CN103149025A - Additional displacement test bench of shaft coupler - Google Patents

Abstract

The invention discloses an additional displacement test bench of a shaft coupler. The additional displacement test bench is formed by a motor, a height adjusting cushion block, a worktable, a rack, a resistance device, a middle shaft, test shaft couplers and a motor shaft, and is characterized in that the test shaft couplers are respectively mounted on the middle shaft and the motor shaft; the motor shaft and the resistance device are respectively mounted on the height adjusting cushion block; the height adjusting cushion block is mounted on the worktable and the worktable is connected with the rack; and the middle shaft is connected with the resistance device. The motor drives the test shaft couplers to rotate through the motor shaft; and the resistance device applies a load to the test shaft couplers through the middle shaft. The relative position of the worktable is adjusted to apply axial displacement and angular displacement or composite displacement (containing the axial displacement, radial displacement and the angular displacement) to the test shaft couplers.

Description

Shaft coupling additional displacement testing table

Technical field

The present invention relates to a kind of shaft coupling additional displacement test unit, belong to mechanical transmission fields.

Background technology

Shaft coupling tends to bear additional displacement (axial displacement, angular displacement when work, or compound displacement (containing axial displacement, radial displacement and angular displacement)), these additional displacements can produce additional load to shaft coupling, thereby affect the mission life of shaft coupling.In order to understand additional displacement, what impact is the working condition of shaft coupling had actually, just need invention can given different axial displacements, angular displacement, or the shaft coupling additional displacement testing table of compound displacement (containing axial displacement, radial displacement and angular displacement).

Summary of the invention

The technical problem to be solved in the present invention is, under given displacement, and the device that shaft coupling is tested.Can specify axial displacement, the angular displacement that differs in size for the shaft coupling in running, or compound displacement (containing axial displacement, radial displacement and angular displacement), so just can simulate the actual working state of shaft coupling, the warranty test result can be consistent with actual.

shaft coupling additional displacement testing table is by motor 1, height adjusting cushion block 2, worktable 3, frame 4, motor reel 5, experiment shaft coupling 6, intermediate shaft 7, height adjusting cushion block 8, worktable 9 and drag devices 10 form, be characterized in, experiment shaft coupling 6 is arranged on respectively on motor reel 5 and intermediate shaft 7, motor reel 5 is connected with motor 1, motor 1 is arranged on height adjusting cushion block 2, height adjusting cushion block 2 is arranged on worktable 3, worktable 3 is connected with frame 4, intermediate shaft 7 is connected with drag devices 10, drag devices 10 is arranged on height adjusting cushion block 8, height adjusting cushion block 8 is arranged on worktable 9, worktable 9 is connected with frame 4.

Motor 1 is by motor reel 5 motoring ring test shaft coupling 6 rotations, and drag devices 10 passes through intermediate shaft 7 to experiment shaft coupling 6 imposed loads.By adjusting the position of worktable 9, can apply axial displacement, angular displacement to experiment shaft coupling 6, or compound displacement (containing axial displacement, radial displacement and angular displacement).

A kind of embodiment preferably of present technique solution is, the shaft coupling additional displacement testing table of this structure, can either apply axial displacement, angular displacement to experiment shaft coupling, or compound displacement (containing axial displacement, radial displacement and angular displacement), again can be to the experiment shaft coupling imposed load.

Description of drawings

Fig. 1---shaft coupling additional displacement test platform structure schematic diagram.

Fig. 2---apply the shaft coupling additional displacement test platform structure schematic diagram after axial displacement.

Fig. 3---apply the shaft coupling additional displacement test platform structure schematic diagram after angular displacement.

Fig. 4---apply the shaft coupling additional displacement test platform structure schematic diagram after compound displacement (containing axial displacement, radial displacement and angular displacement).

Fig. 5---apply the shaft coupling additional displacement test platform structure schematic diagram partial enlarged drawing after compound displacement (containing axial displacement, radial displacement and angular displacement).

Embodiment

Provide embodiments of the invention below in conjunction with accompanying drawing, be used for further illustrating technical solution.

found out by accompanying drawing 1, shaft coupling additional displacement testing table is by motor 1, height adjusting cushion block 2, worktable 3, frame 4, motor reel 5, experiment shaft coupling 6, intermediate shaft 7, height adjusting cushion block 8, worktable 9 and drag devices 10 form, be characterized in, experiment shaft coupling 6 is arranged on respectively on motor reel 5 and intermediate shaft 7, motor reel 5 is connected with motor 1, motor 1 is arranged on height adjusting cushion block 2, height adjusting cushion block 2 is arranged on worktable 3, worktable 3 is connected with frame 4, intermediate shaft 7 is connected with drag devices 10, drag devices 10 is arranged on height adjusting cushion block 8, height adjusting cushion block 8 is arranged on worktable 9, worktable 9 is connected with frame 4.

Motor 1 is by motor reel 5 motoring ring test shaft coupling 6 rotations, and drag devices 10 passes through intermediate shaft 7 to experiment shaft coupling 6 imposed loads.By adjusting the position of worktable 9, experiment shaft coupling 6 is applied axial displacement, angular displacement, or compound displacement (containing axial displacement, radial displacement and angular displacement).

Accompanying drawing 2 is for applying the shaft coupling additional displacement test platform structure schematic diagram after axial displacement.Its principle of work is: by adjusting the axial location of worktable 9, experiment shaft coupling 6 is applied axial displacement

, then worktable 9 is fixed on frame 4, actuating motor 1 makes experiment shaft coupling 6 in axial displacement

Under test.

Accompanying drawing 3 is for applying the shaft coupling additional displacement test platform structure schematic diagram after angular displacement.Its principle of work is: with AThe point ( APoint is the axial midpoint of experiment shaft coupling 6) centered by, by adjusting the angular position of worktable 9, experiment shaft coupling 6 is applied angular displacement

, then worktable 9 is fixed on frame 4, actuating motor 1 makes experiment shaft coupling 6 in angular displacement

Under test.

Accompanying drawing 4 is for applying the shaft coupling additional displacement test platform structure schematic diagram after compound displacement (containing axial displacement, radial displacement and angular displacement), and accompanying drawing 5 is for applying the shaft coupling additional displacement test platform structure schematic diagram partial enlarged drawing after compound displacement (containing axial displacement, radial displacement and angular displacement).Its principle of work is: with BThe point ( BPoint is the bottom coincide point of worktable 3 and worktable 9) centered by, by adjusting the angular position of worktable 9, experiment shaft coupling 6 being applied compound displacement, i.e. axial displacement is

, radial displacement is

, angular displacement is

, then worktable 9 is fixed on frame 4, actuating motor 1 makes experiment shaft coupling 6 in axial displacement be

, radial displacement is With angular displacement be

Under test.

Found out by accompanying drawing 4 and accompanying drawing 5, by adjusting the height of height adjusting cushion block 2 and height adjusting cushion block 8 h, adjust worktable 9 around BThe angle that point turns over

, just can adjust the size of compound displacement.Highly h, the angle that turns over

And the relation between compound displacement is as follows.

(1) axial displacement

:

(2) radial displacement

:

(3) angular displacement

: be worktable 9 around BThe angle that point turns over

Half.

Claims (2)

1. shaft coupling additional displacement testing table, by motor 1, height adjusting cushion block 2, worktable 3, frame 4, motor reel 5, experiment shaft coupling 6, intermediate shaft 7, height adjusting cushion block 8, worktable 9 and drag devices 10 form, it is characterized in that, experiment shaft coupling 6 is arranged on respectively on motor reel 5 and intermediate shaft 7, motor reel 5 is connected with motor 1, motor 1 is arranged on height adjusting cushion block 2, height adjusting cushion block 2 is arranged on worktable 3, worktable 3 is connected with frame 4, intermediate shaft 7 is connected with drag devices 10, drag devices 10 is arranged on height adjusting cushion block 8, height adjusting cushion block 8 is arranged on worktable 9, worktable 9 is connected with frame 4.

2. shaft coupling additional displacement testing table according to claim 1, is characterized in that, worktable is comprised of worktable 3 and worktable 9, realizes experiment shaft coupling 6 is applied displacement by the position of adjusting worktable 9.

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