NL1031891C2 - Heating device and method for heating water. - Google Patents

Description

HEATING DEVICE AND METHOD FOR HEATING WATER

The invention relates to a heating device 5 for supplying hot water, comprising a combustion chamber in which a heat exchanger extends / to which a fuel supply line, an air supply pipe and a flue gas discharge pipe are connected to the combustion chamber; wherein a water supply pipe and a water discharge pipe are connected to the heat exchanger and are connected at their other end to a hot water supply vessel; wherein a fan is arranged in the air supply pipe and / or in the flue gas discharge pipe that can cause a gas flow from the air supply pipe through the combustion chamber to the flue gas discharge pipe; and wherein a circulation pump is included in the system that can pump the water through the water supply line, the heat exchanger, the water discharge line and the hot water supply vessel; wherein the heating device 20 comprises ventilation control means adapted to switch off the fan after the fuel supply line has been closed; and wherein the heating device comprises circulation control means which are adapted to switch off the circulation pump after the fuel supply line has been shut off.

With such a combustion system, the combustion air is generally sucked in from the outside atmosphere by means of the built-in fan, and not from the space where the heating device is arranged, while the flue gases are also discharged to the outside atmosphere. Such a system requires an environment-tight cabinet around the device to prevent air being drawn in from the installation room. 2 closed pipes can also run from the outside atmosphere 1031891 Λ to the heating device, which here are airtightly connected to a closed heat exchanger, and pipes which again run to the outside atmosphere, while a fan is included at a predetermined location for transporting the combustion air or the flue gases.

Such systems that are closed with respect to the installation space are called closed systems. However, if this is deemed desirable, instead of sucking in the air 10 from the outside atmosphere, air can be drawn in from the installation space under certain circumstances.

The system described here will preferably use fossil fuel in gas form as an energy carrier, such as natural gas, propane, butane, or oil that is converted into a gas burner (injector) in a suitable burner for this purpose.

The water in the heating device is generally heated to a temperature that is between 55 ° C and 70 ° C. The hot water is stored in the hot water storage tank, from which a user can drain it via a hot water tap. The used hot water is supplemented with fresh cold water which is brought to the desired temperature in the heat exchanger. Even if the temperature of the water in the vessel becomes too low, the heating device is automatically activated. The circulation pump and the fan are first started, after which the fuel supply line is opened and the fuel is ignited. If the temperature in the hot water storage tank has reached the preset desired level, or if no more hot water is requested, the fuel supply line is shut off. The fan then continues to run for a predetermined short time to remove potentially unburned flue gases from the combustion chamber and fill it with fresh outside air for a subsequent ignition. Also, after the fuel supply line has been shut off, the circulation pump continues to pump the water around the system for a predetermined time, generally about 5 minutes, so that the temperature of the water in the heat exchanger and in the hot water storage tank becomes equal.

10

A problem which may occur in the device described above is that, depending on the hardness of the water, the inside of the heat exchanger is calcified, that is to say that lime that is present in the water precipitates in the form of flakes, as a result of which clogging of the heat exchanger can occur.

It is an object of the invention to partially solve the above problem.

20

To this end, the ventilation control means are adapted to switch off the fan after the circulation pump has been switched off, such that (cold) air flows past the heat exchanger while the water is standing therein in order to cool this water. Calcification occurs in particular at temperatures above approximately 52 ° C, whereby the higher the temperature of the water, the more lime deposits. The invention ensures that these high temperatures in the water in the heat exchanger occur as short as possible, while the water temperature in the storage tank is not lowered.

4

The heating device preferably comprises at least two temperature sensors which can measure the temperature at at least two different locations of the heat exchanger, the water supply pipe, the water discharge pipe and the hot water supply vessel, or of the water present at those locations therein, the circulation control means be arranged to switch off the circulation pump if the measured temperature difference between the two temperature sensors is less than a preset threshold value. The set threshold value of the temperature difference for the circulation control means is preferably smaller than 5 ° C, more preferably smaller than 2 ° C. The purpose of this control is to keep the circulation pump running no longer than is necessary to make the temperature of the water in the heat exchanger approximately equal to the temperature of the water in the hot water supply tank, so that a start can be made as quickly as possible with cooling the heat exchanger.

The ventilation control means are preferably adapted to switch off the fan if the measured temperature at, in and / or near the heat exchanger is less than a preset threshold value. The set threshold value of the temperature for the ventilation control means is preferably between 45 ° C - 55 ° C, more preferably between 51 ° C and 54 ° C. The ventilation control means are furthermore preferably adapted to control the speed of the fan in dependence on the measured temperature on, in and / or near the heat exchanger, a higher measured temperature resulting in a higher speed of the fan. In this way the fan is not used for longer than necessary, is used at an efficient power, and unnecessary noise nuisance is prevented.

5

The water supply pipe and / or the water discharge pipe is preferably provided with a valve which, when the circulation pump is switched off, prevents the water from flowing through the pipes. Due to thermal flow, hot water could still flow from the storage tank into the heat exchanger. The valve can be a non-return valve, which is thereby closed for example by its own weight or by a spring.

10

The invention also relates to a method for heating water by means of a heating device, wherein a fuel is burned in a combustion chamber in which a heat exchanger extends; 15 a fuel supply line, an air supply tube and a flue gas discharge tube are connected to the combustion chamber; wherein a water supply line and a water discharge line are connected to the heat exchanger and are connected at their other end to a hot water supply vessel; wherein a fan is arranged in the air supply pipe and / or in the flue gas discharge pipe which causes a gas flow from the air supply pipe through the combustion chamber to the flue gas discharge pipe; and wherein a circulation pump is included in the system which pumps the water through the water supply line, the heat exchanger, the water discharge line and the hot water supply vessel; wherein the fan and the circulation pump are switched off after the fuel supply line has been shut off, and wherein the fan is switched off after the circulation pump has been switched off, such that air flows past the heat exchanger while the water is standing therein in order to cool this water.

t 6

Further details, aspects, advantages and possibilities with regard to the invention are described below with reference to an exemplary embodiment, with reference to the figure, in which a heating device is schematically represented.

The heating device according to the figure is provided with a combustion space 1 in which a heat exchanger 8 is located, and in which there is a burner 2 which is connected by means of a gas / air mixture supply pipe 7 to an air supply pipe 5 and a gas supply pipe 6. The air supply pipe 5 comprises a pipe part present in the device, to which an external pipe of a desired length can be connected. The gas and air are mixed in a correct ratio and fed to the burner 2 via a fan 4. The gas / air mixture is converted into heat energy by means of a burner 2. This energy is passed along the heat exchanger 8, the heat generated being supplied to the water to be heated. The water 20 is hereby raised in temperature, whereafter the combustion gases which are lowered in temperature through this exchange are carried via a pipe system 3 to the outside atmosphere. The flue gas discharge pipe system 3 comprises a pipe part present in the device 25, to which an external pipe of a desired length can be connected.

Depending on the construction and the intended efficiency, the heat exchanger will offer a quantity of resistance to the flow of the flue gases. By applying a fan 4 with a correct pressure increase and tuned to the resistance, this resistance can be overcome, such that sufficient pressure remains, and 7 such that the flue gases that have left the heat exchanger 8 through the pipe system 3 to the outside atmosphere can be moved.

The water is pumped by a circulation pump 9 from a hot water supply vessel 10 via a water supply line 11 to the heat exchanger 8, whereafter it flows back into the hot water supply vessel 10 via a water discharge clothing 12.

10

The heating device comprises two temperature sensors 13, 14 which can measure the temperature of the water supply pipe and the water discharge pipe. A controller (not shown) switches off the circulation pump 9 if the measured temperature difference between the two temperature sensors is less than a preset threshold value of, for example, 1 C.

Another controller (not shown) switches off the fan 4 after the circulation pump 9 has been switched off, such that cold air flows through the tubes 5, 7 along the heat exchanger 8 while the water is standing therein, in order to cool this water. The controller only switches the fan 4 off when the temperature in sensor 14, which is located close to the heat exchanger, is lower than 52 C. The speed of fan 4 is variable, and the controller ensures that fan 4 at higher measured temperatures of the sensor 14 are running at a higher speed.

The supply line 11 is provided with a non-return valve to prevent that when the pump 9 is stopped, hot water flows from the storage tank 10 to the heat exchanger 8.

1031891

Claims (8)

A heating device for supplying hot water, comprising a combustion chamber in which a heat exchanger extends; wherein a fuel supply line, an air supply tube and a flue gas discharge tube are connected to the combustion chamber; wherein a water supply pipe and a water discharge pipe are connected to the heat exchanger and are connected at their other end to a hot water supply vessel; wherein a fan is placed in the air supply pipe and / or in the flue gas discharge pipe that can cause a gas flow from the air supply pipe through the combustion chamber to the flue gas discharge pipe; and wherein a circulation pump is included in the system that can pump the water through the water supply pipe, the heat exchanger, the water discharge pipe and the hot water supply vessel; wherein the heating device comprises ventilation control means adapted to switch off the fan after the fuel supply line has been closed; and wherein the heating device comprises circulation control means adapted to switch off the circulation pump after the fuel supply line has been shut off; Characterized in that the ventilation control means are arranged to switch off the fan after the circulation pump has been switched off, such that air flows along the heat exchanger while the water is standing therein in order to cool this water. 2. Heating device as claimed in claim 1, wherein the heating device comprises at least two temperature sensors which measure the temperature at at least two different locations of the heat exchanger, the water supply pipe, the water discharge pipe and the hot water supply vessel, or of the water present at those locations therein can measure, wherein the circulation control means are adapted to switch off the circulation pump if the measured temperature difference between the two temperature sensors 15 is less than a preset threshold value. 3. Heating device as claimed in claim 2, wherein the set threshold value of the temperature difference for the circulation control means is smaller than 5 ° C, preferably smaller than 2 ° C. 4. Heating device as claimed in claim 1, 2 or 3, wherein the heating device comprises at least one temperature sensor which measures the temperature on the heat exchanger, or on the water supply pipe or the water discharge pipe near the heat exchanger, or of the water present at that location therein, be able to measure wherein the ventilation control means are adapted to switch off the fan if the measured temperature is less than a preset threshold value. * Heating device as claimed in claim 4, wherein the set threshold value of the temperature for the ventilation control means is between 45 ° C - 55 ° C, preferably between 51 ° C and 54 ° C. 5 6. Heating device as claimed in claim 4 or 5, wherein the ventilation control means are adapted to control the speed of the fan in dependence on the measured temperature at, in and / or near the heat exchanger, wherein a higher measured temperature at a higher speed of the fan results. 7. Heating device as claimed in any of the foregoing claims 1-6, wherein the water supply pipe and / or the water discharge pipe is provided with a valve which, when the circulation pump is switched off, prevents the water from flowing through the pipes. A method for heating water by means of a heating device, wherein a fuel is burned in a combustion chamber in which a heat exchanger extends; wherein a fuel supply line, an air supply tube and a flue gas discharge tube are connected to the combustion chamber; wherein a water supply pipe and a water discharge pipe are connected to the heat exchanger which are connected at their other end to a hot water supply vessel; wherein a fan is arranged in the air supply pipe and / or in the flue gas discharge pipe which causes a gas flow from the air supply pipe through the combustion chamber to the flue gas discharge pipe; and wherein a circulation pump is included in the system which pumps the water through the water supply pipe, the heat exchanger, the water discharge pipe and the hot water supply vessel; the fan being switched off after the fuel supply line has been closed; and wherein the circulation pump is switched off after the fuel supply line has been closed; characterized in that the fan is switched off after the circulation pump has been switched off, such that air flows past the heat exchanger while the water is standing therein in order to cool this water. 1031891