NL1004469C2 - Heating device. - Google Patents

Description

Heating device

The present invention relates to a device for heating fluid in a heating system, such as a central heating, comprising at least one heating device, comprising: 5 - a transfer medium-filled vessel with an input connection and an output connection and in the interior thereof an electric heating element and a heat accumulator; - a feed-through pipe functioning as a heat exchanger, which is immersed in the transfer medium and is connected to the input and the output connection; and - pumping means which are connected to the feed-through conduit to push the fluid therethrough.

Such a device is known from French patent application 2,707,738, in which a container for saline is arranged as a separate heat accumulator.

A drawback of such a known device is that the container with the salt solution does not constitute an effective way of buffering heat in the device. Furthermore, damage or at least damage to the container can take place by the salt solution, whereby the container, especially when it is made of metal, can corrode or oxidize. When this container breaks down and the saline enters the oil, its heat characteristics are adversely affected, whereby heat transfer deteriorates. Insofar as the effectiveness of the known device is therefore sufficient in practice, it is deteriorated in particular in the case of breakdown of the salt solution to the oil.

1004469 2

The object of the invention is to remedy or at least reduce the above-mentioned drawback, and for this purpose a device is provided which is distinguished in that in particular mass and heat characteristics of the transfer medium, heat exchange surface of the heating element, heating surface of the lead-through pipe, power of the heating element and contents of the lead-through pipe are taken such that the transfer medium forms the heat accumulator in the vessel. In an apparatus according to the present invention, the transfer medium, eg the oil, in addition to heat transfer for direct heating of the fluid, also serves for buffering heat, which is transferred to the fluid, when the heating element is inactivated . This has been accomplished in accordance with the present invention without using an additional container containing a potentially harmful solution for the device as an accumulator. In addition, according to the invention, a device 20 is provided, with which a considerably higher efficiency is possible than with the known technique, in that heating of the fluid takes place directly from the transfer medium, when the heating element is inactivated and not, as in the known technique, 25 indirectly from the accumulator via the transfer medium.

In a first embodiment, a device according to the present invention comprises the measure that the heating element is electric and is connected via switching means to an electric power source for switching the heating element on and off.

When use is made here of an electric heating element in the above-described composition with the vessel, the heat transfer medium and the transfer pipe, which is immersed in the heat transfer medium, no gas supply pipes, flue gas discharge or chimney need be provided for a device in for instance a central heating system 1004469 3 system, so that installation costs are low and there is a great deal of freedom in the choice of the place where one wishes to install the device, whereby only one contact for supply of electric power 5 is required. A device according to the present invention is also relatively inexpensive to purchase, and is simple and quick to install.

The device can function as a heat exchanger for a room in which it is placed, and as a heat source for the heat exchangers in other rooms, so that no C.V. pipes are required for connection to a separate boiler or the like. Therefore, at least one heat exchanger and a considerable length of pipes and fluid are saved. Furthermore, there is no risk of fire or explosion and the device generates virtually no noise.

Furthermore, the device according to the present invention is environmentally friendly, because no CO compounds are emitted. Also, regular maintenance does not need to take place, and the device is durable, for example, it can function continuously for twenty years, with only a very small chance of malfunctions.

Preferably, in the first embodiment, the switching means are connected to heat sensors in the heat transfer medium to switch in response to a temperature signal therefrom, such that the electric heating element is in operation only if it is based on the temperature of the heat transfer medium below a predetermined threshold value 30 proves necessary.

Preferably in the first embodiment, the vessel has an axial longitudinal direction, such as a cylindrical vessel, wherein the inlet connection and the outlet connection are arranged at least near one of the axial ends of the vessel, and the heating element through the other of the axial ends from the vessel and extends in the longitudinal direction of the vessel.

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This achieves an optimally compact configuration of a device according to the invention.

The electric heating element preferably has a power in the order of magnitude of 1 to 1.5 kWh. here a sufficient power is supplied by the heating element to bring the fluid to a temperature of, for example, 55 ° C, which is sufficient for a more than adequate heating of rooms where a heat exchanger connected to the device is arranged. At such relatively low temperatures, for example 55 ° C, no specific safety measures need be taken such as those prescribed (by law) for boilers in which temperatures are reached near or higher than at least 100 ° C.

In a second embodiment, a device according to the present invention comprises the measure that the feed-through pipe is wound around the heating element at a predetermined distance. The heat transfer characteristic between the heating element and the lead-through line is optimal here. Preferably, in a vessel with an axial longitudinal direction, the heating element is located substantially parallel to the longitudinal direction of the vessel, the feed line being wound helically around the heating element, so that a swirl of the transfer medium around the heating element and the feed line is created in operation of the heating element.

The second embodiment preferably comprises the measure that the vessel has a length of 510 mm and an inner dimension of 146 mm, the feed-through pipe having a diameter of 22 mm and being completely wrapped around the heating element 19 times. In this dimensioning, among other things, the relationships between surfaces 35 of the heating element and the conduit for effective heat transfer are such that this transfer and therefore the efficiency are optimal.

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In a third embodiment, a device according to the present invention is such that the heat transfer medium comprises an oil, an oil exhibiting substantially no expansion at rising temperatures. This makes it possible to use a vessel without special reinforcements in a wide range of temperatures to counteract the effects of expansion under the influence of a higher temperature. This has already been substantially avoided because the temperature of the fluid can remain relatively low, in the order of magnitude of 55 ° C, whereby the temperature of the medium in the vessel in normal operation of the device can always remain below 95 ° C. Preferably, the device in the third embodiment has the measure that the oil is a synthetic oil, such as an oil traded by the company "Texaco" under the brand name "Texatherm HT", whose heat transfer characteristics are such that the oil has a given temperature for a long time and also heats the fluid flowing through the lead-through conduit effectively and effectively.

Even if all components present in a device according to the present invention fail, which indirectly or directly contribute to controlling the temperatures of the fluid and medium in the vessel, the oil or medium will never exceed a temperature of 110 ° C to achieve. This may include failure of the switching means, the pump, the heat sensors, etc., and then only with simultaneous failure of the said components, which event will be impossible to prevent in practice.

The present invention further relates to a heating system which includes at least one heating device as described above.

The invention will be explained in more detail below with reference to an exemplary embodiment thereof.

In the drawing: 1004469 6 Fig. 1 shows a partly cut-away perspective view of a heating device according to the present invention; FIG. 2 is a perspective view of exploded parts of a component of the heating apparatus shown in FIG. 1; FIG. 3 is a sectional view of the component shown in FIG. 2 in assembled condition; and fig. 4 shows a perspective view corresponding with fig. 3.

The device 1 shown in Fig. 1 comprises three heating devices designed as vessels 3, of which input terminals 5 and output terminals 4 of the superposed vessels 3 are connected in series with one another, a pump 6 between the inlet connection 5 of the inlet the figure bottom vessel 3 and a pipe 7 from heat exchangers, not shown, such as radiators, are connected. The outlet connection 5 of the upper vessel 3 shown in the figure is connected to a conduit 8 running to the heat exchangers.

To assemble the vessels 3 there is provided a housing 2, which is shown here in disassembled condition. In operation, as a result of the heat released to the environment in this way, the vessels in themselves form radiators, so that separate heat exchangers are not required in the space where the device 1 is placed.

One of the vessels 3 will be described in more detail below with reference to Figures 2 to 4.

The vessel 3 is cylindrical and encloses an electric heating element 9 and a conduit 10 wrapped in a spiral around the heating element 9, which conductor is connected to the input connection 4 and the output connection 5. The vessel 3 is further closed and filled with a heat transfer medium shaped as oil 11. This oil is synthetic, such as that which is marketed by a "Texaco" company under the brand name "Texatherm HT". The heat characteristics of this or such an oil are such that it retains an amount of heat once supplied for a long time and can be heated very quickly. The vessel 3 is filled with the oil to a lower level than full filling, here 95%.

Heat sensor 12 is arranged in the oil 11 as part of the electric heating element 9 to determine the temperature of the oil 11. The measuring signal from this is sent to switching means not shown, which are placed between the electric heating element 9 and the power supply, in order to selectively activate or deactivate the electric heating element on the basis thereof.

The heating element is turned on and off to effect a substantially constant temperature of the transfer medium designed as oil 11, for example within tolerance limits 0% -minus 8%. To obtain a temperature of the fluid, which passes through the feed-through line 10, of approximately 55 ° C, a temperature of 85 to 90 ° C of the medium, the oil, is sufficient. Even in the case of a temperate climate, such as prevails in Western Europe, this allows an exceptional case of an outside temperature of -10 ° C and strong wind, such as force 6, to reach a comfortable temperature of, for example, approximately 21 ° C. living spaces are created when a device according to the present invention is used as a "boiler" in a central heating installation.

The vessel 3, the lead-through pipe 10 and the coil 30 have the following dimensions: the vessel has a length of 510 mm and an inner diameter of 150 mm, the lead-through pipe has a diameter of 22 mm and is completely wrapped around the heating element, the heating element of which a heating part inserted into the vessel has a length of approximately 460 mm.

Naturally, other dimensions and relationships between them are also possible. However, in the dimensions described above, it has been found that the ratios between the heat transfer surfaces, such as the heat transfer surface of the heating element and the heat absorbing surface 5 of the feed-through pipe in connection with the volume in the vessel, are such that optimum efficiency has been achieved.

In addition to what has already been shown and described here, a device according to the present invention is also suitable for applications other than just a C.V. installation. For example, a single vessel device can be used for underfloor heating, such a single vessel already generating sufficient heat for such underfloor heating.

Furthermore, the three-barrel apparatus described above provides sufficient heat for an average single-family home. For a larger than average house or a poorly or non-insulated house, a device according to the present invention can be provided with more than three vessels to supply one with a desired temperature.

The invention is also not limited to space heating systems, but can also be used for hot water supply or such an alternative application, such as liquid heating for oil. As an alternative to the above-described embodiment, it is also possible to use a different heat transfer medium of the oil "Texatherm HT", which is marketed by the company Texaco, such as water, coolant, antifreeze and the like. . Furthermore, in the foregoing description of a device according to the present invention, in connection with the drawing, only series connection of the vessels has been mentioned, it being noted that parallel connection is also possible, which all the more indicates that in the context of the invention alternatives possible, which have not been discussed here, but which will become known to a person skilled in the art after having been informed of what has been described.

1004469

Claims (15)

1. Device for heating fluid in a heating system, such as a central heating, comprising at least one heating device, with: - a vessel filled with transfer medium with an input connection and an output connection, and in the interior thereof an electric heating element and a 10 heat accumulator; - a feed-through pipe functioning as a heat exchanger, which is immersed in the transfer medium and is connected to the input and the output connection; and - pumping means connected to the feed line to push the fluid therethrough, characterized in that in particular mass and heat characteristics of the transfer medium, heat exchange surface of the heating element, heating surface of the feed line, power of the heating element and contents of the feed-through pipe are taken such that the transfer medium forms the heat accumulator in the vessel. 2. Device according to claim 1, characterized in that the vessel has a length of 510 mm and an inner diameter of 150 mm, the feed-through pipe having an outer diameter and an inner diameter of resp. 22 mm and 19.6 mm and completely wrapped around the heating element 19 times. 3. Device as claimed in claim 1 or 2, characterized in that the heating element is connected via switching means to an electric power source for selectively activating and deactivating the heating element and the device further comprises adjusting means, with which a desired, with a degree of of heating 35 can be set corresponding temperature of the transfer medium. Device as claimed in claim 3, characterized in that the switching means are arranged to activate the heating element at a cooling of approximately eight percent of a set temperature, the switching means being connected to a heat sensor in the heat transfer medium . Device according to any one of the preceding claims, characterized in that the vessel has an axial longitudinal direction, such as a cylindrical vessel, wherein the inlet connection and the outlet connection are arranged at least near one of the axial ends of the vessel, and the heating element is inserted through the other of the axial ends of the vessel and extends in the longitudinal direction of the vessel. 6. Device according to any one of the preceding claims, characterized in that the electric heating element has a power in the order of 1.5 kWh. 7. Device as claimed in any of the foregoing claims, characterized in that the feed-through line is wound around the heating element at a predetermined distance. 8. Device as claimed in claims 5 and 7, characterized in that the heating element is situated substantially parallel to the longitudinal direction of the vessel, the feed-through pipe being arranged helically around the heating element. Device according to any of the preceding claims, characterized in that the heat transfer medium comprises an oil. 10. Device according to claim 9, characterized in that the oil is a synthetic oil. Device according to claim 10, characterized in that the synthetic oil is an oil marketed by the company "Texaco" under the trade name "Texatherm HT". Heating system, comprising pipes, and at least one heat exchanger, such as a radiator, and a heating device according to any of the preceding claims. 1004469 13. heating system according to claim 12, characterized by at least two heating devices. Heating system according to claim 13, characterized in that the heating devices are connected in series. Heating system according to claim 14, characterized in that the heating devices are arranged in a common housing. Heating system according to claim 15, 10, characterized in that the housing itself functions as a heat exchanger. ^ 4 4 69