EP0503489A2 - Room heating device - Google Patents

Abstract

The space heating device is provided with a radiation pipe connected to a pressure and mixing chamber housing 1 of a pipeline system arranged above the room to be heated, the radiation pipe being connected on the one hand to a return flow chamber 19 with fan 10 and on the other hand to a mixing chamber 20 with a flame tube 14 surrounding a burner 2 is. The pressure and mixing chamber housing 1 is designed in the manner of a double screw, two cylindrical parts 26, 27 forming the housing and a front and rear plate 3, 4 having the shape of a double screw, while the connecting tubes 18, 21 for the radiation tube are connected to the rear plate 4. The burner 2 and the drive unit 5 for the fan 10 are arranged on the front plate 3.

Description

The invention relates to a space heating device with a radiation pipe connected to a pressure and mixing chamber housing of a pipeline system arranged above the room to be heated, the radiation pipe being connected on the one hand to a return flow chamber with fan and on the other hand to a mixing chamber with a flame tube surrounding a burner.

Such a space heating device is known in which the radiation tube is connected to a pressure and mixing chamber housing. Due to the design of this housing and also the arrangement of the fan in this housing, there is a relatively large design, which is also unfavorable to flow.

The invention has for its object to provide such a device so that the vortex zone in the pressure and mixing chamber housing is designed so that a hot core zone in the area of the burner is surrounded by a cooler air layer of the return gas to achieve that over a long distance a uniform heat emission in the radiation tube is effected.

This object is achieved according to the invention in that the pressure and mixing chamber housing is double-screw, two cylindrical parts forming the housing and a front and rear plate having the double screw shape, while the connecting tubes for the radiation tube are connected to the rear plate.

An advantageous embodiment consists in that a regulating flap is arranged between the backflow chamber and the mixing chamber.

It is also advantageous that the flame tube has bores towards the front panel.

It is further proposed that the drive shaft of the fan is shifted to the right relative to the opening for the drive unit to the mixing chamber, or coincides with the axis of the connecting pipe for the radiation pipe return.

It is advantageous that the housing is held on rectangular tubular frames, the upper corners being chamfered.

It is further proposed that the drive for the fan impeller with motor and bearing block as the drive unit is flanged to the front plate of the housing.

A cooling fan with through holes is advantageously provided on the front plate on the fan shaft.

It is advantageous that the speed of the fan impeller is adjustable.

It is also proposed that the chimney connection can be attached to the housing on both sides.

An advantageous embodiment provides that measuring nipples for the amount of exhaust gas are provided at the end of the flame tube, the measuring nipples being connected to a line which is led out of the pressure and mixing chamber housing.

Furthermore, one proceeds in such a way that a pressure switch and measuring points for temperature sensors are arranged at the end of the mixing chamber.

It is proposed that a heat exchanger for room fresh air preheating is provided in the chimney connection.

It is also proposed that a heat exchanger is arranged in the flow or return of the radiation system or in a bypass line, which serves to heat the air.

Finally, one advantageously proceeds in such a way that the drive energy for the air preheating is obtained from the pressure-side excess energy at the regulating flap, for. B. by means of a wind wing. Like.

The invention has the essential advantage that a specially designed twin-screw housing is provided, so that a favorable swirling of the flowing medium and thereby better heat transfer is achieved. This also results in a low noise level. The size can be reduced by the asymmetrical arrangement of the fan drive shaft. The variable speed of the fan provided adapts the volume flow to the different lengths of the heating band. The regulating flap arranged between the mixing chamber and the backflow chamber adapts the air quantity and the pressure conditions to different jet pipe lengths. Here, the setting of the combustion chamber to depressurized condition or vacuum operation in the heat radiation tube can be carried out. Due to the intended device suspension, the device can be hung directly under the ceiling, so that little space is required for the installation.

The invention is explained in more detail in the following description with reference to exemplary embodiments shown in the drawings.

Fig. 1

eine Draufsicht auf eine derartige Raumheizungseinrichtung,

Fig. 2

eine Ansicht in Pfeilrichtung A gemäß Fig. 1,

Fig. 3

eine Ansicht in Pfeilrichtung B gemäß Fig. 1,

Fig. 4

eine schaubildliche Ansicht des Druck- und Mischkammergehäuses mit den Rahmen zur Deckenbefestigung,

Fig. 5

eine Ansicht der Frontplatte des Druck- und Mischkammergehäuses,

Fig. 6

eine Ansicht des Rahmens der Geräteaufhängung und

Fig. 7 und 8

eine Darstellung des Kühllüfters im Schnitt und einer Draufsicht.

Show it,

Fig. 1

a plan view of such a space heating device,

Fig. 2

2 shows a view in the direction of arrow A according to FIG. 1,

Fig. 3

2 shows a view in the direction of arrow B according to FIG. 1,

Fig. 4

a perspective view of the pressure and mixing chamber housing with the frame for ceiling mounting,

Fig. 5

a view of the front plate of the pressure and mixing chamber housing,

Fig. 6

a view of the frame of the device suspension and

7 and 8

a representation of the cooling fan in section and a plan view.

The space heating device shown in FIGS. 1 to 3 has a specially shaped pressure and mixing chamber housing 1, which is divided approximately in the middle by a regulating flap 11. On one side of the housing 1 there is the fan with its impeller 10, the inflow nozzle 17 and the connecting tube 18 for the return of the radiation tube with its backflow chamber 19. The tube 18 enters the housing 1 on the rear plate 4. The drive shaft 23 of the Fan is shifted to the right relative to the opening 16 for the drive unit 5 to the mixing chamber 20, or coincides with the axis of the connecting pipe 18 for the radiation pipe return and is led out on the front plate 3 of the housing 1. This drive unit 5 consists of a drive G with a V-belt drive 31, which is made for power adjustment so that the V-belts can be replaced at four power levels. The fan shaft 23 is mounted on a bearing block 7, a cooling fan 8 being provided between the front plate 3 and the bearing block 7. Thermal insulation 9 is located on the inside of the housing opposite the drive unit 5.

On the other side of the housing 1 there is the burner 2, which extends into a flame tube 14, a ceramic insulation 12 being provided inside the flame tube 14 towards the front plate 3. The connecting tube 21 is flanged to the rear plate 4 as a flow for the radiation tube and contains the mixing chamber 20. Furthermore, there are bores 13 near the front plate 3 in the flame tube 14, which cool the flame and thus minimize nitrogen oxide formation. Furthermore, there is a chimney connection 16 on the fan side. In addition, frame constructions 15 are provided on the housing, which serve to hang the device.

At the end of the flame tube 14 there are measuring nipples 49 for the amount of exhaust gas, which enables precise measurement of the combustion values. These measuring nipples 49 are connected to a line which is led out of the pressure and mixing chamber housing 1. Furthermore, 20 measuring points for temperature sensors are provided at the end of the mixing chamber, so that precise measurement and protection against overheating is possible.

Various heat exchangers 42, 43 and 44 can be provided for optimal use of the thermal energy. There is a first heat exchanger 42 in the chimney connection 16, which can serve both for preheating the fresh air in the room and for preheating the combustion air for the burner.

Another heat exchanger 43 is arranged on the connecting pipe 21 for the radiant tube flow or a further heat exchanger 44 in a bypass line to the connecting pipe 21. The thermal energy obtained here can be used for fresh air heating, for example for heating adjoining rooms.

4, the housing 1 is shown in a diagrammatic view, this housing essentially consisting of two cylindrical parts 26, 27 and these cylindrical parts receiving the burner part on the one hand and the fan part on the other. Due to the special shape of this housing 1, there is a high thermal output with small dimensions of the device, in particular due to the particularly streamlined design of the housing. 5 with the opening 46 for the drive unit 5 and the opening 22 for the burner connection, the two parts 26, 27 being connected in a straight line at the upper edge and from this straight-line section in a spiral section to one in are provided approximately in the middle of the constriction 25, the two halves being divided by the regulating flap 11 and a locking plate 47 extending from the axis of rotation 48. 5 shows the asymmetrical arrangement of the drive shaft 23 on the fan. The chimney connection 16 can be attached at the transition of the straight section 32 into the spiral section, a corresponding opening being closable by a cover plate 24, so that the chimney connection 16 can be provided on the left or right via connection pieces prefabricated in the device. This shape of the housing results in a favorable swirling of the flowing medium and thus also a particularly good heat transfer. The special shape of the housing 1 results in a swirl zone such that the hot core zone of the burner is surrounded by a cooler air layer of the back-flowing gas. It is hereby achieved that a uniform heat emission is effected in the radiation tube over a large distance.

In Fig. 6 a frame 15 for the device suspension is shown. This frame consists of individual rectangular steel tubes 34, the upper corners 29 being formed by oblique tubes 35. The frame 15 is supported on a side support 36 on side shock absorbers 37. Furthermore, there are 35 tabs 38 in the area of the inclined pipes, which are used to hang the device, i.e. are provided with vibration dampers 39 for suspension from the ceiling.

The cooling fan 8 shown in FIGS. 7 and 8 has individual fan blades 40, with passage bores 30 being provided in a radially extending web 41 in order to avoid heat accumulation.

Claims (14)

Space heating device with a radiation pipe connected to a pressure and mixing chamber housing of a pipeline system arranged above the room to be heated, the radiation pipe being connected on the one hand to a return flow chamber with fan and on the other hand to a mixing chamber with a flame pipe surrounding a burner, characterized in that the pressure and mixing chamber housing (1) is double-screw, two cylindrical parts (26, 27) forming the housing (1) and a front and rear plate (3, 4) having the double screw shape, while the connecting pipes (18, 21) for the radiation pipe are connected to the back plate (4). Space heating device according to claim 1, characterized in that a regulating flap (11) is arranged between the backflow chamber (19) and the mixing chamber (20). Space heating device according to claims 1 and 2, characterized in that the flame tube (14) has bores (13) towards the front plate (3). Space heating device according to Claims 1 to 3, characterized in that the drive shaft (23) of the fan is displaced to the right relative to the opening (46) for the drive unit (5) to the mixing chamber (20), or with the axis of the connecting pipe (18) for the radiant tube return coincides. Space heating device according to claims 1 to 4, characterized in that the housing (1) is rectangular The tubular frame (15) is held, the upper corners (29) being chamfered. Space heating device according to claims 1 to 5, characterized in that the drive for the fan impeller (10) with motor (6) and bearing block (7) as the drive unit (5) is flanged to the front plate (3) of the housing (1). Space heating device according to claim 6, characterized in that a cooling fan (8) with passage bores (30) is provided on the front plate (3) on the fan shaft (24). Space heating device according to claims 1 to 7, characterized in that the speed of the fan impeller (10) is adjustable. Space heating device according to claims 1 to 8, characterized in that the chimney connection (16) can be attached to the housing (1) on both sides (Fig. 5). Space heating device according to claims 1 to 9, characterized in that measuring nipples (49) for the amount of exhaust gas are provided at the end of the flame tube (14), the measuring nipples (49) being connected to a line which emerges from the pressure and mixing chamber housing (1). is brought out. Space heating device according to claims 1 to 10, characterized in that a pressure switch and measuring points for temperature sensors are arranged at the end of the mixing chamber (20). Space heating device according to claims 1 to 11, characterized in that in the chimney connection (16) Heat exchanger (42) for fresh air preheating is available. Space heating device according to claims 1 to 12, characterized in that a heat exchanger (43, 44) is arranged in the forward or return flow of the radiation system or in a bypass line which serves to heat the air. Space heating device according to claims 1 to 13, characterized in that the drive energy for the air preheating is obtained from the pressure-side excess energy at the regulating flap (11), e.g. B. by means of a wind wing (45) or the like.

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