JPS5852105B2 - How to position and fix the rotating shaft - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for positioning and fixing a pair of rotating shafts in such a manner that the gears on each shaft mesh with each other.

Conventionally, this type of rotating shaft is generally positioned and fixed by press-fitting the end bearing into the bearing casing at a predetermined position on the outside. In preparation for the press-fitting, it is necessary to process the gears with high precision in advance, and in order to obtain a good meshing condition with the gears on each shaft, it is necessary to process each gear with high precision in advance, which is inevitably troublesome.

An object of the present invention is to provide a method for eliminating such inconveniences, and the first step is to loosely fit a pair of rotating shafts of a gear transmission into each bearing housing of a device housing via bearings at both ends. and a second step in which the ends of both rotating shafts are clamped between a driving spindle and a driven spindle whose distances between the shafts can be adjusted freely, and in the clamped state of the spindles, the ends of the two rotating shafts are combined into free gaps in the outer periphery of each bearing in each bearing housing. This step is omitted from the third step of fixing each bearing in each bearing housing by injecting and filling resin.

An example of implementing the present invention will be explained with reference to the attached drawings.

In the drawings, reference numeral 1 indicates an outer peripheral housing, and inside the housing 1, a pair of rotating shafts 2 are installed, each gear 3 on each shaft 2 meshes with each other, and each ball bearing and other parts at the end of each shaft 2 are installed. The bearings 4 are prepared by being housed in respective bearing casings 5 having a slightly larger diameter than the bearings 4 which are preformed at the end of the casing 1.

In this case, each rotating shaft 2 is supported rotatably by being sandwiched from the art material side by a pair of left and right heads 7 of each injection molding machine 6 and each spindle 8, 8 in T, which are prepared in advance on the outer machine frame. Next, one of the rotating shafts 2, 2 is driven to rotate by a drive source (not shown) prepared in advance for at least one of the image forming machines 6, 6, and the other is given driven rotation.

During this time, the meshing condition and meshing sound of both gears 3, 3 are inspected, and if there is any problem, at least one of the image forming machines 6, 6 is adjusted up and down on the machine frame to ensure that the distance between the two shafts 2, 2 is adjusted. The distance t is adjusted to find the best meshing state between the gears 3, 3.

Next, each molding machine 6 is fixed, and a heat-resistant composition is applied to each space in each bearing casing 5 on the outer periphery of each bearing 4 through each jet hole 9 prepared in advance in each head 7 of each molding machine 6. Inject and fill the resin,
Since each resin 10 in each space is solidified next, each bearing 4 is fixed at its position within each bearing housing 5.

As described above, according to the present invention, the pair of rotating shafts of the gear transmission are loosely fitted into each bearing case of the device case via the bearings at both ends thereof, and then the ends of each rotating shaft are adjusted so that the distance between the shafts is adjusted. The gears are clamped between a freely movable drive spindle and the distance between the rotating shafts is adjusted to achieve good meshing of the gears.Then, while the spindle is clamped, the free clearance on the outer periphery of each bearing is combined with the free clearance within each bearing housing. Since each bearing is fixed within each bearing housing by injecting and filling resin, it is easy to adjust between each rotating shaft, and in the adjusted state, each bearing is fixed within the bearing housing, so that This has effects such as extremely easy fixing.

[Brief explanation of the drawing]

The drawing is a cut side view illustrating an example of implementation of the method of the present invention. 2...rotating shaft, 3...gear, 4...
...Bearing, 5...Bearing housing, t...Distance between shafts, 6...Injection molding machine, 10...
resin.

Claims (1)

[Claims] 1. A first step in which a pair of rotating shafts of gear transmission are loosely fitted into each bearing case of the device case via bearings at both ends, and the ends of both rotating shafts are connected to a drive spindle whose distance between the shafts can be freely adjusted and a driven spindle. a second step of clamping the bearings between the spindles; and a third step of fixing each bearing in the bearing housings by injecting and filling a synthetic resin into the free gaps in each bearing housing on the outer periphery of each bearing while the spindles are clamping the bearings. A method for positioning and fixing a rotating shaft consisting of: