WO2023066509A1

WO2023066509A1 - Device for heating air and a liquid

Info

Publication number: WO2023066509A1
Application number: PCT/EP2022/000086
Authority: WO
Inventors: Victor Weissenbach
Original assignee: Truma Gerätetechnik GmbH & Co. KG
Priority date: 2021-10-19
Filing date: 2022-09-29
Publication date: 2023-04-27
Also published as: AU2022368895A1; DE102021005194A1

Abstract

The invention relates to a device for heating air and a liquid. According to the invention, a control unit (11) controls an air conveying device (4) and a liquid conveying device (8) as to whether the device heats only air in one air mode or liquid in another mode.

Description

Device for heating air and a liquid

The present invention relates to a device for heating air and a liquid.

In the prior art it is known to gain thermal energy from the combustion of, for example, propane, butane or diesel fuel converted into the gaseous state and convert it to a liquid, e.g. B. process water or room air. It is also known to heat air and liquid (see e.g. US 2010/0031900 A1 or US 2019/0212033 A1).

The object underlying the invention is to propose a device for heating air and a liquid which represents an alternative to the prior art.

The invention solves the problem with a device for heating air and a liquid, with an air inlet, an air outlet, an air interaction area, an air delivery device, a liquid inlet, a liquid outlet, a liquid interaction area, a liquid delivery device, an energy unit, a heat exchanger, and a control unit , with air to be heated entering the device via the air inlet, with heated air leaving the device via the air outlet, with liquid to be heated entering the device via the liquid inlet, with heated liquid leaving the device via the liquid outlet, with the energy unit thermal energy generated, wherein the heat exchanger transfers the thermal energy generated by the energy unit to the air in the air interaction area and to the liquid in the liquid interaction area, the air conveying device conveying the air into the air interaction area, the liquid conveying device conveying the liquid into the liquid interaction area, wherein the control unit controls the air delivery device and the liquid delivery device as to whether the device only heats air in an air mode or liquid in another mode.

There are at least two different operating modes in the device according to the invention: either only air is heated or liquid is heated—at least also.

CONFIRMATION COPY Depending on the mode, air or liquid is conveyed by the two associated conveying devices to the corresponding interaction areas, in which they receive thermal energy from the heat exchanger. The liquid delivery device is, for example, a pump and the air delivery device is a blower. The control unit switches between the modes. The air is preferably room air in a room and the liquid is, for example, process water.

According to one embodiment, the control unit is designed in such a way that it controls the air delivery device and the liquid delivery device to determine whether the device only heats air in an air mode or only liquid in a liquid mode. In this configuration there are thus two modes in which only air or only the liquid is heated. In the liquid mode, the small amount of room air, which may be heated by providing the thermal energy, is ignored as a by-product.

A further embodiment provides that the control unit controls the air delivery device and the liquid delivery device to determine whether the device heats only air in an air mode, only liquid in a liquid mode or air and liquid in a mixed mode. In this embodiment there are three modes. With the different operating modes, either only one medium (air or liquid) or both media (air and water) are heated. Depending on the mode, only one medium or both media are conveyed by the two associated conveying devices to the corresponding interaction areas, in which they receive thermal energy from the heat exchanger.

One configuration consists in the control unit controlling the liquid delivery device before the air mode in such a way that the liquid interaction area is essentially free of the liquid. In this embodiment, the liquid is removed from the interaction area of the liquid before the air mode and in particular is not refilled, so that no liquid and thus only air is heated in the air mode.

One embodiment provides that when changing from the air mode to the other mode (e.g. liquid mode or mixed mode, if implemented), the control unit controls the liquid delivery device in such a way that in the Liquid interaction area, the liquid only arrives when a critical temperature of the heat exchanger is below a predetermined starting value. In this embodiment, it is provided that the liquid is only heated when a certain temperature of the heat exchanger is sufficiently low and in particular lower than a predeterminable starting value. This avoids unwanted noise or pressure shocks, for example. In this case, the start value is the temperature value at which the liquid mode or the mixed mode (as examples for the other operating mode, in which only or also liquid is heated) is started. The critical temperature relates in particular to an area of the heat exchanger whose temperature affects the liquid.

One configuration consists in that the device also has a temperature sensor, that the temperature sensor detects a temperature of the heat exchanger, and that the control unit evaluates the temperature detected by the temperature sensor with regard to the critical temperature of the heat exchanger. In this embodiment, the control unit uses the measurement signals from a temperature sensor to determine whether the heat exchanger has cooled down sufficiently.

An alternative or supplementary embodiment provides that when changing from the air mode to the other mode (e.g. liquid mode or mixed mode), the control unit controls the liquid delivery device in such a way that the liquid only enters the liquid interaction area when after an end of the air mode, at least one predefinable cooling period has elapsed. The cooling time is the time that the heat exchanger needs to cool down from a temperature of the air mode to a temperature below the start value and can be determined from the cooling behavior of the heat exchanger.

In one embodiment, the energy unit generates thermal energy by burning a fuel/air mixture and/or by converting electrical energy. In this configuration, the thermal energy is generated by burning a fuel, e.g. B. combustible gas or diesel fuel converted into the gaseous state, or generated by the conversion of electrical energy. In particular, there are a number of possibilities for designing and developing the device according to the invention. For this purpose, reference is made on the one hand to the patent claims subordinate to patent claim 1 and on the other hand to the following description of exemplary embodiments in conjunction with the drawing. It shows:

1 shows a schematic representation of a device.

1 schematically shows the structure of a device for heating air and a liquid.

The air enters the device through the air inlet 1 and leaves it warmed up through the air outlet 2. The liquid, for example water, enters the device via the liquid inlet 5 and leaves it warmed up via the liquid outlet 6. In a variant—not shown here there is a liquid container through which the liquid passes from the liquid inlet 5 to the liquid outlet 6. The thermal energy for heating is generated by the energy unit 9 in the variant shown by burning a fuel-air mixture. In the embodiment shown, the heat exchanger 10 transfers this thermal energy to the air, to the liquid or both to the air and to the liquid, depending on the mode. For this purpose, there are two interaction areas for transferring the thermal energy: an air interaction area 3 and a liquid interaction area 7. For heating, the air or liquid is conveyed by the two conveying devices 4, 8 through the respective associated interaction area 3, 7. This controls the control unit 11, which switches between the operating modes. A temperature sensor 12 is provided for this purpose, which detects temperature values of the heat exchanger 10 . The measurement signals are evaluated by the control unit 11 with regard to a temperature that is critical for the liquid. Only when the heat exchanger 10 has cooled down sufficiently does the liquid delivery device 4 transport the liquid into the liquid interaction area 3 when changing from one air mode to another mode. Reference List

air inlet

air outlet

air interaction area

air conveyor

liquid inlet

liquid outlet

fluid interaction area

liquid delivery device

energy unit

heat exchanger

control unit

temperature sensor

Claims

6

Device for heating air and a liquid, with an air inlet (1), an air outlet (2), an air interaction area (3), an air conveying device (4), a liquid inlet (5), a liquid outlet (6), a liquid interaction area ( 7), a liquid conveying device (8), an energy unit (9), a heat exchanger (10), and a control unit (11), with air to be heated entering the device via the air inlet (1), with the air outlet

(2) heated air leaves the device, liquid to be heated entering the device via the liquid inlet (5), heated liquid leaving the device via the liquid outlet (6), the energy unit (9) generating thermal energy, the heat exchanger (10) transfers the thermal energy generated by the power unit (9) to the air in the air interaction region (3) and to the liquid in the liquid interaction region (7), the air conveying device (4) moving the air into the air interaction region

(3) conveying, wherein the liquid conveying device (8) conveys the liquid into the liquid interaction region (7), wherein the control unit (11) controls the air conveying device (4) and the liquid conveying device (8) to have the device in an air-only mode Air or liquid heated in another mode. Device according to claim 1, wherein the control unit (11) controls the air conveying device (4) and the liquid conveying device (8) as to whether the device heats only air in an air mode or only heats liquid in a liquid mode. Apparatus according to claim 1 or 2, wherein the control unit (11) controls the air delivery device (4) and the liquid delivery device (8) to operate the device in an air only mode 7

Air, liquid only in a liquid mode, or air and liquid in a mixed mode are heated.

4. Device according to one of claims 1 to 3, wherein the control unit (11) controls the liquid delivery device (8) prior to the air mode in such a way that the liquid interaction area (7) is essentially free of the liquid.

5. Device according to one of claims 1 to 4, wherein the control unit (11) controls the liquid delivery device (8) when changing from the air mode to the other mode in such a way that the liquid only reaches the liquid interaction region (7) when when a critical temperature of the heat exchanger (10) is below a predeterminable starting value.

6. The device according to claim 5, wherein the device further comprises a temperature sensor (12), wherein the temperature sensor (12) detects a temperature of the heat exchanger (10), and wherein the control unit (11) detects the temperature im detected by the temperature sensor (12). Evaluates with regard to the critical temperature of the heat exchanger (6).

7. Device according to one of claims 1 to 6, wherein the control unit (11) controls the liquid delivery device (8) when changing from the air mode to the other mode such that the liquid only reaches the liquid interaction region (7) when if after an end of the air mode at least a predefinable cooling period has elapsed.

8. Device according to one of claims 1 to 7, wherein the energy unit (5) generates thermal energy by burning a fuel-air mixture and/or by converting electrical energy.