DE221909C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 221909 - CLASS 42 c. GROUP

CARL WICKLEIN in TREBITSCH, Moravia.

The subject of the present invention is a leather surface measuring machine with through the material to be measured set in motion measuring wheels and is mainly an improvement of the known Leather measuring machines with gear segment transmission, which consists in that the machine is primarily insensitive to the different leather thicknesses that occur, i. H. that the measuring wheels of the machine of the different-strengths (thickness), which the to measuring leather has not to be influenced, and secondly, this is the case with today's Measuring machines occurring dead gear in the tooth segments completely gone, so that with With the present construction, an accurate and safe measurement of the uneven leather surfaces is guaranteed.

In the accompanying drawing, FIG. 1 shows the individual measuring wheels in a side view while Fig. 2 shows the measuring wheels in section; in Fig. 3 is the arrangement of the Measuring wheels in connection with the measuring levers of the known area measuring machine schematically shown.

In Fig. Ι α is the measuring roller, which is connected by a belt to a transmission 0. and remains in constant rotation during operation. b are the measuring wheels, which are movably mounted in the shafts g by the lever d. These measuring wheels b are adjusted by adjusting screws h so that they are a few tenths of a millimeter away from roller a ; so do not completely rest so that they cannot turn, s are the pawls, which are movably mounted around the shaft η. These pawls are connected for the purpose of engaging or releasing the lever i , which is used to trigger the pawls by hand. The pawls s are further arranged so that they allow the measuring wheels b free space and only inhibit their return, which is caused by the springs e provided on the measuring wheels. The shafts of the measuring roller α, the ^v storage lever d and the pawls s are firmly connected to the machine stands. In Fig. 2, d is the bearing lever of the measuring wheels b ; c is the bolt on which these wheels b are rotatably mounted. /, k is a differential roller which is firmly connected to the measuring wheels b. A clock spring e is built into each measuring wheel b in such a way that each measuring wheel b always returns to its original position when it is triggered by the pawls s. The differential rollers I, k are connected to the loose roller f by a steel wire u or the like around the guide rollers q located at the pivot point g of the bearing lever d of the measuring wheels δ. The guide rollers q, which are arranged in the pivot point g of the bearing lever d , have the purpose that the up and down movement of the measuring wheels b caused by the thickness of the leather cannot act on the loose rollers f , which is due to the corresponding bearing of the measuring wheels in connection with the transfer roller of the steel wire, which is moved as close as possible to the same storage point, is reached by the differential rollers. Two loose rollers p each, one from the front row of measuring wheels b and one from the rear row of measuring wheels b, are surrounded by a steel wire

the role r connected to each other (Fig. ι).

At the measuring wheels b teeth are milled at w (Fig. 2), in which the locking hook s engages.

The measuring wheels b are arranged in two rows according to FIG. 3, namely offset in such a way that the measuring wheels b of the rear row always fill the gap between the measuring wheels b of the front row

. Row cover. Depending on the width of the machine, a certain number of such wheels b is installed, e.g. B. 1810 mm width of the machine would require the .Meßräder in two rows of 48 wheels, ie twice, 48 = 96 wheels. In Fig. 3, the measuring wheels ι, 3, 5, 7, etc. in the first row, while in the second row, the wheels 2, 4, 6, 8, etc. are arranged offset. The measuring wheels b are through a steel wire u with the loose rollers p connected via guide rollers q . The loose roller f of the measuring wheel 1 is connected by a steel wire to the loose roller p of the measuring wheel 2 around the loose roller r . There are therefore always two measuring wheels b on the loose roller r , namely a front 1 and a rear 2. The loose rollers r are then with the rollers of the transfer lever 0 in Fig. 3 and this again by levers with a corresponding pointer device in constant Link. If the leather to be measured is now inserted between the measuring roller α and the measuring wheels b, the leather becomes the rollers b accordingly. the thickness of the leather. The measuring wheels b will exert pressure on the leather as a result of their own weight and thereby press the same onto the rotating roller α , so that the leather is drawn in and at the same time the measuring wheels b are brought into rotating motion in the direction of the arrows (Fig. 1). But only those wheels will move between which and the roller α the leather comes to rest; all other wheels b remain in the rest position. Since the measuring wheels b are firmly connected to the differential roller /, k, this also starts moving. On the differential pulley I, k , one end of a steel wire u is fastened to the larger pulley k , while the other end of the same is fastened to the smaller pulley I. By rotating the measuring wheels in the direction of the arrows in FIG. 1, one end is rolled up onto k , while the other end is rolled onto the smaller roller /. The wire u now transmits the rotating movement via the guide rollers q to the loose roller p. Due to the differential action of the rollers I, k , one end is rolled up more than it has been unrolled; as a result, the loose roller p must not only make a rotating movement about the axis, but also a downward movement. Depending on whether only one measuring wheel b or both measuring wheels belonging together are moving, the loose roller r will also make a larger or smaller movement downwards accordingly. The downward movement of the loose roller r also moves those rollers of the levers 0 (Fig. 3), these themselves, and thereby the movement is transmitted to a pointer, which then shows the exact area measure regardless of the unequal thickness. As soon as the leather has now passed through the machine in the manner described above, the rollers b will lower themselves into the starting position relative to the measuring roller, but without turning back. If the area measurement is now read off, the lever m is moved accordingly by hand, thereby triggering the pawl s. The measuring wheels b are now moved into the original position by the built-in clock spring e , which is limited by the approaches at t (FIG. 1). The levers and the pointer return to the initial or zero position. The machine is now ready for the next leather to be measured.

Claims (2)

Patent Claims: 1. Leather surface measuring machine with measuring wheels set in motion by the material to be measured, characterized in that the measuring wheels b are firmly connected to a differential roller /, k , from which a steel wire u attached to the same is located on the pivot points g of the bearing lever d of the measuring wheels b Guide rollers q guided, is in constant contact with a loose roller p , so that the rotating movement of the measuring wheels b on the loose rollers p is converted into a linear movement as a result of the differential action. 2. Embodiment of the leather area measuring machine according to claim 1, characterized in that that the measuring wheels of the second row always cover the spaces between those of the first row in front. For this purpose ι sheet of drawings.