WO2022173401A2 - Assembly for measuring the position of two ball-bearing ring channels relative to each other - Google Patents

Abstract

The invention is related to a measurement assembly which measures the position of two channels located on the flanks of the ball-bearing ring relative to each other. In the measurement assembly of the invention, the fixed abutment plate (5) and the measurement tip (6) and the opposite measurement tip (7) are in the same direction. In addition, the fixed abutment plate (5) and the measurement tip (6) and the opposite measurement tip (7) taking place in the assembly contact the same side of the lower channel and upper channel of the ball-bearing ring (1).

Description

ASSEMBLY FOR MEASURING THE POSITION OF TWO BALL-BEARING RING CHANNELS RELATIVE TO EACH OTHER

Technical Field

The invention is related to a measurement assembly which measures the position of two channels located on the flanks of the ball-bearing ring relative to each other.

Prior Art

The positions of two channels located on the ball-bearing ring, which should be measured during the turning operation are measured by means of a computer assisted measuring device in a measurement laboratory. Taking a measurement result takes a long time. Manufacture cannot be continued until the measurement result is taken from the measurement laboratory. The parts produced without taking the measurement results have the risk of being faulty. This situation causes the production of scrap rings.

Since measuring the positions of the two channels located on the ball-bearing ring relative to each other cannot be measured on the turning lathes, time loss occurs.

When the measurement technique for the positions of the two channels on the ball-bearing ring relative to each other in the present state of the art was examined, a need for improving the measurement technique for the positions of the two channels on the ball-bearing has risen.

In the invention, a measurement assembly for measuring the positions of the two channels on the ball-bearing ring relative to each other was realized.

When the known state of the art was examined, it was determined that there were no measurement assemblies for measuring the positions of the two channels relative to each other. In the Chinese patent document number CN104296618A determined to be the closest document, a device used for measuring the perpendicularity difference and accuracy of the ball-bearing is mentioned. In the document, a plate, a positioning piece, and two comparators are included.

In another Chinese patent document number CN2076669U determined to be the closest document, a device used for measuring the accuracy of the ball-bearing is mentioned. In the document, a device which comprises a plate positioning piece, two comparators, one spring mechanism, and a measurement tip.

When the ball-bearing ring measurement techniques in the present state of the art were examined, it was determined that measurements could not be taken since the fixed abutment and metal measurement tip used in the measurements do not have the same orientation, and the metal measurement tip cannot contact the same side of the lower channel and the upper channel. Additionally, the assemblies in the present state of the art do not measure a single ball-bearing ring, but a mounted ball-bearing. Therefore, there is a need for developing a measurement assembly wherein the abutment plate and the measurement tip are in the same direction and the abutment plate and the measurement tip contact the same side of the lower channel and the upper channel.

The Purposes and Brief Description of the Invention

The purpose of this invention is to realize a measurement assembly which is developed for measuring the positions of the two channels on the ball-bearing ring relative to each other on the lathe, during the ball-bearing ring turning operation.

Another purpose of the invention is to develop a measurement assembly wherein the abutment plate and the measurement tip are in the same direction and the abutment plate and the measurement tip contact the same side of the lower channel and the upper channel.

The ball-bearing ring as the subject of the invention is a measurement assembly developed for measuring the positions of the two channels on the ball-bearing ring relative to each other, and it comprises a plate in which the ball-bearing ring is placed, a positioning plate and an opposite positioning plate. The measurement assembly comprises a fixed abutment plate for fixing the ball-bearing ring. There is a measurement tip and opposite measurement tip that contact the channels on the ring for measuring. It also comprises a spring system and an opposite spring system which provides for the measurement which has been taken by the measurement tips to the comparators which show the measurement values.

Detailed Description of the Invention

The assembly for measuring the position of the two ball-bearing ring channels relative to each other realized in order to achieve the purposes of this invention is shown in the attached figures.

In these figures;

Figure 1: Perspective view of the assembly for measuring the position of the two ball-bearing ring channels relative to each other.

Figure 2: Side view of the assembly for measuring the position of the two ball-bearing ring channels relative to each other.

Figure 3: Perspective view of the ball-bearing ring with channels opened.

Figure 4: Schematic view of the distance between the two channels of the ball-bearing ring. The parts in the figures have been individually numbered and their corresponding are given below.

1. Ball-bearing ring

2. Plate

3. Positioning plate

4. Opposite positioning plate

5. Fixed abutment plate

6. Measurement tip

7. Opposite measurement tip

8. Spring system

9. Opposite spring system

10. Comparator

11. Opposite spring comparator

12. Channel 1 13. Channel 2

14. Channel 3

15. Channel 4

A. Plate plane

B. Lower channel surface

C. Upper channel surface

X. Horizontal distance between the surface

Z. Z direction

The assembly for measuring the position of the two ball-bearing ring channels relative to each other as the subject of the invention comprises;

- A positioning plate (3) on which the ball-bearing ring (1) is placed and which is positioned on the plate (2),

- Opposite positioning plate (4) which takes place on the plate (2) and next to the positioning plate (3),

- A fixed abutment plate (5) which positions between the positioning plate (3) and the opposite positioning plate (4) and on which the ball-bearing ring (1) is fixed,

- Channel 1 (12), channel 2 (13), channel 3 (14), and channel 4 (15) opened on the ball bearing ring (1),

- A measurement tip (6) which contacts the channel 3 (14) on the ball-bearing ring (1),

- An opposite measurement tip (7) contacting channel 1 (12), which is on the ball bearing ring (1) opposite channel 3 (14) to which the measurement tip (6) contacts,

- A spring system (8) connected to the measurement tip (6) and positioned on the plate

(2),

- An opposite spring system (9) connected to the opposite measurement tip (7) and positioned on the plate (2),

- A comparator (10) connected to the spring system (8) and showing the measurement value determined with the movement of the spring system (8),

- A comparator (11) connected to the opposite spring system (9) and showing the measurement value determined with the movement of the opposite spring system (9). The assembly for measuring the position of the two ball-bearing ring channels relative to each other as the subject of the invention has a rectangular plate (2). There is a positioning plate (3) positioned on the measurement plate (2). There is an opposite positioning plate (4) which positions next to the positioning plate (3). There is a fixed abutment plate (5) between the positioning plate (3) and opposite positioning plate (4). The ball-bearing ring (1) which is lathed and channelized is seated in the way that the fixed abutment plate (5) will be inside the channel on the lower side. (Figure 1)

There is a measurement tip (6) positioned such that the ball-bearing ring (1) contacts the channel on the upper surface and the ball-bearing channel surface (C). There is an opposite measurement tip (7) positioned such that the ball-bearing ring (1) contacts the other channel on the same and its surface (C). The measurement tip (6) and opposite measurement tip (7) contacts the inner surfaces of the channels (C surface). (Figure 1 and Figure 2)

The measurement tip (6) is connected to a spring system (8) fixed to the plate (2). With the spring system (8), the measurement value is transferred to a comparator (10) connected to the spring system (8). The opposite measurement tip (7) is connected to an opposite spring system (9) fixed to the plate (2). With the opposite spring system (9), the measurement value is transferred to the opposite comparator (11) connected to opposite spring system (9). The measurement tip (6) and the opposite measurement tip (7) connected on the spring system (8) and the opposite spring system (9) are adjusted to contact within the channel. By pushing the ball-bearing ring (1) which has been lathed and channelized forward, it is provided that it contacts the lower channel surface (B) of the channel on the lower side of the fixed abutment plate (5). (Figure 1 and Figure 2)

By providing the forward movement of the measurement tip (6) and the opposite measurement tip (7) in the Z direction (Z) with its contact, it moves the spring system forward (8) and the opposite spring system (9). After these consecutive moves, the position of channel 3 (14) and channel 4 (15) relative to each other is measured by moving the comparator (10) which is connected to the spring system (8) and the horizontal distance (X) value between channel 1 (12) and channel 2 (13) is measured by moving the opposite comparator (11) which is connected to the opposite spring system (8). This value shows the position of channel 1 (12) and channel 2 relative to each other. (Figure 1 and Figure 3)

Claims

1. The invention is related to a measurement assembly which measures the position of two ball-bearing ring channels relative to each other, characterized in that it comprises;

A positioning plate (3) on which the ball-bearing ring (1) is placed and which is positioned on the plate (2),

Opposite positioning plate (4) which takes place on the plate (2) and next to the positioning plate (3),

A fixed abutment plate (5) which positions between the positioning plate (3) and the opposite positioning plate (4) and on which the ball-bearing ring (1) is fixed, Channel 1 (12), channel 2 (13), channel 3 (14), and channel 4 (15) opened on the ball-bearing ring (1),

A measurement tip (6) which contacts the channel 3 (14) on the ball-bearing ring

(1),

An opposite measurement tip (7) contacting channel 1 (12), which is on the ball bearing ring (1) opposite channel 3 (14) to which the measurement tip (6) contacts, A spring system (8) connected to the measurement tip (6) and positioned on the plate (2),

An opposite spring system (9) connected to the opposite measurement tip (7) and positioned on the plate (2),

2. The invention is a measurement assembly for measuring the position of the two ball bearing ring channels relative to each other, characterized in that it comprises a comparator (10) connected to the spring system (8) and showing the measurement value determined with the movement of the spring system (8).

3. The invention is a measurement assembly for measuring the position of the two ball bearing ring channels relative to each other, characterized in that it comprises a comparator (11) connected to the opposite spring system (9) and showing the measurement value determined with the movement of the opposite spring system (9).