DE808288C - Area measuring machine for measuring leather, skin, etc. like - Google Patents

Description

Surface measuring machines for measuring leather, hides and the like.

Area measuring machines with positively driven grooved measuring roller and on this resting Nfeßwheels, which are running along with their Movement through its notched inner circumference on one having driver rollers Forward transmission disk whose revolutions in the usual way a summing device press are known. The invention relates to an improvement of the used here Elements for bringing about or preventing the coupling between measuring wheel and transmission disk. In the known measuring machines this is a large one on the flank of the measuring wheel Extensively distributed number of small levers used, which when idling with one Dip the end into the measuring roller groove and the other end into the nearest candle cover the inner circumference of the measuring wheel. The concealment is such that the driver rollers of the transmission disk do not dip into the notches and therefore not through they can be taken with you.

The large number of small levers rotating with the measuring wheel leads in these known machines at relatively high manufacturing costs, which can now be avoided by the invention. According to it, the prevention takes place when idling the coupling between the measuring wheel and the transmission disc by a single, two-armed feeler levers fixed to the measuring wheel axis next to each of the measuring wheels, its free arm dipping into a groove when the material to be measured passes through it is pushed up, making his other arm a coupling between the measuring wheel and Transmission disc disruptive, non-circumferential backward dernis in brings in an ineffective position. In this way, that is the case with the known machines each measuring wheel is replaced by a single number of levers, the does not revolve with the measuring wheel, but is mounted stationary to the measuring wheel axis and only the small height movements of his measuring wheel caused by the material to be measured has to participate.

In a preferred embodiment of the invention, said Feeler lever via an intermediate link with one, also mounted in a fixed position to the measuring wheel axis and such shaped inhibitor inevitably connected that this when idling of the measuring wheel as an obstacle in the orbit of the driver rollers of the transmission disk is held and when the material to be measured arrives at the measuring point from this orbit is swung out. Further parts of the invention can be found in the drawing, which represents an embodiment and in which Fig. I shows the side view and FIG. 2 shows the front view of a measuring wheel unit with the associated according to the invention Parts, Fig. 3 is an enlarged detail of the side view when the idle Measuring wheel, Fig. 4 the same as Fig. 3, but in the position during the measuring process.

In Fig. I it can be seen that the measuring wheel I rotates in a bearing and is arranged to be vertically displaceable. Its inner circumference is in the same and regular intervals like the driver rollers 2 of the transmission disk 3 with Provide notches 4 into which the rollers 2 fit. A two-armed feeler lever 5 dips with its free lower arm when the measuring wheel is idling in the groove 6 of the Measuring roller 7 and is rotatably mounted at point 8 in a holder g. This holder is firmly connected to a slide 10 in which the measuring wheel 1 is also rotatably mounted is; the bearings of the feeler lever 5 and measuring wheel 1 thus make the movements of the Halters g with. These are due to slight vertical movements, depending on the location of the measuring wheel when idling and when measuring different material thicknesses, limited in the machine frame common to all measuring wheels.

The upper arm of the sensing lever 5 is through an intermediate link I I with hinged to the chock 12; a transverse segment 13 of the latter protrudes when idling of the measuring wheel into the path of the driver rollers of the transmission disk. That Inhibitor is also rotatably mounted in the holder g at point 14, so that the axes of the measuring wheel, the feeler lever and the jamming piece always in the same position to one another have to stay. The sensing lever 5, the intermediate member 1 1 and the locking piece 12 form a kinematic chain with each other, the links of which, in terms of shape, the dead weight and storage conditions as well as the angular positions to each other are chosen so that the kinematic chain when idling the measuring wheel at its upper Self-locking end withstands the pressure of the driver rollers against the transverse segment, but at the lower end slightly into the release position due to the incoming Meggut can be transferred.

When the measuring wheel is idling, the parts according to the invention are located in the position according to FIG. 3.

As soon as the material to be measured arrives at the measuring point, the Fühlhehel receives 5 counterclockwise rotation by the material to be measured. This becomes the intermediate link pressed to the left and gives the inhibitor 12 a pivot in the direction of the clock, which the transverse segment 13 from the path of the driver rollers 2, where it previously protruded, swings out (Fig. 4). The inhibitor 12 now no longer forms an obstacle against a Rotation or change in height of the transmission disk.

To support and secure the effect of the transverse segment on the Inhibitor I2 can be attached to the lower part of the latter with such a design give that a flat transverse lobe I5 of it at idle just at the lowest point of the measuring wheel, where only the coupling between the measuring wheel and a driver roller take place can cover the coming inside notches of the measuring wheel so that there is no driver roller can sink into it. At the beginning of the measuring process, the jamming piece turns anti-clockwise pivoted, this transverse flap swings so far to the left that it not only releases the notches when passing the lowest point of the inner circumference of the measuring wheel, but also in the case of the one brought about by the penetration of a driver roller into a notch Approach of the transmission disk to the measuring wheel circumference is not an obstacle in the orbit the driving rollers forms.

As soon as the product flow is interrupted at the measuring point, cause the weight ratios of the kinematic chain feeler lever intermediate link inhibitor, that the lower arm of the feeler lever swings back into the groove of the measuring roller and the inhibitor performs a counterclockwise rotation, whereby on the one hand the transverse segment I3 gets back into the path of the driver rollers and the next arriving driver roller on a ramp-like run-up face of the transverse segment comes to a standstill and on the other hand the transverse tab 15 to the right in the position swings back, which it occupies in Fig. 3, so that it is again the lowest position of the notches covered in the inner circumference of the measuring wheel.

As a simplification, either the upper part of the inhibitor can be used the Ouersegment I3 or the lower part with the transverse flap I5, but it must be taken into account that the self-locking of the kinematic The chain is idling against the pressure of the driving rollers on the inhibitor and also the easy mobility of the feeler lever when the material to be measured arrives must be maintained at the measuring point.

Claims (5)

PATENT CLAIMS: I. Area measuring machine for measuring leather, hides and the like with frictionally attached grooved MeBxvalze and on this restless revolving measuring wheels, the movement of their guy during the passage of the material to be measured Forward the 1 number of nuances to a transfer disc with carrier rollers, characterized in that when idling the prevention of the clutch between Measuring wheel and transmission disk by a single, stationary next to each measuring wheel to the measuring wheel axle mounted two-armed feeler lever takes place, the free in a The arm dipping into the groove of the measuring roller is pushed up by the measuring material as it passes through becomes, whereby his other arm a coupling between the measuring wheel and the transmission disc disruptive, non-encircling H obstacle puts it in an ineffective position. 2. Area measuring machine according to claim 1, gekeniizeichnet by the Inevitable connection of the feeler via an intermediate link with a likewise stationary to the measuring wheel axle mounted uiid such shaped inhibitor that this when idling with a transverse segment in the orbit of the driver rollers of the transmission wedge protrudes and l> when the material to be measured arrives at the measuring point from this orbit is swung out. 3. Surface measuring machine according to claim 2, characterized in that the inhibiting piece has a transverse flap in addition to or instead of the transverse segment, which at Idle covers the lowest position of the passing notches of the inner circumference of the measuring wheel and swung out of the cover position when the material to be measured arrives at the measuring point will. 4. Area measuring machine according to claim 1 to 3, characterized in that that the inhibitor and the two-armed feeler lever are stored in a common holder who take part in the vertical movements of the measuring wheel axle, but against rotating with it is secured with the measuring wheel. 5. Area measuring machine according to claim 2 to 4, characterized by such a choice of shape, dead weight and storage conditions as well as the angular positions to each other for the parts of the measuring point to Inhibitor reaching kinematic chain that this occurs when the measuring wheel is idling their upper end self-locking to the pressure of the driver rollers on the inhibitor resists, but at the lower end easily into the release position due to the incoming material to be measured can be transferred.