DE293583C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 80 «. GROUP

in GÖRLITZ.

Patented in the German Empire on March 9, 1915.

The invention relates to automatic solid stone cutters, in which the cutting bow is driven by a measuring drum, its rotation according to the Line speed is maintained by an endless conveyor belt carried along by the line. The known automatic solid stone cutter of this type have the disadvantage that, especially with larger ones

ίο line speeds, the entrainment of the the measuring roller and through this the endless conveyor belt driving the cutting bracket becomes unsafe through the strand, so that not only different cutting thicknesses, but also oblique cuts are created. Somewhat security in the transmission of the strand movement on the cutting wire can only be achieved with a very large length of contact of the strand on the conveyor belt, but what a

ao large overall length of the press, which is inconvenient is and the system is expensive, apart from the fact that when the press is turned off, the the entire length of the strand from the mouthpiece to the cutting device remains uncut and consequently means loss.

According to the invention, complete stone cutters of this type are now obtained Reliability of the transfer of the strand movement to the drive of the cutter bar in that the driving force of the measuring drum rotated according to the strand speed is supported by a separately driven friction gear, the driven The wheel with adjustable pressure is pressed against the drive wheel of the measuring drum in such a way that the frictional pressure secures the entrainment, when the strand on the conveyor belt has almost reached the cutting device. the As a result, the driving force of the measuring drum and the friction gear complement each other continuously to the driving force necessary for the cutting device. Strand and Cutting speed, always stay in the same ratio to each other. Consequently is also the feed length of the strand during the cut at all strand speeds same. This results in a simple shape of the conductive path for the cutting wire, the basic shape of which is perpendicular to the tip is a standing isosceles triangle.

The drawing shows, for example, an embodiment of the subject matter of the invention in

Fig. Ι and la in a schematic longitudinal section, and in

Fig. 2 is shown in a schematic cross section at the cutting point.

After leaving the press mouthpiece M, the clay strand enters a correspondingly wide, endless conveyor belt a, which is guided in front of the mouthpiece M around the easily rotatable measuring drum b and in front of the cutting device around a likewise easily rotatable guide roller c . A tension roller d, which is under the influence of a weight lever, gives the conveyor belt

constant and sufficient tension. The upper strand of the conveyor belt carrying the strand is supported by, if necessary, spring-loaded or vertically adjustable support rollers e , in order to ensure a good support and thus a safe entrainment of the conveyor belt by the clay strand everywhere along the entire length of the strand. The circumference of the measuring drum is on. is known a multiple of the stone thickness to be cut, in the embodiments of the subject invention shown in the drawing it is z. B. nine times the stone thickness. The transmission of the rotation of the measuring roller to the cutting yoke drive takes place, for example, by chain gears in that a chain wheel firmly connected to the measuring roller / by means of a chain g drives a chain wheel h on a countershaft i in a ratio of 1: 3. On the latter sits a second chain wheel k, which in turn drives a chain wheel m on the drive shaft η of the cutting device by means of chain I in a ratio of ι: 3. A crank 0 sits on each end of the shaft η and engages with a handlebar p on the upper end of a guide rod q. The guide rods q are, for example, of round cross-section and are guided in fixed guide tubes r. At the top, the guide rods q, swingable in the direction of the strand movement, carry the cutting bow s with the cutting wire E. The legs of the cutting bow engage in a known manner with lateral pins s' . ³ ^ in guide curve grooves t, which coincide on both sides of the strand and are firmly attached. These guide curves have the shape of an isosceles triangle, which is perpendicular with the tip pointing downwards. The cutting bracket ί is slightly inclined to the guide curve, so that its own weight pushes it towards the branch of the guide curve facing the press. In this endeavor the cutting bow can still be supported by a weight load s " . There is now a further chain wheel u_ on the drive shaft η. which by means of chain u ' from a sprocket of the same size u " on a shaft

is driven, which carries a friction disk ν.

This is by means of a weight lever w (Fig. 2), whose load w 'can be regulated, constantly pressed against a friction roller ν' , which on. a special drive receiving shaft χ sits. The frictional pressure of the friction disc ν on the friction roller ν ' is measured in such a way that it is not enough to set the cutting device in motion, but requires the support of the clay strand, which takes the conveyor belt α with it when it moves!;. The frictional pressure exerted by the friction disc ν on the friction roller ν 'is only allowed to take effect when the clay strand has come close to the end of the conveyor belt α . The friction of the clay strand on the conveyor belt and the frictional pressure of the friction disc on the friction roller then complement each other in such a way that the cutting device is continuously and reliably driven according to the strand speed.

During its working movement, the cutter bar is first guided through the branch of the guide curve located after the press in order to, when it reaches the lower end, cross the branch of the guide curve t facing the delivery point and finally, when it reaches the top, by its own weight, possibly supported by the load s "to return to the other branch of the leading curve.

Claims (1)

80 patent claim: Automatic solid stone cutter, in which the cutting wire is driven by a measuring drum which is rotated according to the strand speed by an endless conveyor belt carried along by the strand, characterized in that the driving force of the measuring drum (b) rotated according to the strand speed is provided by a separately driven friction gear ( ν, ν ') is supported, whose driven wheel (ν) is pressed against the drive wheel (V) with adjustable pressure so that the frictional pressure ensures that the wheel (v) is driven when the strand " (S) is on the conveyor belt (α) has almost reached the cutter. 1 sheet of drawings.