CN204461985U - A kind of friction testing testing table - Google Patents

Abstract

The utility model relates to a kind of friction testing testing table, by frame, and vibration isolator, power system test macro, control and the composition such as data handling system and backup system.Backup system by Timing Belt strainer, spray system, the compositions such as system for detecting temperature.Frame supports all devices.Servomotor exports through gear case the rotary motion that two rotating speeds are identical, direction is contrary, and synchronous first and second sample axle that drives makes synchronized, counter rotational movement.The gravity of counterweight carries out horizontal addload by fixed pulley and afterburning lever to the first sample axle, and the first sample axle compresses coupon, the second sample axle under gravitational load, and form two identical friction force, coupon vibrates under the effect of two friction force.The change in displacement of coupon is tried to achieve, according to the power that force snesor records by the power change of detect force sensor calculate friction factor and the frictional vibration feature of sample material; Can get rid of the interference that test macro itself vibrates produces, test is accurate, and compact conformation is simple to operate.

Description

A kind of friction testing testing table

Technical field

The utility model relates to a kind of friction testing testing table.

Background technology

Frictional vibration exists in all kinds of friction brake widely, and the vibration & noise that causes of rubbing has a strong impact on the security of the vehicles, comfortableness and the feature of environmental protection.The frictional vibration that the sliding bearing that submarine, naval vessel use causes and noise, had a strong impact on the Sound stealth performance of naval vessels, and naval vessels operational performance afield and viability are greatly reduced.

For weakening and the elimination of the vibration and noise caused that rubs, its difficult point is the characteristic parameter how effectively extracting frictional vibration signal.And be direct, the effective ways that obtain frictional vibration signal characteristic parameter by experimental test, for further vibration and noise reducing work lays the foundation.

But, existing friction testing testing table testing friction vibration and friction factor time, using the vibration data feature of the data of test macro indirect inspection as material itself.Because test macro itself take part in vibration, the data that test macro is recorded truly can not reflect the rubbing characteristics of material itself.

Therefore, how to eliminate the interference of test macro to test result, become the friction factor of Measurement accuracy material and the gordian technique of frictional vibration feature.At present, domestic also do not have Related product.

Summary of the invention

The purpose of this utility model is for above-mentioned present situation, aims to provide a kind ofly can get rid of the interference of test macro itself vibrates to measurement result, test accurately, compact conformation, simple to operate, the friction testing testing table that automaticity is high.

The implementation of the utility model object is, a kind of friction testing testing table, the manual pulley of Timing Belt strainer is connected with tensioning synchronizing wheel by bearing, and manual pulley splined shaft that the other end fills is connected with gear and kayser movable end, and kayser stiff end is fixed together by screw and tensioning slide block; Pitch wheel and tooth bar coordinate formative gear tooth bar secondary, and tooth bar is fixed by screws in frame; Baffle plate and tensioning slide block, kayser stiff end form planar contact pair; First sample axle inside surface of sample axle quick-changing mechanism is identical with the cone angle of mandrel outer surface, and the nut be contained on mandrel compresses the first sample axle;

The pump of spray system connects shower nozzle by pipeline, and shower nozzle, above the first sample axle and the second sample axle, has feeder below first and second sample axle, and the feeder be contained in frame is connected with liquid bath;

The counterweight of loading system is connected with afterburning lever by rope, fixed pulley with weight tray, and afterburning lever is connected with frame by bolt shaft; The U-type groove of afterburning lever lower end is connected with slide block by pin, and slide block is connected by rolling bearing with the first sample axle, and slide block is connected with frame by linear bearing, and the second sample axle is connected with frame by rolling bearing;

Vibration isolator is connected with frame by bolt, and servomotor and gear case are arranged on vibration isolator, and described servomotor is connected by shaft coupling with gear case, and gear case is connected with the first sample axle and the second sample axle with synchronizing wheel by Timing Belt;

Coupon is connected with force snesor, and force snesor is connected with handle by contiguous block; Coupon both sides are coupling tactile with the first sample axle and the second sample respectively; The temperature sensor of system for detecting temperature is contained in frame.

Servomotor of the present utility model exports two rotary motions that rotating speed is identical, direction is contrary by gear case, and by Timing Belt and synchronizing wheel, drives the first sample axle and the second sample axle to do synchronized, reverse rotary motion.The gravity of counterweight carries out horizontal addload by fixed pulley and afterburning lever to the first sample axle.First sample axle compresses coupon and the second sample axle under the loading of Weight gravity, forms two identical friction force.Coupon vibrates under the effect of two friction force.The change in displacement of coupon is tried to achieve, according to the power that force snesor records by the power change of detect force sensor data calculate the friction factor of sample material and frictional vibration feature.

The utility model compared with prior art, possesses following technological merit:

1, the interference of test macro itself vibrates to measurement result can be got rid of, record friction factor and the frictional vibration characteristic of material exactly;

2, can be used for testing different material friction factor at various speeds and frictional vibration characteristic, test condition can be divided into dry friction and lubrication friction, can meet the demand of the various working to friction testing;

3, compact conformation, simple to operate, automaticity is higher.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model friction testing testing table,

Fig. 2 is the structural representation of the power system of the utility model friction testing testing table, loading system and test macro,

Fig. 3 is the enlarged drawing of the part A of the power system of the friction testing of the utility model shown in Fig. 2 testing table, loading system and test macro,

Fig. 4, Fig. 5, Fig. 6 are the enlarged drawings of the part B of the power system of the friction testing of the utility model shown in Fig. 2 testing table, loading system and test macro,

Fig. 7 is the cut-open view of the sample axle quick-changing mechanism of the utility model friction testing testing table,

Fig. 8 is the structural representation of the spray system of the utility model friction testing testing table.

Embodiment

The utility model is by frame 4, and vibration isolator 23, power system, loading system, test macro, control and data handling system and backup system form.Backup system is primarily of Timing Belt strainer 3, and sample axle quick-changing mechanism, spray system, lubricating system, system for detecting temperature forms.Frame 4 supports all devices of friction testing testing table.Test macro by sensor and sample integrally, directly measures the movable information of sample; Control and data handling system solve the feature of friction force according to the kinetics equation of test macro, and then solve friction factor and the frictional vibration characteristic of sample.

With reference to the accompanying drawings in detail the utility model is described in detail.

With reference to Fig. 1, Fig. 2 and Fig. 3, servomotor 1 is connected with gear case 2 by shaft coupling, and gear case 2 is connected with the first sample axle 15 and the second sample axle 19 with synchronizing wheel 21 by Timing Belt 9.Servomotor 1 exports two rotary motions that rotating speed is identical, direction is contrary by gear case 2, and by Timing Belt 9 and synchronizing wheel 21, drives the first sample axle and the second sample axle to do synchronized, reverse rotary motion.Manual pulley 7 and tensioning synchronizing wheel 8 are for tensioning Timing Belt 9.

Gear case 2 adopts ratio of gear to be the Helical gear Transmission of 1:1, to reduce the fluctuation of output speed.

With reference to Fig. 2 and Fig. 3, the counterweight 5 of loading system is connected with afterburning lever 10 by rope 12, fixed pulley 13 with weight tray 6, and afterburning lever 10 is connected with frame 4 by bolt shaft 11.The U-type groove of afterburning lever lower end is connected with slide block 22 by pin, and slide block 22 is connected by rolling bearing 20 with the first sample axle 15, and slide block 22 is connected with frame 4 by linear bearing 14, can move horizontally.Second sample axle 19 is connected with frame 4 by rolling bearing 20, can only rotate.

Rope 12 adopts the nylon rope of high strength and toughness; The arm of force of afterburning lever 10 than 1:1, to ensure that the loading force suffered by the first sample axle 15 and the second sample axle 19 equals the gravity of counterweight 5.The axis of the first sample axle 15 and the second sample axle 19 is located in the same horizontal plane, and the first sample axle 15 is identical with the radius of the second sample axle 19.

Coupon 18 both sides contact with the second sample axle 19 with the first sample axle 15 respectively.The gravity of counterweight 5 carries out horizontal addload by fixed pulley 13 and afterburning lever 10 to the first sample axle 15, first sample axle 15 compresses coupon 18 under the loading of counterweight 5 gravity, coupon 18 compresses the second sample axle 19 simultaneously, and the pressure of two surface of contact is identical.Coupon 18 and the first sample axle 15 and the second sample axle 19 form two identical friction force.Coupon 18 vibrates under the effect of two friction force, and the vibration signal recorded by force snesor 16 solves the feature of friction force.

With reference to Fig. 2, Fig. 4, Fig. 5, Fig. 6 and Fig. 7, the manual pulley 7 of Timing Belt strainer 3 is connected with tensioning synchronizing wheel 8 by bearing, between manual pulley 7 and tensioning synchronizing wheel 8, Compress Spring is housed, manual pulley 7 splined shaft that the other end fills is connected with gear 24 and kayser movable end 29, kayser stiff end 28 is fixed together by screw and tensioning slide block 26, pitch wheel 24 and tooth bar 25 coordinate formative gear tooth bar secondary, and tooth bar 25 is fixed by screws in frame 4.Described splined shaft and kayser movable end 29 interference fit, and splined shaft and gear 24 and described bearing are clearance fit, and manual pulley 7 and kayser movable end 29 can be moved forward and backward relative to tensioning slide block 26; Baffle plate 27 and tensioning slide block 26, kayser stiff end 28 form planar contact pair, and restriction tensioning slide block 26 can only move left and right, the tensioning of control synchronization band 9 and loosening; Push manual pulley 7 kayser movable end 29 to be separated with kayser stiff end 28, manual pulley 7 can driven gear 24 left rotation and right rotation, to right rotation, and Timing Belt 9 tensioning; To anticlockwise, Timing Belt 9 loosens; Decontrol manual pulley 7, manual pulley 7 and kayser movable end 29 travel forward under the effect of Compress Spring, and kayser movable end 29 and kayser stiff end 28 engage each other, by locked for the position of tensioning synchronizing wheel 8 simultaneously.

With reference to Fig. 5, first sample axle 15 inside surface of sample axle quick-changing mechanism is identical with the cone angle of mandrel 31 outside surface, the angle of friction that described cone angle is less than 2 times, make to rely on friction fit together between the first sample axle 15 and mandrel 31, the nut 32 be contained on mandrel 31 compresses the first sample axle.

With reference to Fig. 2, gear case 2 and servomotor 1 are contained on vibration isolator 23, and described gear case 2 is connected by shaft coupling with servomotor 1, and vibration isolator 23 vibrates impact on testing table for reducing gear case 2 and servomotor 1; Gear case 2 is connected with the first sample axle 15 and the second sample axle 19 with synchronizing wheel 8 by Timing Belt 9.

With reference to Fig. 3, coupon 18 is connected with force snesor 16, and force snesor 16 is connected with handle 17 by contiguous block 30.Coupon 18 both sides contact with the second sample axle 19 with the first sample axle 15 respectively.Force snesor 16 is under the precondition meeting accuracy requirement, and rigidity should be enough large, ensures that coupon 18 is not pulled away by friction force, so that make coupon 18 and the friction pair that formed between the first sample axle 15 and the second sample axle 19 destroy.

The rigidity of force snesor is K, is changed by the strength of detect force sensor 16 by formula try to achieve the change in displacement X (t) of coupon.Handle 17 front section is cam structure, and when handle 17 is in vertical position, coupon 18, force snesor 16, contiguous block 30 and handle 17 can move left and right in the U-type groove of frame 4; When handle 17 is horizontal, the position of coupon 18, force snesor 16 contiguous block 30 and handle 17 will be locked.

With reference to Fig. 6, the pump 35 of spray system connects shower nozzle 33 by pipeline 34, and shower nozzle 33, above the first sample axle 15 and the second sample axle 19, has feeder below first and second sample axle, and the feeder be contained in frame is formed with liquid bath 36 and is connected.Fill friction media water or oil in liquid bath 36, by pump 35 via pipeline 34, shower nozzle 33, be sprayed at equably on the first sample axle 15 and the second sample axle 19, then the feeder below first and second sample axle is back to liquid bath 36 formation circulation.

First sample axle 15, second sample axle 19 can cause the rising of ambient temperature when rubbing with coupon 18, under being in abnormal operating state, temperature can be too high, and system for detecting temperature can give the alarm, prevent device damage, therefore the utility model must set temperature detection system.System for detecting temperature, by being contained in frame 4 inside, to be made up of the temperature sensor commonly used, for detecting the working temperature of the utility model friction testing testing table.

Control of the present utility model and data handling system are made up of the industrial computer usually adopted, man-machine interactive system, data acquisition processing system, motor servo driver and other slave parts.Control the rotating speed of servomotor 1, according to the power that force snesor 16 records data calculate the friction factor of sample material and frictional vibration feature.The differential equation of motion of test is

$M\stackrel{\·\·}{X}{\left(t\right)}^2+c\stackrel{\·}{X}\left(t\right)+\mathrm{KX}\left(t\right)=2F\left(t\right)$

In formula: M is the quality of coupon,

C is the damping of test macro,

K is the rigidity of force snesor,

F (t) is coupon 18 and the friction force between the first sample axle 15 and the second sample axle 19,

X (t) is the displacement of coupon 18,

with be respectively speed and the acceleration of coupon 18.

Coupon 18 is under certain speed:

v＝Rω ₀

In formula: R is sample axle radius,

ω ₀for sample axle rotating speed,

V is the relative velocity of coupon 18 and the first sample axle 15 and the second sample axle 19 contact point.

The solution procedure of friction force F (t) is:

Try to achieve friction force F (t) to be made up of DC component and AC compounent, the rubbing characteristics of material is solved again according to friction force F (t).The process of the friction factor and frictional vibration that solve sample is:

In formula: for the DC component of friction force F (t),

the AC compounent of friction force F (t),

N is the pressure of coupon 18 and the first sample axle 15 and the second sample axle 19 two surface of contact,

The change of the friction coefficient speed v that f (v) is material,

The frictional vibration that fv (v) is material is with the change of speed v.

Claims (7)

1. a friction testing testing table, it is characterized in that: the manual pulley of Timing Belt strainer is connected with tensioning synchronizing wheel by bearing, manual pulley splined shaft that the other end fills is connected with gear and kayser movable end, and kayser stiff end is fixed together by screw and tensioning slide block; Pitch wheel and tooth bar coordinate formative gear tooth bar secondary, and tooth bar is fixed by screws in frame; Baffle plate and tensioning slide block, kayser stiff end form planar contact pair; First sample axle inside surface of sample axle quick-changing mechanism is identical with the cone angle of mandrel outer surface, and the nut be contained on mandrel compresses the first sample axle;

The pump of spray system connects shower nozzle by pipeline, and shower nozzle, above the first sample axle and the second sample axle, has feeder below first and second sample axle, and the feeder be contained in frame is connected with liquid bath;

The counterweight of loading system is connected with afterburning lever by rope, fixed pulley with weight tray, and afterburning lever is connected with frame by bolt shaft; The U-type groove of afterburning lever lower end is connected with slide block by pin, and slide block is connected by rolling bearing with the first sample axle, and slide block is connected with frame by linear bearing, and the second sample axle is connected with frame by rolling bearing;

Vibration isolator is connected with frame by bolt, and servomotor and gear case are arranged on vibration isolator, and described servomotor is connected by shaft coupling with gear case, and gear case is connected with the first sample axle and the second sample axle with synchronizing wheel by Timing Belt;

Coupon is connected with force snesor, and force snesor is connected with handle by contiguous block; Coupon both sides are coupling tactile with the first sample axle and the second sample respectively; The temperature sensor of system for detecting temperature is contained in frame.

2. friction testing testing table according to claim 1, it is characterized in that servomotor (1) exports two rotary motions that rotating speed is identical, direction is contrary by gear case (2), and by Timing Belt (9) and synchronizing wheel (21), drive the first sample axle and the second sample axle to do synchronized, reverse rotary motion.

3. friction testing testing table according to claim 1, is characterized in that gear case (2) adopts ratio of gear to be the spiral gear of 1:1.

4. friction testing testing table according to claim 1, is characterized in that the angle of friction that the cone angle of the inside surface of the first sample axle (15) and the outside surface of mandrel (31) is less than 2 times.

5. friction testing testing table according to claim 1, is characterized in that the arm of force of afterburning lever (10) compares 1:1.

6. friction testing testing table according to claim 1, it is characterized in that the axis of the first sample axle (15) and the second sample axle (19) is located in the same horizontal plane, the first sample axle is identical with the radius of the second sample axle.

7. friction testing testing table according to claim 1, is characterized in that handle (17) front section is cam structure.