RU2006121283A - METHOD FOR CENTERING AXIS OF ROTATING ROTATING SHAFT FORMING A COMPOSITE SHAFT, RELATING TO THE AXLE DRIVE SHAFT OF A MOTOR STAND BRAKE SHAFT AND AXISENGENA SORGENA - Google Patents

Claims (9)

1. The method of centering the axes of the mating rotating shafts, forming a composite shaft line, relative to the axis of the drive shaft of the brake machine of the motor stand and the axis of the crankshaft of the test object (ICE), which consists in monitoring, installing and necessary adjustment of the alignment deviation field of the alignment of the indicated mating shafts of the stand and ICE by adjusting the spatial arrangement of the supporting elements of the mechanical ICE mounting system on the stand, characterized in that they mount the image screen of the laser beam between the flange of the drive shaft of the brake machine of the stand and the flange of the mating portion of the intermediate shaft of the bench support of the engine, an arm with a holder is mounted on the opposite flange of the drive shaft, into which an autonomous module of the laser centering device with a laser radiation source is mounted, the light beam of the laser beam is directed and focused into direction of the trajectory line in the form of a visually distinguishable circle (or two concentric circles reflecting the field of permissible misalignment misalignments mating axes of rotating shafts), marked with a coloring substance on the surface of the screen of the image of the laser beam; forcibly rotate the ICE crankshaft (for example, with a starter or manually with a lever drive mechanism), visually observe the trajectory line of the light beam of the focused laser beam in the form of a moving visually visible luminous point, compare the trajectory of the light beam of the focused laser beam (luminous point) with the trajectory line (or a tolerance field formed by two concentric circles), when the trajectory line of the moving light beam deviates from the trajectory line of the marked circle (or outside the tolerance band formed by two concentric circles), the appropriate adjustment operations are performed for the forced change of the spatial position of the internal combustion engine on the test motor stand by setting the spatial change in height of the position of the supporting vertical struts and load-bearing transverse beams of the internal combustion engine mounting system on the stand to the spatial position, ensuring full coincidence of the trajectory line of the light beam with the trajectory line marked ok uzhnosti (or finding the trajectory line of the light beam movement in the tolerances of the tolerance mating misalignments of axes rotating shaft defined by lines of path of concentric circles disposed on the laser beam image display surface). 2. The method of centering the axes of the rotating mating shafts forming a composite shaft line according to claim 1, characterized in that a visible (visually observed by the operator) mark is applied on the end part of the pulley or mating centering shaft shaft in the form of a circle line forming the surface of the mating shaft of the composite shaft a shaft line, the plane of which is perpendicular to the axis of rotation of the mating shaft; opposite to the indicated mark in a plane parallel to the axis of rotation of the mating centered shafts of the composite shaft shaft, a mounting pad of ferromagnetic material is vertically mounted, an autonomous module of the laser alignment device is mounted on the mounting surface, and it is fixedly supported on it due to the attractive magnetic field arising between the ferromagnetic surface of the mounting platforms and containing a permanent magnet base of an autonomous module of a laser centering device in this way m, so that the laser radiation source of the autonomous module of the laser centering device emits and focuses the light beam in the direction of the visible (visually observed by the operator) mark of the end part of the pulley or the portion of the mating centered shaft; forcibly rotate the ICE crankshaft (for example, by a starter or manually by a lever drive mechanism), visually observe the location of the trajectory line of the light beam of the laser source of the autonomous module of the laser centering device, compare the trajectory of the light beam with the circumference of the mark, when the trajectory line of the moving light of the beam from the circle line of the mark make appropriate adjusting operations of forced spatial change position of the internal combustion engine on a test bench engine by changing the spatial location specified by transverse carrier beams engine mount system to stand until the spatial position providing full match the trajectory line of the light beam with the line of motion tags circumference. 3. The method of centering the axes of the rotating mating shafts forming a composite shaft line according to claim 1, characterized in that the centered composite shaft shaft is formed by composite rotating mating shafts of various machines, mechanisms and the principle of operation. 4. The method of centering the axes of the mating rotating shafts, forming a composite shaft line, relative to the axis of the drive shaft of the brake machine of the motor stand and the axis of the crankshaft of the test object (ICE), which consists in monitoring, installing and necessary adjustment of the alignment deviation field of the alignment of the indicated mating shafts of the stand and ICE by adjusting the spatial arrangement of the supporting elements of the mechanical ICE mounting system on the stand, characterized in that they use a separate mounting plate a site made of ferromagnetic substance in a plane perpendicular to the axis of rotation of one of the installed composite shafts (for example, the shaft of the upper support bearing assembly), an autonomous module of the laser alignment device is installed on the surface of the mounting pad due to the attractive magnetic field arising between the mounting pad surface and containing a permanent magnet the base of an autonomous module of the laser centering device; an autonomous module of the laser alignment device is directed to move along the surface of the specified mounting platform and is fixedly installed in a predetermined area of the surface of the mounting platform so that the light beam of the laser source of the autonomous module of the laser alignment device focuses in the center (on the axis of rotation) of the end portion of the installed shaft (for example, shaft of the upper support bearing assembly); during subsequent installation operations of the internal combustion engine on the stand, the spatial position of the autonomous module of the laser alignment device on the surface of the installation site is left unchanged, and subsequent mating shafts as part of the composite shaft line during installation and adjustment operations are set so that the light beam of the laser radiation source of the autonomous module of the laser alignment device was directed to the center (on the axis of rotation) of the end sections of each of the mating shafts and coincided with it (with the center of the end Vågå plot - the counter-shaft rotation axis); moreover, the coincidence of the location of the light beam of the laser radiation source, mounted motionless on the installation site, with the center (axis of rotation) of the end portion of the nose of the crankshaft (or the light beam being in the tolerance deviation field formed by two concentric circles reflecting the field of permissible misalignments of the mating axes of the rotating shafts ) reach by means of a predetermined spatial change in the height of the position of the supporting vertical columns and the supporting transverse beams of the system ICE on the stand with subsequent fixation of the specified positions of the said racks and beams, ensuring the coincidence of the location of the light beam of the laser source with the center (axis of rotation) of the end section of the nose of the crankshaft (or the light beam in the tolerance deviation field formed by two concentric circles reflecting the field permissible misalignments of the mating axes of the rotating shafts). 5. The method of centering the axes of the rotating mating shafts forming a composite shaft line according to any one of Claim 4, characterized in that a visible (visually observed by the operator) mark is applied on the end part of the pulley or portion of the mating centered shaft in the form of a circle line forming the surface of the mating portion a composite shaft shaft, the plane of which is perpendicular to the axis of rotation of the mating shaft; opposite to the indicated mark in a plane parallel to the axis of rotation of the mating centered shafts of the composite shaft shaft, a mounting pad of ferromagnetic material is vertically mounted, an autonomous module of the laser alignment device is mounted on the mounting surface, and it is fixedly supported on it due to the attractive magnetic field arising between the ferromagnetic surface of the mounting platforms and containing a permanent magnet base of an autonomous module of a laser centering device in this way m, so that the laser radiation source of the autonomous module of the laser centering device emits and focuses the light beam in the direction of the visible (visually observed by the operator) mark of the end part of the pulley or the portion of the mating centered shaft; forcibly rotate the ICE crankshaft (for example, by a starter or manually by a lever drive mechanism), visually observe the location of the trajectory line of the light beam of the laser source of the autonomous module of the laser centering device, compare the trajectory of the light beam with the circumference of the mark, when the trajectory line of the moving light of the beam from the circle line of the mark make appropriate adjusting operations of forced spatial change position of the internal combustion engine on a test bench engine by changing the spatial location specified by transverse carrier beams engine mount system to stand until the spatial position providing full match the trajectory line of the light beam with the line of motion tags circumference. 6. The method of centering the axes of the rotating mating shafts forming a composite shaft shaft according to any one of claim 4, characterized in that the centered composite shaft shaft is formed by composite rotating mating shafts of machines and mechanisms of various purposes, design and operation. 7. The method of centering the axes of the mating rotating shafts forming a composite shaft line relative to the axis of the drive shaft of the brake machine of the motor stand and the axis of the crankshaft of the test object (ICE), which consists in monitoring, installing and necessary adjustment of the alignment deviation field of the alignment of the indicated mating shafts of the stand and ICE by adjusting the spatial arrangement of the supporting elements of the mechanical ICE mounting system on the stand, characterized in that the flat screen is fixedly mounted an image of the light beam on the free end of the rotating shaft (for example, the drive shaft of the brake machine of the stand or on the toe of the crankshaft mounted on the motor stand of the ICE under study); a mounting pad made of ferromagnetic material is placed opposite the screen, while the surfaces of the screen and mounting pad are provided with a parallel vertical arrangement and, for example, visually distinguished center lines are drawn with coloring material in the form of visible (visually distinguishable) centers of circles and visible (visually distinguishable) paths of circles predetermined equal radii, and the center of a given circle of the centering line plotted on the installation site, is located on the axis of rotation of the drive ala brake machine, and said projection center on the surface of the screen image of the light beam aligned with the center of the circle centering line of the screen; on the surface area limited by the center line of the circle drawn on the surface of the mounting site, an autonomous module of the laser centering device is installed and immovably held on it due to the attractive magnetic field arising between the ferromagnetic surface of the mounting site and the base of the autonomous module of the laser centering device containing a permanent magnet such so that the specified base is located on the center line of the given circumference of the installation site, and tovoy laser beam source Autonomous module alignment of the laser device is focused and propagated toward the centering line of the circle (two concentric circles defining the field tolerance mating misalignments of axes rotating shaft) on the screen image of the light beam; forcibly rotate the ICE crankshaft (for example, with a starter or manually with a lever drive mechanism), visually observe the location of the trajectory line of the light beam of the laser source of the autonomous module of the laser alignment device, compare the trajectory of the light beam with the trajectory center line of the circle of the light beam image screen (or tolerance field formed by two concentric circles), when the trajectory line of a moving light beam deviates from the trajectory of the center line of the screen circumference (or outside the tolerance field formed by two concentric circles), the corresponding adjustment operations of forced change of the spatial position of the internal combustion engine on the test motor stand are carried out by setting the spatial change in the height of the support vertical struts and load-bearing transverse beams of the internal combustion engine mounting system on the stand to the spatial provisions ensuring full coincidence of the trajectory line of the light beam with the cent ovochnoy circumferential line screen (or finding the trajectory line of the light beam movement in the tolerances of the tolerance mating misalignments of axes rotating shaft defined by lines of path of concentric circles disposed on the laser beam image display surface). 8. The method of centering the axes of the rotating mating shafts forming a composite shaft line according to claim 7, characterized in that a visible mark (visually observed by the operator) is applied to the end part of the pulley or mating centering shaft shaft in the form of a circle line forming the surface of the mating shaft of the composite shaft a shaft line, the plane of which is perpendicular to the axis of rotation of the mating shaft; opposite to the indicated mark in a plane parallel to the axis of rotation of the mating centered shafts of the composite shaft shaft, a mounting pad of ferromagnetic material is vertically mounted, an autonomous module of the laser alignment device is mounted on the mounting surface, and it is fixedly supported on it due to the attractive magnetic field arising between the ferromagnetic surface of the mounting platforms and containing a permanent magnet base of an autonomous module of a laser centering device in this way m, so that the laser radiation source of the autonomous module of the laser centering device emits and focuses the light beam in the direction of the visible (visually observed by the operator) mark of the end part of the pulley or the portion of the mating centered shaft; forcibly rotate the ICE crankshaft (for example, by a starter or manually by a lever drive mechanism), visually observe the location of the trajectory line of the light beam of the laser source of the autonomous module of the laser centering device, compare the trajectory of the light beam with the circumference of the mark, when the trajectory line of the moving light of the beam from the circle line of the mark make appropriate adjusting operations of forced spatial change position of the internal combustion engine on a test bench engine by changing the spatial location specified by transverse carrier beams engine mount system to stand until the spatial position providing full match the trajectory line of the light beam with the line of motion tags circumference. 9. The method of centering the axes of the rotating mating shafts forming a composite shaft line according to claim 7, characterized in that the centered composite shaft shaft is formed by composite rotating mating shafts of various machines, mechanisms and the principle of operation.