CN204389106U - A kind of accuracy detection calibration equipment of hard bearing dynamic balancing machine - Google Patents

Abstract

The utility model belongs to machinery manufacturing technology field, proposes a kind of accuracy detection calibration equipment of hard bearing dynamic balancing machine.What propose accuracy detection calibration equipment includes joint flange axle (6) and detection check calibration mandrel (9); Joint flange axle (6) is connected to and universal coupling (4), detection check are calibrated between mandrel (9); Detection check calibration mandrel (9) includes counterweight mandrel body (9.4), is symmetricly set on front support axle journal (9.3) on the front/rear end of counterweight mandrel body (9.4) and rear support axle journal (9.9); The outer diameter face of counterweight mandrel body (9.4) is provided with two groups and axially adds and subtracts weights (8); The front and rear end of counterweight mandrel body (9.4) is all provided with radial plus-minus weights (13).What the utility model ensure that bent axle builds process implementing and product quality, for internal combustion engine and the standby reliability service of integral installation provide technology, quality assurance.

Description

A kind of accuracy detection calibration equipment of hard bearing dynamic balancing machine

Technical field

The utility model belongs to machinery manufacturing technology field, the main accuracy detection calibration equipment proposing a kind of hard bearing dynamic balancing machine.

Background technology

In the manufacture of machine-building and processing industry and equipment industry, in repairing and detecting, at the crankshaft of diesel engine of railway locomotive, shaft coupling, vibration damper, axletree, the manufacture of the rotary type parts such as wheel, processing, high precision and high-revolving employing in the precision calibration verification of detection and testing equipment thereof, must with good balance for condition precedent, when the centrifugal force caused by different factors and centrifugal moment, the increase of bearing load is often caused when appearing in different rotary parts, wearing and tearing aggravation, the formation of vibration & noise, shorten the serviceable life of machine, the serious generation that also may cause turning axle and upper mounting component fatigue notch thereof, and then cause fracture, jeopardize personal safety.Therefore, for effectively controlling and eliminating above-mentioned adverse factor, dynamic balance calibration is carried out to rotary body (i.e. workpiece rotor), has become one of requisite technological measure in the equipment manufacture industries such as industry and computing machine, communication and robotization such as such as power, automobile, motor, lathe, chemical industry, food, railway.

Hard bearing dynamic balancing machine uses universal balancing machine comparatively widely at present, it is high that it has efficiency, easy and simple to handle, intuitive display, measure rapidly, the features such as good stability, in use, only need by various classification, the physical dimension of different ready to balance workpiece, supporting form and parameter thereof, the data input electric measuring systems such as correction radius, can after one-shot running, demonstrate the value by inspection rotor residual unbalance, and phase place exactly, balance for single-piece or batch rotor is all very convenient, to can yet be regarded as a kind of more advanced balance check and checkout equipment.

YYW hard bearing dynamic balancing machine uses transient equilibrium detection experiment equipment the most widely at present, the main the type equipment that relies on of amount of unbalance detection of each type rotary work piece and solid of revolution is realized, most high workload rotating speed can be met at 8000rpm, weight 10.0t(ton) workpiece of left and right and the dynamic balance running of solid of revolution detect, and precision can reach more than 0.5gmm.In track transportation industry, bent axle, shaft coupling, vibration damper etc. as the diesel engine such as 12240ZJ, 16V240ZJ, 16V280ZJ of the diesel locomotives such as DF7B, DF7C, DF5, DF11, DF12, DF4D, DF8B require, in the manufacture of extremely strict parts, processing and reparation, the hard bearing dynamic balancing machines such as HU4U, YYW-1000, YYW-3000 must be used to do dynamic balance running to amount of unbalance.As precision, large-scale and that supporting power is large testing equipment, regularly accuracy detection and reference precision calibration must be done to himself precision according to former design, manufacturing technology standard and accuracy requirement.But, the hard bearing dynamic balance running equipment of the type had not both had special calibration pick-up unit instrument after payment user of dispatching from the factory, clearly detailed calibration characterization processes is not had yet, the level of skill of adding execute-in-place user of service is uneven, cause the type dynamic balance running equipment precision overproof, also make the accuracy detection of user to the type equipment feel to have no way of doing it.As the equipment of accuracy of detection; himself precision is difficult to ensure, that precision for the parts of detected test just cannot ensure at all, not only affects the processing of parts, manufacture; affect production and operation, because disorderly closedown also causes the idle waste of transient equilibrium equipment to a great extent.

Utility model content

For solving the problems of the technologies described above, the purpose of this utility model is the accuracy detection calibration equipment proposing a kind of hard bearing dynamic balancing machine.

The utility model adopts following technical scheme for completing above-mentioned purpose:

An accuracy detection calibration equipment for hard bearing dynamic balancing machine, described accuracy detection calibration equipment is connected with drive unit by universal coupling, and described drive unit connects the Cardan shaft of hard bearing dynamic balancing machine; Accuracy detection calibration equipment is driven to rotate by drive unit; Described accuracy detection calibration equipment includes joint flange axle and detection check calibration mandrel; The front end of described joint flange axle is connected with described universal coupling, rear end connects detection check calibration mandrel, realizes detection check calibration mandrel be connected with the reliable of hard bearing dynamic balancing machine by joint flange axle, hard bearing dynamic balancing machine Cardan shaft; Described joint flange axle is the hollow shaft structure that front/rear end all has ring flange; The front end flange dish of described joint flange axle has the connection seam in order to be connected with universal coupling, and joint flange axle and universal coupling clearance fit; The front end flange dish of described joint flange axle is connected with universal coupling by the bolt of four rectangular distribution; The rear end ring flange of described joint flange axle is calibrated mandrel by multiple bolt be uniformly distributed along the circumference and described detection check and is connected; Described detection check calibration mandrel includes counterweight mandrel body, front support axle journal and rear support axle journal; Described counterweight mandrel body is cylinder solid of revolution; Described front support axle journal and rear support axle journal are symmetricly set on the front/rear end of counterweight mandrel body, and front support axle journal, adopt arc transition between rear support axle journal and described counterweight mandrel body, to eliminate stress, improve intensity; The outer diameter face of described counterweight mandrel body is provided with two groups and axially adds and subtracts weights; Axis plus-minus weights described in two groups lays respectively at the both sides, front and back of counterweight mandrel body outer diameter face; Many rows that axis plus-minus weights often described in group is arranged before and after being, axis plus-minus weights often described in row be along the outer diameter face of counterweight mandrel body arrange multiple, by the quantity of installation shaft in counterweight mandrel body outer diameter face to plus-minus weights, realize the adjustment of axially plus-minus amount of unbalance; The front and rear end of described counterweight mandrel body is all provided with radial plus-minus weights; Described radial direction plus-minus weights is be uniformly distributed along the circumference multiple, by the front and rear end of counterweight mandrel body being installed the quantity of radial plus-minus weights, realizes the adjustment of radial plus-minus amount of unbalance; Described front support axle journal is supported on base by left and right bearing support; Described rear support axle journal is supported on base by left and right roll-over protective structure; Described left and right bearing support, left and right roll-over protective structure are fixed on base, and the bottom of described left and right bearing support, left and right roll-over protective structure is all provided with in order to the detection check calibration mechanical amplifier that detects of mandrel and sensor, forms fixed detections being positioned at detection check calibration mandrel rear and front end and supports; During detection check, accuracy detection calibration equipment is arranged on left and right bearing support, left and right roll-over protective structure, in the middle part of verification calibration mandrel, arrange movable detection supporting; Two fixed detection supportings and movable detection is utilized to support and coordinate dial gauge to detect accuracy detection calibration equipment; The front end face of described front support axle journal has the lifting screw in order to lowering lifting detection check calibration mandrel, utilize deadweight vertically to deposit to eliminate the flexible deformation that causes of conducting oneself with dignity and bend principle, eliminate the distortion of detection check calibration mandrel, ensure the form and position tolerance of cylindricity, circularity and right alignment, guarantee long-term, Reusability detection check calibration mandrel, thus improve the measuring accuracy of testing equipment.

Described front end flange dish has the link bolt hole of four rectangular distribution, be connected by the rear flange of coupling bolt with the Cardan shaft of hard bearing dynamic balancing machine.

The center of described rear mounting flange has outwardly directed connection boss; The end face of described rear mounting flange has the bolt mounting holes be uniformly distributed along the circumference.

The front end face of described front support axle journal has the connecting groove in order to coordinate with the connection boss on joint flange shaft rear end face; 90 ° of back chipping process have been carried out in the bottom of described connecting groove, to guarantee not interfere with the flange boss of joint flange axle, are coordinated reliable connection that can realize detection check calibration mandrel and this device joint flange axle by small―gap suture; The front end face of described front support axle journal has the lifting screw mounting hole in order to lowering lifting detection check calibration mandrel; The front end face of described front support axle journal has the bolt connecting hole be uniformly distributed along the circumference, in order to be connected with joint flange axle by coupling bolt.

The front/rear end of described counterweight mandrel body all has the radial weights installation screw installing radial weights; The outer diameter face of described counterweight mandrel body have many rows in order to the axial weights installation screw of installation shaft to weights.

The surface of described front support axle journal, rear support axle journal is all through roll extrusion nitriding intensive treatment; intensity and wearing quality are greatly improved; reducing friction resistance, avoids prolonged and repeated wearing and tearing stone roller to hinder roller, is convenient to quality and the state of protecting dynamic hard bearing balan supporting rollern.

Described radial direction plus-minus weights, the structure of radial plus-minus weights are identical; Described radial direction plus-minus weights, radial plus-minus weights include weight body and are connected to the spiro column of weight body bottom; The cross sectional shape of described weight body is right cylinder, and the left and right end face of described weight body is the plane in order to convenient dividing by means of characters counterweight; Described spiro column is the structure of joining with the shape kissing of the counterweight mounting hole in counterweight mandrel body.

The accuracy detection calibration equipment of a kind of hard bearing dynamic balancing machine that the utility model is mentioned and precision calibration technique, adopt the fixed mode detecting supporting and movable detection bearing engagement, form and position tolerance is jumped in king journal right alignment and the footpath of measuring bent axle accurately, correct and change for a long time, the multi-cylinder of traditional even mistake grows up tractor crankshaft technique and detection method, what ensure that bent axle builds process implementing and product quality, for internal combustion engine and the standby reliability service of integral installation provide technology, quality assurance; In addition the utility model also have reasonable in design, be convenient to manufacture, be convenient to testing staff's execute-in-place, easy to adjust, safe and reliable feature, does not impact after supporting crankshaft and collides with, presses against and hinder axle journal, alleviate labour intensity, improve operating efficiency.The accuracy detection of dynamic balancing machine comprises himself former design accuracy calibration and regular precision checking after using some cycles of dispatching from the factory.

Accompanying drawing explanation

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

Fig. 2 is the structural representation of joint flange axle in the utility model.

Fig. 3 is the front view of joint flange axle front end flange dish in the utility model.

The front view of joint flange shaft rear end ring flange in Fig. 4 the utility model.

Fig. 5 is the structural representation of detection check calibration mandrel in the utility model.

Fig. 6 is the side view of Fig. 5.

Fig. 7 is the A-A cut-open view of Fig. 5.

Fig. 8 is the structural representation of radial plus-minus weights in the utility model, radial plus-minus weights.

Fig. 9 is the vertical view of Fig. 8.

In figure, 1, electrical measurement case, 2, electric cabinet, 3, drive unit, 4, universal coupling, 5, protective cover, 6, joint flange axle, 6.1, connect seam, 6.2, link bolt hole, 6.3, front end flange dish, 6.8, rear mounting flange, 6.9, bolt mounting holes, 6.10, connect boss, 7, left and right bearing support, 8, axially add and subtract weights, 9, detection check calibration mandrel, 9.1, connecting groove, 9.2, bolt connecting hole, 9.3, front support axle journal, 9.4, counterweight mandrel body, 9.5, radial plus-minus weights installation screw, 9.9, rear support axle journal, 9.12, lifting bolt hole, 9.13, radial plus-minus weights installation screw, 10, left and right roll-over protective structure, 11, mechanical amplifier and sensor, 12, base, 13, radial plus-minus weights, 14, weight body, 15, spiro column.

Embodiment

With specific embodiment, the utility model is illustrated by reference to the accompanying drawings:

As shown in Figure 1, a kind of accuracy detection calibration equipment of hard bearing dynamic balancing machine, described accuracy detection calibration equipment is connected with drive unit 3 by universal coupling 4, described drive unit 2 connects the Cardan shaft of hard bearing dynamic balancing machine, drives accuracy detection calibration equipment to rotate by drive unit 3; Described accuracy detection calibration equipment includes joint flange axle 6 and detection check calibration mandrel 9; The front end of described joint flange axle 6 is connected with described universal coupling 4, rear end connects detection check calibration mandrel 9, realizes detection check calibration mandrel be connected with the reliable of hard bearing dynamic balancing machine by the Cardan shaft of joint flange axle 6, hard bearing dynamic balancing machine; Composition graphs 2, Fig. 3, Fig. 4, described joint flange axle 6 is the hollow shaft structure that front/rear end all has ring flange; Joint flange axle is made up of 35CrMo material, carry out HB240-280 modifier treatment, inside is processed with Φ 38mm through hole, external process has Φ 66mm axle journal, and the outside diameter of front end flange dish is Φ 116mm, and the outside diameter of rear end ring flange is Φ 140mm, overall length is 200mm, both can alleviate the overall weight of joint flange axle, and also can increase bulk strength, joint flange axle entirety is the flange shaft sleeve structure of front and back flange, quill shaft; The front end flange dish 6.3 of described joint flange axle has the connection seam 6.1 in order to be connected with universal coupling 4, and joint flange axle and universal coupling clearance fit; The diameter connecting seam 6.1 is Φ 45H7mm, the degree of depth is 5mm; The front end flange dish 6.3 of described joint flange axle is connected with universal coupling 4 by the bolt of four rectangular distribution; The rear end ring flange of described joint flange axle 6.3 is calibrated mandrel 9 by six bolts be uniformly distributed along the circumference and described detection check and is connected; As shown in Fig. 5, Fig. 6, Fig. 7, described detection check calibration mandrel 9 includes counterweight mandrel body 9.4, front support axle journal 9.3 and rear support axle journal 9.9; Described counterweight mandrel body 9.4 is cylinder solid of revolution; Described front support axle journal 9.3 and rear support axle journal 9.9 are symmetricly set on the front/rear end of counterweight mandrel body 9.4, and front support axle journal 9.3, adopt arc transition between rear support axle journal 9.9 and described counterweight mandrel body 9.4, and circular arc is R5 circular arc; When eliminating starting material casting and the stress in Jin Qiejia man-hour, improve intensity; The outer diameter face of described counterweight mandrel body 9.4 is provided with two groups of axially plus-minus weights 8; Axis plus-minus weights 8 described in two groups lays respectively at the both sides, front and back of counterweight mandrel body outer diameter face; Two rows that axis plus-minus weights 8 often described in group is arranged for front and back, axis plus-minus weights 8 often described in row is 12 that arrange along the outer diameter face of counterweight mandrel body 9.4, by the quantity of installation shaft in counterweight mandrel body outer diameter face to plus-minus weights, realize the adjustment of axially plus-minus amount of unbalance; The front and rear end of described counterweight mandrel body 9.4 is all provided with radial plus-minus weights 13; Described radial direction plus-minus weights 13 is 12 that are uniformly distributed along the circumference, and by the front and rear end of counterweight mandrel body 4 being installed the quantity of radial plus-minus weights, realizes the adjustment of radial plus-minus amount of unbalance; Described front support axle journal 9.3 is supported on base 12 by left and right bearing support 7; Described rear support axle journal 9.9 is supported on base 12 by left and right roll-over protective structure 10; Left and right bearing support 7 is in vertical type framed structure, left and right roll-over protective structure 10 is triangular in shape presses down compression fastening structure, they a pair between two, divide front and back each a pair, be fixed on dynamic balancing machine base, an effect is support columns solid of revolution, and another effect prevents turning circle cylinder from throwing away rotary, plays safeguard protection effect; Described left and right bearing support 7, left and right roll-over protective structure 10 are fixed on base 12, and the bottom of described left and right bearing support 7, left and right roll-over protective structure 10 is all provided with in order to the detection check calibration mechanical amplifier that detects of mandrel and sensor 11, forms fixed detections being positioned at detection check calibration mandrel rear and front end and supports; During detection check, accuracy detection calibration equipment is arranged on left and right bearing support, left and right roll-over protective structure, in the middle part of verification calibration mandrel, arrange movable detection supporting; Two fixed detection supportings and movable detection is utilized to support and coordinate dial gauge to detect accuracy detection calibration equipment; The front end face of described front support axle journal 9.4 has the lifting screw in order to lowering lifting detection check calibration mandrel, utilize deadweight vertically to deposit to eliminate the flexible deformation that causes of conducting oneself with dignity and bend principle, eliminate the distortion of detection check calibration mandrel, ensure the form and position tolerance of cylindricity, circularity and right alignment, guarantee long-term, Reusability detection check calibration mandrel, thus improve the measuring accuracy of testing equipment.

As shown in Figure 2, Figure 3 and Figure 4, described front end flange dish 6.3 has the link bolt hole 6.2 of four rectangular distribution, be connected by the rear flange of coupling bolt with the Cardan shaft of hard bearing dynamic balancing machine; Link bolt hole 6.2 is of a size of M10 × 15mm, and four link bolt hole 6.2 are the rectangular distribution of long 67mm, wide 58mm; The connection of detection check calibration mandrel and dynamic balancing machine is realized after four link bolt hole 6.2 penetrate 4 M10 × 25 bolts, connect the Φ 45s6(diameter of seam 6.1 and the Cardan shaft of dynamic balancing machine) × 4.8(highly) the connection boss of mm is connected, connect bottom outlet root in seam 6.1 and carry out 90 ° of back chipping process, to guarantee not interfere with the flange boss of universal coupling; The cylindrical of front end flange dish has carried out 2 × 45 °, two sides chamfered, has carried out the process of R3 circular arc, gain in strength to eliminate stress with the Φ 66mm axle place of joint flange axle; Rear end ring flange is processed with Φ 70H7(diameter) × 4.8(height) penetrate six M10 × 35 bolts in Φ 10.3mm bolt mounting holes 6.9, six bolt mounting holes 6.9 of being uniformly distributed along the circumference of the connection boss 6.10, six of mm after to realize and detection check calibrates the connection of mandrel; Connecting boss 6.10 and can calibrate the Φ 70H7(diameter of mandrel with detection check) connecting groove of × 5.0 (degree of depth) mm is connected, employing small―gap suture coordinates, and can realize detection check calibration mandrel be connected with the reliable of dynamic balancing machine by joint flange axle, dynamic balancing machine Cardan shaft.Φ 70s6(diameter) × 4.8(height) the connection boss root of mm carried out 90 ° of back chipping process, to guarantee the Φ 70H7(diameter calibrating mandrel with detection check) the connection seam of × 5.0 (degree of depth) mm do not interfere; The cylindrical of rear end ring flange has carried out 3 × 45 °, two sides chamfered, has carried out the process of R5 circular arc, gain in strength to eliminate stress with the Φ 66mm axle journal place of joint flange axle.

As shown in Fig. 5, Fig. 6 and Fig. 7, described detection check calibration mandrel 9 is made up of HT20-40 material, and carried out artificial aging process, Here it is utilizes the on-deformable mechanism of cast iron quality part, keeps the rigidity of whole mandrel, strength and stability; Before and after bearing journal carried out surface rolling after thickness reach the nitriding intensive treatment of about 1.25mm, intensity during to improve itself and dynamic balancing machine supporting rollern contact Rotating and wearing quality; The size of forward and backward bearing journal is Φ 168mm × 300(length) mm, counterweight mandrel body is of a size of Φ 45 × 968(length) mm, detection check calibration mandrel 9 overall length is 1568mm; The front end face of described front support axle journal 9.3 has the connecting groove 9.1 in order to coordinate with the connection boss on joint flange shaft rear end face; Connecting groove 9.1 is of a size of Φ 70H7(diameter) × 5.0(the degree of depth) mm; 90 ° of back chipping process have been carried out in the bottom of described connecting groove 9.1, to guarantee not interfere with the flange boss of joint flange axle, are coordinated reliable connection that can realize detection check calibration mandrel and this device joint flange axle by small―gap suture; The front end face of described front support axle journal 9.3 has the lifting screw mounting hole 9.12 in order to lowering lifting detection check calibration mandrel; Lifting screw mounting hole 9.12 is of a size of M30 × 30mm; Namely in order to protect, detection check is calibrated designed by the rigidity of mandrel, precision and form and position tolerance, processing, also be convenient to detection check calibration the daily of mandrel vertically deposit, the test of detection check calibration mandrel is finished using, in this screw, be screwed into M30 lifting bolt, in suspension ring, penetrate round steel can hang on special storage rack; The front end face of described front support axle journal 9.3 has six bolt connecting holes 9.2 in Φ 110 circumference uniform distribution, bolt connecting hole 9.2 is of a size of M10 × 25mm, in order to be connected with joint flange axle 6 by coupling bolt; The front/rear end of described counterweight mandrel body 9.4 all has the radial weights installation screw 9.13 installing radial weights, radial weights installation screw 9.13 is 12 that are uniformly distributed along the circumference, and totally 24, is of a size of M20 × 25mm; The outer diameter face of described counterweight mandrel body 9.4 has two rows in order to the axial weights installation screw 9.5 of installation shaft to weights, often arrange axial weights installation screw 9.5 for 12 that are uniformly distributed along the circumference, totally 48, be of a size of M20 × 25mm; 72 installation screw working depths must be the same, according to clockwise direction, to plus-minus weights installation screw, position, sequence number layout are carried out to outboard shafts in left and right side plus-minus weights installation screw, front and back ends, around each screw within the scope of Φ 40mm, write respectively 1-72 along number, when being convenient to testing inspection like this, counterweight is installed and calculating, record etc.

As shown in Figure 8, Figure 9, described axis plus-minus weights 8, the structure of radial plus-minus weights 13 are identical; Described axis plus-minus weights 8, radial plus-minus weights 13 include weight body 14 and are connected to the spiro column 15 of weight body bottom; Axially plus-minus weights 8 is diameters of Φ 60(column part) thickness that divides of × 40(cylinder plat mill part) length of × M20-25 (being screwed into spiro column part)-55(weight body part) × 80(counterweight overall length) " grenade " form, axially plus-minus weights is made up of P20 stainless steel (being equivalent to the stainless steel of domestic 3Cr2Mo); The cross sectional shape of described weight body is right cylinder; The left and right end face of described weight body 14 is the plane in order to convenient dividing by means of characters counterweight; Described spiro column 15 is the structure of joining with the shape kissing of the counterweight mounting hole in counterweight mandrel body; In order to calculating when indicating mark and use, record and deposit, take conveniently, equality of should going up to the sky exact instrument accurately measures the weight of whole counterweight, and on this face of cylinder utilizing mordant or electric engraver weight data to be scribed at counterweight and in upper plane.The flat body in the left and right that 40mm is thick (being namely made up of the left plane of counterweight dismounting, right plane) is to use the reinforcing of spanner dismounting counterweight to use.

When concrete detection check, according to the bearing position of detection check calibration mandrel, adjustment, fix the height of the supporting rollern on the horizontal front and back position of the left and right bearing support of dynamic balancing machine and bearing support, and lock each roller, according to the length of support of setting, namely front support bracket supporting rollern medium line (center line) is to radial direction (level) Distance geometry front support bracket supporting rollern medium line (center line) of outer ring, front end or inner ring plus-minus weights mounting hole to radial direction (level) distance of outer ring, front end or inner ring plus-minus weights mounting hole, and the distance in plus-minus counterweight hole, front and back, again according to the height of dynamic balancing machine Cardan shaft, adjustment fixes, by length of support, the turning radius, counterweight setting angle (phase place), the records such as counterweight weight, in input dynamic balancing machine electrical measurement case.

After lubricating roller, according to dynamic balancing machine operation instructions operation instructions and electrical measurement case data setting processing step, the accuracy detection calibration equipment of above-mentioned hard bearing dynamic balancing machine is utilized to carry out precision calibration technique, test mass and phase value in rotor is calibrated: A, B, C, R1 carry out calibrating the setting of initial value according to waiting, the method to set up of calibration initial value is calibrating method ripe in prior art, namely according to suggested by hard bearing dynamic balancing machine operation instructions, by enter key and start key " S ", transient equilibrium pilot lamp in electrical measurement case is bright, represents that calibration arranges beginning; Left " A " flicker, input will in the information of the left calibration test mass of left plane; By enter key memory parameter; In like manner, according to abovementioned steps, input the weights that need increase the weight of in right calibration face and weight and position, and press enter key and remember.Then carry out first time, second time calibration running and third time calibrate running, third time calibration after, after self-inspection number of times reaches, data stabilization time by " function key " preserve measure numerical value, after shutdown, press right lateral key stored in measurement result.Finally, exit calibration program, shown data and phase place and angle and plus-minus weight mass and amount of unbalance are contrasted the precision that just can detect dynamic balancing machine with actual, the namely uneven precision of this dynamic balancing machine when other rotary work pieces of test.

Calibrate or be everlasting day when confirming that dynamic balancing machine reference precision does not accurately need adjustment, only need check precision, when verifying, the accuracy detection verification of dynamic balancing machine can have been done.Basic step is identical with calibration.Just when uneasiness turns counterweight, first circle test and data record are done to detection check calibration mandrel, then the weight body of Different Weight is installed at diverse location, do 5 times respectively and add loss of weight dynamic balance running, record 5 times 10 groups amount of unbalance and plus-minus counterweight angle (phase place) data, 5 10 groups of amount of unbalances that actual swing weight-adding weight and angle (phase place) and dynamic balancing machine electrical measurement case shows with add and subtract counterweight angle (phase place) data and contrast, as long as the error of each displayed value and actual value and weight are about ± 8%, angle ± 5%, get final product the precision needs of satisfying dynamic equilibrium machine and the reparation of product, manufacture processing to need.

Claims (6)

1. the accuracy detection calibration equipment of a hard bearing dynamic balancing machine, it is characterized in that: described accuracy detection calibration equipment is connected with drive unit (3) by universal coupling (4), described drive unit (3) connects the Cardan shaft of hard bearing dynamic balancing machine; Described accuracy detection calibration equipment includes joint flange axle (6) and detection check calibration mandrel (9); The front end of described joint flange axle (6) is connected with described universal coupling (4), and rear end connects detection check calibration mandrel (9); Described joint flange axle (6) all has the hollow shaft structure of ring flange for front/rear end; The front end flange dish (6.3) of described joint flange axle has the connection seam (6.1) in order to be connected with universal coupling (4), and joint flange axle and universal coupling clearance fit; The front end flange dish (6.3) of described joint flange axle is connected with universal coupling (4) by the bolt of four rectangular distribution; The rear mounting flange (6.8) of described joint flange axle (6) is calibrated mandrel (9) by multiple bolt be uniformly distributed along the circumference and described detection check and is connected; Described detection check calibration mandrel (9) includes counterweight mandrel body (9.4), front support axle journal (9.3) and rear support axle journal (9.9); Described counterweight mandrel body (9.4) is cylinder solid of revolution; Described front support axle journal (9.3) and rear support axle journal (9.9) are symmetricly set on the front/rear end of counterweight mandrel body (9.4), and front support axle journal (9.3), adopt arc transition between rear support axle journal (9.9) and described counterweight mandrel body (9.4); The outer diameter face of described counterweight mandrel body (9.4) is provided with two groups and axially adds and subtracts weights (8); Axis plus-minus weights (8) described in two groups lays respectively at the both sides, front and back of counterweight mandrel body outer diameter face; Axis plus-minus weights (8) many rows of arranging for front and back often described in group, the axis often described in row add and subtract weights (8) be along the outer diameter face of counterweight mandrel body (9.4) arrange multiple; The front and rear end of described counterweight mandrel body (9.4) is all provided with radial plus-minus weights (13); Described radial direction plus-minus weights (13) is multiple for what be uniformly distributed along the circumference; Described front support axle journal (9.3) is supported on base (12) by left and right bearing support (7); Described rear support axle journal (9.9) is supported on base (12) by left and right roll-over protective structure (10); Described left and right bearing support (7), left and right roll-over protective structure (10) are fixed on base (12), the bottom of described left and right bearing support (7), left and right roll-over protective structure (10) is all provided with mechanical amplifier in order to detect detection check calibration mandrel and sensor (11), forms fixed detections being positioned at detection check calibration mandrel rear and front end and supports.

2. the accuracy detection calibration equipment of a kind of hard bearing dynamic balancing machine according to claim 1, it is characterized in that: the link bolt hole (6.2) described front end flange dish (6.3) with four rectangular distribution, is connected by the rear flange of coupling bolt with the Cardan shaft of hard bearing dynamic balancing machine.

3. the accuracy detection calibration equipment of a kind of hard bearing dynamic balancing machine according to claim 1, is characterized in that: the center of described rear mounting flange (6.8) has outwardly directed connection boss (6.10); The end face of described rear mounting flange (6.8) has the bolt mounting holes (6.9) be uniformly distributed along the circumference.

4. the accuracy detection calibration equipment of a kind of hard bearing dynamic balancing machine according to claim 1, is characterized in that: the front end face of described front support axle journal (9.3) has the connecting groove (9.1) in order to coordinate with the connection boss on joint flange shaft rear end face; The front end face of described front support axle journal (9.3) has the lifting screw mounting hole (9.12) in order to lowering lifting detection check calibration mandrel; The front end face of described front support axle journal (9.3) has the bolt connecting hole (9.2) be uniformly distributed along the circumference, in order to be connected with joint flange axle (6) by coupling bolt.

5. the accuracy detection calibration equipment of a kind of hard bearing dynamic balancing machine according to claim 1, is characterized in that: the front/rear end of described counterweight mandrel body (9.4) all has the radial weights installation screw (9.13) of installing radial weights; The outer diameter face of described counterweight mandrel body (9.4) have many rows in order to the axial weights installation screw (9.5) of installation shaft to weights.

6. the accuracy detection calibration equipment of a kind of hard bearing dynamic balancing machine according to claim 1, is characterized in that: the structure of described axis plus-minus weights (8), radial plus-minus weights (13) is identical; Described axis plus-minus weights (8), radial plus-minus weights (13) include weight body (14) and are connected to the spiro column (15) of weight body bottom; Described weight body (14) is right cylinder; The left and right end face of described weight body (14) is the plane in order to convenient dividing by means of characters counterweight; Described spiro column (15) is the structure of joining with the shape kissing of the counterweight mounting hole in counterweight mandrel body.