DE202020102201U1 - Foot mounting for a cast housing or a housing-free rotating electrical machine with surface cooling - Google Patents

Abstract

Foot mounting for a cast housing or a laminated housing of a rotating electrical machine with surface air cooling along axially aligned longitudinal cooling fins (2) and a foot mounting (3) by means of one, two or four feet, in particular for a housing (1) of an asynchronous motor, characterized in that
that one or more baseboards (4) or individual feet (4.1) are arranged on the housing (1) left or right, or left and right,
the baseboard (s) (4) or individual feet (4.1) are screwed to the housing (1) in solid cast-foot ribs (9) by means of fastening screws (5),
recesses (6) are arranged in the housing (1) and the baseboard (s) (4) or the individual feet (4.1),
the shape of which corresponds to the shape of shims or shims (7),
fitting plates or shims (7) are interposed in these recesses (6),
the thickness of the shims or shims (7) is greater than the sum of the depth of the recesses (6) lying opposite,
so that the baseboard (s) (4) or the individual feet (4.1) are spaced from the housing (1) and a defined free space (C) is formed.

Description

The invention relates to a new type of foot mounting for a cast housing or a housing-less rotating electrical machine with surface air cooling, in particular for housings for electromotive drives.

In air-cooled rotating electrical machines, the heat generated during operation in the interior of the active part is dissipated through the laminated core to the surrounding housing and then released to the outside via the surface of the housing. These machines often have self-cooling, whereby a fan connected to the machine shaft generates an axial cooling air flow by means of a fan hood. In order to optimally utilize this axial flow, the housings are generally provided with axially extending cooling fins, which offer the largest possible surface area in order to release a maximum of the air flowing past. The rotating electrical machine is attached to a footprint or a prepared foundation at the place of use using the foot attachment. However, this optimal housing geometry cannot be realized in the area for the foot attachment, so that heat can often occur in these areas. In addition, uneven heating is unfavorable, worsens operational behavior, can lead to premature aging of the insulation, which means that these machines are more likely to fail and have to be replaced.

So z. B. from the DE 32 42 864 C1 describes an electric machine housing with axially aligned longitudinal cooling fins and baseboards arranged between the longitudinal cooling fins, optimal attachment using a four-point system being achieved by fastening projections fixed to the housing in that the counter surfaces for the arrangement of the baseboards on the housing are inclined at exactly 45 degrees and these surfaces are designed without a cooling fin . The baseboards are thus releasably attached. However, in the area of the baseboards, where they are connected to the housing in the housing projections via fastening screws, a massive accumulation of material is formed, so that the heat dissipation is not optimal here and heat pockets will inevitably form in this area of the machine.

In the DE 103 18 430 B 4 describes a housing of an electrical machine, where an insertion channel is formed in one of the cast ribs of the housing, in which an insert element can be arranged to be inserted laterally, and which in the tensioned state is laterally supported on two cast surfaces of this cast rib which are inclined parallel to one another. Using this insert element, the baseboard is screwed to the cast housing. Optimal heat dissipation in the foot area is not possible with this solution. This type of foot attachment is intended to implement a universal arrangement for a wide variety of installation variants.

The DE 10 2009 010 718 A1 describe a fastening device for a stator housing, which has a fastening element and a foot part, wherein the foot part has an attachment section and this attachment section comprises at least two contact surfaces which correspond to an opposite side of a housing assembly section of the stator housing, so that the foot part in at least two different positions with the Fastening element can be fastened to the stator housing. With this stator housing with an attached baseboard, undesirable heat build-ups are likely to occur in the foot area during operation.

In the EP 0 438 617 B 1 is the foot attachment on the long sides of the stator housing of an electrical machine relative to the substructure in such a way that the feet of the machine are designed to be resilient in the vertical and horizontal directions, the translation and tilting natural frequencies of both the rotor and the stator in one to avoid this distance from resonances required to occur excitation frequencies. If necessary, separately arranged intermediate bodies are arranged between the feet and the foundation base for height alignment. In addition, the feet are preferably arranged in a V-shape.

The object of the invention is to provide a novel universal structurally simple foot mounting for a cast housing or a housing-less rotating electrical machine with surface air cooling, in particular for housings of electromotive drives, which also allows the machine to be adequately cooled in the area of the foot mounting and which has a uniform cooling Heating over the cross-section of the entire machine enables, which ultimately leads to an extended service life.

According to the invention the object is achieved with the features of the first claim for protection. Further advantageous embodiments are described in the subordinate claims. The foot attachment for a cast housing or a laminated housing of a rotating electrical machine with surface air cooling takes place, as is known per se, along axially aligned longitudinal cooling fins 2nd . The foot is attached using at least one screwed foot attachment 3rd , consisting of one, two or four individual feet or two longer skirting boards, depending on the size of the electrical machine. It is special suitable for housings of air-cooled asynchronous motors. According to the invention are on the housing 1 left or right, or left and right one or more baseboards 4 or single feet 4.1 arranged. These are equipped with a cast foot rib that is solidly formed in the housing 9 screwed. In the massive cast foot rib 9 For this purpose, holes are arranged at a suitable point, into which threads are cut. The threaded holes do not usually go through the housing. The cast foot rib 9 is formed in the material cross section larger than the other longitudinal cooling fins, the longitudinal cooling fins 2nd each have an optimal geometric design for better cooling. The skirting board (s) 4 or single feet 4.1 are with the housing 1 via one or more intermediate shims or shims 7 in the solidly formed cast foot ribs 9 using fastening screws 5 screwed at a distance. In the cast foot ribs 9 of the housing 1 and the skirting (s) 4 or the single feet 4.1 is at least one recess each 6 arranged, their shape with the shape of shims or shims 7 matches. In these recesses 6 are specially adapted shims or shims 7 inserted so that the baseboard (s) 4 or the individual feet 4.1 from the housing 1 are spaced and thus a defined space C. is trained. This different type of spaced-apart foot connection allows the heat from the interior of the electrical machine, which has been distributed in the cast housing and which accumulates especially in the area of the foot connection, to be controlled on the fitting plates or shims 7 be delivered. Between the shims or shims 7 and the baseboards 4th or single feet 4.1 can the axially flowing cooling air unhindered by the defined space created C. flow so that good heat can also be given off to the cooling air in this area. This makes it possible to drive the motor via the housing 1 also in the area of foot mounting 3rd by means of cooling air generated by the fan and flowing axially through the cooling fins better than before.

The heat dissipation can be at the foot attachment 3rd for a cast housing or a laminated housing of a rotating electrical machine can be further improved if the shim washers or shim plates 7 are formed from materials which have a particularly high thermal conductivity.

It is particularly advantageous if the shims or shims 7 with the new foot attachment 3rd for a cast housing or a laminated housing of a rotating electrical machine made of a beryllium-copper alloy. These then dissipate the heat very well from the critical foot connection areas, so that no heat pockets can arise in the interior of the electrical machine, the machine heats up more uniformly than before and no different thermal expansions can occur inside the machine. This extends the service life not only of the inserted stator winding, but also of the entire electrical machine.

Depending on the design and size of the electrical machine, it may be advantageous to use the shims or shims 7 to be made in one piece or in several pieces in the case of the foot fastening for a cast housing or a laminated housing of a rotating electrical machine.

An improved heat emission in the defined free space C. can be achieved if the shims or shims for a cast iron housing or a laminated housing of a rotating electrical machine 7 at least in the area of the free space C. are provided on their side surface with additional cooling grooves (thereby increasing surface area for heat dissipation).

In order to enable an optimal alignment of the rotating electrical machine in question with the foot fastening for a cast housing or a laminated housing with respect to the position of the drive shaft in relation to the clamping in the case of a prefabricated foundation, it can be advantageous if the fitting plates or shims 7 are wedge-shaped and, by moving or rotating them, the drive axis can be positioned and optimally aligned precisely in height and in alignment with the connected machines and systems to be driven. This saves time when installing on the relevant foundations.

• 1 zeigt eine Gesamtansicht einer neuartigen Fußbefestigung mit zwei Fußleisten
• 2 zeigt eine Schnittdarstellung durch eine Fußbefestigung

The foot fastening according to the invention for a cast housing or a laminated housing of a rotating electrical machine with surface air cooling is intended to be based on the 1 and 2nd are explained in more detail in a preferred embodiment.

• 1 shows an overall view of a novel foot mounting with two baseboards
• 2nd shows a sectional view through a foot attachment

With the new foot attachment are according to 1 two baseboards 4th laterally at the bottom of the housing 1 a universal asynchronous motor. A fan is attached to the shaft on the output side (B side), which sucks air in axially and accelerates it radially outwards. This cooling air is through the fan cover 8th deflected and then flows axially along the surface of the cast housing of the electrical machine. This is largely with longitudinal cooling fins 2nd provided so that the entire axial surface of the cooling air flow 10th can flow around and the electrical machine is optimally cooled. The longitudinal cooling fins 2nd form four housing areas with optimal geometry distributed evenly on the housing jacket A for good surface cooling. Furthermore, are on the circumference of the housing 1 Four identically designed cast foot ribs distributed at a 90 ° angle 9 arranged. This allows the electrical machine to be set up in four different installation positions. The two baseboards 4th are on the left and right below on two of the massive cast foot ribs 9 with two fastening screws each 5 screwed on. In the area of each cast foot rib 9 is this housing area with a thickened material B executed around the baseboards 4th on the one hand to fix it correctly and on the other hand to be able to derive the weight of the electrical machine and the mechanical forces acting on the machine foundation. On the upper cast-foot ribs 9 Transport eyelets can be attached to be able to transport the electrical machine using suitable lifting equipment. The baseboards 4th are longer than single feet, for example, and are attached to the machine foundation with two screws each. In principle, instead of the two baseboards 4th four individual feet can also be arranged here.

2nd shows a sectional view through a foot attachment 3rd in a plane where the baseboard 4th , or possibly a single foot 4.1 with a fastening screw 5 in the housing 1 the electrical machine is screwed. Between the housing areas with optimal geometry A which with longitudinal cooling fins 2nd are provided, the housing area is thickened with material B trained which the cast foot rib 9 forms. In the cast foot rib 9 a hole is made in which thread is cut. The threaded hole is not entirely through the cast foot rib 9 pierced. Both in the cast foot rib 9 as well as in the baseboard 4th or in single feet 4.1 are two cutouts of the same size 6 educated. These recesses 6 are preferably round, but can also be shaped differently. Between the cast foot rib 9 and the baseboard 4th is in both recesses 6 a shim 7 inserted. The thickness of the shim 7 is greater than the sum of the depths of the two recesses 6 . This creates between the cast foot rib 9 and the baseboard 4th or the single foot 4.1 a defined freedom C. . Depending on the size of the machine and the possible heating of the electrical machine in question, this can be done in a simple manner by choosing the thickness of the shim 7 , the defined freedom C. be trained in different widths. Through this defined freedom C. the axially flowing cooling air can also dissipate the heat from inside the electrical machine in the critical area of the foot connection. This more effective heat dissipation from the critical foot connection areas means that no heat pockets can arise inside the electrical machine, the machine heats up more evenly than before and no different thermal expansions can occur inside the machine. This extends the life of such electrical machines.

Reference list

1

casing

2nd

Longitudinal cooling fins

3rd

Foot mounting

4th

Baseboard

4.1

Single foot

5

Mounting screw

6

Recess

7

Shims or shims

8th

Fan cover

9

Cast foot rib

10th

Cooling air flow

A

Housing area with optimal geometry

B

Housing area with material thickening

C.

defined freedom

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 3242864 C1 [0003]
• DE 10318430 B [0004]
• DE 102009010718 A1 [0005]
• EP 0438617 [0006]

Claims (6)

Foot fastening for a cast housing or a laminated housing of a rotating electrical machine with surface air cooling along axially aligned longitudinal cooling fins (2) and a foot fastening (3) by means of one, two or four feet, in particular for a housing (1) of an asynchronous motor, characterized in that one or more baseboard (s) (4) or individual feet (4.1) are arranged on the housing (1) left or right, or left and right, the baseboard (s) (4) or individual feet (4.1) with the housing (1 ) are screwed into solid cast foot ribs (9) by means of fastening screws (5), recesses (6) are arranged in the housing (1) and the baseboard (s) (4) or the individual feet (4.1), the shape of which matches the shape of shims or shims (7) matches, in these recesses (6) shims or shims (7) are interposed, the thickness of the shims or shims (7) is greater than the sum of the depth of the opposite Au savings (6) so that the baseboard (s) (4) or the individual feet (4.1) are spaced from the housing (1) and a defined free space (C) is formed. Foot attachment for a cast housing or a laminated housing according to a rotating electrical machine Claim 1 , characterized in that the fitting plates or shims (7) are formed from materials which have a particularly high thermal conductivity. Foot attachment for a cast housing or a laminated housing according to a rotating electrical machine Claim 2 , characterized in that the shims or shims (7) consist of a beryllium-copper alloy. Foot attachment for a cast housing or a laminated housing of a rotating electrical machine according to one of the preceding claims, characterized in that the fitting plates or shims (7) are formed in one piece or in several pieces. Foot fastening for a cast housing or a laminated housing of a rotating electrical machine according to one of the preceding claims, characterized in that the fitting plates or fitting discs (7) are provided with cooling grooves on their lateral surface at least in the region of the free space (C). Foot attachment for a cast housing or a laminated housing of a rotating electrical machine according to one of the preceding claims, characterized in that the fitting plates or shims (7) are wedge-shaped.

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