JPS6159020A - Reamer bolt clamping device - Google Patents

Abstract

PURPOSE:To enable a reamer bolt to be firmly clamped without any play clearance even through screw hole machining work on a flange is not so accurate by making the hole diameter on the flange on one side larger than the diameter of the bolt and coupling them together with resin filler injected into a clearance between them. CONSTITUTION:The hole on a flange 3, one of the flanges 3 and 4 for coupling the transmission side shaft 2 to a drive shaft 1, is required to be machined with such an extent of accuracy as having no play toward the outer diameter of a bolt 5. However, the hole on flange 4 can be machined in a diameter comparatively larger than diameter of bolt 5 and the position thereof need not be determined so accurately because of a large diameter of the hole. And resin filler is injected into a space 7 formed between flange 4 and bolt 5 from an injection hole 8 drilled through the flange 4 or a hole 9 formed through the reamer bolt 5 hardened thereabout.

Description

[Detailed Description of the Invention] When it is necessary to connect rotating shafts in series in the axial direction, the shafts 1+ and 2+ ends are connected to the flange 3 as shown in FIG.
1.41 and bolt 51. There is a method of joining with a nut 61. In this case, in order to accurately prevent rattling, it is necessary to machine the threaded holes between the flanges with extremely high precision.

The present invention is a method in which the accuracy of the above-mentioned screw hole machining is rough, but the present invention is a method that allows the hole machining accuracy to be low when screwing together shafts with 72 angles.

Ream the hole diameter on at least one side of the flange with a reamer bolt, fix the bolt using resin filler in this space, and inject resin into the hole on the flange side.

Alternatively, a screw hole on one side of the flange to be engaged and connected to the bolt fastening device is made larger than the screw diameter, and after the screw is fastened, the area around this screw is used. The present invention aims to provide a reamer bolt fastening device that fills the gap with resin and eliminates backlash.

An embodiment of the reamer bolt fastening device of the present invention will be described with reference to FIG. FIG. 2 shows a schematic diagram of an embodiment of the reamer bolt fastening device of the present invention.

In order to connect the transmission shaft 2 to the drive shaft 1, a reamer bolt 5 is passed through the flange 5.4 and fastened with a nut 6. In this case, the hole in the flange 3 needs to be machined at an angle of 8 degrees with respect to the outer diameter of the reamer bolt 5 without play, but the hole in the flange 4 needs to be machined with a diameter that is larger than the diameter of the bolt 5, and the position (
) Compared to the hole position of rank 5), the hole is also large, so it is not necessary to machine it with high precision.

The operation of the present invention will be explained. Pass the bolt 5 through the flange 314 and tighten with the nut 6.

On the flange 4 side, a space 7 is created around the outer periphery of the bolt 5. For example, short glass fibers are added to this space 7 to improve the strength of a two-component epoxy resin that hardens at room temperature.

Fill the flange 4 with an injection hole 8 made of reinforced material such as calcium carbonate or Nukuri. Alternatively, the filling resin is injected into the space 7 using a syringe (not shown in FIG. 2) through the hole 9 formed in the reamer bolt 5, hardened, and the reamer bolt 5 is fixed to the flange 4.

The present invention achieves the 92nd order effect due to the above configuration.

(1) When drilling a hole in flange 4, the positioning accuracy of the hole in flange 3 may be rough.

(2) When drilling holes in the flange 4, the hole diameter processing accuracy may be extremely low.

(5) Processing costs can be reduced due to (') + (2) above.

[Brief explanation of the drawing]

FIG. 1 is a schematic view of a conventional rotating shaft connected in series in the axial direction, and FIG. 2 is a schematic view of an embodiment of the reamer bolt fastening device of the present invention. 1... Drive shaft, 2... Transmission side shaft, 3, 4...
・Flange, 5... Reamer bolt, 7... Space between reamer bolt and flange, 8... Flange side hole, 9... Bolt side hole. Patent applicant Mitsubishi Heavy Industries, Ltd. Sub-agent Patent attorney Kazuo Nakajima-1゜;2:,“
3t...!

Claims (1)

[Claims] In a method that requires low hole machining accuracy when screwing shafts together using flanges, the hole diameter of at least one of the flanges is made larger than the reamer bolt, the bolt is fixed using resin filler in this space, and resin injection is performed. A reamer bolt fastening device that uses a hole on the flange side or a hole in the bolt.