DE1584496A1 - Automatic cutting device, especially for ceramic bricks - Google Patents

Description

,.) automatic 1'iLscl-inei (ievor-riciltunr ", in particular for Kerai fornilings !) ie 1 ', - rfin (juni- refers sicii to a self- Uitige cutting device for cutting through a continuously developing plastic cord .in 1) estipiite countries for the purpose of ijlciung in particular ceramic scher For, .ilirii.-e, mlit at least one across the strand .) o-way cutting wire, which during the cut the "lür, scliuLL, ewc #, urii- #, ües Stra% join in and with his at (len indene at each eineiig cohesive leadership cjl - ", attached to, with both guiding organs being the same L # inge own and zuiniii (., E.st iri-, tiereich of the through- to be separated Strange.a on one or the other side of the same and at the same speed, parallel to each other.

In a known device of this type with cutting wires stretched between endless chains running over rollers, these are on the one hand moved from top to bottom for the purpose of making the cut through the strand and on the other hand are returned upwards at a point offset in the running direction of the strand. It is necessary to allow the cutting wires to pass upwards at a gap between neighboring bricks that have just been cut off. To produce the gap, a device increasing the distance between successive briquettes must be provided for pulling the briquettes apart, above all for this reason the known device does not have the desired simplicity and freedom from interference, To avoid these disadvantages, according to the invention, a single of the two guide organs comprises the strand and the two guide organs run at least in the area of the strand to be severed at an angle to the same that the cutting wire moves at a suitable speed of the guide organs at the same rate of advance ues btränges ül.ereinstiiii: "end movement component has" and the Führuni-sorj-ane (2, 3) from an Ilotor direct, riiit _speed ab'lien-it; en electric one of cier, controlled speed continuously. By the ei,% - j; iiiii'te peculiarity of the sound, that ## of a Cier two guiding ori.cine cen # .; ii, an, -, embraces, clas others however braid, we, (. reached, caf. üer ichneiddralit iidch ijui, ctilühruni- a cut does not curch (iie series of cut Fori.tlixil, eii riaui above for "ickg.elülir, t be n.ul -'--, but since- lich uer, (, ei # .eihe vcr, just cut for uie i., urchichrunt one rieuen Lchnitte- z-ui, '. ick-Eeijrac-III.% 7crden can. Lu is sci: #it no # 'ci, riclilun, to make a, gr, #' ji, eren Gap between .uleitian ", erfcli", a new Fcr #, i.lingert required. In doing so, we will ... je: - I ') tran, - unü (jic 1 "iu.4- creaches, cici-. ill e. 'Itz # J- cdent for -ei, zutriel- (I.zu, Lci - «(i. ein ziii. -ti, cirtt # svtictiron runs # .not 1.ann (Ac- -'L (---, ieiu, -, Ües C-Lne vcm criminal unk, et rieberie ## let it be i., ic c inen z for example 1: n eii.es, cz #. * Li eil -'igndl in ; #e # :, elkreis,; .- Lt a: .. voi .. Motor-driven actual value transmitter is compared.

This has the advantage that the strand only has the measuring roller needs to drive, while no energy from the cutting device itself Strand must be applied. As far as one already has a cutting device comparable Art has equipped it with its own electric motor, it only takes care of a 'suitable entrainment of the cutting device with the strand, namely in Dependence on the signal from a generator driven by a measuring roller. To the Execution of the actual cutting movement of the cutting wire across the strand a special drive must be provided. The arrangement according to the invention on the other hand only needs a single one, driven in dependence on the Ileß roller Electric motor, which in a suitable way, the continuous movement of the cutting wire caused across the strand.

1 shows, viewed in the longitudinal direction of the strand, the two guide organs designed as circular rings for the cutting wires.

FIG. 2 shows, in a top view, the cutting device with the strand and a row of already cut moldings, the control of the electric motor driving the cutting device also being indicated schematically. Fig. 3 shows the cutting device, again with the strand and a number of already produced moldings , but in side view.

As can be seen from FIG. 1 , two guide elements 2, 3 designed as circular rings are used for flaltering the cutting wires 1 of the device. While the circular ring 2 encompasses the strand 4, this is not the case with the circular ring 3.

From Fig. 2 and 3 it can be seen that the two circular rings are mounted next to one another, running in planes parallel to one another. An electric motor is used for the simultaneous drive of the two circular rings 2, 3 of the same size.

which sets the two circular rings in motion via pinion 6. The storage of the same is not shown in detail. They perform a simple rotation, in particular from Fig. 3 it can be seen that the two circular rings 2, 3 run obliquely to the strand, with respect to the strand in the horizontal direction viewed from the side device in order to match the form to be cut ensure a vertical cut. In a manner still to be described, the speed of the electric motor 5 and thus the speed of rotation of the two circular rings 2, 3 is selected or adapted to the strand speed in such a way that the Cutting wires 1 each have a genaiNg gektea same, long Cut / perform. In other words, will the speed of the sheet metal motor is selected as a function of the strand advance feed speed in such a way that the cutting wires have a movement W component that corresponds to the strand advance speed when a cut is carried out.

As can be seen particularly clearly in FIG. 2, holding axles 7 are rotatably attached to the circle rings 2, 3 at the appropriate points on the circumference, which protrude in the direction of the other circular ring and to which one or the other band of the cutting wire 1 is attached. In this way, there is a kind of parallel for each cutting wire. Formed crank drive and the cutting wires perform a pure displacement movement while avoiding rotation.

Instead of Kreiarixigen 2,3 can be used in a known manner in itself closed chains of the same length, the two chains ge at least in the area of the strand on a parallel path and at the same speed on one or the other side of the strand. are leading. Although this modified design generally requires a number of pulleys for the chains, it can, however, be used to produce a device with a smaller extension in terms of height and width. In this modification, too, it is easiest to let the two chains or ropes run in planes parallel to one another, which according to FIG. 3 are inclined about a horizontal plane perpendicular to the strand. This applies in any case if the cutting wires have to move from top to bottom during the actual cut. So that the electric motor 5 runs synchronously with the strand 4 in the required manner, a measuring roller 8 is provided which is carried along by the strand by its own weight. The measuring roller in turn sets a setpoint generator 9, for example in the form of a generator, in motion. This delivers a signal corresponding to the speed of the strand 4 to the control circuit 119 via line 10 and, in a similar manner, an actual value transmitter 12 coupled to the axis of the electric motor 5 forwards a signal corresponding to the speed of the circular rings 2, 3 to the control circuit 11. In the control circuit, the voltage coming from the corresponding line 13 is compared with that of the line 10 and the control circuit 11 feeds (generally using an amplifier) just enough energy to the electric motor 5 via line 14 so that it runs synchronously with the feed speed of the strand 4. A tachometer 16 feeds a further voltage to your control circuit 11 , which prevents the engine speed from fluctuating around the setpoint value. The Is * -rtgeber 12 and the tachometer 15 can be replaced by a single transducer in position 15 with special consideration of control-technical subtleties.

The cutting thickness is achieved in a known manner by exchanging the gear 16 , the number of teeth of the gear being equal to the cutting length in nim. This mechanical adjustment device can also be replaced electrically, for example with a potentiometer, in which case the entire control range is influenced in such a way that between drives. motor 5 and measuring roller 8 a variable slip speed is available, so that the cutting thickness can be adjusted without mechanical aids.

Claims (1)

Claims Automatic cutting device for cutting a continuously the advancing plastic extrudate into discrete lengths to form in particular of ceramic moldings, having at least one transversely movable for continuously cutting wire which join in the feed movement of the strand during the cutting and with its two ends to a self-contained guide member is attached, both guide members have the same length and at least in the area of the strand to be severed on the one or the other side of the same and at the same speed parallel side by side, characterized in that a single (2) of the two guide members (2,3) the strand (4) and the two guide organs at least in the area of the strand to be cut (4) run obliquely to the same (Fig. 3), and the cutting wire (1) at a suitable running speed of the guide organs (2, 3) one with the feed speed of the strand s (4) has corresponding movement components and the guide elements (2, 3) are driven continuously by a motor directly at an electrically controlled speed that is dependent on the line speed. 2. Cutting device according to claim 19, characterized in that the two guide members are formed by circular rings of equal size (2,3) which run next to one another in planes parallel to one another and are driven at the same speed, with each circular ring (2,3) At mutually corresponding circumferential points, rotatable holding shafts (7) protrude towards the other circular ring, to which one or the other end of the cutting wire (1) is attached. 3. Cutting device according to claim 1 and 2, characterized for characterized in that / the control of the electric motor (5) a measuring roller (8 ) driven by the strand (4) is provided, which drives a setpoint generator (9), for example in the form of a generator, whose signal is in a control loop (11) with an actual value generator (12) driven by the motor (5) 4. Cutting device according to Claim 1 and 2, characterized in that the drive of the guide elements is also provided by a motor running at constant speed with the interposition of one of the strand speed controlled friction drive & is driven. 5. Cutting device according to claim 1, 2 and 3, characterized in that with the help of an electrical adjusting device, e.g. ise a potentio-Ineters, the entire control loop is influenced in such a way that a variable slip speed is present between the drive motor 5 and measuring roller 8, by the without mechanical aids the cutting thickness can be adjusted.