Circular shaft OD Measuring rotating disk mechanism and circumference OD Measuring
Technical field
The utility model belongs to the Machining Technology field, more particularly, relates to the circular shaft OD Measuring that a kind of circular shaft OD Measuring rotating disk mechanism machine comprises this rotating disk mechanism.
Background technology
Along with the industrialized gradual perfection in market and rapid development of economy and modern improve constantly the demand of job costs, efficient, quality, machine industry is also more and more higher to precision, the quality requirements of its equipment part.Some after processing, require its external diameter to detect the higher shaft-like workpiece of precision requirement usually, as adopting manual detection, efficient is low, because accessory size is little, needs to detect workpiece quantity very large again, the testing staff repeats identical simple motion for a long time, and is easily tired, unavoidable false retrieval.Design a kind of can be automatically, checkout equipment efficiently, have great economical and practical value.
The utility model content
Technical problem to be solved in the utility model is to provide a kind of circular shaft OD Measuring rotating disk mechanism, is intended to realize the horizontal clamping of circular shaft to be detected is not covered the light of measuring instrument, Reduce measurement error, and promote detection efficiency.
For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of circular shaft OD Measuring rotating disk mechanism is provided, be used for the clamping of circular shaft OD Measuring and drive circular shaft to be detected rotating below optical instrument, comprise main shaft, be located at least one power part that can laterally clamp the jaw of circular shaft to be measured and drive described main shaft rotation on described main shaft.
Further, described jaw is more than three, and each described jaw is built-in with a clamping cylinder.
Further, each described jaw comprises holder and the telescopic arm that is connected with described clamping cylinder, be respectively equipped with a feeding and can pushing against with the both ends of the surface of circular shaft to be detected and addendum cone that circular shaft is clamped in opposite directions on described holder and described telescopic arm, two described addendum cones are on same axial line.
Further, also be provided with size scale on each described telescopic arm.
Further, described power part comprises motor, be located at the first belt pulley on the output shaft of described motor, with the second belt pulley of the coaxial setting of described main shaft and belt that described the first belt pulley and described the second belt pulley are in transmission connection,, described jaw props up on the output shaft that is set up in described motor by jaw.
The beneficial effect of the circular shaft OD Measuring rotating disk mechanism that the utility model provides is: the jaw of the utility model circular shaft OD Measuring rotating disk mechanism is the clamping circular shaft laterally, compare with the traditional optical measurement, such method of clamping can not cover the light of measuring instrument, therefore can not cause measuring error; In addition, can increase arbitrarily jaw on rotating disk mechanism according to user's needs, then increase equipment corresponding size and corresponding surveying instrument according to jaw quantity, to improve detection speed, have extremely strong versatility.
The utility model also provides a kind of circular shaft OD Measuring, and it comprises circular shaft OD Measuring rotating disk mechanism described above.
The beneficial effect of the circular shaft OD Measuring that the utility model provides is: owing to having adopted circular shaft OD Measuring rotating disk mechanism described above, so can realize the horizontal clamping to circular shaft to be detected, avoided causing measuring error because of shield lights; In addition, take rotating disc type and the structure that the product orientation structure combines, facilitate testing agency's loading and unloading, and the jaw on it can increase arbitrarily as required, to improve detection efficiency.The utility model circular shaft OD Measuring, after jaw clamps circular shaft to be detected, main shaft drives jaw and begins rotation, when circular shaft rotates to the optical measuring instrument below, can draw real-time measurement data, and data feedback is arrived PC-PLC control center, when PC-PLC control center collect detect data after, compare with the predefined detection level scope of user, when the jaw of main shaft drive runs to the top of receiving vat, according to the judgement of PC-PLC control center, unclamp jaw, allow circular shaft fall into corresponding receiving vat.
Description of drawings
The three-dimensional structure diagram of the circular shaft OD Measuring rotating disk mechanism that Fig. 1 provides for the utility model embodiment;
Fig. 2 is the local structure for amplifying schematic diagram in A place in Fig. 1;
The three-dimensional structure diagram of the circular shaft OD Measuring that Fig. 3 provides for the utility model embodiment;
The plan structure figure of the circular shaft OD Measuring that Fig. 4 provides for the utility model embodiment;
The face upwarding assumption diagram of the circular shaft OD Measuring that Fig. 5 provides for the utility model embodiment;
The circular shaft OD Measuring that Fig. 6 provides for the utility model embodiment face structural drawing;
The right TV structure figure of the circular shaft OD Measuring that Fig. 7 provides for the utility model embodiment.
Embodiment
In order to make technical problem to be solved in the utility model, technical scheme and beneficial effect clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explaining the utility model, and be not used in restriction the utility model.
Please in the lump with reference to Fig. 1 and Fig. 2, the existing circular shaft OD Measuring rotating disk mechanism that the utility model is provided describes.Described circular shaft OD Measuring rotating disk mechanism, be used for the clamping of circular shaft OD Measuring and drive circular shaft 11 to be detected rotating below optical instrument, comprise main shaft 1, be located at least one power part 3 that can laterally clamp the jaw 2 of circular shaft 11 to be measured and drive described main shaft 1 rotation on described main shaft 1.
The circular shaft OD Measuring rotating disk mechanism that the utility model provides, its jaw 2 be clamping circular shaft 11 to be detected laterally, compares with the traditional optical measurement, and such method of clamping can not cover the light of measuring instrument, therefore can not cause measuring error; In addition, can increase arbitrarily jaw on rotating disk mechanism according to user's needs, then increase equipment corresponding sizes and corresponding surveying instrument according to jaw 2 quantity, to improve detection speed, have extremely strong versatility.
Further, also please in the lump referring to Fig. 1, Fig. 2, a kind of embodiment of the circular shaft OD Measuring rotating disk mechanism that provides as the utility model, described jaw 2 is more than three, it is (invisible in figure that each described jaw 2 is built-in with a clamping cylinder, not shown), utilize PLC control center that the control of cylinder is realized stepping up of jaw 2 or unclamps, good reliability.
Further, see also again Fig. 1, Fig. 2, a kind of embodiment of the circular shaft OD Measuring rotating disk mechanism that provides as the utility model, each described jaw 2 comprises holder 21 and the telescopic arm 22 that is connected with described clamping cylinder, be respectively equipped with a feeding and can push against with the both ends of the surface of circular shaft 11 to be detected and the described addendum cone 23 of addendum cone 23, two that circular shaft 11 is clamped is on same axial line in opposite directions on described holder 21 and described telescopic arm 22.Like this, when circular shaft 11 is placed on fixed part, when cylinder was controlled telescopic arm 22 and shunk, two addendum cone 23 feedings also pushed against and circular shaft 11 are laterally clamped with the both ends of the surface of circular shaft 11, not only clamping is firm, and has avoided traditional method of clamping to cover measuring instrument light because of meeting and caused measuring error.
Further, referring to Fig. 2, a kind of embodiment of the circular shaft OD Measuring rotating disk mechanism that provides as the utility model also is provided with size scale 221 on each described telescopic arm 22, also can measure the length of circular shaft 11 like this when the external diameter of circular shaft 11 is measured.
Further, see also Fig. 1, a kind of embodiment of the circular shaft OD Measuring rotating disk mechanism that provides as the utility model, described power part 3 comprises motor 31, be located at the first belt pulley 32 on the output shaft of described motor 31, with the second belt pulley 33 of described main shaft 1 coaxial setting and the belt 34 that described the first belt pulley 32 and described the second belt pulley 33 are in transmission connection,, described jaw 2 props up on the output shaft that is set up in described motor 31 by jaw.Start after the instruction of the controlled section of motor, just can drive main shaft 1 by belt rotates, simultaneously jaw 2 and and then being forwarded to together under optical measuring instrument by the circular shaft to be detected 11 of jaw 2 clampings, can draw real-time measurement data, and data feedback is arrived PC-PLC control center.
The utility model also provides a kind of circular shaft OD Measuring.see also Fig. 3 to Fig. 7, described circular shaft OD Measuring comprises circular shaft OD Measuring rotating disk mechanism 600 described above, this circular shaft OD Measuring also comprises PLC control center, platen 100 and be located at the feed section that is subjected to that PC-PLC control center controls 200 on platen 100, be located at feed section 200 downstreams the vibrations discharge 300(of section its be provided with vibrating disc and oscillating trough), be used for the circular shaft clamping of oscillating trough and supply to the circular shaft OD Measuring tool hand 400 of fixed part, be used for mechanical arm 400 is supplied with the fixed part 500 that the circular shaft of coming supports, optical detector 700 and the rewinding section 800 that the circular shaft of different size is taken in.
The circular shaft OD Measuring that the utility model provides owing to having adopted circular shaft OD Measuring rotating disk mechanism described above, so can realize the horizontal clamping to circular shaft 11 to be detected, has been avoided causing measuring error because of shield lights; In addition, take rotating disc type and the structure that the product orientation structure combines, facilitate testing agency's loading and unloading, and the jaw on it 2 and testing agency on every side can increase arbitrarily as required, to improve detection efficiency.The utility model circular shaft OD Measuring, after 2 pairs of circular shafts 11 to be detected of jaw clamp, main shaft 1 drives jaw and begins rotation, when circular shaft 11 rotates to optical measuring instrument 700 below, can draw real-time measurement data, and data feedback is arrived PC-PLC control center, when PC-PLC control center collect detect data after, compare with the predefined detection level scope of user, when the jaw 2 that drives when main shaft 1 runs to the top of rewinding section 800, according to the judgement of PC-PLC control center, unclamp jaw 1, allow circular shaft 11 fall into corresponding receiving vat.
The above is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.