RU2850735C1 - Device for performing technical inspection of polyclinic belt drives - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention can be used to determine the relative position of rotating drive and driven elements of a mechanical transmission, for example, belt drive pulleys. The device contains an emitter consisting of a housing, a light module, an adjustment element, emitter magnets and rotary elements for fixing the position of the emitter along the wedge groove of the pulley in the axial direction, a sight with target marks on the working surface of the housing, sight magnets and rotary elements for fixing the position of the sight along the wedge groove of the pulley in the axial direction. The emitter and sight are mounted on the working surfaces of the pulleys and held in place by built-in magnets. The device ensures high positioning accuracy by adhering to the working surface of the pulley, repeating its profile. The emitter is equipped with a system for adjusting the position of the light module relative to the body along two axes.

EFFECT: increased reliability of poly-V belt drives by eliminating misalignment during assembly and operation.

3 cl, 11 dwg

Description

The invention relates to the field of mechanical engineering and can be used to determine the relative position of rotating driving and driven elements of a mechanical transmission, for example, pulleys of a belt drive.

A pulley alignment device is known, consisting of a laser beam source, attached magnetically to one pulley, and magnetic reference points, installed on the other pulley. For checking, it is necessary to install reference points on the side of the pulley at different angles, and the laser beam source is attached to the side of the opposite pulley. Correct alignment of the drive is achieved if the laser beam intersects the same values on the scales of the magnetic reference points. By observing the visible laser beam, all pulley movements are tracked in the horizontal and vertical planes, thus aligning the pulleys relative to each other (see SE 9803851, IPC G 01 B 11/27, G 01 B 5/25, published 10.07.2000).

The disadvantages of this well-known design are that the alignment of the pulleys is carried out either along the lateral planes of the pulleys being checked, the surfaces of which cannot always be taken as a base, or relative to an external existing base using reference points on the pulleys.

A method for determining the relative spatial position of mechanical transmission elements and a device for implementing the same are known. The method involves mounting a receiver with a target on one element, and an optical coupling source emitting a flat optical beam at said target on the other element. The device for determining the relative spatial position of mechanical transmission elements comprises a laser radiation source and a receiver with a target, mounting supports for the source and receiver with means for magnetically attaching them to the transmission elements. These supports are identical and include a non-magnetic platform, a magnet secured beneath it, pole pieces, and orienting pins pivotally connected to the pole pieces. A radiation source is mounted on top of the platform of one of the supports, and a transformable target is mounted on the other support, comprising a plurality of movably interconnected flat graduated screens. One of the screens is rigidly attached to the platform, while the side screens are hinged on axles attached to the sides of the platform perpendicular to the target's longitudinal axis. The device ensures high positioning accuracy both along the outer surface of the pulleys and along the belt grooves, with secure attachment along two reference surfaces—the pulley's outer diameter and the groove's sidewalls (see patent RU 2531031, published October 20, 2014).

The disadvantages of the prototype are in the complexity of the device design, containing a large number of components requiring high-precision mechanical processing of parts, which leads to high cost, low reliability of the device and high labor intensity of use under industrial operating conditions.

Based on the combination of its essential features, we adopt the SKF TKBA 40 pulley alignment device as a prototype. This device ensures pulley alignment using the most precise method—V-grooves—the pulley's main element. The measuring units (radiation source and target) are attached to V-shaped alignment elements using powerful magnets. The receiver's three-dimensional target allows for easy and accurate determination of the type of misalignment (vertical, horizontal, parallel, or a combination). The TKBA 40 V-shaped alignment elements are suitable for mounting on most pulley types for standard V-belts. To align poly V-belt drives, it is necessary to use special adapters that allow the installation of measuring blocks on the side surface of the pulleys (see chrome-extension://efaidnbmnnnibpcajpcglclefindmkaj/https://btk-russia.ru/upload/iblock/786/786ec5d6c148eccf7679914142492be6.pdf?ysclid=md6zd0y3wu283959019).

The disadvantages of the prototype include the relatively low accuracy of alignment of the pulleys of poly-V belt drives, due to the need to base the measuring blocks on the side surfaces of the pulleys.

The task was to develop a simple-to-use and technologically advanced device for technical control of the relative position of pulleys of a poly-V belt drive, ensuring high accuracy of pulley position alignment with minimal labor intensity.

The stated problem is solved due to the fact that in the device for carrying out technical inspection of poly V-belt drives, containing an emitter with a housing and a source of narrowly focused light radiation in one plane, equipped with a system for adjusting the position of the optical element relative to the housing along two axes and a sighting device, with target marks applied to the working surface of the housing, in accordance with the proposed technical solution, the emitter and sighting device are installed directly on the working surfaces of the pulleys and are securely held by built-in magnets, and due to the direct adhesion to the working surface of the pulley at the point of contact with the belt, repeating its profile, high positioning accuracy is ensured, while the axial fixation of the emitter and sighting device is carried out along the pulley groove by means of two flat rotary elements.

In the device for technical testing of poly V-belt drives, the width of the emitter housing and the visor housing can be equal to the width of the belt, which ensures the possibility of their unimpeded installation on the pulley in the assembled drive, and the emitter and visor housings can be manufactured for each specific diameter of the belt drive pulleys being tested, which will ensure the absence of additional adjustment operations when installing on the element being tested.

The set of essential features, consisting in the fact that "the emitter and the sighting device are installed directly on the working surfaces of the pulleys and are securely held by means of built-in magnets, and due to the direct adhesion to the working surface of the pulley at the point of contact with the belt, repeating its profile, ensure high positioning accuracy, while the axial fixation of the emitter and the sighting device is carried out along the pulley groove by means of two flat rotary elements, and the width of the emitter housing and the sighting device housing can be equal to the width of the belt, which ensures the possibility of their unhindered installation on the pulley in the assembled drive, and the emitter and sighting device housings can be manufactured for each specific diameter of the controlled pulleys of the belt drive, which will ensure the absence of additional adjustment operations when installing on the controlled element" allows for high accuracy of technical testing of poly V-belt drives, consisting in aligning the position of the pulleys of the poly V-belt drive, with minimal labor intensity of the work.

When carrying out technical inspection of a poly V-belt drive, indication of deviation from pulley alignment is sufficient to decide whether the belt drive is suitable or unsuitable for operation.

The proposed device for technical inspection of poly V-belt drives allows for the identification of deviations:

1. Axial displacement - displacement of the pulley along its own axis of rotation, relative to the required position;

2. Crossing of axes - lack of parallelism of the axes of rotation of pulleys lying in parallel planes;

3. Intersection of axes - lack of parallelism of the axes of rotation of the pulleys, in which the axes of rotation of the pulleys lie in the same plane.

Thus, the objective of the claimed invention is to simplify the process of alignment, with high accuracy, of the relative position of pulleys on drives with a poly-V belt transmission with different pulley diameters.

The invention relates to devices used to control the installation of drive units with a belt transmission and is intended to verify the position of the pulleys of these units in terms of coaxiality and parallelism relative to each other.

The method for performing technical inspection of poly V-belt drives involves installing a sighting device on the first pulley and an emitter (a device with a source of narrowly focused light in one plane) on the second pulley, which are aimed at the sighting device. The resulting light mark (a straight red line) is compared with the target marks on the sighting device, after which the emitter and sighting device are swapped and the inspection is repeated. If the pulleys are not equal in diameter, a different set of emitter and sighting devices corresponding to the diameters is used. Alignment of the marks with the light mark indicates the absence of design deviations. Misalignment of the light mark with the target marks indicates a deviation from the required relative pulley arrangement:

1. Axial displacement - displacement of the pulley along its own axis of rotation, relative to the required position;

2. Crossing axes - lack of parallelism of the axes of rotation of pulleys lying in parallel planes;

3. Intersection of axes - lack of parallelism of the axes of rotation of the pulleys, in which the axes of rotation of the pulleys lie in the same plane.

A search of scientific, technical, and patent documentation revealed no technical solution matching the claimed invention in all essential features. This suggests that the claimed technical solution meets the patentability criteria of "novelty" and "inventive step."

The invention is illustrated by the following drawings:

Fig. 1 - Emitter, general view on the right;

Fig. 2 - Emitter, general view without housing cover;

Fig. 3 - Emitter, view A;

Fig. 4 - Sightsight, general view from the right;

Fig. 5 - Visor, view B;

Fig. 6 - Sight, view B, in the direction of the target marks;

Fig. 7 - Emitter mounted on a pulley;

Fig. 8 - Sighting device mounted on a pulley;

Fig. 9 - Inconsistency in the position of the belt drive pulleys - axial displacement of the pulleys;

Fig.10 - Inconsistency in the position of the axes of the belt drive pulleys - intersecting axes of rotation of the pulleys;

Fig.11 - Misalignment of the positions of the axes of the belt drive pulleys - intersection of the axes of rotation of the pulleys;

A device for carrying out technical testing of poly V-belt drives contains an emitter 1 (a device with a source of narrowly focused light radiation in one plane), consisting of a housing 2, a light module 3, an adjustment element, magnets 4 and rotary elements 5, used to fix the position of the emitter 1 along the V-groove of the pulley in the axial direction, a sighting device 6 with target marks on the working surface of the housing, magnets 4 and rotary elements 5, used to fix the position of the sighting device 6 along the V-groove of the pulley in the axial direction.

One of the possible options for applying target marks on the working surface of the sighting device housing 6 is shown in Fig. 6.

Emitter 1 and sighting device 6 are mounted directly on the pulley working surfaces and are securely held by magnets 4 integrated into the housings. The device ensures high positioning accuracy by directly adhering to the pulley working surface (where it contacts the belt), following its profile. Emitter 1 is equipped with a system for adjusting the position of the light module relative to the housing along two axes. The width of the housing 2 of emitter 1 and sighting device 2 is equal to the width of the belt, allowing for their seamless installation on the pulley in the assembled drive.

The device operates as follows: a transmitter 1, whose housing 2 matches the diameter of the pulley, is installed at the tops of the wedge grooves of the first pulley. A sighting device 6, whose housing matches the diameter of the second pulley, is installed on the second pulley in the same manner.

Next, by moving emitter 1 along the pulley surface along the grooves, the focused beam from emitter 1 is directed toward the target marks on the housing of sighting device 6, mounted on the second pulley. The beam forms two red lines perpendicular to the target marks of sighting device 6, one horizontal and one vertical, allowing for highly accurate determination of pulley alignment and parallelism deviations.

The horizontal line on the target marks of sighting device 6 serves to align emitter 1 and sighting device 6 with the axes of the pulleys being tested, ensuring maximum measurement accuracy. The vertical line allows for determining both the angular and parallel displacement of the pulleys relative to each other.

In order to check the accuracy of the pulley alignment, the measurement process can be repeated by installing a sighting device made for the corresponding pulley diameter on the first pulley, and a transmitter made for the corresponding diameter of the second pulley on the second pulley.

The claimed technical solution can be used both in the production of internal combustion engines and in the maintenance and repair of engines.

The proposed technical solution optimizes the device's capabilities and significantly increases the reliability of poly-V belt drives by eliminating distortions during assembly and operation.

The claimed invention meets the requirement of industrial applicability; its implementation is possible on publicly available technological equipment using previously developed technologies.

Claims (3)

1. A device for carrying out technical testing of poly V-belt drives, comprising an emitter with a housing and a source of narrowly focused light radiation in one plane, equipped with a system for adjusting the position of the light module relative to the housing along two axes and a sighting device, with target marks applied to the working surface of the housing, characterized in that the emitter and sighting device are installed directly on the working surfaces of the pulleys and are securely held by built-in magnets, and due to the direct contact with the working surface of the pulley at the point of contact with the belt, repeating its profile, high positioning accuracy is ensured, while the axial fixation of the emitter and sighting device on the pulley is carried out along the groove using two flat rotary elements. 2. The device according to paragraph 1, characterized in that the width of the emitter housing and the visor housing are equal to the width of the belt. 3. The device according to paragraph 1, characterized in that the emitter housing and the sighting device housing are manufactured for each specific diameter of the belt drive pulleys.