NL1007251C2 - Multifunctional heating device. - Google Patents

Abstract

A heating device (14) for heating a space (31) comprises: a burner (19); a first heat exchanger (1) with a first passage (15) and a second passage (16), which first passage (15) is connectable to a feed (20) for outside air for supplying fresh outside air to the burner (19), and which second passage (16) is connectable to a feed (21) for return air from said space (31) for discharging the return air to a discharge (22) to the outside; a second heat exchanger (2) with a first passage (17) and a second passage (18); which first passage (17) connects with its inlet to the outlet of the first passage (15) of the first heat exchanger (1) and connects with its outlet to a discharge (23) for heated air to said space (31); the outlet of which first passage (15) also connects to the burner (19) for supplying combustion air thereto; the discharge (24) of which burner (19) connects to the inlet of the second passage (18); the outlets of which second passages (16,18) jointly connect onto the discharge (22); fan means (11,12) for maintaining at least the air flow through the burner (19); and is characterized by a bypass (24) connected between the feed (20) and the discharge (23) for direct through-feed of a flow of outside air to the discharge (23), in which bypass (24) is accommodated a valve (4) adjustable by central control means (33); a valve (5) placed between the outlet of the first passage (15) and the inlet of the first passage (17) which is adjustable by the central control means (3). <IMAGE>

Description

MULTIFUNCTIONAL HEATING DEVICE

The invention relates to a heating device for heating a room, for example a house, which device comprises: a burner with a burner head; 5 a first gas-gas-type heat exchanger with a first passage and a second passage thermally coupled thereto, which first passage can be connected to an outside air supply for supplying fresh outside air to the burner, and which second passage to a supply air for return air from said space can be connected for discharging said return air from an outlet to the outside; a second gas-gas type heat exchanger with a first passage and a second passage thermally coupled thereto; and which first passage connects with its inlet to the outlet of the first passage of the first heat exchanger and connects with its outlet to a heated air outlet to said space; The outlet of which first passage also connects to the burner for supplying combustion air thereto; the discharge of which burner connects to the entrance of the second passage; The outputs of which second passages and jointly connect to the drain; fan means for maintaining at least the air flow through the burner.

It is an object of the invention to design a known heating device of this type such that it is able to perform multiple functions with simple means.

In connection with this object, the heating device according to the invention is characterized 1007251 2 by a bypass connected between the supply and the outlet for direct passage of a flow of outside air to the outlet, in which bypass line a valve adjustable by central control means is included and an intermediate the output of the first passage and the entrance of the first passage placed valve adjustable by the central control means.

The heating device according to the invention thus offers the option of admitting outside air directly into the space concerned via the said bypass line 10. This is particularly important if the outside air is cooler than the air in the room. The space can then be directly cooled and ventilated by admitting the cool outside air. For example, this operating mode can be set at night. The central control means may be arranged, depending on the respective temperatures and the setting by an operator, to carry out the relevant switchover automatically.

A specific embodiment has the special feature that a condensate discharge connects to the second heat exchanger. This option applies to high-efficiency boilers known per se.

As described above, the selectively openable and closed bypass pipe offers the possibility, for example, of cooling the space by relatively cool outside air. Alternatively or in combination therewith, the heating device can be designed such that a supply for the metered release of water is added to the first passage of the second heat exchanger, which water can evaporate in the passing air flow and thus cool that air flow. This embodiment has the further advantage that moisture is added to the passing air flow, which increases the relative humidity of the air in the relevant space.

1007251 3

A further variant has the special feature that a third heat exchanger which can flow through water is placed between the burner head and the second passage. The water flowing through this heat exchanger can be used for directly drawing off hot tap water or otherwise using hot water.

Furthermore, the heating device can be designed such that freezing of the first heat exchanger is prevented at extremely low outside temperatures. In this connection, the heating device can advantageously be designed in such a way that the third heat exchanger is connected to a fourth heat exchanger thermally coupled to the first heat exchanger for heating thereof.

As already discussed above, a third heat exchanger can be placed between the burner head and the second passage. In particular, this variant can be designed such that the third heat exchanger is connected to hot water facilities, such as a hot water vessel, optionally via a fifth heat exchanger, a hot tap water pipe, or the like.

A preferably exchangeable filter can be included in the supply for outside air and / or the supply of return air to the device. The return air filter can be important as protection for the device against dust accumulation and the like. The fresh air filter may be of interest for similar reasons, especially where slightly contaminated air is to be taken into account. Interchangeable filters are well known and may include, for example, interchangeable porous structures that are easily removed and replaced.

A specific embodiment has the special feature that the fan means comprise a fan included in the discharge. Because this fan is connected to the device in a suction manner, any leakage in this device, in particular in the 100-251 heat exchangers, cannot have the result that combustion gases from the heating device or polluted air from the room are returned to this room.

The device can furthermore have the special feature that the fan means comprise a fan incorporated in the supply. For the above-described reason, it is preferable if, in combination of an input fan with an output fan, the output fan causes a suction which is stronger than the pressing action of the input fan. In this case, too, it is ensured that there is no chance of the described return of undesired gases to the space.

The specific embodiment has the special feature that the central control means are designed for at least more or less complementary adjustment of the valves. With such a control an optimum balance can be found under the influence of the programmatic control by the central control means between heating the air supplied to the space by the device and supplying that space with fresh outside air.

A further embodiment has the special feature that the central control means are also arranged for adjusting the power of the burner by means of an adjustable valve and the central control means are also arranged and connected for partly adjusting the burner power depending on the aforementioned. of the valve.

Furthermore, the central control means can generally control the said valves in mutual positions such that, in connection with the burner power, the objectives pursued by the central control means are achieved as well as possible simultaneously.

The invention will now be elucidated with reference to the annexed drawings. Herein: 1007251 figure 1 shows a partly broken away and highly schematic view of a device according to the invention; and figure 2 shows a block diagram of the central control means.

The figures show a heating device 14 for heating a space, which is symbolically indicated with the air flow 31. This space can be, for example, a house. The device comprises a burner 19 with a burner head 24. This burner head is housed in a housing. The device further comprises a first gas-gas type heat exchanger 1 with a first passage 15 and a thermally coupled second passage 16. The first passage 15 can be connected to an inlet 20 for outside air 15 for feeding to the burner 19 fresh air 7a. The second passage 16 can be connected to the supply 21 for return air 16 from the said space 31 for discharging the said return air 6 from the outlet 22 to the environment. The device 20 further comprises a second heat exchanger 2 of the gas type with a first passage 17 and a second passage 18 thermally coupled thereto. It should be noted that both heat exchangers can be of any suitable type. It will be clear that the second heat exchanger 25 must be capable of withstanding the very high temperatures of the hot combustion gases emanating from the burner 19. The first passage 17 connects with its entrance to the outlet of the first passage 15 of the first heat exchanger 1 and connects with its outlet 30 to a discharge 23 for heated air 30 to the room 31. The exit of the first passage 15 also connects to the burner 19 for supply of combustion air 7a to that burner 19. The outlet 24 of the burner 19 connects to the entrance of the second passage 35 18. The outputs of the said second passages connect jointly to the discharge 22. Furthermore, the device 14 comprises fan means 11, 12 for maintaining the air flow 7a through the burner 19 1007251 6 and the air flow through space 31 which is symbolically indicated in the drawing and forms the coupling between the flow of heated air 30 and the return air flow 6.

The device according to the invention furthermore comprises a by-pass pipe 24 connected between the supply 20 and the discharge 23 for direct passage of a flow of 7c fresh air to the discharge 23, in which bypass pipe 24 a valve 4 adjustable by central control means 33 (see figure 2). is also included, as well as a valve 5 which is adjustable by the central control means 33 between the outlet of the first passage 15 and the inlet of the first passage 17.

It is noted that, for the sake of transparency of Figure 1, the representation of the central control means 33 has been omitted. However, Figure 2 clearly shows, by way of example, which parts according to Figure 1 can be controlled by the central control means 33.

In the embodiment shown, a condensate discharge 25 connects to the second heat exchanger 2.

In this embodiment, the supply 26 for the metered release of water is added to the first passage 17 of the second heat exchanger 2, which water can evaporate in the passing air flow 7b and thus cool and wet this air flow 7b.

In the embodiment shown, the heating device 14 is further designed in such a way that a third heat exchanger 27, which can flow through water, is placed between the burner head 24 and the second passage 18. In this embodiment, this heat exchanger can comprise a spirally wound copper tube, which is provided with pressed fins, for example.

In order to prevent freezing of the first heat exchanger 1 at extremely low outside temperatures, the third heat exchanger 27 in the embodiment shown is connected to a fourth heat exchanger 13 thermally coupled to the first heat exchanger 1 for heating thereof. For this purpose the two said heat exchangers 1007251 7 are connected to each other with a supply line 42 and a return line 43, respectively. A pump 34 is included in the return line 43.

The third heat exchanger 27 is connected to 5 hot water supplies. As shown, these hot water supplies comprise a hot water vessel 28, in which a fifth heat exchanger 8 is included. Hot water flows through a pump 40 to heat the water present in the vessel 28. The vessel 10 28 is connected to the water network 36. The hot water discharge from vessel 28 is indicated by 38. Furthermore, the third heat exchanger 27 is connected to a direct hot tap water pipe 29. The discharge thereof is indicated by 37. The inlet side of the third heat exchanger 27 is also connected to the water network 36.

A filter is included in both supply 20 and supply 21. These filters are indicated by 10 and 9 respectively. The filters are of interchangeable type.

A suction fan 12 is accommodated in the exhaust 22, while a pressing fan 11 is placed in the supply air 20 for outside air.

For example, the central control means 33 are arranged for at least more or less complementary adjustment of the valves 4 and 5.

In this exemplary embodiment, the central control means 33 are also arranged for adjusting the power of the burner 19 by means of an adjustable valve 32, which is included in the pipe between the gas connection 35 and the burner head 24. 33 arranged and connected for adjusting the valve 5, partly in dependence on the aforementioned burner power.

Figure 2 shows by way of example, which parts in the device according to Figure 1 can be controlled by the central control means, for example a microprocessor. In this 1007251 8 embodiment, these are the valves 4, 5, 32, the fans 11, 12, the pumps 34 and 40 and the water supply 26. The multiple input 39 of the central control means can receive input signals from, inter alia, a control panel, with which the user can set the device as desired, a thermostat with temperature sensor, a clock switch, an outside temperature sensor, external programming means, temperature sensors in the various air and water pipes and the water storage tank 28 10 etc.

It will be clear that the heating device according to the invention is a very high-quality device, which combines a high degree of technical flexibility and multiple functionality with an essentially simple construction.

1007251

Claims (12)

A heating device (14) for heating a room (31), for example a house, which device comprises: a burner (19) with a burner head (24) / 5 and a first heat exchanger (1) of the gas-gas type with a first passage (15) and a thermally coupled second passage (16), which first passage (15) can be connected to an inlet (20) for outside air (7) for supplying fresh to the burner (19) outside air (7a), and which second passage (16) can be connected to a supply (21) for return air (6) from said space (31) for discharging said return air (6) to an outlet (22) ); a second gas-gas-15 heat exchanger (2) having a first passage (17) and a thermally coupled second passage (18); which first passage (17) connects with its inlet to the outlet of the first passage (15) of the first heat exchanger (1) and connects with its outlet 20 to a discharge (23) for heated air (30) to said space ( 31); the outlet of which first passage (15) also connects to the burner (19) for supplying combustion air (7a) thereto; The outlet (24) of which burner (19) connects to the entrance of the second passage (18); the outputs of which second passages (16 and 18) jointly connect to the drain (22); and 30 fan means (11, 12) for maintaining at least the air flow (7a) through the burner (19) / characterized by a by-pass connected between the inlet (20) and the outlet (23) 24) for direct passage of a flow (7c) of outside air to the outlet (23), in which bypass line (24) a valve (4) adjustable by central control means (33) is included, and one between the outlet of the first passage (15) and the entrance of the first passage (17) placed valve (5) adjustable by the central control means (33). Heating device according to claim 1, in which a condensate discharge (25) connects to the second heat exchanger (2). A heating device according to claim 1, wherein a supply (26) for the metered release of water is added to the first passage (17) of the second heat exchanger (2), which water can evaporate in the passing air stream (7b) and thus 20 airflow (7b) can cool. A heating device according to claim 1, wherein a third heat exchanger (27) which can flow through water is placed between the burner head (24) and the second passage (18). A heating device according to claim 4, wherein the third heat exchanger (27) is connected to a fourth heat exchanger (13) thermally coupled to the first heat exchanger (1) for heating thereof. A heating device according to claim 4, wherein the third heat exchanger (27) is connected to hot water supplies, such as a hot water tank (28), optionally via a fifth heat exchanger (8), a hot water pipe (29), or the like. Heating device according to claim 1, 35 comprising a filter (10) included in the feed (20). 1007251 Heater according to claim 1, comprising a filter (9) included in the feed (21). 9. Heating device as claimed in claim 1, wherein the fan means comprise a fan (12) included in the discharge (22). A heating device according to claim 1, wherein the fan means comprise a fan (11) included in the supply (20). A heating device according to claim 1, 10, wherein the central control means (33) are arranged for at least more or less complementary adjustment of the valves (4 and 5). 12. Heating device according to claim 1, wherein the central control means (33) are also arranged for adjusting the power of the burner (19) by means of an adjustable valve (32) and the central control means (33) are also arranged and connected for setting the valve (5) partly in dependence on the aforementioned burner power. 20 • k + * * ★ 1007251