DE875730C - Chain checking device - Google Patents

Description

Chain testing device Fast moving chains, which are used in engine construction z. B. used to drive the control shaft, high requirements are in With regard to running smoothness. Minor inaccuracies in the engagement of the chain can cause slapping, loud noise, and premature wear.

A check of the manufacturing accuracy has usually taken place so far only held in such a way that in the manufacture of the individual parts that make up the chain is composed, these parts of a test for compliance with the permissible Tolerances were subjected. A review of the finished chain was made in this Case no longer deemed necessary.

The invention is based on the knowledge that it is for the precise engagement and the noiseless running of the chain is not enough, only to examine the individual chain links for themselves, probe that it is necessary, carry out a check of the chain itself even after it has been put together.

The invention accordingly consists in a device which allows continuous division of the chain, and in particular the immediate distance the pressure surface of the chain links that comes into contact or the position of these back surfaces to measure or display at a set mean value.

In particular, the invention accordingly consists in that on the one hand a drive device, which the chain tensioned by a tensioning device, g each lam adjusted a stroke corresponding to the pitch of the chain, and on the other hand a measuring device is provided, which in time with the drive device of this he driven, after each adjustment of the chain by means of a z. B. on a measuring or reading device acting Tasters depending on the ratio of the division successive: scans the following stop surfaces of the chain.

It is useful here to directly reflect the distance from the system Coming pressure surfaces of the chain links by means of the button of the measuring device measured or displayed, e.g. B. also such that at the same time two consecutive Members of a series of members are scanned and measured.

The measurement on the pressure surfaces coming into contact with the chain wheel has the advantage that the measurement takes place directly at any number of points, whose exact position is primarily responsible for the smoothness of the chain. Manufacturing inaccuracies on the individual chain links, e. B. in diameter the roles serving as chain links, or their V, will be connecting parts therefore only measured in their effect on the position of the pressure surfaces, while others, deviations that are insignificant for smooth running are not taken into account. The testing process can therefore be carried out particularly quickly and economically.

In particular, the invention relates to the verification of Chains with multiple link rows and also consists in the fact that at the same time pressure surfaces each adjacent limbs of the limb triads on a matching, aligned arrangement these pressure areas are checked. Such a test enables a guarantee that that a precisely simultaneous engagement of the chain links takes place and thus a lateral distortion of the chain as a result of one-sided loading is excluded.

Weeding out those that do not meet the requirements for accuracy Chains before installation z. B. in his motor vehicle engine is mainly because of this an advantage because in many cases the expansion of the chain also means a complete expansion the whole machine or its partial disassembly is necessary.

Further features and details of the invention are as follows Description of two exemplary embodiments, namely FIG. I shows a schematic side view of a chain testing device, FIG. 2 shows a plan view the device, Fig. 3 is a partial section from the side view of a further embodiment des Geräbes, FIG. 4 is a plan view of this embodiment and FIG. 5 is a plan view on a chain with a double row of links on an enlarged scale.

The chain 10 to be tested consists, as FIG. 5 shows in detail, from the rollers 11 and I2, which mesh with the teeth of the sprocket are determined, and the links I3, I4, I5, I6, soft the individual Wear links II and I2 of the chain by means of pins. The neighboring limbs of the two link drives II and 12 are mounted on a common pin so that they are in a common escape.

The test device itself consists essentially of the drive or Transport device A, the measuring device B and the clamping device C. The to testing chain in is on the two meticulously manufactured master bikes I7 and I8 applied, which is mounted on the shafts 19 and 20 and on these in a suitable Way, e.g. B. by means of the handles 2I, 22 actuated bayonet locks, be coupled. On the shaft 19 of the chain wheel 17 is still a chain wheel 23 fixedly arranged with the most precise division, in soft a pin 24 on an eccentric 25 can intervene.

D'er eccentric 25 is mounted on a shaft 26 on which a Cam 27 is located, which has a double-armed lever 29 mounted in the frame at 28 operate. Dler lever is loaded by a spring 30, so that he is with his the lower lever arm 31 rests against the cam 27 on the shaft 26. The top end 32 of the lever is provided with a wedge-shaped recess 33, which with the Toothing of the sprocket 23 cooperates in such a way that it each in one by the division of the sprocket holds exactly certain position when the wedge-shaped recess 33 is placed on the lines of the teeth of the sprocket 23.

The shaft 26 is z. B. by crying electric motor 34 by means of a worm 35 Tund worm gear 36 driven. On the shaft 26 is also a sprocket 37 firmly placed, which by means of a chain 38, a sprocket 39 on a shaft 40 drives, which serves as a drive shaft for the measuring device B.

For this purpose, the shaft carries a cam 41, which is an on Frame of the device by means of the shaft 42 mounted rocker 43 drives. The swing arm 43 is designed as a double-armed lever and is operated by a spring 44 against the Cam 41 pressed on shaft 40. She carries on her other end by means of one Cross pin 45 two measuring levers 46 and 47, which are clockwise by springs 48 (according to FIG. I) are loaded so that they are under spring pressure against the feeler pins 49 and 50-der Put on dial gauges 51 or 52.

The feeler pins 49 and 50 operate here in a manner known per se Way the pointers 53 and 54, which show the deviations of the measurement results from the target values Show. It is particularly useful to subdivide the scale in such a way that when Exceeding the permissible tolerances, which z. B. in the dial gauge 51 by the Sector 55 of the scale are indicated, a contact 56 is closed, which thereby worse a suitable circuit a z. B. optical or acoustic signal 57 actuated. A corresponding display is expediently provided on the clock 52. It can expediently be a signal, even with measurements within the tolerance range to give by z. 13. Green light will illuminate as long as the measurements are within this range take place, and red light when this range is exceeded will. If necessary, instead of or simultaneously with the output of the signal, a Switching off the drive motor 34 can be made.

For guiding the measuring lever 46 and 47 are also useful adjustable Support members, e.g. B.

Rollers 58 are provided, against which the levers are supported by means of guide surfaces 59 when the Apply swing arm 43 after a certain amount of play can to lift the levers 46, 47 from the feeler pins 49, 50.

The tensioning device C consists of the chain wheel rS, which by means of the shaft or the pin 20 is mounted on a rocker 63, which in turn is articulated by means of pin 64 on the frame. The sprocket serving as a tensioning wheel 18 is loaded by a weight 65 in the direction of the arrow y, the weight 65 by means of a rope 67 guided over the pulley 66 is connected to the rocker arm 63 is.

The operation of the device according to FIGS. I and 2 is as follows: First the chain to be tested 10 is applied to the two sprockets 17, I8, whereupon these are then pushed onto their shafts 19, 20 and, by means of the handles 21, 22, z-. B. can be coupled by means of a bayonet lock. The sprocket I8 will here pivoted under the action of the weight 65 in the direction y, so that the Chain always without play under a precisely predetermined tension according to the test load of weight 65, e.g. from Iokg, is stretched.

The motor 34 is then put into operation.

With each revolution of the shaft 26 or the eccentric member 25 arrives the rotating driver pin 24 in the position 24 'once with the chain wheel 23 in engagement, whereby this is transported by approximately one pitch. While this time the lever 29 is lifted off the sprocket 23 by the cam 27, so that the latter can rotate freely and here the chain 10 by means of the sprocket 23 takes away. As soon as the Mitnehrmerzapfen 24 leaves the sprocket 23 ver, there is Cam 27 the lever 29 free, so that this under the action of the spring 30 against the sprocket 23 is pressed and thereby with one of the teeth of the same by means the wedge-shaped recess 33 engages. The one executed with the most precise division Sprocket 23 is thereby brought into a precisely defined position.

During the transport of the chain through the driving pin 24 resp. is located during the definition of the same by the wedge engagement 33 of the lever 29 the measuring device B out of engagement with the chain by the cam 41 the Rocker 43 is pivoted clockwise and thereby the M-eßhebel 46 and 47 except An iff with the chain 10 to be measured stops. After setting the chain through the lever 29 is the cam 41 the rocker 43 free, whereby the pin 45 with each pawl-like mounted on them measuring levers 46, 47 is moved downwards and thereby comes into engagement with the chain links, wherein the beak ends 6r or 62 of the measuring lever against the pressure surfaces 68 or 69 of the chain links II or

12 as shown in Fig. 5. The upper end of the measuring levers 46, 47 presses here on the feeler pins 49 and 50 of the dial gauges 51, 52, which the measurement result indicated by the pointers 53, 54 and when the permissible tolerances are exceeded if necessary, trigger the signal 57 or switch off the drive motor 34.

After the measurement has taken place, the measuring levers 46, 47 are actuated by the cam 41 lifted out of the chain I0 with straight guidance on the rollers 58 and the chain transported by a new engagement of the driving pin 24 by a further pitch, whereupon the processes in detail come up again. This can be done by the measuring lever 46, 47 can be determined immediately whether the distance of the coming to the plant Pressure surfaces 68, 69 corresponds to the intended division. At the same time can through Comparison of the display of both dial gauges 51, 52 can be read off whether the pressure surfaces of the adjacent chain links 11, 12 are in common alignment x-x.

The embodiment of FIGS. 3 and 4 differs from that of Figs. 1 and 2 only in that on the shaft 45 another Mteßheblel 70 is mounted, which by means of the measuring jaw 7I the pressure surface 68 'of that chain link, e.g. II', which is detected by the measuring link 46, 6I measured chain link in the link row follows or precedes this link.

A lever arm 72 acts on the feeler lever 73 of a third dial indicator 74, which is designed in accordance with the dial gauges 51 and 55. By using the third dial gauge can be the distance a between two successive pressure surfaces of the Chain links can be read in one measurement.

If necessary, the devices, e.g. 5I and 74, can also be combined in this way be coupled so that the difference in their readings is displayed immediately. In this way, measurement errors can be eliminated in particular which possibly otherwise by slightly lifting the chain on the sprocket 17 as a result of sagging the chain or for similar reasons.

Claims (13)

PATENT CLAIMS: I. Device for testing chains, especially drive chains in internal combustion engines, characterized in that on the one hand a drive device (A;), which jie the chain tensioned by a tensioning device (C) around one of the Pitch of the chain (a) adjusted corresponding stroke, and on the other hand a measuring device (B) is provided, which is driven by the drive device in time with the latter, after each adjustment of the chain by means of a z. B. a measuring or reading device (51, 52) operating button (46, 47) each in the ratio of the division (a) successive The chain's stop surfaces are scanned. 2. Apparatus according to claim I, characterized in that directly the distance (a) between the pressure surfaces of the chain links that come into contact by means of of the button (46, 47) of the measuring device (B) is measured or displayed. 3. Apparatus according to claim I and 2, characterized in that by means of the buttons (46, 47) of the measuring device, two consecutive ones at the same time Members of a series of members are scanned and measured. 4. Apparatus according to claim i to 3 for chains with multiple link rows, characterized in that the buttons (46, 47) of the measuring device simultaneously in each case btenachhard links of the link rows (1 l, 12) on matching aligned Arrangement (x-x) are checked. 5. Apparatus according to claim 3 and 4, characterized in that the drive device is an intermittently acting Vorsehubeinrichtung, z. B. a revolving and gripping into the toothing of a sprocket every time it revolves bung the same with the pin shifting about one pitch, and the rest of the way leash locking device, e.g. B. one after the feed in notches, for example into the teeth of the chain sprocket, engaging in a wedge shape and thereby the chain in precisely defined, the division corresponding position holding lever includes. 6. Apparatus according to claim 1 to 5, characterized in that the measuring device comprises a pawl-like, double-armed lever, which on a rocker operated by a control shaft is arranged, and the one Hleblelarm as a button engages between the individual links of the chain, while the other The lever arm acts on a dial indicator in such a way that the lever is swiveled after each measurement the swing arm out of the chain and after the end of the chain feed is reinserted between the chain links. 7. Apparatus according to claim 6, characterized in that with the Lever cooperating guide member, e.g. B. an adjustable role on which the lever runs when the rocker is pivoted in such a way that the measuring lever when lifted out is lifted off the chain from the filler pin of the dial gauge. 8. Apparatus according to claim 1 to 7 for chains with multiple Gli, ed series, characterized in that for each row of links tein special measuring lever or one special dial gauge is provided and the measuring lever assigned to the individual rows of links on, a common shaft or a common rocker to each other freely movable are stored. 9. Vorrichtttng according to claim 1 to 8, there - by marked-eichnet, that two measuring levers or two dial gauges for scanning a preceding and one the next chain link are provided. and the measuring levers and the dial gauges independently adjustable, but expediently on the same shaft or Swing arm are mounted. I0. Device according to Claims 1 to 9, characterized in that the measuring lever resp. Dial gauges, set on a certain tolerance, z. B. in such a way, that when Ub; exceeding a certain tolerance, a signal is given or the drive the device is shut down. II. Device according to Claims I to I0, characterized in that the chain to be tested via a z. B. swinging mounted tensioning wheel is guided, which under the action of an adjustable, z. B. caused by a weight Resilience. I2. Device according to Claims I to II, characterized in that the chain wheels receiving the chain to be tested are detachably arranged on their shaft and with this z. B. od by a bayonet lock. Like. Can be coupled. 13. Apparatus according to claim I to I2, characterized in that the common drive for the measuring device and for the z. B. by means of Chain gear coupled feed device by electric motor, z. B. over a Worm gear, takes place.