DEP0000603BA - Area measuring machine for measuring leather, hides and the like. - Google Patents

Description

Area measuring machine for measuring leather, hides and the like.

Area measuring machines with non-positively driven grooved measuring rollers and measuring wheels that rest on them, the movement of the material to be measured through its notched inner circumference onto a transmission disk with driver rollers forward, the revolutions of which actuate a Sumiai erungsvor direction in the usual way, are known. The invention concerns an improvement of the elements used here to bring about BEZW. Prevention of the coupling between the measuring wheel and transmission disk. In the known measuring machines, a large one distributed over the circumference of the flank of the measuring wheel is used for this purpose A number of small levers are used which, when idling, dip into the measuring roller groove with one end and the other "The end of the cover is the closest notch on the inner circumference of the measuring wheel." The cover is such that the carrier rollers of the Do not immerse the transmission disk in the notches and therefore cannot be taken through them.

The large number of small levers rotating with the measuring wheel leads to a comparatively low level in these known machines high manufacturing costs, which will now be avoided by the invention ^ t.Uach it prevents the coupling between the Measuring wheel and the transmission disk when idling by a single one next to each of the measuring wheels, fixed to the measuring wheel axis mounted two-armed feeler lever, the free arm of which is immersed in a feed when the material to be measured passes through it.

is pressed, whereby his other arm brings a non-rotating obstacle disturbing the coupling between the measuring wheel and the transmission disc in an ineffective position. In this way, the known machines /

^u A larger number of levers belonging to each measuring wheel

replaced by a single one that does not revolve with the measuring wheel, but is mounted in a fixed position to the measuring wheel axis and only the, through the material to be measured has to take part in the slight vertical movements of its measuring wheel.

In a preferred embodiment of the invention, said sensing lever is via an intermediate member with a, likewise Fixed to the measuring wheel axle and shaped in such a way that the wheel is idling is held as an obstacle in the orbit of the driver rollers of the transmission disk and when the material to be measured arrives the measuring parts is pivoted out of this orbit ,, Further parts of the invention can be found in the drawing, which shows an exemplary embodiment represents and in which show:

Pig. " 1 shows the side view and FIG. 2 shows the front view of a measuring wheel unit with the associated inventive parts,

3 shows an enlarged detail of the side view when the measuring wheel is idling,

Fig. 4 the same as Fig. 5, but in the position during the measuring process

In Fig.l it can be seen that the measuring wheel 1 is rotatably arranged in a bearing and vertically displaceable. Its inner circumference is provided with notches 4 at the same and regular intervals as the driver rollers 2 of the transmission disk 3, in which the rollers 2 fit. A two-armed feeler lever 5 dips with its free lower arm when the measuring wheel is idling into the hat 6 of the measuring roller 7 and is rotatably mounted in a holder 9 at point 8. This holder is provided with a slide 10 firmly connected, in which a, uch the measuring wheel 1 is rotatably mounted;

the bearings of .Fühlhebel 5 and measuring wheel 1 thus make the movements of the holder 9 with. These are on low vertical Movements (according to the placement of the Iffess wheel "with idling and with the measuring gate with different material thicknesses) in all Hesswheels common machine frame limited.

The upper arm of the feeler lever 5 is articulated to the inhibitor 12 by an intermediate member; a transverse segment 13 of the latter protrudes into the path of the driver rollers of the transmission disk when the measuring wheel is idling. The inhibitor is also rotatably mounted in the holder 9 at point 14, so that the axes of the measuring wheel, the feeler lever and the inhibitor must always remain in the same position with respect to one another. The feeler lever 5, the intermediate link 11 and the inhibitor 12 together form a kinematic chain, the links of which are selected with regard to the shape, the dead weight and bearing conditions as well as the angular positions relative to one another so that the kinematic chain is self-locking at its upper end when the measuring wheel is idling Pressure of the driver rollers against the Q, uersegment withstands, but βχη. the lower end can easily be transferred into the release position by the incoming material to be measured _e

When the measuring wheel is idling, the parts according to the invention are in the position shown in FIG. As soon as the material to be measured starts

the measuring part arrives, the feeler lever 5 is rotated counterclockwise by the material to be measured. This becomes the intermediate link pressed to the left and issued the inhibitor 12 a pivot in the sense of the clock hand, which the Q, uersegment 13 from the path of the driver rollers 2 (where it protruded so far) swings out (Fig, 4). The blocking piece 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 the lower part of the latter can be a solcte on the inhibitor 12

Embodiment give that a flat transverse tab 15 of it when idling precisely at the lowest point of the measuring wheel (where only the clutch between the measuring wheel and a driver roller) covers the internal notches of the measuring wheel passing by so that no carrier roller can sink into it. If at the beginning of the measuring process the locking piece is swiveled counter-clockwise so swing / this transverse flap to the left that it doesn’t just cut the notches when passing the lowest point of the inner circumference of the measuring wheel releases, but also during the approach of the transmission disk brought about by the penetration of a driver roller into a notch on the circumference of the measuring wheel did not form an obstacle in the orbit of the driver rollers

As soon as the passage of the material to be measured is interrupted at the measuring parts, the "inherent weight ratios of the kinematic chain feeler lever-intermediate link-hemisphere" cause the lower arm of the feeler lever to swing back into the groove of the measuring roller and the jamming piece rotates counterclockwise, which on the one hand makes the transverse segment 13 again gets into the path of the driver rollers and the next arriving driver roller is on a ramp-like Auflaufbrüst of the cross segment to a standstill, and on the other side of the transverse tabs 15 swings back to the right into the position which it occupies in Fig _s 3, so that it again, the lowest position of the notches in the Inner circumference of the measuring wheel covered.

As a simplification, either the upper part with the transverse segment 15 or the lower part can be omitted from the inhibitor the transverse tab 15, but it must be taken into account that the self-locking of the kinematic chain in idle against the Pressure from driving rollers on the Äemmstück and also the easy mobility of the feeler lever when the Material to be measured must be preserved on the measuring parts.

Claims (5)

Patent entitlements. 1) Area measuring machine for measuring leather, hides and the like with a force-fit driven grooved measuring roller and on this on stationary, revolving measuring wheels, which "when the material to be measured passes through its notched inner circumference on a, Transfer disc having driver rollers, characterized in that the prevention of the idling Coupling between the measuring wheel and the transmission disk by a single one, which is mounted next to each measuring wheel and is fixed to the measuring wheel axis two-armed feeler lever, the free arm of which dips into a cap of the measuring roller when the material to be measured passes through this is pushed up, whereby his other arm interferes with the coupling between the measuring wheel and the transmission disk, does not put a circumferential obstacle in an ineffective position, 2) Area measuring machine according to claim 1, characterized by the inevitable connection of the sensing lever via an intermediate member with one, also fixedly mounted to the measuring wheel axis and shaped in such a way that this with an idle Transverse segment protrudes into the orbit of the driver rollers of the transmission disk and when the material to be measured arrives the measuring part is swiveled out of this orbit " 3) I * surface measuring machine according to claim 2, characterized in that the blocking piece has a transverse flap in addition to or instead of the transverse segment which, when idling, covers the lowest position of the notches on the inner circumference of the measuring wheel and swings out of the covering position when the material to be measured arrives at the measuring parts will _e 4) area measuring machine according to claim 1 to 3, characterized in that the inhibiting piece and the two-armed feeler lever in one common holder are stored, which takes part in the vertical movement of the measuring wheel axis, but against rotating with the measuring wheel is secured. 5) surface measuring machine according to claim 2 to 4, characterized by such a choice of the shape, the dead weight and storage conditions as well as the angular positions to one another for the parts of the range from the measuring point to the inhibitor kinematic chain so that when the measuring wheel is idling, it self-locks against the pressure of the driver rollers at its upper end resists on the inhibitor, but at the lower end is easily transferred into the release position by the incoming material to be measured can be.