EP1211028A2 - Quick change system for touch probe assembly - Google Patents

Abstract

A series of spaced apart touch probes (4) are provided on opposite sides of a bridge (6), the number of probes corresponding to the number of main bearings (3) on the camshaft (1). The bridge is releasably connected via a quick-change coupling to the free end of at least one arm. Each probe is connected via a plug and cable to an evaluation device. The measuring probes are located in a mounting at the free end of arm connected to a shaft (29) extending parallel to the camshaft.

Description

The invention relates to a deep rolling machine for Crankshafts according to the preamble of the main claim.

When deep rolling punctures or radii Crankshafts can happen that the crankshaft bends. For this purpose, following the Deep rolling operation to measure the crankshaft determine if it has a stroke. The Surveying is usually done with the help of Measuring probes, which after the deep rolling operation on a or more of the main bearings of the crankshaft are lowered be and electrically with an evaluation device in Connect. During the measurement, the Crankshaft one revolution around its longitudinal axis. By the assignment of one probe to each of the The main bearing of the crankshaft is the quality of the rolled crankshaft. According to that Measurement result can be another Connect deep rolling operation, in which the radii or punctures of individual bearing points become. Roughing can extend over the entire circumference the relevant depository, but it can capture even a part of the scope. Roughing can the radii or punctures on individual main bearings or include on crankpin bearings of the crankshaft.

High demands are placed on the measurement accuracy of the impact measurement. For example, in the case of a crankshaft with a total length of approximately 400 mm, it is necessary to measure an impact on the central main bearing which is of the order of 10 ^-2 mm.

Based on the respective measurement result, the Deep rolling machine via the evaluation device Deep rolling operation regulated. It is common to have a majority of probes, corresponding to each main bearing to arrange the crankshaft. By mutual The distances between the probes is the arrangement only for a certain type of one Suitable for crankshafts. Modern deep rolling machines for However, crankshafts are designed so that several Types of crankshafts can be processed one after the other can. But that means that the attitude of Probe from crankshaft type to crankshaft type needs to be adjusted. For example, that requires Deep rolling a crankshaft for a 3-cylinder engine a smaller number of probes than deep rolling of crankshafts for engines, which a larger number of cylinders. Accordingly, the Deep rolling machine for the crankshafts every time be converted if different types of Crankshafts are to be processed. Except for the associated change of deep rolling tools must each time the probe with the required Accuracy to be set up so that Deep rolling operation leads to success.

Hence the task for the present Invention, according to the respective type of crankshaft probe to be rolled into the required Number and prepared arrangement interchangeable on the To install deep rolling machine. In addition to the required measurement accuracy can be guaranteed at the same time, that the multiple connection of the probe with the Evaluation device with great protection and reliability and can be produced in the shortest possible time. After all, the changeover time from one Probe group to the other as short as possible, and attaching the probe as smoothly as possible his.

The task is carried out with the characteristic features of the Main claim solved. There is a probe bridge provided on which according to the number of to main bearing measuring a plurality of probes is provided, which are at a mutual distance from each other are arranged. The probe bridge can be connected to a Quick coupling connected to the free end of the arm which is intended to be used with the measuring probe To engage the crankshaft. The quick coupling is designed so that the Cable connection can be established via which the individual probe in connection with the evaluation unit stand. In the present case, the cable connection is on multi-pin connector that is a careful and highly accurate connecting the individual cables together, assigned to each probe. The quick coupling ensures that the measuring bridge without tilting and can be easily attached to the deep rolling machine can. At the same time, the probes are coupled with the Evaluation device with the greatest possible protection of the Plug connection. Each crankshaft type is unique Probe bridge assigned on which the individual Measuring probes are attached according to type. Through the rapid interchangeability of individual probe bridges the set-up time of the deep rolling machine can be significant be reduced.

The formation of the Quick coupling as an adjusting sleeve in which to attach a pin can be inserted by measuring probes in turn is part of the probe bridge and through axial shifting of a switching sleeve can be unlocked can. Adjusting sleeves of the type mentioned are for example known from DIN 55 058. About that from the norm Known adjusting sleeves are tools with the Spindle heads connected by machine tools. In The adjusting sleeves were based on the DIN standard or tool holder in a way evolved to be quick without auxiliary tools are interchangeable and by pushing into the spindle Machine tool can be locked. The release is done by axially shifting a switching sleeve. A corresponding system is under the type designation ASBVA a company font of Otto Bilz Werkzeugfabrik GmbH & Co., 73760 Ostfildern, known become.

Safe coupling and uncoupling of the probe bridge with the deep rolling machine is achieved when two arms in same geometric arrangement with the shaft rotatably connected for engaging the Probe with the crankshaft on the deep rolling machine is provided. Each of the two arms is then each also assigned an adjusting sleeve. The free ends of the both arms are connected by a plate. To the side of the arms are the adjusting sleeves for the Quick coupling attached to the plate.

So that attaching the probe bridge to the Deep rolling machine if possible without tilting and therefore can be done easily, one of the adjusting sleeves is over a joint connected to the plate, which in turn the Connects ends of the two arms together. By the Joint can also have certain manufacturing tolerances be caught in the making of a Probe bridge are inevitable. Through the joint is largely excluded that the probe bridge tilt when attaching to the deep rolling machine can, making the connection smooth as the measurement accuracy is also guaranteed. For protection the electrical contacts are part of the detachable Plug connection leading to the evaluation device, too firmly connected to the plate.

As usual, each probe is in the Position of the engagement with the crankshafts vertically. During the deep rolling of the crankshafts Measuring probe swiveled out of engagement and take it an approximately horizontal position. In this the swiveled-out position of the probes can Deep rolling tools unhindered the radii or punctures roll the crankshaft.

Fig. 1

eine Vorderansicht der Messtaster-Brücke,

Fig. 2

eine Draufsicht auf die Messtaster-Brücke,

Fig. 3

eine Seitenansicht der Messtaster-Brücke,

Fig. 4, 5 und 6

jeweils Schnitte durch die Messtaster-Brücke entlang der Linien G-G, J-J und H-H der Fig. 1.

The invention is described in more detail below using an exemplary embodiment. They show, each on a smaller scale, the

Fig. 1

a front view of the probe bridge,

Fig. 2

a top view of the probe bridge,

Fig. 3

a side view of the probe bridge,

4, 5 and 6

cuts through the probe bridge along lines GG, JJ and HH of FIG. 1.

In Fig. 1, a crankshaft 1 is interrupted Lines shown, for example in a 6-cylinder in-line engine is used for cars. Along the The axis of rotation 2 of the crankshaft 1 is the main bearing 3 in spaced from each other. With everybody Main bearing 3 is a probe 4 in engagement. The Measuring probes 4 are at mutual intervals 5, according to the arrangement of the main camp 3, with their upper ends attached to a probe bridge 6. The Probe bridge 6 consists of a profile bar 7, in the grooves 8 fixed prism stones 9 attached are. There is a probe on each of two prism stones 9 4 screwed with its upper end.

The profile bar 7 is attached to a plate 10. On the top 11 carrying the profile bar 7 has the Plate 10 a handle 12 on. On the top 11 opposite rear top 13 of the Plate 10 (Fig. 2) jump two pins 14 and 15 vertically (Fig. 5 and 6). The two pins 14 and 15 have a mutual distance from each other, which corresponds to the distance 16 that the two cutting lines J-J and H-H have from each other (Fig. 1). The horizontal Height of the two pins 14 and 15 on the plate 10 is the same and extends parallel to the longitudinal axis 2 the crankshaft 1; in Fig. 1 that is by the respective attachments 17 and 18 for the pins 14 and 15 recognizable. During the attachment 17 for the pin 14 in FIG. 5 as a screw connection 19 is, the attachment 18 for the pin 15 on the Plate 10 designed as a joint 20. The joint 20 will from a plate 21 and screws 22 on the plate 10 held; it is limited after all Movable directions.

The pins 14 and 15 each engage in the same Adjusting sleeves 23, the screws 24, each are underlaid with a washer 25 on a bar 26 are attached. The strip 26 connects the outer free ends 27 of two arms 28 with each other, which on a shaft 29 rotatably and at a mutual distance 30 are attached from each other.

Just like the two pins 14 and 15 are the Adjusting sleeves 23 parts of two quick couplings 31, about which the probe bridge 6 to the bar 26 and thus on the arms 28 and the shaft 29 of the deep rolling machine 41 can be connected. Connecting the Probe bridge 6 to the deep rolling machine 41 by simply inserting the pins 14 and 15 into the respective adjusting sleeves 23. Conical ends 42 facilitate the insertion of the pins 14 and 15 in the Adjusting sleeves 23; Frets 43 on their shaft 44 ensure a snug fit and ease of movement the pins 14 and 15 within the adjusting sleeves 23. Of which The probe bridge 6 is to be loosened via switching sleeves 32, which in turn is axially movable on the outer Section of the adjusting sleeves 23 are guided. Bullets 33 that stored in an annular groove 34 of the two pins 14 and 15 are the real link between the relevant pins 14, 15 and the adjusting sleeve 23. By axially moving the switching sleeves 32 in the direction towards the plate 10, the balls 33 from the Exit annular grooves 34 and thus probe bridge 6 be released from the deep rolling machine 41.

Each of the probes 4 is electrically via a Cable connector 35 with an evaluation device (not shown) connected. The cable connector 35 consists of a part 36, which is attached to the probe bridge 6 and one Part 37, which is attached to the bar 26. While the part 37 on the bar 26 with the deep rolling machine 41 is permanently connected, the intervention of the Part 36 in part 37 of the cable connector 35 with each Replacing the probe bridge 6. The quick coupling 31 is so accurate that the large amount of Individual connections of the probe bridge 6 accordingly the individual probes 4, inside the cable connector 35 easily produced via the two parts 36 and 37 can be without parts of the sensitive Cable ends are damaged.

4 shows one of the measuring probes 4 in engagement with a main bearing 3 a crankshaft 1. How to in the 4 sees, the probe 4 is bent by a Arm 38 held, the other end of the profile bar 7 is attached. 4, the Cable connector 35 with its two parts 36 and 37.

Fig. 3 shows the probe bridge 6 each in the Working and at rest. In the working position on the left half of FIG. 3, the measuring probe 4 is open the crankshaft 1 is lowered and is almost vertical on one of the main bearings 3. In the right part of FIG. 3 is the probe bridge 6 in the Rest. When transitioning from work to The rest position describes the tip of probe 4 an arch 39. A support chain 40 keeps the from the Part 37 of the cable connector 35 exiting cable (not shown) before, when swiveling the probe 4 to take damage along the arc 39. The wave 29, with their arms 28 and the ends of the arms 28 connecting bar 26 are parts of the deep rolling machine 41, which remain constantly on it.

reference numeral

1

crankshaft

2

axis of rotation

3

main bearing

4

probe

5

distance

6

Probe Bridge

7

Molding

8th

groove

9

prism stone

10

plate

11

top

12

handle

13

top

14

spigot

15

spigot

16

distance

17

attachment

18

attachment

19

screw

20

joint

21

plate

22

screw

23

adjusting sleeve

24

screw

25

disc

26

strip

27

The End

28

poor

29

wave

30

distance

31

quick coupling

32

switching sleeve

33

Bullet

34

ring groove

35

cable connector

36

Part of the cable connector

37

Part of the cable connector

38

poor

39

arc

40

support chain

41

Hard-rolling machine

42

The End

43

Federation

44

shaft

Claims (8)

Deep-rolling machine for crankshafts with a device for measuring the impact of the crankshaft consisting of at least one probe, which is arranged in a holder at the free end of an arm, which is rotatably connected to a shaft which extends at a distance parallel to the axis of the crankshaft and by pivoting about its longitudinal axis brings the probe into and out of engagement with one of the main bearings of the crankshaft and a cable connection via which the probe is connected to an evaluation device, characterized in that According to the number of main bearings (3) to be measured, a plurality of measuring probes (4) are provided, which are at a mutual distance (5) a probe bridge (6) are arranged, which at least a quick coupling (31) is detachably connected to the free end (27) of at least one arm (28), and next to it as a cable connection A detachable plug connection (35) is provided for the precise connection of each measuring probe (4) to the evaluation device. Deep-rolling machine according to claim 1, characterized in that the quick coupling (31) is designed as an adjusting sleeve (23), in which a pin (14, 15) can be inserted to fasten measuring probes (4), which part of the measuring probe bridge (6) and can be unlocked by axially shifting a switching sleeve (32). Deep-rolling machine according to Claim 2, characterized in that two arms (28) are connected in a rotationally fixed manner to the shaft (29) at a mutual distance (30) in an otherwise identical geometric arrangement, each of which is assigned an adjusting sleeve (23). Deep-rolling machine according to claim 3, characterized in that the free ends (27) of the two arms (28) are connected to one another via a bar (26). Deep-rolling machine according to claim 4, characterized in that the adjusting sleeves (23) are attached laterally next to the arms (28) on the bar (26). Deep rolling machine according to claim 5, characterized in that one of the pins (15) is connected via a joint (20) to a plate (10) on which the probe bridge (6) is attached. Deep-rolling machine according to claims 1 and 4, characterized in that parts (36, 37) of the releasable plug connection (35) which lead to the evaluation device are firmly connected to the plate (10) or the strip (26). Deep-rolling machine according to one of Claims 1 to 7, characterized in that each measuring probe (4) is essentially vertical in the position of engagement with the crankshaft (1).

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