The invention relates to a system for producing gearboxes, which consists of different subassemblies.
There are known gearboxes which consist of one, two or, where appropriate, three casing parts and have corresponding stages, transmission stages, etc.
Furthermore, in gearboxes, there are kinematics known as SP or TP kinematics. The individual gearboxes are designed as construction series, for example in SP kinematics or in TP kinematics. In this context, either only long, straight gearboxes can be produced for a specific construction series or short, thick gearboxes, for example as TP gearboxes, can be produced with completely different subassemblies.
There are therefore only different basic construction types, gearboxes with different kinematics.
The object on which the present invention is based is, therefore, to provide a system of the type initially mentioned, which can be used universally and in which subassemblies for the most diverse possible kinematics and basic construction types of gearboxes can be used at least partially.
At the same time, the number of subassemblies for any desired types is to be minimized, while different kinematics, transmission ratios or power flows are to be implemented. Furthermore, for a reduction in manufacturing costs, the parts are to be reduced.
DE 26 49 949 A describes a gearbox system, in which gearboxes with different transmission stages can be produced in different construction sizes. In this case, components can be used only singularly for the different construction sizes. EP 0 687 837 A discloses an engine/gearbox system, in which different output stages can be attached to a driving engine.
U.S. Pat. No. 3,333,482 shows an electric motor with a following epicyclic gearbox, the epicyclic gearbox being arranged so as to be integrated in the casing of the electric motor.
The object on which the present invention is based is, therefore, to provide a system of the type initially mentioned, which can be used universally and in which subassemblies for the most diverse possible kinematics and basic construction types of gearboxes can be used at least partially.
At the same time, the number of subassemblies for any desired types is to be minimized, while different kinematics, transmission ratios or power flows are to be implemented. Furthermore, for a reduction in manufacturing costs, the parts are to be reduced.
To achieve the object, the subassemblies can be assembled in a modular manner to form different gearboxes and a different gearbox type with different kinematics can be produced by the selection of the output unit either as an output shaft or as an output flange, a gearbox with SP or TP kinematics being produced by means of different mounting of the ring wheel on the right or on the left together with the attached components.
In the present invention, by means of the essential core subassemblies, such as, for example, the engine, the engine adapter plate, the hollow shaft wheel of the output stage, the ring wheel of the drive stage and the output unit, designed as an output shaft or output flange, single-stage, two-stage or three-stage gearboxes with different output units can be produced. In this case, the output unit is to be designed as an output shaft or as an output flange.
Furthermore, in the present invention, it is important that, by means of different mounting operations a corresponding different connection of the ring wheel of the drive stage to one side of a universal planet-wheel carrier of the output stage, a gearbox according to TP kinematics can be produced, or, by means of another mounting operation, the ring wheel of the drive stage can be screwed to the stationary casing, in order to produce a gearbox with SP kinematics.
In this case, all the gearboxes can be assembled as TP or SP gearboxes with the same core components, without in addition other additional components being required.
At the same time, in the universal system or universal construction kit, in each case a single-stage, two-stage or three-stage gearbox can be produced selectively by means of units.
As a result, the number of all these subassemblies for different gearbox kinematics and different gearbox types, whether long or short or TP or SP gearboxes, is reduced considerably.
At the same time, different kinematics and also transmission ratios and power flows can be implemented by means of one and the same subassembly.
Furthermore, the individual subassemblies or casing parts can be screwed or welded to one another, adhesively bonded to one another or connected to one another by positive connections. That is to say, furthermore, even customer-specific gearboxes, particularly with regard, for example, to flanges, shafts, output flanges, sensors or the like, can be specified very easily, since only this subassembly of the output unit or of the output shaft or of the output flange has to be specified and adapted. All the remaining subassemblies can preserve their original form in order to produce a single-stage, two-stage or three-stage gearbox in the TP or the SP version.
Also, corresponding individual subassemblies of the output shaft or of the output flange can be provided, for example, with corresponding sensors or the like. This is likewise to come within the scope of the present invention.
In particular, the choice of the output subassemblies or of the output units is particularly suitable for specifying gearboxes with special customer-specific modifications or the like.
It is also conceivable, if appropriate, to flange different engines and mounted parts to single-stage, two-stage or three-stage gearboxes designed as SP or TP gearboxes. This gives rise to a universal system, in particular a universal construction kit, which ensures that the individual subassemblies can be constructed in one and the same number of subassemblies in order to produce gearboxes with different kinematics, different selectable transmission ratios and different gearbox versions or different gearbox types as SP or TP construction series. This saves considerable manufacturing costs and ensures that the user can himself construct a gearbox in a user-specific way.
Further advantages, features and details of the invention may be gathered from the following description of preferred exemplary embodiments and with reference to the drawing in which:
a shows a diagrammatically illustrated arrangement of individual subassemblies for the production of different gearboxes, in particular for the production of a single-stage, two-stage and three-stage gearbox;
b shows diagrammatically illustrated views of a kinematic plan of an SP gearbox and of a TP gearbox;
a and 2b show diagrammatically illustrated top views of an engine and of an adapter plate for an engine;
a and 3b show diagrammatically illustrated longitudinal sections through two different mounted parts with clamping hubs and with an integrated sun wheel;
c shows a diagrammatically illustrated longitudinal section through a further mounting part with an integrated sun wheel and planet wheel;
a and 6b show diagrammatically illustrated longitudinal sections through output units designed as an output flange AF or output shaft AW.
According to
Each gearbox may also be used as a subassembly of components with an engine M, if appropriate an engine adapter plate AM, and also the hollow shaft wheel Hab and an output unit AE, illustrated here by broken lines.
In this case, the hollow shaft wheel of the output stage Hab may be followed selectively as an output unit AE by an output shaft AW or an output flange AF as a subassembly.
If a single-stage gearbox is to be produced, the subassemblies, engine and, if appropriate, adapter plate AM, are added to a first mounted part A1, then the hollow shaft wheel of the output stage Hab and finally any desired output unit AE. Either, the output shaft AW or output flange AF are attached as an output unit AE to the hollow shaft wheel of the output stage Hab. The design of the output unit AE can be selected customer-specifically and can also be changed customer-specifically.
This gives rise to a single-stage gearbox which can be modified customer-specifically especially in the region of the output unit AE. For example, any desired flanges, special versions of shafts, sensors or the like in these subassemblies may be modified, or these may be varied correspondingly.
These are then fitted onto the subassemblies, engine M and mounted part A1, or, in particular, onto the hollow shaft wheel of the output stage Hab.
In order to obtain a two-stage gearbox, the engine M, if appropriate the engine adapter plate AM, is again likewise connected to a second mounted part A2 to which a ring wheel of the drive stage Hab is attached. The hollow shaft wheel of the output stage Hab is then attached to this ring wheel in the way described above, and, once again, depending on the customer requirement and particular embodiment, any desired drive unit AE may be designed as an output shaft AW or as an output flange AF in the way described above. It is important, here, that, at least in the version of a single-stage or two-stage gearbox, at least the subassemblies, engine M, engine adapter plate AM and hollow shaft wheel of the output stage Hab and, selectively, the output unit AE, can be used again, without changes, as the same subassemblies.
In order to obtain a three-stage gearbox, in the case of a corresponding construction of the two-stage gearbox, a further mounted part A3 merely has to be inserted between the subassemblies, mounted part A2 and ring wheel of the drive stage Han.
Depending on the customer requirement and the design of the three-stage gearbox, any desired drive unit AE as a drive shaft AW or as a drive flange AF can then be selectively attached to the hollow shaft wheel of the output stage Hab in the way described above.
In order to produce a single-stage, two-stage or three-stage gearbox by means of these few subassemblies, the respective marked subassemblies having to be connected in each case correspondingly to 1 for a single-stage, 2 for a two-stage or 3 for a three-stage, different gearboxes can be assembled.
Thus, a two-stage or three-stage gearbox can be produced in a modular manner by means of a minimum number of subassemblies. The individual subassemblies merely have to be screwed, welded or joined to one another or otherwise connected to one another. The invention will not be restricted to this.
Furthermore, it is advantageous that, in particular by the selection of drive unit AE as drive shaft AW or drive flange AF, long or short gearboxes with specific shafts or flanges can be produced so as to be single-stage or multistage. Different transmission ratios and power flows can thereby be implemented by means of different kinematics as TP or SP.
As a result, gearboxes can be produced universally, and gearboxes which are of different types and which possess different kinematics can be produced by means of the same essentially identical subassemblies. This is implemented merely by means of a very limited number of subassemblies as a universal construction kit. At the same time, the different gearbox types can be produced, single-stage, two-stage and three-stage, as SP to TP gearboxes from subassemblies. Thus, not only the gearbox type, but also the desired size of the gearbox and the desired kinematics of the gearbox can be varied customer-specifically and be produced individually by means of one and the same component.
To produce a two-stage TP gearbox, the ring wheel 20 of the ring wheel of the drive stage Han, see
To produce a two-stage SP gearbox, a ring wheel 20 of the ring wheel of the drive stage Han is firmly connected, in particular firmly screwed, to the stationary casing part 3 of the mounted part A2 by means of another mounting operation.
In this case, the same subassemblies, hollow shaft wheel of the output stage Hab and ring wheel of the drive stage Han and also mounted part A2, can be used in order to produce either an SP or a TP gearbox. What is important here is only the different mounting operation of the individual subassemblies in order to obtain different kinematics by means of one and the same subassembly here.
The individual subassemblies for producing the different gearboxes are described below as follows:
The different kinematics of an SP gearbox or of a TP gearbox are illustrated diagrammatically in
According to
The engine shaft 1, merely indicated here, engages into a corresponding clamping hub 2 of the subassemblies A1 or A2. The mounted part A1 or A2 has, in addition to a clamping hub 2, a casing part 3, in which a sun wheel 4 is mounted in each case by a bearing 5, the sun wheel 4 being designed as a plug-in sleeve 6.
The mounted parts A1 and A2 of
In the production of the single-stage gearbox, the engine M is connected directly to the clamping hub 2 or to the mounted part A1. The hollow shaft wheel of the output stage Hab is attached to the mounted part A1, said hollow shaft wheel being illustrated in
In
The flange 16 serves for receiving and attaching any desired workpieces and/or tools or for driving any desired loads or the like.
Furthermore, the casing part 14 is provided with a suitable centering flange 17 which fits onto the corresponding centering flange 12 of the hollow shaft wheel of the output stage Hab. If the output flange AF is selected as the output unit AE in the single-stage gearbox, the casing parts 14 and 10 fit exactly one into the other, the bearing 15 of the drive flange AF at the same time forming an additional mounting of the universal planet-wheel carrier 9 of the hollow shaft wheel of the output stage Hab.
In this case, the universal planet-wheel carrier 9 is connected to the flange 16 of the output flange AF nonpositively and/or positively.
If the drive shaft AW is adapted and attached to the hollow shaft wheel Hab in the single-stage gearbox, a casing part 17, as illustrated particularly in
It is important, furthermore, in the present invention, that, in the case of the output shaft AW and output flange AF, the embodiment and size of the casing parts 14 and 17 can be varied and designed customer-specifically, as illustrated in
In the region of the plug-in sleeve 25, the hollow shaft wheel of the output stage Hab is attached to the ring wheel of the drive stage Han, in that the sun wheel 8 is connected positively and/or nonpositively to the universal planet-wheel carrier 21 and an inner region of the universal planet-wheel carrier 9, see
The ring wheel of the drive stage Han can be inserted as what is known as a second stage, in particular prestage, between the mounted part A2 and the ring wheel of the drive stage Han.
During the assembly of the subassemblies A2 and Han in the casing part 3, the bearing 24 of the ring wheel of the drive stage Han is mounted or received on a bearing seat 26 of the casing part 3, the subassembly A2, see
Furthermore, the casing parts 3 and 10 of the mounted part A1 or the hollow shaft wheel of the output stage Hab can be connected to one another, as illustrated in
In order to produce a three-stage gearbox, the subassemblies, engine and, if appropriate, engine adapter plate AM, are connected to the mounted part A2 (see
Within the casing part 27 a ring wheel 31 is provided which meshes with a planet 32 seated on a universal planet-wheel carrier 28. At least one planet 32 meshes with a sun wheel 33. Furthermore, a bearing 30 is seated on part of the universal planet-wheel carrier 28. These subassemblies correspond approximately to the construction of the ring wheel of the drive stage Han, as indicated in
If the mounted part A3 is assembled together with the ring wheel of the drive stage Han, the sun wheel 23 engages positively and/or nonpositively into the plug-in sleeve 29 of the planet-wheel carrier 28, the bearing 24 being mounted in a bearing seat of the casing part 27. The universal planet-wheel carrier 28 thereby transmits the torque to the sun 23.
Alternatively, during the connection of the subassemblies A2 and A3 to produce the three-stage gearbox, the casing parts 3 and 27 are connected to one another, the bearing 30 engaging into the bearing seat 26, and the sun wheel 33 engaging into the plug-in sleeve 6 of the planet-wheel carrier 4 of the mounted part A2.
An intermediate stage is thereby likewise produced.
In order to produce a TP gearbox with TP kinematics, in particular a two-stage version, the ring wheel 20 of the ring wheel of the drive stage Han is connected or screwed to the universal planet-wheel carrier 9 of the hollow shaft wheel Hab of the output stage.
When a gearbox, for example a two-stage gearbox with SP kinematics, is to be produced, then another mounting operation the ring wheel 20 of the ring wheel of the drive stage Han is screwed to the stationary casing part 3 of the mounted part A2, see
An SP or a TP gearbox can thus be assembled by means of the subassemblies Han, Hab and A2 as a result of the different mounting of the individual subassemblies.
Number | Date | Country | Kind |
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102-29-968.4 | Jul 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP03/05101 | 5/15/2003 | WO | 12/28/2004 |