DE10315779A1 - Blower, in particular combustion air blower for a vehicle heater - Google Patents

Abstract

A blower, in particular a combustion air blower for a vehicle heater, comprises a blower housing (12) with an inlet area and an outlet area (20) for the medium to be conveyed, and a feed wheel (16) with a conveyor blade arrangement (24), the feed wheel (16) on the Blower housing (12) is supported for rotation about an axis of rotation (A) and, in cooperation with the blower housing (12), delimits a conveying duct region (18), the conveying wheel (16) and the blower housing (12) on their mutually facing sides forming the conveying duct region (16) form the final labyrinth seal formation (26).

Description

The The present invention relates to a blower, in particular a combustion air blower for a vehicle heater, comprising a blower housing with an entrance area and an exit area for the promotional Medium as well as a conveyor wheel with a conveyor bucket arrangement, being the feed wheel on the blower housing Rotation is carried about an axis of rotation and in cooperation with the blower housing Delivery channel area limited.

such Fan, which are also commonly referred to as side channel blowers used in the vehicle sector, for example, in parking heaters or supply the necessary combustion air to a heater in a combustion chamber. With these blowers the turbine wheel-shaped conveyor wheel is positioned so that it is opposite one side of the blower housing and in this way between the feed wheel and the fan housing Volume area is limited, which is generally referred to as the delivery channel area and in which the medium to be funded, for example the combustion air, compressed or from the entry area to the exit area promoted becomes. In order to promote or Compress this to be promoted Medium to keep the pressure losses as low as possible, it is in Generally known, the distance between the feed wheel and the opposite side or surface of the blower housing like this low as possible adjust. In general, there is an end wall of the feed wheel or an outer shell the same a surface of the blower housing with very small distance in the range of a few tenths of a millimeter across from. To this precision to be able to achieve have to these two components are provided with appropriate manufacturing accuracy what generally means that the blower housing on that Side on which it is together with the feed wheel by slight mutual Distance one if possible tight closure of the delivery channel area is to be reworked by turning.

It The aim of the present invention is a blower, in particular To provide combustion air blowers for a vehicle heater, that has a very simple structure, a higher funding efficiency.

According to the present Invention, this object is achieved by a blower, in particular combustion air blower for a vehicle heater, comprising a blower housing with an entrance area and an exit area for the promotional Medium as well as a conveyor wheel with a conveyor bucket arrangement, being the feed wheel on the blower housing Rotation is carried about an axis of rotation and in cooperation with the blower housing Delivery channel area limited, the feed wheel and the blower housing on hers sides facing each other form a labyrinth seal formation that closes the conveyor channel area form.

at The invention is therefore the escape of under pressure in the delivery channel area existing to be funded Medium thereby complicates or prevents the two from being relative in terms of mutually turned assemblies conveyor wheel and blower housing together form a labyrinth seal formation. Doing so without the need mutually abutting sealing surfaces of elastic sealing elements or the like comparatively tight closure of the delivery channel area reached.

For example can be provided that one each on the feed wheel and the blower housing Sealing section arrangement is formed, the sealing section arrangements overlap in the axial direction and are adjacent to each other in the radial direction.

A for manufacturing reasons preferred variant can provide that on an assembly of fan housing and conveyor wheel a depression formation encircling the axis of rotation is provided and on the other assembly of fan housing and feed wheel one in the depression formation engaging projection formation is formed. A particularly dense Completion can be achieved if the depression formation at least is groove-like in some areas. Alternatively or additionally be provided at least in areas that the depression formation at least is designed step-like in some areas. Because in general that Blower housing that component where a depression, either groove-like or step-like, is easier to attach, according to another advantageous Aspect suggested that the depression formation formed on the blower housing and the projection formation is formed on the feed wheel.

Also in the embodiment of such a blower according to the invention, it can be advantageous to increase the sealing efficiency by reducing the mutual distance between the feed wheel and the blower housing in those areas in which the medium present and under pressure in the feed channel area could escape as little as to keep possible. However, this is generally made more difficult by the axially overlapping areas of the labyrinth seal formation insofar as there is no direct access, either mechanically or optically or in any other way, to the surface areas to be positioned at a short distance from one another. It is therefore proposed that a distance control area is provided in which an axial relative position of the projection formation with respect to the engagement formation can be checked. For example, it is possible for the distance control area to comprise at least one control opening that opens into the depression formation and that determines an axial distance between a depression bottom of the depression formation and the projection formation axially opposite this depression bottom. The blower according to the invention can further be constructed such that the labyrinth seal formation comprises a first sealing area lying radially outside the conveying channel area and / or a second sealing area lying radially inside the conveying channel area. In particular, if there are respective sealing areas of the labyrinth seal formation both radially inside and radially outside, a very efficient closure of the delivery channel area against the escape of the medium to be delivered, for example combustion air, can be achieved.

The present invention will hereinafter be described with reference to the accompanying Drawings in detail based on preferred embodiments described. It shows:

1 a partially sectioned perspective view of a blower according to the invention;

2 an axial sectional view of the in 1 illustrated fan;

3 one of the 1 corresponding view of an alternative embodiment of the blower according to the invention;

4 An axial sectional view of the in 3 fan shown.

In the 1 and 2 is a first embodiment of a blower, generally also called side channel blower, with the reference symbol 10 designated. This blower 10 includes a blower housing as essential components 12 and on an axial side 14 of the same a feed wheel 16 , The conveyor wheel 16 is driven by a drive motor, not shown in the figures, for example an electric motor, for rotation about an axis of rotation A. The conveyor wheel 16 and the blower housing 12 limit one essentially on the axial side 14 of the blower housing 12 provided conveyor channel area 18 , Rich in this Förderkanalbe 18 leads an entry area, which enables the entry of the medium to be conveyed, for example air. Furthermore, an exit area leads from the area to be conveyed, for example in the form of an exit channel or an exit opening 20 , out of which outlet opening 20 the medium to be pumped the conveyor channel area 18 can leave.

The essentially toroidal structure and on the blower housing 12 facing axial side open feed wheel 16 has a toroidal or ring-shaped shell 22 on, which in the circumferential direction around the axis of rotation A successively a plurality of inclined conveyor blades 24 wearing. By the rotation of the feed wheel 16 and the shape of the blower housing 12 to provide the conveyor channel area 18 is achieved that through the entry area in the conveyor channel area 18 medium to be conveyed is compressed and under pressure from the outlet opening 20 is expelled.

To escape the medium to be pumped from the delivery channel area 18 at unsuitable positions, especially at the border area between the feed wheel 16 and the blower housing 12 to avoid is a general with 26 designated labyrinth seal formation available. This includes in the 1 and 2 illustrated design example a projection area 28 on the radially outer area of the shell 22 of the conveyor wheel 16 is provided and axially, ie in the direction of the axis of rotation A, over the other level of the feed wheel 16 protrudes. This lead area 28 is preferably continuous in the circumferential direction about the axis of rotation A, that is to say without interruption.

On the blower housing 12 is on page 14 the conveyor channel area 18 surrounding a depression formation formed here step-like 30 educated. You can see in the right half of the 2 that also the shape or extension of the projection area 28 Corresponding step-like depression is formed, which extends radially inward to the delivery channel area 18 is open, but radially outwards through a peripheral wall 32 on the blower housing 12 is limited. This peripheral wall 32 of the depression area 30 and the projection area 28 on the conveyor wheel 16 are opposite each other with a small distance in the radial direction. Also an in 1 recognizable and the sink area 30 axially limiting depression 34 as well as the end face oriented in the axial direction 36 of the protrusion area 28 at the funding wheel 16 are opposite each other with a small axial distance. The distances mentioned here can be in the range of a few tenths of a millimeter.

By providing this labyrinth seal formation 26 becomes the conveyor channel area 18 sealed radially outwards against the undesired escape of medium to be conveyed contained therein under pressure, so that an increased conveying efficiency of the blower thus formed 10 can be obtained.

In order to be able to prevent the escape of medium to be conveyed at a suitable point, it is further advantageous to adjust the axial distance between the conveying wheel 16 and the blower housing 12 or to keep page 14 of the same as low as possible. In order to be able to set this distance in a defined manner, the blowers according to the invention are 10 several radially into the depression area 30 opening control openings 38 intended. These inspection openings 38 are designed in such a way that, when viewed in the radial direction, they are the bottom of the depression 34 can be seen, as well as the axial end of this depression 34 opposite projection area 28 , This control, which can be carried out by optical measuring devices, for example, can detect how large the axial spacing of these areas is with respect to one another, so that it also affects the relative axial position of the feed wheel which is then known due to the defined design of the components 16 regarding the fan housing 12 for example, radially within the conveyor channel area 18 lying section can be closed. To design these inspection openings 38 can be carried out, for example, with a somewhat greater depth than the depression region 30 can be formed and possibly even in the subsidence 34 can open out, but must not completely penetrate it, so that there is still a basic area provided with a defined axial position 34 can be viewed from the radially outside. After checking and, if necessary, correct setting of the installation position of the feed wheel 16 on the blower housing 10 or on a drive shaft of the drive motor, not shown, these control openings 38 then sealed to prevent the unwanted escape of the medium to be conveyed.

Another embodiment of a fan according to the invention is shown in 3 shown. Components which correspond to components described above in terms of structure or function are identified by the same reference numerals.

One recognizes in 3 and in 4 first of all that the conveyor channel area 18 depression area that surrounds the outside or closes radially to the outside 30 is now groove-like, ie a groove running around the axis of rotation A. 40 includes, which is completed both radially outwards and radially inwards. In this groove 40 grips the shell with a slight radial offset 22 of the conveyor wheel 16 trained projection area 28 on. Thus, by enlarging the surface areas of the feed wheel lying opposite each other at a small distance 16 and the blower housing 12 a further improved sealing function can be achieved.

In addition to the conveyor channel area 18 radially outward surrounding or radially outward indentation area 30 and the associated projection area 28 is now on the conveyor wheel 16 radially within the conveyor channel area 18 , ie also radially within that on the shell 22 worn conveyor shovels 24 , a ring-like circumferential and over the general axial level of the feed wheel 16 projecting projection area 28 ' educated. In association with this is on page 14 of the fan housing 12 another sink area 30 ' in the form of a groove formed around the axis of rotation A. 40 ' educated. So here form the depression area 30 and the projection area 28 a the conveyor channel area 18 sealing area radially surrounding or sealing 42 the labyrinth seal formation 26 , during the depression area 30 ' and the projection area 28 ' a the conveyor channel area 18 sealing area closing radially inwards 44 the labyrinth seal formation 26 form. Thus, the completion of the delivery channel area 18 against the undesired escape of pressurized medium to be promoted.

Of course, also in the 3 and 4 shown embodiment the groove-like control openings already mentioned above 38 are provided, which again provide a lateral or radial insight into the area of the depression base 34 of the subsidence area 30 to give the axial distance between this depression 34 and the opposite axial end face 36 the projection formation 28 to enable. Because of the precise manufacturability of the feed wheel 16 on the one hand and the blower housing 12 on the other hand, with correct relative positioning of the projection area 28 in the depression area 30 conclude that the feed wheel is also in the radially inner area 16 and the blower housing 12 face each other with the appropriate small axial distance.

It goes without saying that even in the 1 and 2 shown embodiment, in which only the radially outer sealing area 42 is present, a groove-like depression area and the projection area can be assigned to it. Of course, the reverse can also be done in the 3 and 4 shown variant of the respective depression area 30 respectively. 30 ' be designed with a step-like configuration, that is to say one side limited in the radial direction. This step-like configuration could in principle also be such that the on the blower housing 12 intended circumferential wall (in 2 peripheral 32 ) represents an outer peripheral wall, which is then surrounded by the associated projection area. The same naturally also applies to the sealing area 44 which is the conveyor channel area 18 seals radially inwards.

Claims (9)

Blower, in particular combustion air blower for a vehicle heater, comprising a blower housing ( 12 ) with an entrance area and an exit area ( 20 ) for the medium to be pumped and a feed wheel ( 16 ) with a conveyor bucket arrangement ( 24 ), the feed wheel ( 16 ) on the fan housing ( 12 ) is supported for rotation about an axis of rotation (A) and in cooperation with the fan housing ( 12 ) a conveyor channel area ( 18 ) limited, the feed wheel ( 16 ) and the fan housing ( 12 ) on their mutually facing sides the conveyor channel area ( 16 ) final labyrinth seal formation ( 26 ) form. Blower according to claim 1, characterized in that on the feed wheel ( 16 ) and the blower housing ( 12 ) one sealing section arrangement each ( 28 . 30 . 28 ' . 30 ' ) is formed, the sealing section arrangements ( 28 . 30 . 28 ' . 30 ' ) overlap in the axial direction and are adjacent to one another in the radial direction. Blower according to claim 1 or 2, characterized in that on an assembly ( 12 ) of blower housing ( 12 ) and conveyor wheel ( 16 ) a depression formation encircling the axis of rotation (A) ( 30 . 30 ' ) is provided and on the other module ( 16 ) of blower housing ( 12 ) and conveyor wheel ( 16 ) into the depression formation ( 30 . 30 ' ) engaging projection formation ( 28 . 28 ' ) is formed. Blower according to claim 3, characterized in that the depression formation ( 30 ' ) is at least partially groove-like. Blower according to claim 3 or 4, characterized in that the depression formation ( 30 ) is at least partially stepped. Fan according to one of claims 3 to 5, characterized in that the depression formation ( 30 . 30 ' ) on the blower housing ( 12 ) is formed and the projection formation ( 28 . 28 ' ) on the feed wheel ( 16 ) is formed. Blower according to one of claims 3 to 6, characterized in that a distance control area ( 38 ) is provided, in which an axial relative position of the projection formation ( 28 ) regarding the engagement formation ( 30 ) can be checked. Blower according to claim 7, characterized in that the distance control area ( 38 ) at least one in the depression formation ( 30 ) confluence and the determination of an axial distance between a subsidence ( 34 ) the depression formation ( 30 ) and this reason for sinking ( 34 ) axially opposite projection formation ( 28 ) permitting inspection opening ( 38 ) includes. Blower according to one of claims 1 to 8, characterized in that the labyrinth seal formation ( 26 ) a radially outside of the delivery channel area ( 18 ) lying first sealing area ( 42 ) and / or a radially inside the delivery channel area ( 18 ) lying second sealing area ( 44 ) includes.