CN217877603U - Full-automatic device for measuring radial runout of shaft part - Google Patents

Abstract

The utility model relates to a full-automatic device of surveying axle part runout, the rotating electrical machines passes through fastening screw and links to each other with the motor support, the motor support passes through fastening screw and links to each other with left bottom plate, the shaft coupling passes through fastening screw and links to each other with rotating electrical machines and left top, the linear guide subassembly passes through fastening screw and links to each other with the bottom plate, it passes through fastening screw and links to each other with the bottom plate to control the jack-up cylinder, it falls on controlling the bracket through gravity to be surveyed the axle part, displacement sensor passes through the magnetic force seat and leans on surveyed the part on the surface, the magnetic force seat passes through magnetic force and adsorbs on the bottom plate, photoelectric sensor passes through fastening screw and links to each other with the bottom plate. This application can be applied to the production water line of axle part on, can realize full-automatic measurement axle part's runout value and full beat, if need survey full beat value then as required erect more sets of displacement sensor can, change the preceding full manual measurement mode, improve production efficiency, improve measuring reliability simultaneously.

Description

Full-automatic device for measuring radial runout of shaft part

Technical Field

The utility model belongs to the technical field of survey axle part runout technique and specifically relates to a full-automatic survey axle part runout's device.

Background

Along with the degree of automation on the manufacturing production line is higher and higher, the urgent need designer designs various automated mechanism and satisfies the manufacturing measurement demand on the production water line, and the function of surveying the radial run-out of axle type part relies on manual mode to accomplish before, and production efficiency is low and there is the risk of artificial mistake, and this patent has proposed a full-automatic device that surveys the radial run-out of axle type part.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's not enough, provide a full-automatic device of surveying axle part runout

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a full-automatic device that surveys axle part runout, it contains the rotating electrical machines, the rotating electrical machines passes through fastening screw and links to each other with motor support, motor support passes through fastening screw and links to each other with left bottom plate, the shaft coupling passes through fastening screw and links to each other with rotating electrical machines and left top, the linear guide subassembly passes through fastening screw and links to each other with the bottom plate, left side bracket passes through fastening screw and links to each other with left jacking cylinder, right side bracket passes through fastening screw and links to each other with right jacking cylinder, control jacking cylinder and pass through fastening screw and bottom plate and link to each other, it falls on left and right sides bracket through gravity to be surveyed the axle part, displacement sensor leans on by being surveyed the part on the surface through magnetic force seat, the magnetic force seat is adsorbed on the bottom plate, photoelectric sensor passes through fastening screw and links to each other with the bottom plate.

The left center is connected with the left bearing seat through a fastening screw; the right tip is connected with the right bearing seat through a fastening screw.

The left bearing seat is connected with the left bottom plate through a fastening screw; the right bearing seat is connected with the right bottom plate through a fastening screw.

The left propulsion cylinder is connected with the left bottom plate through a fastening screw; the right propulsion cylinder is connected with the right bottom plate through a fastening screw.

The left bottom plate is connected with the linear guide rail assembly through a fastening screw; the right bottom plate is connected with the linear guide rail assembly through a fastening screw.

The mechanism is based on the principle that when a part of a measured shaft is placed on a left bracket and a right bracket, after a start button is pressed, a photoelectric sensor senses the part, left and right pushing cylinders extend out to drive left and right apexes to be inserted into left and right center holes of the shaft, then left and right jacking cylinders retract to drive the left and right brackets to descend and disengage, then a rotating motor drives the measured shaft to rotate for a circle, and finally a radial runout value of the measured shaft is obtained through a displacement sensor.

Compared with the prior art, the utility model discloses an actively the effect is:

the mechanism can be applied to the production line of shaft parts, can realize the full-automatic measurement of the radial runout value and the full runout of the shaft parts, and can erect a plurality of sets of displacement sensors as required if the full runout value is required to be measured, thereby changing the previous full-manual measurement mode, improving the production efficiency and simultaneously improving the measurement reliability.

Drawings

FIG. 1 is a device for fully automatically measuring radial run-out of a shaft part;

the symbols in the drawings are:

1 a rotating electric machine for a rotating electric machine,

2, a shaft coupling is arranged on the shaft,

3, a left bearing seat is arranged on the left,

4, a left center is arranged at the left part,

5, a left bracket is arranged on the left side,

6, a shaft part to be measured is arranged,

7 a displacement sensor is arranged on the base plate,

8 the right bracket is arranged on the right side of the bracket,

9 the right center of the main shaft is provided with a right center,

10 the right bearing seat is arranged on the right side,

11 is pushed into the cylinder from the right,

12 a right bottom plate and a left bottom plate,

13 the right jacking cylinder is used for jacking up the cylinder,

14 a base plate, wherein the base plate is provided with a plurality of through holes,

15 photoelectric sensor

16 of left jacking-up air cylinders,

17 a linear guide rail assembly for guiding the linear guide rail assembly,

18 motor support

19 a left bottom plate and a right bottom plate,

the cylinder is propelled to the left by 20.

Detailed Description

The following provides the utility model relates to a full-automatic axle measurement part runout's device's embodiment.

Example 1

A full-automatic device for measuring radial runout of shaft parts comprises a rotary motor 1, a coupler 2, a left bearing seat 3, a left tip 4, a left bracket 5, a shaft part 6 to be measured, a displacement sensor 7, a right bracket 8, a right tip 9, a right bearing seat 10, a right propulsion cylinder 11, a right bottom plate 12, a right jacking cylinder 13, a bottom plate 14, a photoelectric sensor 15, a left jacking cylinder 16, a linear guide rail assembly 17, a motor support 18, a left bottom plate 19 and a left propulsion cylinder 20;

rotating electrical machines 1 links to each other with motor support 18 through fastening screw, motor support 18 links to each other with left bottom plate 19 through fastening screw, shaft coupling 2 links to each other with rotating electrical machines and left top 4 through fastening screw, the linear guide subassembly passes through fastening screw and links to each other with bottom plate 14, left side bracket 5 links to each other with left jacking cylinder 16 through fastening screw, right side bracket 8 links to each other with right jacking cylinder 13 through fastening screw, it links to each other with the bottom plate through fastening screw to control jacking cylinder, it drops on left and right sides bracket through gravity to be surveyed axle part 6, displacement sensor 7 leans on surveyed the part on the surface through magnetic force seat, the magnetic force seat passes through magnetic force and adsorbs on the bottom plate, photoelectric sensor 15 links to each other with the bottom plate through fastening screw.

The left centre 4 is connected with the left bearing seat through a fastening screw; the right centre 9 is connected with the right bearing seat through a fastening screw;

the left bearing seat is connected with the left bottom plate through a fastening screw; the right bearing seat 10 is connected with the right bottom plate through a fastening screw;

the left propulsion cylinder 20 is connected with the left bottom plate through a fastening screw; the right propulsion cylinder 11 is connected with the right bottom plate through a fastening screw;

the left bottom plate is connected with the linear guide rail assembly 17 through a fastening screw; the right bottom plate 12 is connected with the linear guide rail assembly through a fastening screw;

the work flow of the application is as follows: when a part of a measured shaft is placed on the left bracket and the right bracket, after the start button is pressed, the photoelectric sensor senses the part, the left propulsion cylinder and the right propulsion cylinder extend out to drive the left center and the right center to be inserted into left center holes and right center holes of the shaft, then the left jacking cylinder and the right jacking cylinder retract to drive the left bracket and the right bracket to descend and disengage, then the rotating motor drives the measured shaft to rotate for a circle, and finally the radial runout value of the measured shaft is obtained through the displacement sensor.

The patent of the utility model provides a full-automatic axle part runout's device of surveying, the device can be applied to the production assembly line of axle part on, can realize the runout value of full-automatic measurement axle part, if need survey the runout value then as required erect many sets of displacement sensor can, changed preceding full manual measuring mode, improved production efficiency, improved the reliability of measurement simultaneously.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the concept of the present invention, and these improvements and decorations should also be considered as within the protection scope of the present invention.

Claims (5)

1. The utility model provides a full-automatic device that surveys axle part runout, a serial communication port, it contains the rotating electrical machines, the rotating electrical machines passes through fastening screw and links to each other with motor support, motor support passes through fastening screw and links to each other with left bottom plate, the shaft coupling passes through fastening screw and links to each other with rotating electrical machines and left top, the linear guide subassembly passes through fastening screw and links to each other with the bottom plate, left side bracket passes through fastening screw and links to each other with left jacking cylinder, right side bracket passes through fastening screw and links to each other with right jacking cylinder, it passes through fastening screw and links to each other with the bottom plate to control jacking cylinder, it falls on left and right sides bracket through gravity to be surveyed the axle part, displacement sensor passes through the magnetic force seat and leans on the measured part on the surface, the magnetic force seat passes through magnetic force and adsorbs on the bottom plate, photoelectric sensor passes through fastening screw and links to each other with the bottom plate.

2. The device for fully automatically measuring the radial runout of the shaft part as claimed in claim 1, wherein the left center is connected with the left bearing seat through a fastening screw; the right tip is connected with the right bearing seat through a fastening screw.

3. The device for fully automatically measuring the radial run-out of the shaft part as claimed in claim 1, wherein the left bearing seat is connected with the left bottom plate through a fastening screw; the right bearing seat is connected with the right bottom plate through a fastening screw.

4. The device for fully automatically measuring the radial run-out of the shaft part as claimed in claim 1, wherein the left propulsion cylinder is connected with the left bottom plate through a fastening screw; the right propulsion cylinder is connected with the right bottom plate through a fastening screw.

5. The device for fully automatically measuring the radial runout of the shaft part as claimed in claim 1, wherein the left base plate is connected with the linear guide rail assembly through a fastening screw; the right bottom plate is connected with the linear guide rail assembly through a fastening screw.

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