Belt test machine
Technical field
The present invention relates to automatic test machine tool field, particularly relate to a kind of belt test machine.
Background technology
Belt is one of standard component that in automated machine, transmission is used, and its use is very extensive, and simultaneously according to different use occasions, belt is divided into a lot of different classifications, and its performance requirement is also different.Different like this belts just need to carry out different tests, and common belt is to utilize the friction force after tensioning to carry out transmission and drive surperficial object, and this belt has certain requirement to tension force, and too little easily unclamps and skid, and disconnected phenomenon is opened in too large easy appearance.
Summary of the invention
The technical matters that the present invention mainly solves is to provide a kind of belt test machine, can test out intuitively the tolerance of belt under maximum tension and observe intuitively the situation of opening of belt surface.
For solving the problems of the technologies described above, the technical scheme that the present invention adopts is: a kind of belt test machine is provided, this belt test machine comprises frame, testing stand, controller, band fine tuning seat Test Switchboard, tension test mechanism, belt surface visual contrast pick-up unit and belt sorter, described testing stand is installed in frame, belt sorter is installed on the cross bar on frame right side, the upper plane rear side of testing stand is provided with controller, the upper plane of testing stand is also provided with band fine tuning seat Test Switchboard and tension test mechanism, with fine tuning seat Test Switchboard, be positioned at the left side of tension test mechanism, the left side of controller is also provided with state of runtime machine beacon,
Preferably, the described microswitch with roller with fine tuning seat Test Switchboard is installed on the platform of adjustment up and down of twin shaft milscale adjusting mechanism, described twin shaft milscale adjusting mechanism also comprises the precise motion assembly that can horizontally slip, left and right lock screw, left and right lock screw sheet, left and right fine setting milscale, left and right fine setting milscale mount pad, left and right adjusting pole, precise motion assembly can slide up and down, upper and lower lock screw, upper and lower lock screw sheet, finely tune up and down milscale and finely tune up and down milscale mount pad, the described precise motion assembly horizontally slipping is installed on testing stand, the leading flank of the precise motion assembly that can horizontally slip is provided with left and right lock screw sheet, left and right lock screw sheet is provided with left and right lock screw, left and right fine setting milscale mount pad is installed on the precise motion assembly trailing flank that can horizontally slip, on left and right fine setting milscale mount pad, fine setting milscale in left and right is installed, on the precise motion assembly that can horizontally slip, plane is provided with left and right adjusting pole, the precise motion assembly that can slide up and down is installed on the right flank of left and right adjusting pole, can slide up and down on the trailing flank of precise motion assembly upper and lower lock screw sheet is installed, upper and lower lock screw sheet is provided with upper and lower lock screw, can slide up and down and be provided with and adjust up and down platform on the right flank of precise motion assembly, can slide up and down and be provided with and finely tune up and down milscale mount pad on the upper side of precise motion assembly, finely tune up and down on milscale mount pad and be provided with and finely tune up and down milscale,
Preferably, described tension test mechanism comprises damping dead axle mechanism, movable shaft mechanism, guide wheel mechanism, draught line and tension force counterweight that can fine motion, described damping dead axle mechanism, movable shaft mechanism, guide wheel mechanism that can fine motion be installed on testing stand, damping dead axle mechanism that can fine motion is positioned at movable shaft mechanism left side, guide wheel mechanism is positioned at the right side of movable shaft mechanism, damping dead axle mechanism that can fine motion nestles up the microswitch with roller, the moving axis slide unit of movable shaft mechanism is connecting one end of draught line, and the other end of draught line is connected to tension force counterweight after guide wheel mechanism;
Preferably, describedly can fine motion damping dead axle mechanism comprise that the dead axle, dead axle seat, the anti-deformation dead axle that overlap belt are abutted against piece and fine motion damping device, the dead axle of described cover belt is installed on dead axle seat, anti-deformation dead axle is abutted against the right flank that piece is installed on dead axle seat, the front end side that anti-deformation dead axle is abutted against piece is close proximity to the dead axle that overlaps belt, and the dead axle rear end of cover belt is connecting fine motion damping device;
Preferably, described movable shaft mechanism also comprises moving axis, moving axis seat, slide block and the slide rail that overlaps belt, and the moving axis of described cover belt is plugged in moving axis seat, moving axis seat is fixed on moving axis slide unit, moving axis slide unit bottom is provided with slide block, and slide block is installed on slide rail, and slide rail is fixed on testing stand;
Preferably, described guide wheel mechanism comprises commutation guide wheel, guide wheel pin, wheel bracket and upper steadying plate, described commutation guide wheel is positioned at the rectangular aperture of wheel bracket, commutation guide wheel is installed on wheel bracket by guide wheel pin, wheel bracket is fixed on testing stand, the rectangular aperture top of wheel bracket is provided with steadying plate, on commutation guide wheel, is wound with draught line;
Preferably, described belt surface visual contrast pick-up unit comprises high definition electronics lens group, rotatable electron mirror headstock, electron mirror headstock column and Upright post base, the described high definition electronics lens group over against belt is installed on rotatable electron mirror headstock, rotatable electron mirror headstock is installed on electron mirror headstock column, the lower end at right angle setting of electron mirror headstock column is in Upright post base, Upright post base is fixed on testing stand, and high definition electronics lens group is connected to controller;
Preferably, described belt sorter comprises four classification hanging scrolls and hanging scroll plate, and described hanging scroll plate is installed on frame, and hanging scroll plate is provided with four different classification hanging scrolls of color.
The invention has the beneficial effects as follows: a kind of belt test machine of the present invention, can test out intuitively the tolerance of belt under maximum tension and observe intuitively the situation of opening of belt surface.
Accompanying drawing explanation
Fig. 1 is the structure enlarged diagram of belt test machine of the present invention;
Fig. 2 is the structure enlarged diagram with fine tuning seat Test Switchboard of belt test machine of the present invention;
Fig. 3 is the vertical view of the twin shaft milscale adjusting mechanism of belt test machine of the present invention;
Fig. 4 is the front view of the twin shaft milscale adjusting mechanism of belt test machine of the present invention;
Fig. 5 is the structure enlarged diagram of the tension test mechanism of belt test machine of the present invention;
Fig. 6 is the structure enlarged diagram of the movable shaft mechanism of belt test machine of the present invention;
Fig. 7 is the structure enlarged diagram of the belt surface visual contrast pick-up unit of belt test machine of the present invention.
Embodiment
Below in conjunction with accompanying drawing, preferred embodiment of the present invention is described in detail, thereby so that the advantage of invention and feature can be easier to be it will be appreciated by those skilled in the art that, protection scope of the present invention is made to more explicit defining.
Refer to Fig. 1 to Fig. 7, the embodiment of the present invention comprises:
A kind of belt test machine, this belt test machine comprises frame 1, testing stand 2, controller 3, band fine tuning seat Test Switchboard 4, tension test mechanism 5, belt surface visual contrast pick-up unit 6 and belt sorter 7, described testing stand 2 is installed in frame 1, on the cross bar 10 on frame 1 right side, belt sorter 7 is installed, the upper plane rear side of testing stand 2 is provided with controller 3, the upper plane of testing stand 2 is also provided with band fine tuning seat Test Switchboard 4 and tension test mechanism 5, with fine tuning seat Test Switchboard 4, be positioned at the left side of tension test mechanism 5, the left side of controller 3 is also provided with state of runtime machine beacon 8,
The described microswitch 40 with roller with fine tuning seat Test Switchboard 4 is installed on the platform of adjustment up and down 410 of twin shaft milscale adjusting mechanism 41, described twin shaft milscale adjusting mechanism 41 also comprises the precise motion assembly 411 that can horizontally slip, left and right lock screw 412, left and right lock screw sheet 413, left and right fine setting milscale 414, left and right fine setting milscale mount pad 415, left and right adjusting pole 416, precise motion assembly 417 can slide up and down, upper and lower lock screw 418, upper and lower lock screw sheet 419, finely tune up and down milscale 420 and finely tune up and down milscale mount pad 421, the described precise motion assembly 411 horizontally slipping is installed on testing stand 2, the leading flank of the precise motion assembly 411 that can horizontally slip is provided with left and right lock screw sheet 413, left and right lock screw sheet 413 is provided with left and right lock screw 412, left and right fine setting milscale mount pad 415 is installed on precise motion assembly 411 trailing flanks that can horizontally slip, on left and right fine setting milscale mount pad 415, fine setting milscale 414 in left and right is installed, on the precise motion assembly 411 that can horizontally slip, plane is provided with left and right adjusting pole 416, the precise motion assembly 417 that can slide up and down is installed on the right flank of left and right adjusting pole 416, can slide up and down on the trailing flank of precise motion assembly 417 upper and lower lock screw sheet 419 is installed, upper and lower lock screw sheet 419 is provided with upper and lower lock screw 418, can slide up and down and be provided with and adjust up and down platform 410 on the right flank of precise motion assembly 417, can slide up and down and be provided with and finely tune up and down milscale mount pad 421 on the upper side of precise motion assembly 417, finely tune up and down on milscale mount pad 421 and be provided with and finely tune up and down milscale 420,
Described tension test mechanism 5 comprises damping dead axle mechanism 50 that can fine motion, movable shaft mechanism 51, guide wheel mechanism 52, draught line 53 and tension force counterweight 54, described damping dead axle mechanism 50 that can fine motion, movable shaft mechanism 51, guide wheel mechanism 52 is installed on testing stand 2, damping dead axle mechanism 50 that can fine motion is positioned at movable shaft mechanism 51 left sides, guide wheel mechanism 52 is positioned at the right side of movable shaft mechanism 51, damping dead axle mechanism 50 that can fine motion nestles up the microswitch 40 with roller, the moving axis slide unit 510 of movable shaft mechanism 51 is connecting one end of draught line 53, the other end of draught line 53 is connected to tension force counterweight 54 after guide wheel mechanism 52,
Describedly can fine motion damping dead axle mechanism 50 comprise that the dead axle 501, dead axle seat 502, the anti-deformation dead axle that overlap belt are abutted against piece 503 and fine motion damping device 504, the dead axle 501 of described cover belt is installed on dead axle seat 502, anti-deformation dead axle is abutted against the right flank that piece 503 is installed on dead axle seat 502, the front end side that anti-deformation dead axle is abutted against piece 503 is close proximity to the dead axle 501 that overlaps belt, and dead axle 501 rear ends of cover belt are connecting fine motion damping device 504;
Described movable shaft mechanism 51 also comprises moving axis 511, moving axis seat 512, slide block 513 and the slide rail 514 that overlaps belt, the moving axis 511 of described cover belt is plugged in moving axis seat 512, moving axis seat 512 is fixed on moving axis slide unit 510, moving axis slide unit 510 bottoms are provided with slide block 513, slide block 513 is installed on slide rail 514, and slide rail 514 is fixed on testing stand 2;
Described guide wheel mechanism 52 comprises commutation guide wheel 520, guide wheel pin 521, wheel bracket 522 and upper steadying plate 523, described commutation guide wheel 520 is positioned at the rectangular aperture 524 of wheel bracket 522, commutation guide wheel 520 is installed on wheel bracket 522 by guide wheel pin 521, wheel bracket 522 is fixed on testing stand 2, rectangular aperture 524 tops of wheel bracket 522 are provided with steadying plate 523, on commutation guide wheel 520, are wound with draught line 53;
Described belt surface visual contrast pick-up unit 6 comprises high definition electronics lens group 60, rotatable electron mirror headstock 61, electron mirror headstock column 62 and Upright post base 63, the described high definition electronics lens group 60 over against belt is installed on rotatable electron mirror headstock 61, rotatable electron mirror headstock 61 is installed on electron mirror headstock column 62, the lower end at right angle setting of electron mirror headstock column 62 is in Upright post base 63, Upright post base 63 is fixed on testing stand 2, and high definition electronics lens group 60 is connected to controller 3;
Described belt sorter 7 comprises four classification hanging scrolls 70 and hanging scroll plate 71, and described hanging scroll plate 71 is installed on frame 1, and hanging scroll plate 71 is provided with four different classification hanging scrolls 70 of color.
During belt test machine work of the present invention, first the belt sleeve 9 of needs tests is connected on can the dead axle 501 of cover belt of damping dead axle mechanism 50 and the moving axis 511 of the cover belt of movable shaft mechanism of fine motion on, adjustment is with the twin shaft milscale adjusting mechanism 41 of fine tuning seat Test Switchboard 4, make to be crimped on belt 8 with the roller of the microswitch 40 of roller, on draught line 53, place the tension force counterweight 54 setting, press after switch activated equipment, movable shaft mechanism 51 pulls by draught line 53 under the impact of tension force counterweight 54, slowly open tread belt 9, now high definition electronics lens group 60 is in waiting status, when damping dead axle mechanism 50 that can fine motion produces mobile, microswitch 40 with roller rebounds reset in a flash, high definition electronics lens group 60 starts the tread belt of moment 9 surface picture is passed back in controller 3 and contrasted at once, display screen meeting display comparison result with Time Controller 3, after dividing classification, prompting tread belt 9 should hang on the classification hanging scroll 70 of one of them color, what also show tread belt 9 is subject to tension force situation simultaneously, after finishing, belt test machine resets.
Belt test machine of the present invention, can test out intuitively the tolerance of belt under maximum tension and observe intuitively the situation of opening of belt surface.
The foregoing is only embodiments of the invention; not thereby limit the scope of the claims of the present invention; every equivalent structure or conversion of equivalent flow process that utilizes instructions of the present invention and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.