipes (7) is roughened. 2. Apparatus according to claim 1, characterized in that the inner surface of the corrugated pipes (7) is sandblasted. 3. Apparatus according to claim 1, characterized in that the inner surface of the corrugated pipes (7) is roughened by embossing. 130030/063 4. Apparatus according to claim 1 or one of the following, characterized in that .the heat exchanger is constructed from easily removable registers, each of which consists of two rows of vertically extending corrugated tubes (7) and two connected at one end Feed lines (1) and zxvei also connected at the ends There are collecting lines (2) and that a branch (6) branches off from each connection piece (5), 5. Apparatus according to claim 1 or one of the following, characterized in that the free closed ends of the supply and collecting lines (1,2) are each held in a perforated rail (3,4). 6. Apparatus according to claim 1 or one of the following, characterized in that all branches (6) open into a pipe. 7. Apparatus according to claim 1 or one of the following, characterized in that the distance between two adjacent corrugated pipes (7) is at least 15 cm plus the outer diameter of the corrugated pipe. 8. Apparatus according to claim 1 or one of the following, characterized in that the corrugated tubes (7) of two adjacent rows are arranged offset from one another. 9. Apparatus according to claim 1 or one of the following, characterized in that the corrugated tubes (7) are made of copper tape by longitudinal seam welding and waves. 10. The device according to claim 1 or one of the following, characterized in that the supply and collecting lines (1,2) and the connecting pieces (5) are designed as seamlessly drawn copper pipes and the branches (6) are corresponding T-pieces. 130030/0635