DE102009058990A1 - Seal of a blower arrangement - Google Patents

Abstract

The invention relates to a blower arrangement with a motor with a motor shaft, a blower wheel driven via the motor shaft and arranged in a housing, the motor shaft and the blower wheel being axially movable, and a sealing arrangement, the housing having at least one passage opening which can be passed through the sealing arrangement an axial movement of the motor shaft and / or the impeller can be sealed. Furthermore, the invention relates to a method for leak testing of such a fan arrangement, wherein the motor shaft and / or the impeller are brought into contact with the seal arrangement by an axial movement and thus seal the passage opening for the motor shaft.

Description

The invention relates to a fan assembly with a motor with a motor shaft, a driven via the motor shaft, arranged in a housing impeller, wherein the motor shaft and the impeller are axially movable, and a seal assembly, wherein the housing has at least one passage opening, which by means of the seal arrangement an axial movement of the motor shaft and / or the impeller is sealable. Furthermore, the invention relates to a method for leak testing of such a blower arrangement, wherein the motor shaft and / or the impeller are brought by an axial movement with the seal assembly in contact and thus seal the passage opening for the motor shaft. Also, a testing device for carrying out the method is provided.

The fan assemblies of the present invention are often used in the heating industry as premixing blowers, usually gas and air being premixed into an ignitable mixture. It is therefore crucial that the fan assemblies, and in particular the housings, are sealed and the ignitable mixture can not escape.

The fan assemblies and in particular their housings are inspected for leaks after assembly and before delivery of the equipment in order to safely exclude the undesirable and inadmissible leakage of mixture. In the prior art, there are various versions of such fan assemblies. On the one hand, it is known to form the motor unit with the housing unit as an integral unit, wherein the motor unit rests directly on the housing. The central portion of the housing in which the impeller rotates has an opening into which the motor shaft and its mounting protrude. However, often formed as a ball bearing shaft bearings are leaking, so that during a leak test at positive or negative pressure air on the shaft bearings off / can occur. Due to different grease distribution in the bearing, no fixed loss value can be taken into account for the bearings (undefined leakage), which would make the measured values reproducible for the different fan arrangements.

In another embodiment, the motor assembly and the housing of the fan assembly are arranged separately and connected, for example by means of screws, wherein only the motor shaft extends from the motor assembly into the interior of the housing for receiving the impeller. The bearing of the motor shaft is in this case realized mostly on one side in the motor assembly, so that the housing has only one passage opening for the motor shaft.

To leak test the above-mentioned fan assemblies and the housing of the fan assembly had to be set on the assembly of the electronics, the motor shaft and the shaft bearing an atmospheric tight bell to achieve independent of the tightness of the shaft seal or shaft bearing result. The atmospherically tight bell here ensured a tightness of the motor assembly regardless of the housing.

For the sealing of the opening in the housing for the entry of the motor shaft were previously provided as a rule permanent seals that ensured the tightness for both the leak test after assembly, but also unnecessarily in the same quality beyond.

It is therefore an object of the present invention to provide a device and a method by which the tightness of the fan assembly can be tested during a leak test under pressure or overpressure, without the need for an external sealing bell. It is another object of the invention to provide a method by which the tightness of the fan assembly after assembly and before delivery can be checked quickly, easily and thus cost-effectively.

This object is achieved with the subject of independent claim 1 and the method claim 12.

There is provided a fan assembly including a motor with a motor shaft, a motor shaft driven, disposed in a housing impeller, wherein the motor shaft and the impeller are axially movable. The terms "axially movable" and "axial movement" are understood to mean that the movement along the axis of the motor shaft or the intake of the impeller can take place. The fan assembly further includes at least one seal assembly. The housing of the blower arrangement has a passage opening which can be sealed by means of the seal arrangement by an axial movement of the motor shaft and / or the blower wheel. The advantage of this embodiment lies in a simple and safely manageable fan arrangement, the leak test is facilitated and ensures reproducible results. In particular, the time required for the leak test is also shortened and thus saved costs. In the embodiment according to the invention is particularly advantageous that the sealing of the housing does not have to be permanently guaranteed, but only in the Sealing test the motor shaft and / or the impeller are pressed against a seal assembly to ensure a firm concern of the seal assembly on the housing edge and to prevent leakage during the leak test. After completion of the leak test, the motor shaft and / or the impeller move in the starting position back to the operating position. Of course, it is also ensured in the operating position that it can not come to the exit of mixture in the intended use.

According to the invention, the axial movement of the motor shaft and / or the impeller takes place relative to the housing. This is made possible by the fact that the connection between the housing and the motor assembly has a certain elasticity, for example by rubber buffers, so that the motor assembly is movable relative to the housing during the axial movement. Alternatively, the attachment means (eg, screws) for attaching the engine assembly to the housing may not be fully tightened to allow for mobility relative to the housing. The feature of an "axial movement" of the motor shaft thus includes the active movement of the shaft in the axial direction as well as the movement of the housing relative to a standing wave, whereby the identical effect is achieved.

In a favorable embodiment, the seal arrangement can be buttoned into the passage opening on the housing, so that a quick assembly of the seal assembly is ensured.

In a preferred embodiment, the housing in the region of the passage opening for receiving the seal assembly may be formed thinner wall than in the remaining region of the housing to complete the projecting into the interior of the housing portion of the seal assembly as flush as possible with the inner wall of the housing.

In an alternative embodiment, depending on the elasticity of the material used for the seal assembly, it may be advantageous that the seal assembly in the region of the passage opening protrudes to a certain extent in the interior of the housing, without affecting the flow or the movement of the impeller negative , When pressing the impeller or the motor shaft of the protruding portion of the preferably rubber-formed seal assembly can be pressed to the sides to extend beyond the edges of the passage opening and thus to ensure a particularly secure seal.

Furthermore, it is favorable that the sealing arrangement together with the housing in the region of the passage opening can form a stop for the axial movement of the motor shaft and / or the fan wheel. The axial movement of the motor shaft and / or the impeller is limited by the voltage applied to the housing wall sealing arrangement, wherein the pressing against the seal assembly ensures the seal. Preferably, the fan assembly on the opposite side of the passage opening having an opening into which a means for ensuring the axial movement of the motor shaft and / or the impeller is insertable. The opening may be the intake opening for ambient air. The means may be formed as a stamp, which shifts the motor shaft and / or the impeller in the axial direction against the seal assembly and at the same time seals the opening for the suction of ambient air.

In a preferred embodiment, the impeller is mounted on the motor shaft, so that the axial movement to the seal assembly is realized through both components.

Alternatively, it can also be provided that on the motor shaft is a integrally formed or attached peripheral protruding edge is given, which can optionally serve as a stop for the impeller and is pressed at an axial movement of the motor shaft and / or the impeller to the seal assembly. Such an edge can be ensured for example by providing a sintered ring.

The invention further includes the method of leak testing the fan assembly, wherein the fan assembly may include the above features. The method is characterized in that the motor shaft and / or the impeller are moved axially and brought into contact with the seal assembly. The impeller mounted on the motor shaft has an operating position in which it is spaced from the inside of the housing wall. For leak testing, the motor shaft and / or the impeller is displaced in the axial direction by an external means, preferably a kind of punch and pressed against the arranged at the passage opening of the housing seal assembly. In the case of an edge provided on the motor shaft, the edge is pressed against the sealing arrangement instead of the impeller. Due to the movable mounting of the motor assembly may conveniently be carried out relative to the housing axial movement.

To carry out the leak test, a predefined pressure (positive or negative pressure) is generated within the housing after sealing the passage opening with the above steps, then the pressure change is checked per time.

Furthermore, a test device for leak testing of a blower is proposed, which can accommodate the blower described above for testing. The test device comprises a holding device for fastening the housing, wherein the preferably designed as a stamp means for axial movement of the motor shaft and / or the impeller are arranged on the holding device and relative to a fixed to the holding device such a blower, so that at least a part of the means for Axialbewegung the motor shaft and / or the impeller protrude at least during the leak test in the interior of the housing and seal the fan housing.

Further features, advantages and embodiments of the invention are the subject of the following description and the drawings of exemplary embodiments.

Show it:

1 a partial sectional view of a fan assembly on a test unit in the operating state,

2 the sectional view acc. 1 in test condition,

3 an enlarged detail view 1 .

4 an enlarged detail view 2

5 a partial sectional view of a blower assembly on a test unit in the operating state in an alternative embodiment,

6 the sectional view acc. 5 in test condition,

7 a sectional view of an alternative embodiment of the impeller in a sectional view.

1 shows a fan assembly with a motor 2 or motor housing, by means of connecting elements to the housing 5 the blower assembly is attached. The attachment is designed such that between the engine 2 and the housing 5 a relative movement is ensured, this is made possible for example by elastic elements. From the engine 2 extends through a substantially arranged in the central region of the housing wall passage opening the motor shaft 3 inside the case 5 where she is with the blower wheel 4 connected is. The blower assembly is mounted on a test device, a punch 6 comprises, which can be moved into an opening opposite the passage opening into the motor shaft 3 with the blower wheel 4 to move axially. At the same time, the stamp seals 6 im to the case 5 applied state the opening.

The seal arrangement 1 extends from the area of the engine 2 or the motor housing into the interior of the housing 5 the blower wheel 4 and seals on the one hand the engine 2 against contamination from the outside, at the same time, the seal of the passage opening at the housing 5 guaranteed. Thus, the seal assembly 1 at the same time motor shaft seal for the assembly of the engine 2 and the housing 5 form.

1 shows the fan assembly in operating position, that is, the impeller 4 is from the seal arrangement 1 spaced and free within the housing 5 rotate. The seal arrangement 1 is preferably formed of elastomeric material and into the passage opening of the housing 5 buttoned. How out 3 , an enlargement view of the central area 1 shows, is the case 5 In the region of the passage opening formed thinner wall than in the remaining area to the seal assembly 1 and against the inner surface of the housing 5 to form a substantially flush surface. With appropriate material of the seal assembly 1 may also be preferred that these in the interior of the housing 5 protrudes to when pressing the impeller 4 to achieve the highest possible sealing effect.

2 shows the blower arrangement 1 in a test condition for performing the tightness test of the housing 5 , The associated 4 shows a partial enlargement of the central area 2 , With the stamp 6 is the fan wheel 4 with the motor shaft 3 in the axial direction relative to the housing 5 moved until the fan wheel 4 at the seal arrangement 1 abuts and the housing 5 seals to the outside. Due to the axial movement of the motor shaft 3 with the blower wheel 4 becomes the engine 2 lifted and moved relative to the housing, that is, the distance between the housing 5 and engine 2 is enlarged. The Stamp 6 lies on the opposite side of the housing 5 and seals the suction port of the fan. The at the passage opening of the housing 5 Buttoned seal arrangement 1 forms a stop for the axial movement of the motor shaft 3 with the blower wheel 4 , wherein for the leak test the impeller 4 against the seal arrangement 1 is pressed in the region of the passage opening so that a secure seal is ensured. The seal arrangement 1 supports itself during the pressing on the thin-walled area of the housing.

The 1 and 2 , of which ever a section in the 4 and 5 shown enlarged, show the conditions during operation and for the density test, the inventive method for performing the leak test requires further, not shown elements such as a device for generating pressure in the housing. To carry out the method, the fan assembly is first placed on the test device, attached and then the stamp 6 introduced into the housing interior. By the axial movement of the punch 6 becomes the impeller 4 with the motor shaft 3 in the axial direction against the seal arrangement 1 pressed and thus sealed the housing. Inside the case 5 A predefined pressure is generated and then checked to what extent the applied pressure changes.

In 5 a partial sectional view of a blower assembly is shown on a test unit in the operating state in an alternative embodiment. The features are essentially up to the formation of the stamp with those from 1 match. In contrast to the execution according to 1 is the stamp 6 designed in several parts and includes a stamp element 6 ' and a necking element 6 '' , The stamp element 6 ' is opposite the neck element 6 '' in the axial direction to the motor shaft 3 movable, being between approach element 6 '' and stamp element 6 ' a sealing device 7 is provided, which are the two elements 6 ' . 6 '' seals against each other. As a sealing device shaft seals or O-rings can be used here.

6 shows the arrangement 5 in the test position, with the neck element 6 '' as in 1 on the opposite side of the case 5 is present and this seals. The stamp element 6 ' is engaged with the axial end of the motor shaft and is displaced in the axial direction toward the motor assembly, so that the motor shaft 3 and blower wheel 4 opposite the housing 5 are axially displaced. The sealing of the housing 5 is identical to 2 , Due to the mobility of the stamp element 6 ' opposite the attachment element 6 '' must be the seal of the housing 5 at the opening and the punch 6 opposite the housing 5 can not be done simultaneously, but can first stamp 6 sealingly placed on the housing and then by the axial movement of the punch element 6 ' as well as the motor shaft 3 the seal will be generated.

In 7 is a sectional view of an alternative embodiment of the impeller 4 shown in a sectional view, on the left side, the operating position and the right side, the test position is shown. The fan wheel 4 includes a central section 4 ' extending in the axial direction substantially along the motor shaft 3 extends, wherein the central portion 4 ' is formed conically at its pointing in the direction of the passage opening end. In the operating position is the central section 4 ' from the seal arrangement 1 spaced, in the test position, the seal assembly 1 from the central area 4 ' the passage opening pressed radially outwards to the sealing arrangement in the lateral and longitudinal direction to be applied to the housing wall and thus to ensure a particularly good seal. The seal arrangement 1 has a material thickness in this embodiment that it protrudes into the housing interior to ensure sufficient material for the complete coverage of the wheel portion of the passage opening. In order to reduce the height of the region projecting into the interior of the housing, the housing wall has a recess in the region of the edge section, the edge section itself being formed with a reduced housing wall thickness. Due to the axial movement of the motor shaft 3 the central section glides 4 ' into the interior of the passage opening and compresses the seal assembly 1 with the housing wall.

1 . 2 . 5 and 6 further show the testing device of the present invention, in the blower on a holding device 8th is attached. The Stamp 6 is on the holding device 8th arranged and is in the axial direction to the housing 5 moved to the motor shaft 3 and / or the impeller 4 so against the seal assembly 1 to push that housing 5 is sealed.

The invention is not limited in its execution to the embodiment shown above. Rather, a number of variants is conceivable, which makes use of the illustrated solution even with fundamentally different types of embodiments and are also within the scope of the invention. Thus, it is possible, for example, to form the housing with a uniform housing wall thickness, and to supplement the interior of the housing extending sealing arrangement on the side facing the housing inner wall with the seal supportive means, such as adhesive. It is also possible on the motor shaft 3 in the region of the seal arrangement to provide a peripheral edge (not shown), which serve as a stop for the impeller and is axially compressible for leak testing with the motor shaft against the seal assembly.

Claims (15)

Blower arrangement comprising: - a motor ( 2 ) with motor shaft ( 3 ), - via the motor shaft ( 3 ), in a housing ( 5 ) arranged impeller ( 4 ), wherein the motor shaft ( 3 ) and the impeller ( 4 ) are axially movable, - at least one seal arrangement ( 1 ) - wherein the housing ( 5 ) has at least one passage opening, which by means of the at least one sealing arrangement ( 1 ) by an axial movement of the motor shaft ( 3 ) and / or the blower wheel ( 4 ) is sealable. Blower arrangement according to claim 1, characterized in that the axial movement relative to the housing ( 5 ) he follows. Blower arrangement according to one of claims 1-2, characterized in that during the axial movement of the motor shaft ( 3 ) and / or the blower wheel ( 4 ) the motor ( 2 ) opposite the housing ( 5 ) is movable. Blower arrangement according to one of the preceding claims, characterized in that the housing ( 5 ) formed thin-walled in the region of the passage opening and / or the sealing arrangement ( 1 ) is einknöpfbar in the passage opening. Blower arrangement according to one of the preceding claims, characterized in that the sealing arrangement ( 1 ) in the region of the passage opening into the interior of the housing ( 4 protruding). Blower arrangement according to one of the preceding claims, characterized in that the sealing arrangement ( 1 ) with the housing ( 5 ) forms a stop for the axial movement. Blower arrangement according to one of the preceding claims, characterized in that the housing ( 5 ) has an opening into which a means for axial movement of the motor shaft ( 3 ) and / or the blower wheel ( 4 ) is insertable. Blower arrangement according to one of the preceding claims, in which an operating and a test state can be realized, characterized in that, in the operating state, the impeller ( 4 ) of the sealing arrangement ( 1 ) is spaced. Blower arrangement according to one of the preceding claims, in which an operating state and a test state can be realized, characterized in that, in the test state, the impeller ( 4 ) on the seal assembly ( 1 ) is present. Blower arrangement according to one of the preceding claims, characterized in that the impeller ( 4 ) with the motor shaft ( 3 ) connected is. Blower arrangement according to one of the preceding claims, characterized in that the impeller 4 a central section 4 ' has, one end of which is conical in shape. A method of leak testing a fan assembly, wherein the fan assembly comprises a motor ( 2 ), a motor shaft ( 3 ) and mounted on the motor shaft and within a housing ( 5 ) arranged impeller ( 4 ), wherein the housing has at least one passage opening, on which a sealing arrangement ( 1 ), characterized in that the motor shaft ( 3 ) and / or the impeller ( 4 ) is moved axially and with the sealing arrangement ( 1 ). Method according to the preceding claim, characterized in that the motor shaft ( 3 ) and / or the impeller ( 4 ) are axially moved by external means and the axial movement relative to the housing ( 5 ) he follows. Method according to one of the preceding claims 12 to 13, further comprising the steps: - a predefined pressure within the housing ( 5 ), - pressure change per time in the housing ( 5 ) check. Test device for leak testing a blower according to claims 1 to 11, with a holding device ( 8th ) for fastening the housing ( 5 ), wherein the means for axial movement of the motor shaft ( 3 ) and / or the blower wheel ( 4 ) on the holding device ( 8th ) and opposite one on the holding device ( 8th ) are movable, so that at least part of the means for axial movement of the motor shaft ( 3 ) and / or the blower wheel ( 4 ) at least during the leak test in the interior of the housing ( 5 protrude).

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