DD229914A1 - INSPECTION DEVICE ON RING SPINNING OR RINGING MACHINES TO VISUCE THE EXCENTRICITY BETWEEN A SPINDLE AND AN ASSOCIATED RING - Google Patents

Abstract

The invention relates to a Pruefvorrichtung to ring spinning or ring twisting machines for visually checking the Exzentrizitaet between a spindle and an associated ring, in which the viewing direction is directed in the direction of the spindle axis on the spindle tip and on the spindle a spindle attachment with a concentric outer edge to the spindle on a ring attachment with an inner edge concentric to the ring and between the spindle and the ring in the viewing direction under the outer edge of the spindle attachment and the inner edge of the ring attachment a bright field generated by a lighting device is arranged, wherein the diameter of the outer edge of the spindle attachment is equal to or by twice the amount of the allowed eccentricity is greater or smaller than the diameter of the inner edge of the ring attachment. The aim of the invention is to eliminate the effort for the numerical determination of eccentricity. By the invention, the technical problem is solved that a test device is provided, which allows the numerical determination of the eccentricity. According to the invention, this object is achieved in that the bright field 15 consists of at least three individual surfaces (17, 23), which are uniformly distributed over the circumference of the bright field (15). Fig. 1

Description

Ring attachment 8 is 30mm and the diameter 10 of the outer edge 7 of the spindle attachment 6 therefore 30.6 mm. The outer edge 7 of the spindle attachment 6 is arranged close to the inner edge 9 of the ring attachment 8 to paralysis error

avoid. __ "-

In a first embodiment, a bright field 15 generated by a lighting device 12, 13, 14 is arranged between the spindle 1 and the ring 2 in the viewing direction 3 under the outer edge 7 of the spindle attachment 6 and the inner edge 9 of the ring attachment 8 (FIG. 1). The lighting device 12,13,14 is arranged on the ring attachment 8 and consists of several distributed over the circumference of the bright field 15 individual radiators 12, a battery 13 and a ground glass 14. In the ring attachment 8 is located on the opposite side of the battery 13, a further battery 16th as a reserve. The individual radiator 12 are connected in a manner not shown via lines and a switch to the battery 13. The ground glass 14 is arranged above the individual radiators 12. The switch is designed so that the lighting device 12,13,14 is in the on state when the ring attachment 8 is placed on the ring 2. When the lighting device is switched on 12,13,14 the bright field 15 is visible on the screen 14. The bright field 15 consists of eight individual surfaces 17, which are distributed uniformly over the circumference of the bright field 15 (Figure 2). The individual surfaces 17 are formed by a diaphragm 18, which is arranged above the ground glass 14. The diaphragm 18 is divided by webs 19 in the individual surfaces 17 ·.

The mode of action is the following:

To check the eccentricity between the spindle 1 and the associated ring 2, the ring attachment 8 is placed on the ring 2, wherein the lighting device 12,13,14 is turned on. Furthermore, the spindle attachment 6 is placed on the spindle 1. Thereafter, the viewing direction 3 is directed in the direction of the spindle axis 4 on the spindle tip 5. When the spindle 1 and the ring 2 are arranged to each other so that the allowable eccentricity of 0.3 mm is not exceeded ', the bright field 15 is completely obscured (Fig. 3). However, if the permissible eccentricity of 0.3 mm is exceeded between the spindle 1 and the ring 2, then a crescent-shaped surface of the bright field 15 becomes visible, which is subdivided into individual surfaces 17 (FIG. 4). The further the permissible eccentricity of 0.3 mm is exceeded, the more individual surfaces 17 become visible. To determine the eccentricity, the maximum number of visible individual surfaces 17 of the bright field 15 must be sought, for which purpose the base body is to be rotated by 22.5 ° in the ring plane. From the number of visible individual surfaces 17, the numerical assignment of the eccentricity is possible, with a visible individual area between 0.3 mm and 0.32 mm, two visible individual areas between 0.32 mm and 0.42 mm, three visible individual areas between 0.42 mm and 0 , 76mm, four visible individual surfaces is above 0.76mm. The direction of the eccentricity is given by the symmetry axis of the crescent-shaped surface of the bright field 15.

In a second embodiment, a bright field 15 generated by a lighting device 20, 21 is arranged between the spindle 1 and the ring 2 in the viewing direction 3 under the outer edge 7 of the spindle attachment 6 and the inner edge 9 of the ring attachment 8 (FIG. 5). The lighting device 20,21 is arranged on the ring attachment 8 and consists of eight distributed over the circumference of the bright field 15 individual radiators 20 and a battery 21. In the ring attachment 8 is located on the opposite side of the battery 21, a further battery 22 as a reserve. The individual radiators 20 are connected in a manner not shown via lines and a switch with the battery 21. The switch is designed so that the lighting device 20,21 is in the on state when the ring attachment 8 is placed on the ring 2. When the illumination device 20, 21 is switched on, the bright field 15 is visible, which consists of eight individual surfaces 23 which are distributed uniformly over the circumference of the bright field 15 (FIG. 6). The individual surfaces 23 are each formed by a single radiator 20. The mode of action corresponds to that already described, wherein the individual surfaces which become visible in each case appear as points of light which are produced by the individual radiators 20 (FIG. 8).

Has the testing revealed that between the spindle 1 and the associated ring 2, the allowable eccentricity is exceeded, it can be done with the aid of this tester centering by the spindle 1 and / or the ring 2 are adjusted to each other or is that the bright field 15 is completely obscured (Figures 3 and 7).

Checking the eccentricity and / or centering can be done both when stationary as well as rotating spindle 1.

It is also possible that the diameter 10 of the outer edge 7 of the spindle attachment 6 is equal to or twice the permissible eccentricity is smaller than the diameter 11 of the inner edge 9 of the ring attachment 8. Qer further structure and the mode of action are respectively in a corresponding manner as has been previously described.

Claims (3)

1. Test device to ring spinning or ring twisting machines for visually checking the eccentricity between a spindle and an associated ring, in which the viewing direction is directed in the direction of the spindle axis on the spindle tip and on. the spindle is a spindle attachment with a concentric outer edge to the spindle, on the ring a ring attachment with a ring concentric inner edge and between the spindle and the ring in the viewing direction under the outer edge of the spindle attachment and the inner edge of the ring attachment a bright field generated by a lighting device is arranged , wherein the diameter of the outer edge of the spindle attachment is equal to or greater than twice the allowable eccentricity is greater or smaller than the diameter of the inner edge of the ring attachment, characterized in that the bright field (15) consists of at least three individual surfaces (17,23) , which are evenly distributed over the circumference of the bright field (15). 2. Testing device according to item 1, characterized in that the individual surfaces (17) are formed by a diaphragm (18). -2- / II UO Invention claims: 3. Testing device according to item 1, characterized in that the individual surfaces (23) are each formed by a single radiator (20). For this 2 pages drawings Field of application of the invention The invention relates to a test device to ring spinning or ring twisting machines for visually checking the eccentricity between a spindle and an associated ring, in which the viewing direction is directed in the direction of the spindle axis on the spindle tip and on the spindle a spindle attachment with an outer edge concentric with the spindle a ring attachment with an inner edge concentric with the ring and between the spindle and the ring in the viewing direction under the outer edge of the spindle attachment and the inner edge of the ring attachment a bright field generated by a lighting device is arranged, wherein the diameter of the outer edge of the spindle attachment is equal to or by twice the amount of allowable eccentricity is greater or less than the diameter of the inner edge of the ring attachment. Characteristic of the known technical solution It is known from DE-OS 2011 656 D 01 H 17/02 a test device on textile machines for visually checking the eccentricity between a spindle and an associated ring in which the viewing direction in the direction of the spindle axis is directed to the spindle tip and on the spindle a spindle attachment is arranged with a concentric with the spindle outer edge and between the spindle and the ring in the viewing direction under the outer edge of the spindle attachment and the inner edge of the ring generated by a lighting device bright field. The bright field is limited by the outer edge of the spindle attachment, which forms the inner edge of the light, and by the inner edge of the ring, which forms the outer edge of the light. Furthermore, DE-PS 93937676c 30/10 a test device to ring spinning or ring twisting machines is known in which a ring attachment is arranged with a ring concentric inner edge on the ring. In such a test device mentioned above, an exact centering between the spindle and the ring is present when both light edges are concentric zueiander or the width of the limited by both light edges light ring surface is constant over its circumference. The disadvantage here is that no numerical statement about the eccentricity can be made. In order to obtain a numerical statement, additional measurements must be made according to the direct measuring method. In this case, the measure of the outer diameter of the ring is determined to the rotating spindle with the aid of a tactile measuring device. For exact determination of the eccentricity, two one-time measurements are to be carried out in directions of measurement offset by 90 °. Through these measurements and their evaluation creates effort. Object of the invention The application of the invention aims to eliminate the burden of numerical determination of eccentricity. Explanation of the essence of the invention The invention has for its object to provide a test device that allows the numerical determination of the eccentricity. According to the invention, this object is achieved in that the bright field consists of at least three Einzeiflächen, which are distributed uniformly over the circumference of the bright field. In an advantageous embodiment, the individual surfaces are formed by a diaphragm. A further advantageous embodiment is that the individual surfaces are each formed by a single radiator. embodiment In the accompanying drawings show Fig. 1: the front view of a tester with aperture in section 2 shows the plan view of Fig. 1 with removed spindle attachment 3: the plan view of FIG. 1, wherein the spindle and the ring within the allowable eccentricity to each other 4 shows the plan view of Fig. 1, wherein the allowable eccentricity between the spindle and ring is exceeded. Fig.5: the front view of a tester with individual radiators in section
Fig. 6: the top view of FIG. 5 with removed spindle attachment
7 shows the top view according to FIG. 5, wherein the spindle and the ring are arranged within the permissible eccentricity relative to one another 8: the plan view of FIG. 5, wherein the allowable eccentricity between the spindle and ring is exceeded. In a test device on a ring spinning machine for visually checking the eccentricity between a spindle 1 and an associated ring 2, the viewing direction 3 is directed in the direction of the spindle axis 4 on the spindle tip 5. On the spindle 1, a spindle attachment 6 is arranged with a concentric with the spindle 1 outer edge 7 and on the ring 2, a ring attachment 8 with a ring 2 concentric inner edge 9. The diameter 10 of the outer edge 7 of the spindle attachment 6 is greater by twice the allowable eccentricity than the diameter 11 of the inner edge 9 of the ring attachment 8. In the described embodiments, the allowable eccentricity is 0.3 mm, the diameter 11 of the inner edge 9 of