NL8002866A - HEATING DEVICE. - Google Patents

Description

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Heating device.

The invention relates to a heating device. Many heating devices are already known. In most, if not all, fuel is burned and the heat generated thereby is utilized. A problem here is always to achieve the greatest possible use of the heat generated and to avoid that much heat is lost, for instance because that heat is removed via the chimney with the combustion or flue gases.

The object of the invention is to provide a device in which as much of the heat generated as possible can be collected, stored and used for desired purposes. This object is achieved with a device comprising a furnace section in which a fire can be lit and a heat storage section located adjacent to the furnace section, through which heat storage section extends relatively long pipes for flue gases between the furnace section and an above or next to the heat storage section chimney, while further means are provided for dissipating heat stored in the heat storage portion.

According to the invention, by arranging a heat storage section directly adjacent to an oven section and by discharging the flue gases from the furnace section through relatively long pipes passing through the heat storage section, as much heat as possible is extracted from those flue gases in the heat storage section. stored, from which that heat can be removed again for further use. The efficiency of a device thus constructed is very high. The position of the heat storage part relative to the oven part does not matter in principle. However, for efficient flue gas removal, the heat storage portion may be suitably disposed above the furnace portion.

In a suitable embodiment of the device according to the invention the flue gas pipes consist of a large number of pipes with a small inner diameter which are connected at one end to or in a pipe plate which forms the partition between the oven part and the heat storage part, while the pipes at the other ends are attached in or to a pipe sheet which defines the chimney from the remaining part of the device.

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The pipes are preferably surrounded by a material with good heat storage properties, while the whole of pipes and heat storage material is surrounded by walls of sheet material. Sand can serve as a material with good heat storage properties. Other materials, such as certain salts, can also be used.

In a particular embodiment of the device according to the invention, the means for discharging heat stored in the heat storage section comprise a number of pipes which pass through the heat storage section between a first space in which a heat transport medium can be supplied and a second space from which. the heat transport medium after passing through the pipes can be removed. The heat transport medium. can be any suitable medium. In many cases air can be used. Liquid salts can also be thought of for removing the heat from the storage area.

15; Preferably, the first and second spaces are situated between two spaced apart tube plates, the first tube sheet forms the partition between the heat storage section | and the spaces and the second tube sheet form the partition between the; spaces and the chimney, and the spaces are separated from each other by a wall extending from the first tube sheet to the second tube sheet, while the pipes for the dissipation of the stored heat have a U-shape and with both ends in or on the first pipe sheet are attached with one end communicating with the first space and with the other end communicating with the second space, 22 while the flue pipes pass through the first pipe sheet and through either space and are secured in or on the second pipe sheet , thereby communicating with the chimney.

However, a construction other than this preferred embodiment is also possible, for instance a construction in which two collection chambers are located on either side of the heat storage section, wherein these collection chambers are connected to each other by means of pipes running transversely through the heat storage section.

When the embodiment with CJ-shaped pipes is used, they can run entirely in the heat storage section and are surrounded by the heat storage material. Advantageously, however, the U-shaped pipes can also be passed through the tube sheet separating the oven section from the heat storage section, such that the base of the U passes through the oven section. In that case, a heat transfer medium passing through the ü-shaped pipes in the base portion of the ü will be able to directly absorb heat from the fire in the oven portion.

The flue gas pipes in the device according to the invention preferably have an inner diameter of the order of 20-35 mm, while the number of pipes is of the order of 40-60 per square meter of a flat cross section through the temperature storage section perpendicular to the axis of the pipes. The heat dissipation pipes preferably also have an inner diameter of the order of 20-35 mm and the number of such pipes is preferably of the order of 10-20 per square meter of a flat cross section through the heat storage section perpendicular to the axis of the legs of the ü-shaped pipes.

It will be clear that instead of substantially straight pipes or U-shaped pipes for the removal and the heat, pipes which otherwise run can also be used, for instance pipes running in a spiral through the heat storage part. However, such pipes are not preferred because they have a greater resistance to a transport medium to be passed through them.

The device according to the invention can be built into a house or other building, but can also be arranged separately therein. The device is particularly suitable for heating larger objects, such as department stores on horticultural plants and the like. In connection with the description, the term, Magic part 'T noise should be seen. In particular, this should also be understood to include a space in which a fire is not directly maintained, but in which hot flue gases from, for example, an internal combustion engine are supplied.

The invention is elucidated with reference to the drawing, in which: figure 1 is a cross-sectional view through an embodiment of the device according to the invention, and figure 2 is a cross-sectional view through part of another embodiment according to the invention.

The embodiment of the device according to the invention shown in fig. 1 comprises an oven part 1, a heat storage part 2 arranged above the oven part 1 and a chimney part 3 arranged above the heat storage part 2. The whole device can be arranged in or built into a house or other building to be heated. It is of course also possible to arrange the device in a separate heating building and to transport the heat from the device via pipes to a building or installation to be heated, in which the heat is utilized.

The oven part 1 consists of an oven space 4 in which a fire 5 can be lit. Lighting the fire can be done in any suitable way. For example, a solid fuel such as wood, peat or coal can be used for the fire. It is also possible to arrange 4 gas or oil burners in the oven space for the maintenance of. a fire in it. The oven space 4 is surrounded by walls 5 in the usual manner for ovens 5. For instance of stone or concrete and provided with a floor 6 of similar material. The walls and floor can be attached to the. inside are lined with so-called flint. At the top side, the oven space 4 is bounded by a tube sheet 7, which separates the oven portion 1 from the heat storage portion 2. The tube sheet 7 consists, for example, of steel and has a thickness of, for example, 20 mm. The oven section may suitably be provided with means to prevent a natural draft from the outside through the oven space to and through the heat storage section when no fire is burning, since such natural draft is associated with cooling of the resulting heat 20 heat storage section, is undesirable. Said means can for instance consist of a metering valve in the oven door, which valve can be automatic or manually operated. When a fire burns in the oven section, the air supply is controlled via the metering valve, so that an optical combustion with the greatest possible heat production is achieved. When the fire is extinguished, the valve must be closed to avoid any draft.

The heat storage part 2 has walls 8, for instance of steel. A casing 9 of a heat-insulating material is arranged at some distance around the walls 8, such that an air space 10 exists between the walls 8 and the casing 9. The heat storage section 2 is closed at the top by a pipe plate 11, which forms the lower boundary of two spaces 12 and 13. The spaces 12 and 13 are bounded at the top by a pipe plate 14, while between the pipe plates 11 and 14 a wall 15 is arranged, which separates space 12 from space 13. The tube plates 11 and 14 and the wall 15 consist, for example, of steel with a thickness of approximately 4-5 mm.

The oven space 4 communicates with the collection chamber 16 of the chimney section 3 above the pipe sheet 14 by means of a large number of pipes 17. The pipes 17 are mounted at the lower end in or on the pipe sheet 7. For example, attached to the bottom 300 2 8 66 ^ · «* -5- are attached to pipe stubs fixed to or forming part of the pipe sheet 7. The pipes 17 are passed at the top through the tube plate 11 and open into the tube plate 14 or are attached thereto. As a result of this construction, flue gases from the oven space 4 can be discharged via pipes 5 to the collection chamber 16 of the chimney section 3 and from there via the chimney 18 to the outside.

f j The pipes 17 are chosen depending on the material! with which the oven section. 1 is fired. Copper pipes will suffice for most fuels. When gas is used as fuel, stainless steel pipes will be more suitable. The pipes have, for example, an inner diameter of 28 mm and a wall thickness of, for example, 2 mm. The number of pipes used is relatively large and is, for example, in a heat storage section 2, which is one. horizontal section of 0.7 x 1.5 m, 50 pieces.

Within the heat storage part 2, in addition to the pipes 17, there are also a number of U-shaped pipes 19. The U-shaped pipes 19 are fixed with or with their ends in or on. the pipe sheet 11, such that one end of each u-shaped pipe 19 communicates with the space 12 and the other end with the space 13. In this way, the spaces 12 and 13 are connected via the ü-shaped pipes 19 with connected together. The pipes 19, like the pipes 17, can be made of copper or stainless steel. The number of U-shaped pipes is preferably less than the number of pipes 17. With the above-mentioned dimensions of the heat storage section 2, the number of U-shaped pipes 19 is, for example, 14.

The heat storage part 2 is almost entirely filled with sand 20 or another medium with good heat storage properties, for example a suitable salt.

In operation, a fire 30 is fired in the oven space 4 of the oven section 1. The generated flue gases are discharged via the pipes 17 to the collection chamber 16 and from there to the outside via the chimney 18.

This is indicated by arrows in Figure 1. The initially hot flue gases give off their heat to the walls of the pipes 17 and this heat is transferred via those walls to the heat storage medium 20. By using a relatively high heat storage part 2, for instance a height of approximately 5 meters, almost all heat from the flue gases stored in the heat storage medium 20.

In an embodiment of the device according to the invention with the dimensions given above as an example and the numbers of oij-800 2 8 66 -6-pen mentioned, the wall 21 of the collection chamber 16 was still only hand-warm after very intensive firing for more than 4 hours to be. The heat storage medium 20, in this case sand, was found to have a temperature of several hundred degrees Celsius.

The utilization of the heat stored in the heat storage part 2 takes place as follows. A heat transport medium is passed from the space 12 via the U-shaped pipes 19 to the space 13 and from there it is discharged for further use. Suitably air can be used as a transport medium. The air can for instance be blown through the pipes 19 through a fan or pump arranged in a supply line or supply opening to the space 12. Suitable pipes can be connected to the space 13 for the discharge of the air heated in the pipes 19. The heated air can be used directly for heating purposes, for example in a hot air heating system.

It is also possible with the hot air to heat another medium, for instance water in a heat exchanger, and to use that other medium for heating purposes or otherwise. Of course, when a heat exchanger for transferring the absorbed heat is used, the heat transport medium can be circulated in a closed circuit: from the 2 room 12 via the pipes 19 to the room 13 and from there via suitable pipes and the heat exchanger contained therein to the room 12. The fan will be included in such a circuit in that case.

Figure 2 shows a section through a part of another embodiment of the device according to the invention. The parts corresponding to the parts shown in figure 1 are indicated with the same reference numerals. In the embodiment shown in Figure 2, the U-shaped pipes 19 are also passed through the pipe plate 7, so that the base of the U of the pipes 19 is located in the oven space 4. In this embodiment, the transport medium which is is passed through the pipes 19 directly heated by the fire in the oven space 4.

It will be clear that embodiments other than the embodiments shown in the figures are possible. Such other embodiments are understood to be included within the general inventive concept.

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Claims (9)

Heating device, characterized by a. oven section in which a fire can be lit and a heat storage section adjacent to the oven section, through which heat storage section the long flue pipes pass between the oven section and a chimney located above or adjacent to the heat storage section, while further means are provided for discharging heat stored in the heat storage area. 2. Heating device according to claim 1, characterized in that the flue pipes consist of a large number of pipes with a small inner diameter which are connected at one end to or in a pipe plate which forms the partition between the oven part and the heat storage part, while the pipes at the other end is attached in or to a pipe sheet that defines the chimney from the rest of the device. Heating device according to claim 2, characterized in that the pipes are surrounded by a material with good heat storage properties, while the whole of pipes and heat storage material is surrounded by walls of sheet material. Heating device according to claims 1-3, characterized in that the means for discharging heat stored in the heat storage section consist of a number of pipes passing through the heat storage section between a first space in which a heat transport medium can be supplied and a second space from which the heat transport medium can be discharged after passing through the pipes. 5. Heating device according to claim 4, characterized in that the first and second space are located between two spaced apart tube plates, the first tube plate forming the partition between the heat storage section and the spaces and the second tube plate forming the partition between the spaces and the chimney, and the spaces are separated by a wall extending from the first tube sheet to the second tube sheet, while the pipes for the dissipation of the stored heat are U-shaped and with both ends in or on the first tube sheet are fixed with an 800 2 8 66 -8 end communicating with the first space and with the other end communicating with the second space, while the flue pipes pass through the first pipe plate and through either space mounted in or on the second pipe plate, thereby communicating with the chimney. Heating device according to claim 5, characterized in that the U-shaped pipes run entirely in the heat storage section and are surrounded by the heat storage material. Heating device according to claim 5, characterized in that the 10 U-shaped pipes are passed through the tube sheet separating the oven section from the heat storage section, such that the base of the U passes through the oven section. 8. Heating device according to claims 2-7, characterized in that the flue gas pipes have an inner diameter of the order of 20-35 mm and the number of pipes is of the order of 40-60 per m of a flat section through the heat storage section perpendicular to the axis of the pipes. 9. Heating device according to claims 4-8, characterized in that the heat dissipation pipes have an inner diameter of the order of 20-35 mm and the number of pipes of the order of 10-20 per m of 20 is a flat cross section through the heat storage section perpendicular to the axis of the legs of the U-shaped pipes. 800 2 8 66