CN201364215Y - Friction moment measuring device of bearing under different axial loads and rotating speed - Google Patents

Abstract

A friction moment measuring device of a bearing under different axial loads and rotating speed comprises a fixed component, an axial loading component, a display component and a measuring component which are arranged on a base of a rack; the measuring component is formed by the following steps: two same upper bearings and two same lower bearings are arranged in a bearing seat and fixed on a working platform of the rack; the outer ring end surfaces of the lower bearings are supported by a bushing of the working platform so as not to be contacted with the inner ring end surfaces of the lower bearings; and a loading head presses tightly the outer ring end surfaces of the lower bearings. Two same bearings for measuring are adopted so as to lead the axial loads not to be exerted directly on a transmission shaft and a driving device to influence and damage the work of the driving device. The voltage of a DC motor is regulated by a voltage regulator so as to regulate the rotating speed thereof; and a rotating screw is adopted to regulate axial loads. The measuring device can measure larger different loads, larger rotating speed and bearings with different rotating speed, namely, the measuring device can meet different needs of users and also has wide and adjustable measuring range as well as simple structure, easy manufacturing, convenient and accurate and visualized operation and use, great popularity and strong practicability.

Description

The measurement mechanism of bearing moment of friction under different axial loads, rotating speed

Technical field

The utility model relates to the measurement mechanism of bearing frictional torque, the measurement mechanism of particularly a kind of bearing moment of friction under different axial loads, rotating speed.

Background technology

Because of the frictional behaviour of bearing is one of important technology index of bearing dynamic property, be directly to influence bearing serviceable life, and bearing use the key factor of host computer system reliability and accuracy.Use the main frame producer of bearing for this reason, require Production of bearing producer that the accurate technical parameter of bearing frictional torque can be provided, but domestic existing equipment, also can't satisfy the requirement of detection by quantitative, analysis and the performance test of centering small size bearing moment of friction, the relevant for this reason measurement mechanism that solves the measurement bearing frictional torque arises at the historic moment.

The patent No. 200610052086.8 " bearing under micro-loading, The measure of frictional moment of different rotational speed and the survey meter " only provides a kind of straightforward procedure of measuring bearing frictional torque under micro-radial load and different rotating speeds.This measuring instrument not energy measurement in the moment of friction of different axial loads, different rotating speeds lower bearing.

The patent No. 200720091651.1 " a kind of gyro machine shaft connecting bearing friction torque test device ", this device only can be tested the extraordinary shaft connecting bearing of little load, and measurement range is little, only can apply axial load below the 10N to shaft connecting bearing with loaded ring, this device can't be used for measuring the dynamic friction torque of bearing under big axial load and high speed conditions.

Number of patent application 200710054386.4 " a kind of non-contact type bearing starting friction torgue measurement method and measuring instrument ", this device be Bearing Installation on the main shaft of air bearing supporting, load with cylinder, with electromagnetic torque as driving moment, apply axial load to measured bearing and measure bearing from the starting friction moment of static state when beginning to start running, the load that loads because of cylinder will be subjected to the restriction of air bearing, and this device can not be used to measure the dynamic friction torque of bearing at different axial loads and different rotating speeds lower bearing.

In sum, all there is significant limitation in each patent, and its use, measurement range are all very little, can't wide popularization and application.

Summary of the invention

Technical problem to be solved in the utility model is: the measurement mechanism that a kind of bearing moment of friction under different axial loads, rotating speed is provided, this measurement mechanism can be regulated the size of added axial load, the height of rotating speed, and measurement range is wide, precision is high, easy to use.

The technical scheme in the invention for solving the above technical problem is: the measurement mechanism of bearing moment of friction under different axial loads, rotating speed, comprise the fixation kit that is installed on the gantry base, axial charging assembly, display module, measurement assembly, described fixation kit is by direct current generator, stationary table is on gantry base, and direct current generator and pressure regulator connect and compose; Described axial charging assembly is linked into an integrated entity by screw rod and the load bar of band spring, and is separately fixed on the gravity sensor with loading head, and gravity sensor and load instrument connect and compose; Described display module is connected with mandrel, direct current generator turning axle by upper and lower shaft coupling by torque sensor, and torque sensor also connects and composes with the moment of torsion instrument; Described measurement assembly is connected with mandrel by identical two upper and lower bearings, is installed in the bearing seat internal fixation on the frame worktable, and the lining on the worktable is supporting the lower bearing cycle surface, do not contact with the inner ring end face, and loading head presses head bearing cycle surface formation.

Compared with prior art, advantage of the present utility model is: 1, prior art is that the inductive electromagnetic masterpiece that is produced by special torquer is a driving moment, or be sleeved on the loaded ring by the grating rotor, respond to by photoelectric sensor that to come the driving shaft connecting shaft to forward moving, therefore its velocity of rotation is low, can't measure the moment of friction under the high rotating speed, this device is directly driven and the rotating speed scalable by direct current generator, therefore the bearing velocity of rotation can be high, can be low, rotating speed can reach 100 rev/mins～7000 rev/mins;

2, prior art is by loaded ring shaft connecting bearing to be applied axial load, promptly directly apply and load in bearing, but can only apply less load, otherwise load all will damage drive unit by pressure greatly, therefore only can be used for the measurement of special type, little bearing, little rotating speed.This device adopts the bearing of two cover same model to measure moment of friction simultaneously, be for axial load is not applied directly on transmission shaft and the drive unit, but axial load is unloaded on the worktable of frame, therefore can be used for measuring different size loads and rotating speed, measurement range is wide, and measurement range adjustable size joint, the precision height, versatility is big, and is simple in structure, easily make, practical.

Description of drawings

Fig. 1, structural representation of the present utility model.

The partial enlarged drawing of Fig. 2, Fig. 1.

Embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is described in further detail.

Direct current generator 15 and worktable 10 are screwed on base plate 16, and base plate 16 is screwed on the base 17 of frame, and direct current generator 15 connects and composes fixation kit with pressure regulator 18.

Screw rod 1 connects into integral body with load bar 3, the screw rod lower end also is with spring 2, load bar 3 passes the through hole on the frame girder 21, screw thread with load bar 3 lower ends is fixed in the screw of weight transfer device 4 upper ends, and loading head 5 is connected with the screw of gravity sensor 4 lower ends, and gravity sensor 4 also connects and composes axial charging assembly with load meter 20.

Measured bearing is selected the identical two bearings of model specification for use, head bearing 6, lower bearing 9 lie in a horizontal plane in the bearing seat 8, the external diameter of two bearings and bearing seat 8 endoporus are slidingly matched, the endoporus of two bearings and mandrel 7 interference fit, bearing seat 8 is screwed on 10 of worktable, lining 11 embeds on worktable 10, and the cycle surface that supports lower bearing 9 does not contact to constitute with lower bearing 9 inner ring end faces measures assembly.

The upper end transmission shaft of torque sensor 13 and mandrel 7 lower ends link into an integrated entity by flexibly connecting with holding screw of last shaft coupling 12.

The lower end transmission shaft of torque sensor 13 and direct current generator 15 turning axles link into an integrated entity by following flexibly connecting with holding screw of shaft coupling 14.

The shell of torque sensor 13 is screwed on the sidewall of worktable 10, and torque sensor 13 also connects and composes display module with torque meter 19.

During use, clockwise direction rotary screw 1 makes it move downward compression spring 2, spring 2 is loaded into load on the gravity sensor 4 by load bar 3, gravity sensor 4 is applied to load on the cycle surface of tested head bearing 6 by loading head 5, pass on the inner ring end face of tested lower bearing 9 by mandrel 7 effects, the rotating speed of direct current generator 15 can be measured with tachometer gage, on tested two, lower bearing 6,9 at direct current generator 15, rotate with certain rotating speed under the drive of mandrel 7, at this moment load meter 20 can demonstrate the big or small N of axial load, torque meter 19 can demonstrate, lower bearing 6,9 at certain rotating speed, moment of friction value under certain axial load, be, the moment of friction value sum of following two bearings, its 1/2 are exactly the moment of friction value of a measured bearing.

Can constantly adjust the voltage of pressure regulator 18, promptly regulate the different voltages of supplying with direct current generator 15, can be used for changing the rotating speed of direct current generator, while rotary screw 1, load different axial loads by 2 pairs of gravity sensors of spring 4, just can demonstrate differentiated friction moment values by load meter 20, torque meter 19, tachometer gage (figure does not draw) at different axial loads, different rotating speeds lower bearing.This device is easy for operation, accurate, directly perceived, can be used for the measurement of the moment of friction of bearing under different axial loads and rotating speed of different model, and measurement range is wide, can be applicable in actual production.

Claims (5)

1, the measurement mechanism of a kind of bearing moment of friction under different axial loads, rotating speed, comprise the fixation kit that is installed on the gantry base (17), axial charging assembly, display module, measurement assembly, it is characterized in that described fixation kit is fixed on the gantry base (17) by direct current generator (15), worktable (10), and direct current generator (15) connects and composes with pressure regulator (18); Described axial charging assembly is linked into an integrated entity by screw rod (1) and the load bar (3) of band spring (2), and and loading head (5) be separately fixed on the gravity sensor (4), and gravity sensor (4) and load meter (20) connect and compose; Shaft coupling (14) was connected with direct current generator (15) turning axle under described display module was connected with mandrel (7), passes through by last shaft coupling (12) by torque sensor (13), and torque sensor (13) also connects and composes with torque meter (19); Described measurement assembly is connected with mandrel (7) by identical two upper and lower bearings (6), (9), be installed in bearing seat (8) internal fixation on frame worktable (10), lining (1) on the worktable (10) is supporting lower bearing (9) cycle surface and is not contacting with the inner ring end face, and loading head (5) presses head bearing (6) cycle surface formation.

2, the measurement mechanism of bearing according to claim 1 moment of friction under different axial loads, rotating speed is characterized in that the endoporus and mandrel (7) interference fit of described upper and lower bearing (6,9), and external diameter and described bearing seat (8) endoporus are slidingly matched.

3, the measurement mechanism of bearing according to claim 1 moment of friction under different axial loads, rotating speed, it is characterized in that described direct current generator (15) and worktable (10) are screwed on base plate (16), base plate (16) is screwed on the base (17) in frame.

4, the measurement mechanism of bearing according to claim 1 moment of friction under different axial loads, rotating speed is characterized in that described load bar (3), loading head (5) are fixed in the screw of gravity sensor (4) upper and lower end with the screw thread on it respectively.

5, the measurement mechanism of bearing according to claim 1 moment of friction under different axial loads, rotating speed, the upper end transmission shaft and mandrel (7) lower end that it is characterized in that described torque sensor (13), by linking into an integrated entity with flexibly connecting of last shaft coupling (12) with holding screw, the lower end transmission shaft of torque sensor (13) and direct current generator (15) turning axle, by linking into an integrated entity with flexibly connecting with holding screw of following shaft coupling (14), the shell of torque sensor (13) is screwed on the sidewall of worktable (10).

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