EP3234409A1 - Housing for a transmission, in particular an integral transmission - Google Patents

Abstract

The invention relates to a housing for a transmission, namely an integral transmission. An arrangement of multiple gears which are operatively connected to one another is provided in the transmission housing, and the gears are coupled to rotatable shafts which are mounted in corresponding bearing points. According to the invention, the bearing points (7) can be loaded with bearing elements (3), and the bearing element (3) is a separate component which is independent of the transmission housing (1). The bearing element (3) has connection elements (10) for securing to the transmission housing (1) and at least one bearing (16) for receiving a shaft (17) of a gear.

Description

 Housing for a transmission, in particular integral transmission

The invention relates to a housing for a transmission, in particular an integral transmission for a gear turbomachine, having the features of the preamble of claim 1.

Gearboxes for turbomachinery interact with compressors, expanders, steam turbines, motors and generators. In EP 1 691 081 B1 a multi-stage geared turbomachine with an integrated transmission and with input and / or output units is shown, which can be provided as input and output units compressors, steam turbines, gas turbines, motors, generators and expander. Such transmissions are characterized in that on the one hand the arrangement of these units is provided in the same horizontal plane and on the other hand by the presence of a drive wheel with a plurality of output sprockets, whereby the integration of a variety of possibilities brings with it. The drive and thus a power transmission takes place from a drive wheel to wheels that show different radii, but preferably have parallel aligned waves. As wheels, for example, gears may be provided.

About different numbers of teeth of the gears or different pitch diameter desired translations or ratios (power levels) in the individual gear stages are realized. Accordingly, the individual shafts on the one hand with respect to their Verzahnungsgeometrie and on the other hand with respect to the center position of the waves coupled to the drive wheel with each other.

Due to the number of respective shafts such transmissions have a plurality of bearing elements.

The gear is housed in a cast housing, which is preferably divided in the storage plane of the waves. For this purpose, the cast housing on walls, which include a cavity in which the wheels are freely rotatable. The wheels are coupled with shafts which are mounted in bearing elements, wherein the bearing elements are each provided in the region of the wall of the cast housing.

In order to realize different bearing distances of the respective shafts, the bearing elements may be formed in such cast casings oval, so that they can still be machined after production of the cast housing to provide bearing elements for the respective position of the waves. However, this has the consequence that on the one hand in these areas in the production of a cast accumulation, which in turn implies that there is a risk of voids. As voids one calls a cavity formed during the solidification of cast parts. However, such cavities lead to structural weaknesses of the housing, which lead to a breakage of such bearings, especially in the area of the bearings in which high forces act. Voids can also lead to leaks.

Another disadvantage is the fact that the variability of such housing is not very high. The tolerances for positioning different wheels with different diameters are low. Replacing wheels with other diameters is no longer possible after machining. In addition, the post-processing of such bearing elements by the casting process is complicated and expensive, since it is usually also very large housing.

If the number of wheels of the transmission or the gear ratios to change, it should be noted that the arrangement of the respective waves can be done only in a small tolerance range, without the cast housing must be redeveloped. Once a storage position for a shaft is formed, it can not be changed. If changes have been made, use a redesigned cast housing. This means that no cost-effective production of such gear housing can be done. In addition, it is not possible to plan a corresponding storage due to the large number of execution options of gear housings. Therefore, the object of the invention is to develop transmission housing of the above type such that it can be used for different shaft spacings of the wheels arranged in the housings.

The basic idea of the invention is to provide a base housing preferably made of cast material, wherein the base housing may be formed in one or more parts. At the base housing a plurality of bearings is provided. These bearings are not suitable for receiving the shafts for the transmission. These bearings are large recesses or recesses within the basic housing. The recesses are many times larger than the diameter of the respective shafts, which are to be accommodated with a bearing. Thus, a bearing indicates only the rough position of the respective waves.

The bearings are designed such that a bearing element or a plurality of bearing elements can be accommodated, which are firmly connected to the one with the basic housing and provide the other support location for the waves. This bearing element is therefore a separate component which can be introduced into the bearing. The bearing element and the base housing may be made of the same material. It is also conceivable if the bearing element made of a different material than it has the basic housing exists. The bearing element can therefore also be specially designed. This means that other material properties are present in the area of the attachment to the base housing than in the area of the receptacle for the shafts. The receiving areas for the waves can already be provided with lubricant. The fixed connection between the base housing and bearing element can be achieved for example by screws or equivalent fastening means. The exact positions of the receiving bearing with respect to the base housing are dependent on the design of the bearing element. This makes it possible, depending on the corresponding selection of the bearing element to realize different positions of the waves with one and the same basic housing.

The bearing elements are formed in a preferred embodiment as a disc or flange. The bearing element has a fastening region, which cooperates with the base housing of the transmission housing and is attached via fastening means on this either releasably or permanently. In addition, the bearing element has a storage area. This storage area is designed such that it at least indirectly (either via bearing means, such as ball bearings, or directly) receives the shaft rotatable about its own axis. For this a bearing for the shaft is provided. It can be provided that the bearing element is only one half, namely, when the base housing is also formed at least in two parts. Only by joining the individual parts of the basic housing then forms the bearing element and a complete functional element.

If the gear housing is divided into at least two housing parts on an interface plane, a first half of a single bearing and consequently a bearing element in a first housing part and the other half of the bearing and a further bearing element in the second housing part are arranged. The individual bearing element is then preferably a semicircular segment in plan view, wherein a flat side is formed on the end face, which comprises a bearing, ie either forms or receives. The gear housing has circular recesses for receiving the bearing elements. The recesses are made on the gear housing and the bearing elements with the same Einpaßdurchmesser and the bearing elements connected to the transmission housing. In the assembled Condition can then be made the bearing lane for training or recording a camp according to the requirements of the application.

The bearing element can also be designed such that its attachment region can be fitted in a flange-like or groove-like region. The area for the receiving warehouse is preferably made wider, in particular to provide the support a wide areal edition.

This results in the advantage that both the basic housing and the different bearing elements can be stored in stock, since a needs-based assembly is possible and not, as is known from the prior art, that a new basic housing must be created for each embodiment , The use of bearing elements in conjunction with the basic housing also compensates for the disadvantage that cast piles and the voids associated therewith occur in the region of the bearing points.

Further advantageous embodiments will become apparent from the following description, the claims and the drawings.

Show it

Fig. 1 is a perspective view of a part of a transmission housing with

 Basic housing and bearing elements;

Fig. 2 is a perspective view of the transmission housing without

 Bearing elements;

Fig. 3 is a perspective view of a bearing element. In Fig. 1, the base housing 2 of the transmission case 1 of a transmission, in particular Integralgetriebes with corresponding bearing elements 3 is shown. The basic housing 2, one half of which is shown in the drawing, has housing walls 4, which enclose a cavity 5. The cavity 5 serves to accommodate the different wheels for the transmission. At the interface level 6 bearing points 7 are provided in the basic housing. These bearings 7 are designed round in cross-section, such that one half of the bearing point in the first part of the base housing 2 and another part is provided in the further part of the base housing 2, wherein the further part of the base housing is not shown in the drawings. The bearings 7 correspond to the approximate positions occupied by the respective shafts. The bearings 7 are embossed by the bearing elements 3. Such a bearing element 3 for one half of the basic housing is shown alone in FIG. It consists of a semicircular segment 9, which preferably provides a semicircular connection area 10 for mounting on the transmission housing 1 by means of fastening elements 1 1. The fasteners 1 1 are in the present example screws that penetrate holes 12 at a mounting portion 13, wherein the head of the screw rests on the connection portion 10 and the segment 9 presses against the base housing 2. In addition, the connection region has bearing surfaces 14 which are in operative connection with further bearing surfaces 15 on the transmission housing 1. The width or the half diameter of the connection region 10 is greater than that of the actual segment 9.

On the flat side 8 of the semicircular segment 9 a bearing 16 for receiving a shaft (axis 17 shown in phantom) is frontally provided. By the pressing of the counter segment together with the counter housing (both not shown in the drawings) results in a complete transmission housing. 1

LIST OF REFERENCE NUMBERS

1 gearbox housing

2 basic housing

3 bearing elements

4 housing walls

5 cavity

 6 interface level

7 bearings

 8 flat side

 9 segment

 10 connection element

1 1 fastener

12 hole

 13 mounting area

14 storage areas

 15 storage areas

 16 bearings

 17 wave

Claims

claims

1 . Housing for a transmission, in particular transmission housing of an integral operation,

 a. wherein in the gear housing, the arrangement of a plurality of wheels, which are in operative connection with each other, is provided,

 b. the wheels being coupled to rotatable shafts which are stored in corresponding bearings,

 characterized in that the bearing points (7) with bearing elements (3) are assignable, wherein the bearing element (3) is a separate from the transmission housing (1) independent component, wherein the bearing element (3) connecting elements (10) for attachment to the transmission housing (1) and at least one bearing point (16) for receiving a shaft (17) of a wheel.

2. Housing according to claim 1, characterized in that the

Connection element (10) is flange-shaped and of fasteners (1 1) through holes provided (12) is penetrable.

3. Housing according to one of the preceding claims, characterized in that the gear housing (1) is made of a cast material.

4. Housing according to one of the preceding claims, characterized in that the bearing element (3) consists of a metal or cast.

5. Housing according to one of the preceding claims, characterized in that the transmission housing is divided into at least two housing parts on an interface plane, wherein a first half of a individual bearing point in a first housing part and the other half are arranged in the second housing part.

Housing according to one of the preceding claims, characterized in that the bearing element (3) is a semi-circular in plan view segment (9) and thereby the front side a flat side (8) is formed, which comprises a bearing (16).