WO2015090252A1 - Multipurpose device for medium heating, especially water - Google Patents

Abstract

A multipurpose device for heating media, especially water, comprising a furnace (1) provided with an opening (12) for supplying a fuel and an opening (11) for collecting ash, wherein an accumulation tank (2) is placed above the furnace (1), the accumulation tank (2) having a bottom (21), a tube (22) and a cover (23) and the tank (2) being provided in the bottom part with an input opening (24) for supplying cold media, in particular domestic water or air, and in the upper part being provided with an output opening (25) for distribution of hot media, in particular a domestic water or air, wherein a smoke- flue (3) for output of the flue from the furnace (1) and heating of inner space of the accumulation tank (2) is placed inside of the accumulation tank (2), wherein the smoke-flue (3) passes through the accumulation tank (2), inside the accumulation tank (2) a tubular exchanger (4) is stored in proximity of the smoke- flue (3), the exchanger (4) further passes through a shell of the accumulation tank (2) and is ended at the bottom part of the accumulation tank (2) with an opening (41) for supplying cold media, in particular cold water for heating, and outside of the upper part of the accumulation tank (2) the exchanger (4) being ended with an opening (42) for output of hot media, in particular of hot water for heating.

Description

Title: Multipurpose device for heating media, especially water

Technical Field

This technical solution relates to a device for heating media, especially water, comprising a furnace, an accumulation container, a smoke-flue passing through, and a heat exchanger for connection to a heating system, said solution being used to heat media, in particular rinsing water for washing, and simultaneously to heat the water or other media intended for heating. The device has the advantage that it can be used even in places where there is no electricity or gas .

Background Art

Currently, a thermal energy generated by electric energy (through resistive coil), gas, biomass, solid fuel (e.g. coal) or liquid fuels is used for heating water. In the case of electricity using electrical resistance, a heat is created by combustion of the above commodities. The thermal energy thereby generated heats other medium, usually water, which then serves as a heat source for heating the system, most usually the radiator system, or heats water intended for washing and the like .

For venting the smoke flue are used the ducts, which are independent and separately mounted to containers with heated water. In the case of the so-called spa stove, the duct passes through the tank with water, but this method is only intended for heating water in a storage tank for the washing. By means of the aforesaid it is not possible to heat the heating medium in the system which serves as a source of heat for heating the room. Nor are they designed to transmit radiant heat into the room, they are only intended for the production of hot water in the storage tank. The current heating devices use the following methods of heating the heating media:

- Electrical energy, which generates heat through a resistive wire or heating coil of Kanthal wire. Such heat warms the water in the accumulation tank, in which the heating coil is incorporated;

- Gas that is combusted by a burner and heats the water in the accumulation tank or the flowing water.

- Coal and other solid fuels, or liquid fuels whose combustion heats water.

In all these cases mentioned above, the accumulation tanks for rinse water are primarily made of structural steel CSN: 11373 (W.Nr:1.0036) , or CSN: 11375 (W.Nr : 1.0038) or stainless steel CSN: 17240 (WN: .1.4301).

As regards incineration, which produces flue gases (combustion gas, coal or other solid fuels or liquid fuels, respectively) , these combustion products are discharged from the combustion chamber through the chimney flue, which is not part of accumulation tank for heated (rinse) water. In this case, the waste heat is not used for heating the rinsing water.

Coal and wood is used to heat water at the facility, which is often called a "spa heater". Spa heater only heats the water for rinsing, where the furnace under an accumulation tank heats the water in the accumulation tank, while the duct for venting the smoke flue passes through the accumulation tank, thereby also heating the water in the accumulation tank. This case, however, also differs from the device according to the proposed technical solutions in the following facts.

Furnace of spa heater is made of sheet metal that forms the shell, the shell being lined with fireclay bricks inside, or provided with fireclay lining or screed. Furnace shell is made of a material quality 11373 (W.Nr :1.0036) or CSN: 11375 (W.Nr: 1.0038) and fireclay material inside prevents burning through of the furnace . Spa heaters are used to heat water for washing. They are not designed for other purposes.

Disclosure of the Invention

The invention relates to a device for heating media, especially water, comprising a furnace constituting its base and directly connected to an accumulation container positioned above it, which accumulates heat from the furnace . The devices further comprises a heat exchanger for heating media, in particular water for the heating, and it further comprises an opening for cold medium, in particular water, for accumulation tank, and an outlet opening for heated fluid, especially water, from the storage container. For purposes of this invention, a medium is preferably water, but also another fluid or a gas, especially air. The accumulation tank may comprise further mounting holes which are used to install a thermometer, temperature sensors, and an opening for draining sludge from the tank. Any overpressure safety valves are located outside of accumulation tank and connected to the armatures. However, in another embodiment of the present invention the safety valve may be placed directly on the shell of the accumulation tank. Preferably the accumulation tank and/or the furnace is provided with thermal insulation on the outer walls.

The burning of wood, paper, biomass or coal in the furnace produces heat. This heat energy enters into accumulation tank positioned above the furnace and through the walls of accumulation tank heats the water inside which is introduced into the accumulation tank. Hot gases or flue gases generated during combustion are discharged from the furnace via smoke- flue passing through the accumulation tank. The flue gases have at the outlet from the furnace still very high temperature and by passing through a smoke- flue such thermal energy is transmitted to accumulation tank and heats the water, or another fluid. Hot medium inside the accumulation tank then further heats another medium in the heat exchanger. Simultaneously, this medium can be let out and used for washing, or other domestic purposes, or in industry. The exchanger located inside of the accumulation tank, is externally provided outside the accumulation tank with inlet and outlet openings, which serve for connection to the heating system. The heated water in the heat exchanger further circulates in a heating system and is used for heating the rooms . In the heat exchanger medium may circulate both as liquid as well as gas, e.g. it can be used for the distribution of hot air, which is also distributed through vents into rooms, or by its heating from the outer and inner walls of accumulation tank. Because the intake air for heating in accumulation tank or in heat exchanger may be positioned outside the furnace, there is no mixing of smoke and heated air, which would adversely affect the comfort and health. Preferably, the air intake can be placed outside the interior of the building.

The novelty of this solution lies in the fact that the device is constructed into one piece in order to produce hot medium, especially hot water for washing and the like and it can further produce room heat in the surroundings of the device, including a heat discharged via heated media from the exchanger, especially water for heating. Another substantial fact is that proposed device burns wood, paper, biomass or coal in the furnace. Devices according to existing solutions use only gas combustion with gas burner, or use heating based on electric energy, i.e. through resistance coils. Such device does not comprise a furnace. Consequently, they cannot produce heat in the same room, where the device is located. On the other hand, boilers or other heaters which comprise a furnace, never constitute one unit with devices producing hot utility water and hot water for room heating. Device for heating media, in particular water, according to the present invention comprises a furnace and an accumulation tank with smoke- flue passing through, wherein the accumulation tank is provided with at least one opening for supplying cold medium and at least one outlet opening for the hot medium, wherein in the accumulation tank a heat exchanger is placed which passed through the shell of the accumulation tank and outside of the tank is finished by at least one opening for supplying cold medium and at least one outlet opening for the hot medium. The device offers many advantages especially in preparation of hot water, both the water for washing, cooking, cleaning and like, and also of other water or liquids, air or gas, serving as a heating medium.

The principle of this device is based on physical laws that the hot medium, i.e. gas, water or plasma, rises upward and pushes the cold medium towards the ground. It follows that, if subjected to heat, in this case in particular the water in accumulation tank, and especially at the bottom of the accumulation tank, there will be circulation of the medium and the heated medium will still rise up in the accumulation tank and cold media will be pushed downwards . As a result of depletion or drain of warm to hot medium through a hole in the top of the accumulation tank, the device also comprises at least one opening for supplying cold medium, allowing cyclic repetitions of the heating process and the collection of the heated medium. The same principle also works in the transmission of heat to the heating system. The medium, especially water, is supplied to the heat exchanger from the system outside the device and circulates in the system by means of gravity or an independent pump.

At the bottom the furnace is placed, which is designed so that when the mass burn, the required heat output to heat the medium in the accumulation above the furnace is created. The accumulation tank is mounted on the furnace and the heat radiating from the furnace through a bottom, which preferably has a conical shape with neck for connection with smoke- flue. The smoke-flue passes through the accumulation tank, preferably in the vertical plane, or in different directions at different angles, wherein the flue transmits waste heat from the flue gas into the liquid in the accumulation tank for added efficiency of the entire device. The smoke-flue is connected with the accumulation tank in a manner to prevent the release of fumes into the accumulation tank.

The accumulation tank is formed by a shell and inside of the accumulation tank a smoke-flue and heat exchanger are mounted. Shell of the accumulation tank consists of a bottom, a tube and a cover, wherein the tube is usually curved into a circular shape to diametrically match the dimensions of the bottom and cover. The tube is welded to the bottom and at the top to the cover. At least one inlet opening for supplying cold medium, in particular for water intended for washing, and at least one outlet opening for distribution of hot media, in particular water for washing, passes through the bottom, cover or through the tube. From the principle it is evident that the outlet opening for hot medium should be located as high as possible. Preferably the cover has a domed bottom, or conical shape, respectively.

The smoke- flue consists of round, oval, rectangular shape or other shape enabling seamless flue . It runs through the inside of the accumulation tank. The place where tthe hot flue gases or combustion gases enter is placed directly above the furnace at bottom of the accumulation tank and here the smoke-flue enters into the accumulation tank. The place flue gases or combustion gas leave the smoke-flue is located in the upper part of the accumulation tank, preferably at its highest point and at this point the smoke-flue extends upwards from the shell of the accumulation tank. In the upper part of the smoke- flue at the output outside of the accumulation tank the smoke-flue is provided with an reduction made of a pipe, wherein this reduction may be welded to the arched bottom or to the smoke- flue.

The heat exchanger is formed of a tube having circular, oval, rectangular or other shape allowing a free flow of fluid, or the heat exchanger is formed from a bellows . The bellows is preferably crimped or tube is preferably curved in a spiral shape or otherwise pre-bent into arbitrary shapes and is restrained around the flue, wherein the heat exchanger can affect the flue or may be placed in close proximity so that they can be used to maximize the transfer of heat into the exchanger system. The heat exchanger is preferably disposed along the entire length of the smoke-flue. A medium, in particular water, which serves as a heating medium for heating radiators or other heaters, passes through the exchanger. The inlet opening and outlet opening of the heat exchanger is connected to conduit for cold medium input and hot medium output . The surrounding of the inlet and outlet of the heat exchanger within the accumulation tank is sealed against leakage. Around the inlet opening for the supply of cold fluid to the heat exchanger and around the outlet opening of hot media, the input and output of the exchanger is preferably provided with fittings for connection to the conduit of the heating system, the stud being provided according to types of devices .

A furnace means a part of the device, where burning of biomass, wood, paper, or coal takes place and which is located at the bottom of the device . The furnace is provided with two openings which are located above each other, whereby the top opening is used for supplying fuel into the combustion chamber and a second opening located underneath is used for collecting ash. Both openings are provided with a door for closing the opening. Between these openings a furnace grate is placed inside.

Disclosure of Figures Fig. 1 is a cross sectional view of a water heater according to this invention.

Examples of the Embodiment

The device according to Fig. 1 comprise a furnace 1 provided with an opening 12 for supplying fuel and an opening 11 for collecting ash, wherein an accumulation tank 2 is placed above the furnace 1, the accumulation tank 2 having a bottom 21, a tube 22 and a cover 23 and the tank 2 being provided in the bottom part with an input opening 24 for supplying cold media, in particular a water, and in the upper part being provided with an output opening 25 for distribution of hot media, in particular a domestic water, wherein a smoke-flue 3 is placed and passes through the accumulation tank 2 from the bottom 21 of the accumulation tank 2 to the cover 23 of the accumulation tank 2, outside the accumulation tank 2 the smoke-flue 3 being provided with a reduction 31. The bottom 21 has conical shape with a neck for connecting to the smoke-flue 3. Inside the accumulation tank 2 a tubular exchanger 4 is stored around the smoke- flue 3, the exchanger 4 being spirally encircled around the smoke- flue 3, wherein the exchanger 4 further passes through the shell of the accumulation tank 2 and is ended at the bottom part of the accumulation tank 2 with an opening 41 for supplying cold media, in particular cold water for heating, and outside of the upper part of the accumulation tank 2 the exchanger 4 being ended with an opening 42 for output of hot media, in particular of hot water for heating.

Industrial Utilization

The technical solution is industrially applicable in homes and other buildings that have no electrical power or gas, or as an alternative to these sources of energy, the device serves to heat the heating and hot water and the room where the device is located.

Claims

1. A multipurpose device for heating media, especially water, characterized in that it comprises a furnace (1) provided with an opening (12) for supplying a fuel and an opening (11) for collecting ash, wherein an accumulation tank (2) is placed above the furnace 1, the accumulation tank (2) having a bottom (21) , a tube (22) and a cover (23) and the tank (2) being provided in the bottom part with an input opening (24) for supplying cold media, in particular domestic water or air, and in the upper part being provided with an output opening (25) for distribution of hot media, in particular a domestic water or air, wherein a smoke-flue (3) for output of the flue from the furnace (1) and heating of inner space of the accumulation tank (2) is placed inside of the accumulation tank (2) , wherein the smoke- flue (3) passes through the accumulation tank (2) , inside the accumulation tank (2) a tubular exchanger (4) is stored in proximity of the smoke-flue (3) , the exchanger (4) further passes through a shell of the accumulation tank (2) and is ended at the bottom part of the accumulation tank (2) with an opening

(41) for supplying cold media, in particular cold water for heating, and outside of the upper part of the accumulation tank

(2) the exchanger (4) being ended with an opening (42) for output of hot media, in particular of hot water for heating.

2. Device according to claim 1, characterized in that the exchanger 4 being spirally encircled around the smoke-flue (3) .

3. Device according to claim 1 to 2 , characterized in that the exchanger (4) being at least partially in contact with the smoke-flue (3) .

4. Device according to claim 1 to 3 , characterized in that the exchanger (4) being disposed along the entire length of the smoke- flue (3) .

5. Device according to claim 1 to 4, characterized in that the exchanger (4) being formed from a tube and/or a bellows.

6. Device according to claim 1, characterized in that outside the accumulation tank (2) the smoke-flue (3) being provided with a reduction (31) for connecting it to flue output.

7. Device according to claim 1, characterized in that the smoke-flue (3) passes through the accumulation tank (2) in vertical direction, enters the bottom (21) of accumulation tank {2) and leaves the accumulation tank (2) in the cover (23) .

8. Device according to claim 1 or 6, characterized in that the smoke-flue (3) leaves the accumulation tank (2) in the highest point of the cover (23) .

9. Device according to any of claims 1, 6 or 7, characterized in that the bottom (21) has conical shape with a neck for connecting it to the smoke-flue (3) and/or the cover (23) is domed .

10. Device according to any of claims 1, 3, 4 or 5, characterized in that around the inlet opening (41) for the supply of cold fluid to the heat exchanger and/or around the outlet opening (42) of hot media, the exchanger (4) being provided with fittings for connection to the conduit of the heating system.

11. Device according to any of claims 1 to 10, characterized in that the accumulation tank (2) being provided with a safety valve .

12. Device according to any of claims 1 to 11, characterized in that the accumulation tank (2) and/or the furnace (1) being provided with thermal insulation on its outer walls . List of Reference Marks

1 - furnace

11 - opening for collecting ash

12 - opening for supplying fuel

2 - accumulation tank

21 - bottom of accumulation tank

22 - tube of accumulation tank

23 - cover of accumulation tank

24 - input opening for supplying cold media

25 - output opening for distribution of hot media

3 - smoke-flue

31 - reduction for connecting flue output

4 - exchanger

41 - opening for supplying cold media

42 - opening for output of hot media