DE19800241C1 - Heater for motor vehicle - Google Patents

Abstract

The heater has a heat transfer surface (4) with a burner (3) with a combustion chamber (2) and an annular exhaust gas chamber. The burner flange (20) is positioned between a front face (24) of the transfer surface and a front face (25) of the blower casing (21). A sealing ring (27) is fitted in a triangular groove (26) between the flange and transfer surface.

Description

The invention relates to a motor vehicle heater that can be operated independently of the engine Heat exchanger in which a burner with a combustion chamber defining a Exhaust annulus is arranged, and which comprises a burner flange, which combustion air separates from exhaust gas, and with a combustion air fan, the housing on end of the burner flange on the burner flange side is sealed against the latter.

Such a heater, in which the burner flange inside the heater Separating combustion air from exhaust gas is known for example from DE 43 11 080 C1. To one Prevent mixing of exhaust gas and combustion air and thus a good and clean To ensure combustion, the burner flange is against the burner head using a Burner seal sealed. Because the combustion air gives the burner a slight overpressure is supplied, the fan housing is also against the burner head by means of a Sealed burner head gasket. The sealing surfaces on the burner head and on Blower housings are specially machined sealing surfaces and the seals in them Sealing areas are designed as solid seals. In other words, required this sealing principle two separate seals, the sealing surfaces for the Solid seals have to be processed in a costly manner.

In view of this prior art, the invention is based on the object engine-independent vehicle heater to create that in the area of Torch flange with a simple sealing structure the required sealing guaranteed.

This object is achieved by the features of claim 1. Advantageous developments of the invention are specified in the subclaims.  

Accordingly, the invention replaces the sealing structure according to the prior art with two Sealing points, which is dealt with above, by a simpler sealing structure, with a single sealing point based on a single sealing ring in a triangular groove between the side surface of the outer edge of the burner flange and the heat exchanger as well the combustion air fan housing is arranged. Such a seal structure replaces the solid state seals required in the prior art and a costly machining of the sealing surfaces, since the sealing ring in said triangular groove when assembling fan, heat exchanger and burner flange pressed at an angle becomes.

In addition, according to the invention, the burner flange is clamped between an end face the heat exchanger and an end face of the combustion air fan housing is arranged, becomes a "metallic seal" between the heat exchanger and the burner flange created, which protects the sealing ring from direct contact with hot exhaust gas.

Due to the inclined pressing provided according to the invention, the sealing ring seals in the triangular groove against the fan housing, the burner flange and the Heat exchanger. This makes it possible to use both a single seal Sealing combustion air from the environment as well as from the exhaust gas. The Shielding the seals against the exhaust gas due to the pinch between the Heat exchanger and combustion air blower housing arranged burner flange ensures that the seal is adequately shielded from the exhaust gas the resulting metallic sealing point. This measure can be used as a sealing ring a sealing ring that is insensitive to tolerance and flatness, for example an O-ring an elastomer material are used. Therefore, there is no need for an expensive one Machining the corresponding sealing surfaces.

The invention is explained in more detail below using the drawing as an example; the only figure shows a longitudinal section through the combustion chamber / heat exchanger part Heater.

The vehicle heater, which can in particular be a vehicle auxiliary heater with a liquid heat transfer medium, ie a water heater, is denoted overall by the reference number 1 in the figure. This heater consists, in a manner known per se, of a burner (not shown) which, coming from the left, projects coaxially into a combustion chamber 2 which is formed by a combustion tube 3 . The combustion chamber 2 is coaxially surrounded by a heat exchanger 4 , which consists of two die-cast parts, namely an inner part 5 and an outer part 6. The inner part 5 and the outer part 6 are each formed in a generally pot-shaped manner, the inner pot being inserted into the outer pot. In particular, the inner part 5 has a preferably cylindrical peripheral wall 7 and a bottom 8 , and in a similar way the outer part 6 has a peripheral wall 9 and a bottom 10 . The bottom 8 of the inner part 5 is structured on its inside.

The inner part 5 is arranged in the outer part 6 leaving an intermediate space 11 between the peripheral walls 7 and 9 and an intermediate space 12 between the bases 8 and 10 . In addition, the outer part 6 is formed axially shorter than the inner part 5 , which projects with its edge 13 opposite the bottom 8 over the edge 14 of the outer part 6 . The edges 13 and 14 are also referred to here as the pot edge, since the inner and outer parts 5 , 6 are pot-shaped.

On the edge 13 of the inner part 5 , a ring 15 is formed, which projects in the direction of the bottom 8 of the inner part 5 and has a larger inner diameter than the inner part 5 in the region of its edge 13 , the inner diameter of the ring 15 being approximately the outer diameter of the outer part 6 corresponds to 14 in the region of its edge. The axial extension length of the ring 15 is selected so that, with its end facing the bottoms 8 , 10, it engages around the edge 14 of the outer part 6 in a sealing manner, as explained in detail below. Due to this structure, an intermediate space 16 remains between the edge 13 of the inner part 5 and the ring 15 , which represents a continuation of the intermediate space 11 and extends up to the connection region of the ring 15 to the edge 13 of the inner part 5 .

To seal the ring 15 from the edge 14 of the outer part 6 , an O-ring 17 is used , which is provided between the inside of the edge 15 at its bottom end and the outside of the outer part 6 in its edge region. For axial guidance or to ensure an axial sealing seat, the inside of the ring 15 is circumferentially recessed in the region of its bottom end, and in a similar manner the outside of the outermost end of the edge 14 of the outer part 6 is recessed over its entire circumference. As a result, an annular step or shoulder 18 is formed on the ring 15 and an annular step or shoulder 19 is formed on the edge 14 of the outer part 16 , and these shoulders are spaced apart in the axial direction around the O-ring 17 in the axial sealing seat with a radial sealing effect to be able to record.

In the embodiment shown in the figure, the ring 15 extends axially beyond the outermost region of the edge 13 of the inner part 5 and defines a radial contact surface for a burner flange 20 of the fuel tube 3 and also forms a receptacle for the only with a projecting edge 29 Blower housing 21 shown in sections .

The spaces 11 , 12 and 16 are connected to one another, as can be clearly seen in the figure, and form a common space, through which a heat transfer medium, for example water, flows, which is fed into this common space via an inlet connection 22 and via an unillustrated one Drain pipe is diverted. In the embodiment shown, the inlet connection 22 opens into the bottom region of the heat exchanger 4 , ie into the intermediate space 12.

During the combustion, combustion gases emerging from the combustion chamber 2 are deflected in the region of the bottom 8 of the inner chamber within the latter into the region of the peripheral wall 7 and give off their heat to the heat carrier flowing in the intermediate space 11 , 12 , 16 , and the remaining gases are considered Exhaust gases discharged through an exhaust outlet 23 .

The exhaust outlet connection 23 is integrated in the heat exchanger 4 in the region of the pot edges 13 , 15 of the inner part 5 . Accordingly, the exhaust outlet 23 passes from the outside inwards the ring 15 , the space 16 in the ring area and the heat exchanger inner part 5. By arranging the exhaust outlet 23 directly on the heat exchanger 4 , a particularly compact design of the heat exchanger and thus the vehicle heater 1 is achieved because a burner head, which was previously used to support the exhaust outlet, can be dispensed with. In addition, the heat transfer length is advantageously shortened.

According to the invention, the burner flange 20 is arranged in a press fit between the annular end face 24 of the heat exchanger 4 and the likewise annular end face 25 of the blower housing 21 , and in the region of the outer edge of the burner flange 20 there is a triangular groove 26 in which an O-ring 27 is arranged as a sealing element . For the sake of clarity, the figure shows the triangular groove 26 in the upper region of the figure without an O-ring 27 arranged therein.

The triangular groove 26 is formed by an oblique surface 28 in the form of a ring, which adjoins the end face 25 of the blower housing 21 on the outside, the inside of the ring 15 , where it overlaps the blower housing 21 , and the side surface of the blower housing on the outer edge of the burner flange 20.

Due to the oblique pressing, the O-ring 27 simultaneously seals against the fan housing 21 (inclined surface 28 ), the burner flange 20 and the heat exchanger 4 . In this way, both combustion air against the environment and combustion air against exhaust gas can be sealed with a single seal. Since the O-ring 27 is shielded from exhaust gas by the metallic sealing point between the end face 24 of the heat exchanger 4 and the burner flange 20 , an elastomer ring can be used for the O-ring 27 , which has the advantage of being non-tolerant and insensitive to flatness. It is therefore not necessary to machine the sealing surfaces.

The inclined surface 28 does not necessarily have to be provided on the blower housing 21 . Rather, such an inclined surface can in principle also be provided on the side of the heat exchanger 4 , in which case the fan housing expediently overlaps the heat exchanger 4 in this area.

Instead of the triangular groove 26 , other, z. B. trapezoidal groove shapes can be used.

Reference list

1

heater

2nd

Combustion chamber

3rd

Fuel tube

4th

Heat exchanger

5

inner part

6

Outer part

7

Peripheral wall

8th

ground

9

Peripheral wall

10th

ground

11

Space

12th

Space

13

edge

14

edge

15

ring

16

Space

17th

O-ring

18th

shoulder

19th

shoulder

20th

Burner flange

21

Blower housing

22

Inlet nozzle

23

Exhaust port

24th

Face

25th

Face

26

Triangular groove

27

O-ring

28

Sloping surface

29

Edge (at

5

)

Claims (5)

1. Motor-independently operable vehicle heater, with a heat exchanger ( 4 ), in which a burner ( 3 ) with a combustion chamber ( 2 ) is arranged defining an exhaust gas annular space, and which comprises a burner flange ( 20 ) which separates combustion air from exhaust gas, and with A combustion air blower, the housing ( 21 ) of which is sealed at the end of the burner ( 3 ) on the burner flange side, characterized in that the burner flange ( 20 ) is clamped between an end face ( 24 ) of the heat exchanger ( 4 ) and an end face ( 25 ) of the Combustion air blower housing ( 21 ) is arranged, and that between a side surface of the outer edge of the burner flange ( 20 ) and the heat exchanger ( 4 ) and the combustion air blower housing ( 21 ) a triangular groove ( 26 ) receiving a sealing ring ( 27 ) is fixed. 2. Heater according to claim 1, characterized in that the heat exchanger ( 4 ) overlaps the combustion air fan housing ( 21 ) and the burner flange ( 20 ) with a ring section ( 15 ), and in that the triangular groove ( 26 ) is arranged in the region of this ring section. 3. Heater according to claim 2, characterized in that the triangular groove ( 26 ) from an annular inclined surface ( 28 ) of the combustion air fan housing ( 21 ), from an overlapping edge ( 29 ) of the heat exchanger ( 4 ) and from the side surface of the outer edge of the burner flange ( 20 ) is limited. 4. Heater according to claim 1, 2 or 3, characterized in that the sealing ring ( 27 ) is an O-ring. 5. A heater according to claim 4, characterized in that the sealing ring ( 27 ) consists of elastomer material.