DE102010053807A1 - Gear shaft arrangement - Google Patents

Abstract

The invention relates to a gear shaft arrangement with a shaft which has a cylindrical outer surface on which the shaft is arranged in a rotationally fixed manner surrounding the shaft and which has a coaxial torque transmission part at one end. The shaft is a hollow shaft made of a high-strength material, the external gear consisting of a plastic and injection-molded onto the cylindrical outer surface of the hollow shaft, and the torque transmission part being a separate component made of a high-strength material that is connected to the hollow shaft in a rotationally fixed manner .

Description

The invention relates to a gear shaft assembly having a shaft which has a cylindrical outer surface, on which the shaft enclosing an outer gear is rotatably disposed and which has at its one end coaxial with a torque transmission part.

Such gear shaft assemblies are particularly used in gear machines in which two gears take over the delivery of a fluid (external gear pumps or internal gear pumps) or two gears are driven by supplied fluid (external gear motors or internal gear motors).

It is known to manufacture the gear shaft assemblies in one piece. As materials for high torques, metals such as steel and plastic are used for low torques. In the lower torque range, but especially in the middle torque range is often sufficient plastic strength terms and it can lead to deformations of the gear shaft assembly. This can lead to adverse effects on the efficiency and / or wear behavior in gear machines when z. B. the plastic shaft bends too much.

For the torque transmission part, to which a rotary drive for driving the shaft or for the decrease of a torque is connected, different configurations are required with otherwise the same gear shaft arrangement.

The object of the invention is to provide a gear shaft arrangement of the type mentioned, the o. G. Disadvantages avoids and which is inexpensive to produce at the intended torque loads suitable strength and variability of the torque transmission part.

This object is achieved in that the shaft is a hollow shaft, which consists of a high-strength material, wherein the external gear is made of a plastic and is sprayed onto the cylindrical surface of the hollow shaft and that the torque transmitting member is a made of a high-strength material existing separate component , which is rotatably connected to the hollow shaft.

This training can be dispensed with expensive machining production process for the production of the external gear.

At the same time allows the formation of the torque transmission member as a separate component, the use of different torque transmission parts in otherwise identical hollow shafts.

Furthermore, identical hollow shafts can be provided with differently designed external gears.

In addition to the cost reduction through the use of identical hollow shafts as a common part expensive high-strength materials are used only on the areas of the gear shaft assembly, which must be low in deformation and wear for functional reasons.

Thus, the gear shaft assembly also receives a significantly reduced weight.

For fixed positive connection, the hollow shaft may have on its cylindrical lateral surface in the region of the external gear a surface profiling, in which the plastic of the external gear penetrates.

It also leads to a simple positive connection between the hollow shaft and external gear, when the hollow shaft in the region of the external gear has one or more leading to the interior of the hollow shaft openings into which the plastic of the external gear penetrates.

It is particularly simple and inexpensive to produce when the hollow shaft is ejected at least in the area of the apertures with a plastic, which are ejected through the ejection process of the hollow shaft breakthroughs and the outer gear is integrally molded.

To connect the torque transmitting member to the hollow shaft, the mutually axially facing ends of the hollow shaft and torque transmitting part can telescopically intermesh and rotatably connected to each other, in a simple manner, the axially facing ends of the hollow shaft and torque transmitting part form and / or non-positively connected to each other.

Such a connection can easily be produced if the hollow shaft and / or the torque transmission part have a profiling in their intermeshing regions, wherein the hollow shaft is ejected, at least in the region meshing with the torque transmission part, with a plastic which forms a positive connection between the hollow shaft and the torque transmission part.

In this case, the hollow shaft facing the end of the torque transmission member a nozzle smaller diameter than that Be inside diameter of the hollow shaft and the hollow shaft to be spouted around the nozzle with the plastic.

It is particularly cost-effective if, during the plastic injection process, the plastic is injected at the end opposite the torque transmission part into the hollow shaft inserted into a mold, which then fills the cavity for the external gear via the openings and which further through the hollow shaft to the one with its one End passes into the hollow shaft projecting torque transmitting member and fills the existing between the inner wall of the hollow shaft and the torque transmitting member cavities.

This all plastic parts are produced in a single operation and the external gear and the torque transmitting member fixedly connected to the hollow shaft.

The profilings on the hollow shaft and / or the torque transmission part can be knurls or toothings, in particular radial toothings.

In order to obtain favorable storage properties of the hollow shaft, the cylindrical surface of the hollow shaft may be ground, which is possible in a simple manner when the hollow shaft has not yet been provided with the external gear.

The torque transmitting member may be a tapered shaft or a cylinder shaft or a square shaft or a splined shaft.

The higher-strength material of the hollow shaft and the torque transmission part may have the strength properties of metal, in particular of steel.

The external gear can in particular have an involute straight toothing or a helical toothing and can be produced easily and simply by plastic injection molding.

A particularly preferred application of the gear shaft assembly is that the gear shaft assembly is a part of an external gear machine or an internal gear machine.

An embodiment of the invention is illustrated in the drawing and will be described in more detail below. Show it

1 a longitudinal section of an external gear machine

2 a longitudinal section of a gear shaft assembly of the external gear according to 1 ,

The illustrated external gear motor has a housing 1 with an interior 2 passing through two opposite ends of the housing 1 attached and fixed lids 3 and 4 is limited.

In the interior 2 are two externally meshing gears 5 and 6 arranged.

The abortive gear 5 is with a hollow shaft 7 trained output shaft rotatably connected, via which it has a respective bearing shell 8th and 9 in two bushings 10 and 11 in the case 1 is rotatably mounted.

The hollow shaft 7 is on the output side through the lid 4 guided to the outside and a shaft seal 12 sealed.

On the cover 4 outstanding end is the hollow shaft 7 with a coaxial cone shaft 13 firmly connected.

hollow shaft 7 , Gear 5 and cone shaft 13 form a gear shaft assembly.

The gear 6 is with an axis 14 rotatably connected, over which it has a respective bearing shell 15 and 16 in two bushings 17 and 18 in the case 1 is rotatably mounted.

As in 2 can be seen, which is on its cylindrical lateral surface 19 ground hollow shaft 7 in its left end on its cylindrical inner wall with a radial toothing 20 provided with axially extending teeth.

The cone shaft 13 indicates at its the hollow shaft 7 facing end a coaxial neck 21 smaller diameter than the inner diameter of the hollow shaft 7 on that in the hollow shaft 7 protrudes.

On its outer circumference is also the neck 21 with a radial toothing 22 provided with axially extending teeth.

In the axially middle, from the gear 5 enclosed area possesses the hollow shaft 7 a radially continuous breakthrough 23 ,

To produce the gear shaft assembly is the separately finished hollow shaft 7 and the likewise separately finished cone shaft 13 as shown in the drawing inserted in a mold and then plastic through the right opening 24 the hollow shaft 7 injected into this.

Through the breakthrough 23 while the plastic enters a gear 5 corresponding cavity of the mold and forms the gear 5 out.

Furthermore, the plastic reaches the left end of the hollow shaft 7 and fills the radial gears 20 and 22 out.

After cooling and solidification of the plastic, which is shown dotted, the gear shaft assembly can be removed as a finished component of the form whose individual components hollow shaft 7 , Cone shaft 13 and gear 7 are firmly connected.

Claims (10)

Gear shaft assembly having a shaft which has a cylindrical outer surface on which the shaft is rotatably disposed surrounding an outer gear and which has at its one end coaxial torque transmitting member, characterized in that the shaft is a hollow shaft ( 7 ), which consists of a high-strength material, wherein the external gear ( 5 ) consists of a plastic and on the cylindrical surface ( 19 ) of the hollow shaft ( 7 ) is sprayed on and that the torque transmission part is made of a high-strength material existing separate component, the non-rotatably with the hollow shaft ( 7 ) connected is. Gear shaft arrangement according to claim 1, characterized in that the hollow shaft has a surface profiling on its cylindrical surface in the region of the external gear. Gear shaft arrangement according to claim 1, characterized in that the hollow shaft ( 7 ) in the area of the external gear ( 5 ) one or more to the interior of the hollow shaft ( 7 ) leading breakthroughs ( 23 ) having. Gear shaft arrangement according to claim 3, characterized in that the hollow shaft ( 7 ) at least in the area of breakthroughs ( 23 ) is ejected with a plastic, wherein by the ejection process of the hollow shaft ( 7 ) the breakthroughs ( 23 ) are injected and in one piece the external gear ( 5 ) is injected. Gear shaft arrangement according to one of the preceding claims, characterized in that the mutually axially facing ends of the hollow shaft ( 7 ) and torque transmission part telescopically intermesh and rotatably connected to each other. Gear shaft arrangement according to claim 5, characterized in that the mutually axially facing ends of the hollow shaft ( 7 ) and torque transmission part are positively and / or non-positively connected to each other. Gear shaft arrangement according to claim 5, characterized in that the hollow shaft ( 7 ) and / or the torque transmitting part have a profiling in their intermeshing areas, wherein the hollow shaft ( 7 ) is ejected at least in the intermeshing with the torque transmitting portion with a plastic plastic, a positive connection between the hollow shaft ( 7 ) and torque transmission part forms. Gear shaft arrangement according to one of the preceding claims, characterized in that the higher-strength material of the hollow shaft ( 7 ) and the torque transmitting member has the strength properties of metal. Gear shaft arrangement according to one of the preceding claims, characterized in that the external gear ( 7 ) is a spur or a helical toothing. Gear shaft assembly according to one of the preceding claims, characterized in that the gear shaft assembly is a part of an external gear or an internal gear machine.

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