EP1764201A2 - Apparatus for cutting of an extruded strand of plastically deformable material, preferably of clay - Google Patents

Abstract

A crosswise drive has a toggle linkage with a toggle link (12) connected at one end to a holder (1) via a swivel joint (17) pivotable about an axis (17a), and at the other end to a pivoted lever, so as to be pivotable about another axis (14a). The other end of the pivoted lever is mounted on a pivot bearing (15). The two pivot axes (17a,14a) and the bearing axis (15a) extend parallel to the longitudinal direction of an opening (3a). The holder can be displaced with respect to the toggle linkage in a longitudinal guide extending in the opening.

Description

The invention relates to a device for cutting a strand according to the preamble of claim 1, 2 or 9. Such a device is used in particular in the manufacture of moldings made of clay or the like for the construction industry.

In a device of this type special movement conditions are to be met in order to move a transverse to the conveying direction cutting wire during a conveying speed of the advanced strand corresponding longitudinal movement transversely from one side of the conveyor to the other side. This makes it possible to cut the strand during its promotion. In this case, the cutting wire is held at its two ends to a holder which is moved by a longitudinal drive and a transverse drive accordingly.

It is already known to move on both sides of the passage for the strand a holder respectively for the associated end of a cutting wire in a horizontal longitudinal guide and in a vertical transverse guide by a longitudinal drive and a transverse drive so that the cutting wire at one of the conveying speed of the Stranges corresponding longitudinal movement is moved from one side of the passage to the other side and back again. Before this back-transverse movement, it is necessary to spread the previously cut strand section from the strand to obtain a joint in which the cutting wire can be harmlessly moved back to the starting position.

In this prior art device thus not only a holder but also a toggle lever is pivotally mounted on each side of the passage, each with a pivot rod which is connected at its one end by a pivot joint with the associated holder and at its other end with one end a pivot lever of the toggle lever is pivotally connected, which is pivotally mounted at its other end in a stationary pivot bearing.

The pivoting plane of this toggle drive extends vertically and parallel to the longitudinal direction of the passage. With such a construction, the holders located on both sides and holding the ends of the cutting wire are arcuately raised during their common forward and backward movement, which is due to the arcuate pivotal movement of the linkage rod. This not only results in a transverse movement length for the holder and the cutting wire, which is greater than required with respect to the associated transverse dimension of the strand, but it also results in a resulting larger transverse dimension or construction height for the device, and it is also the Cutting performance of the device impaired because the transverse portion of the sheet movement is unnecessary.

Another disadvantage of the known device is that the effectiveness of existing on both sides of the passage holder and transverse drives is limited to a the points of attack between the hinge rods and the holders intersecting vertical transverse plane. As a result, although a short construction with respect to the conveying direction for the transverse drive can be achieved, but the leadership of the holder is difficult with respect to its transverse movement, and the holder tends in the transverse guide to the tilted. This in turn leads to malfunction and a large load on the guide surfaces and a large wear, which reduces the life. Although it would be conceivable to improve the guiding situation by making the transverse guide relatively long, this leads to a considerable enlargement of the construction in the transverse direction of the device.

The invention is based on the object, a device specified in the preamble of claim 1 way in such a way that the transverse movement length of the cutting wire is reduced and a length required for the cutting of the strand substantially corresponds.

This object is solved by the features of claim 1. Advantageous developments of the invention are described in the appended subclaims. In the device according to claim 1, the pivot axes of the toggle lever extend parallel to the longitudinal direction of the passage, wherein the holder is displaceable with respect to the toggle lever in a longitudinal guide extending along the passage. As a result, the holder is at his Longitudinal movement of a bow movement of the joint rod independently. This is due to the fact that on the one hand the longitudinal axes of the toggle lever extend parallel to the longitudinal direction of the passage and on the other hand, the holder with respect to the toggle lever is longitudinally displaceable.

It is therefore in the mechanical connection between the holder and the pivot lever, the horizontally effective longitudinal guide available, which allows the longitudinal movement of the holder without a longitudinal movement of the pivot lever.

In the embodiment according to the invention, the holder with the cutting wire during its longitudinal movement no bow movement. The transverse movement of the holder can therefore be limited to a travel length which is limited to the associated cross-sectional dimension of the strand and a required insertion dimension in the strand and a required execution measure from the strand. As a result, the transverse movement length of the holder can thus be limited to a required extent, wherein the construction of the device can be made correspondingly smaller, as is the case in the prior art. The lower transverse movement length also allows a lower cutting speed while maintaining or increasing the cutting power.

Another disadvantage of the known device is that a holder for the cutting wire with an associated longitudinal and transverse drive is provided on both sides of the passage. As a result, the construction is vielgliedrig and relatively large and expensive.

In the functional operation of the device for cutting a strand of plastically deformable material subject to or the cutting wires of a constant stress, and they must be controlled at certain intervals, for. B. with regard to wear or damage and possibly stretched or replaced or even need to be cleaned.

The invention is therefore based on the further object of facilitating a check or work on the one or more cutting wires or their attachment devices on the holder.

This object is solved by the features of independent claim 2. Advantageous developments of the invention are described in the appended subclaims.

In the apparatus according to the independent claim 2, an adjusting device is provided, with which the one or more cutting wires or their fastening devices on the holder on one side, z. B. to the outside, or on the side facing away from the transverse drive beyond the normal stroke end position and back to the normal Hubendstellung back is adjustable or are. This makes it possible to move the cutting wires or their fastening devices into an over the normal stroke end position, namely an outwardly offset stroke position, in which the accessibility is improved because a greater distance from the passage or the strand therein the device is present. This not only facilitates the control of the at least one cutting wire or the fastening device or devices but also cleaning measures on the one or more cutting wires or the associated fastening devices or even replacing the at least one cutting wire. After these measures can be adjusted by a return adjustment of the adjustment, the normal Hubendstellung again in which the device works with the original or usual Querhublänge. Consequently, in the embodiment according to the invention control measures or the elimination of disturbances in the region of at least one cutting wire, for. B. wire wear, lack of wire tension or wire break, or in the field of fastening device for at least one cutting wire handling friendly and easy and fast perform.

In particular, in the case of a holder which has a plurality of cutting wires arranged one behind the other in the longitudinal direction of the passage, it is advantageous to integrate the adjusting device into the transverse drive so that only one adjusting device is sufficient to bring all the existing cutting wires or the associated fastening devices into a position of improved accessibility to move.

It is particularly well suited an adjusting device in the form of a telescopic device with which the effective length of a push or pull element or a lever of the transverse drive is adjustable.

For easy adjustment between the normal Hubendstellung and the normal stroke position, a drive motor is preferably provided, the z. B. may be formed by one or two juxtaposed cylinder piston units, the z. B. are pneumatically or hydraulically actuated.

The invention is based on the further object of simplifying the device. This not only applies to the holder but also to the longitudinal and transverse drive.

This object is solved by the features of claim 9. Advantageous developments of the invention are described in the appended subclaims.

In the device according to the invention according to claim 9, the holder - as seen in the longitudinal direction of the passage - a U-shaped form having a base portion and two protruding from the ends leg portions, wherein the cutting wire extends from the one end portion to the other end portion of the leg portions and the ends of the cutting wire are held at the end portions, and wherein the distances between the cutting wire and the base portion and between the leg portions are greater than the associated maximum cross-sectional dimensions of a maximum strand for which the device is arranged. In this device according to the invention, only one holder for at least one cutting wire is required, wherein the holder in a starting position with respect to the passage transversely offset, in particular offset laterally, and is moved so far transversely for a cutting that the at the end portions of the leg portions of Halters held cutting wire emerges from the strand on the other side. In this end position of the outward-transverse movement, in which the holder surrounds the strand in a U-shaped manner, the holder is not on the opposite side of the strand but in the region of the passage. From this end position, the holder is moved back to perform its rear-transverse movement.

This thus substantially unilateral arrangement of the holder also makes it possible to arrange the transverse drive and also the longitudinal drive on the side of the passage on which the holder is in its initial position. As a result, only one transverse drive and one longitudinal drive is required.

Both embodiments of the invention according to claim 1 and / or 3 are suitable both for monodirectional cutting always to one side and for bidirectional cutting alternately towards both sides.

The embodiments according to the invention are also particularly suitable for a holder which is elongate in the longitudinal direction of the passage and preferably comprises a plurality of cutting wires which are arranged in a distance extending in the longitudinal direction of the passage from each other. Preferably, an associated articulated rod of a toggle drive for the holder along the passage in the form of a rocker is elongated and connected either by an elongate pivot joint or two longitudinally directed a passage of the passage having pivot joints with the holder. As a result, not only the transverse and longitudinal drive for the holder is stabilized but also the holder itself, wherein the driving forces with respect to the cutting pressure occurring during cutting uniformly and according to several existing cutting wires evenly distributed in the holder can be initiated.

In addition, the leadership situation for the holder is improved, the risk of tilting in the leadership is significantly reduced. Also contributing to this stabilization is the formation of the articulated rod in the form of an elongate rocker, the dimension of which extends in the longitudinal direction of the passage preferably corresponds approximately to the longitudinal dimension of the holder.

Fig. 1

zeigt eine erfindungsgemäße Vorrichtung zum Schneiden eines Stranges aus plastisch verformbaren Material, insbesondere Ton, in Längsabschnitte, z. B. Ziegel, in der Rückansicht;

Fig. 2

zeigt die Vorrichtung in der Draufsicht;

Fig. 3

zeigt eine erfindungsgemäße Vorrichtung gemäß Fig. 1 in abgewandelter Ausgestaltung;

Fig. 4

zeigt eine Vorrichtung gemäß Fig. 3 in der Draufsicht;

Fig. 5

zeigt eine erfindungsgemäße Vorrichtung gemäß Fig. 1 oder 3 in weiter abgewandelter Ausgestaltung;

Fig. 6

zeigt die Vorrichtung gemäß Fig. 5 in der Draufsicht.

Hereinafter, advantageous embodiments of the invention will be explained in more detail with reference to exemplary embodiments and a drawing.

Fig. 1

shows an inventive device for cutting a strand of plastically deformable material, in particular clay, in longitudinal sections, for. Brick, in the rear view;

Fig. 2

shows the device in plan view;

Fig. 3

shows a device according to the invention according to FIG 1 in a modified embodiment.

Fig. 4

shows a device according to Figure 3 in plan view.

Fig. 5

shows a device according to the invention according to FIG. 1 or 3 in a further modified embodiment;

Fig. 6

shows the device of FIG. 5 in plan view.

The main components of the device shown in simplified form are a holder 1 for at least one cutting wire 1 a simplified illustrated as an intersection, which is attached end in a manner not shown. The holder 1 and the Cutting wire 1a are arranged offset transversely with respect to a only clarified by a longitudinal center axis 2 strand 3 and a passage 3a in the apparatus for the strand 3 that the holder 1 and the cutting wire 1a in the starting position shown in the drawing with respect Passage 3a are in a passage 3a releasing transversely offset position. In this case, the holder 1 and the cutting wire 1a below the passage 3a or above the passage 3a or with respect to the passage 3a laterally offset (Fig. 1) may be arranged.

A plurality of cutting wires 1a extending transversely to the longitudinal central axis 2 can be arranged on the holder 1, which have a distance a extending from one another along the longitudinal central axis 2. In this case, two or more cutting wires 1a, preferably three or four or even more cutting wires 1a, may be fastened to the holder 1, as shown by way of example in FIG. The length L1 of the holder 1 extending substantially parallel to the longitudinal center axis 2 is thus equal to or slightly greater than the product of the distance a or distances a extending approximately parallel to the longitudinal center axis 2 and the number reduced by 1 the cutting wires 1a. In this case, the length L1 of the holder 1 is greater than its transverse dimension b directed along the at least one cutting wire 1a, so that it is preferably a holder 1, which is elongated in the longitudinal direction of the passage 3a.

In the initial position shown in the drawing with solid lines, the holder 1 and the cutting wire 1a release the passage 3a for the strand 3 extending in the longitudinal direction of the longitudinal center axis 2, the free passage 3a being downward through a straight extending, not shown carrier, for. B. a conveyor or table is limited, on which the strand 3 through the passage 3 a in the conveying direction 4 shown by an arrow is movable.

To cut the strand 3, the cutting wire 1a with the holder 1 is moved by a transverse drive 5 transverse to the holder 1 with a drive motor 6 and at least one gear 7 arranged between it and the holder 1 on the opposite side of the passage 3a as shown in FIG Fig. 1 is indicated by dash-dotted lines. In this case, the holder 1 in a in Fig. 1 and 2 only by double arrows shown longitudinal guide 8 and a transverse guide 9 by a longitudinal drive not shown in FIGS. 1 and 2 and the transverse drive 5 is movable so that it at a longitudinal movement at the speed of Conveyor or strand 3 transversely moved at an optional cutting speed on the opposite side is (dash-dotted lines), wherein the strand 3 is cut transversely in this Hin-transverse movement, and wherein one or more strand sections or tiles in the number of existing cutting wires 1a are cut transversely. This cutting while advancing the strand 3 and the holder 1 at the same speed is referred to in the jargon as "continuous cutting".

To return to the home position, the holder 1 may be drivable so that it is moved back to the output side with a dead stroke, wherein the cutting wire 1 a is moved back in between the cut strand sections or the remaining strand 3 in sections cut by spreading the strand sections.

Alternatively, the holder 1 with respect to the return movement but also be controlled and moved so that the at least one cutting wire 1a in its rear-transverse movement also performs a cut, previously the holder 1 in the longitudinal guide 8 and by the in Fig. 1 and 2 Not shown longitudinal drive has been moved back as far along the strand 3, that this movement length corresponds to the length of the desired strand sections or. Also in the back-transverse movement without or with a cutting operation of the cutting wire 1a is moved with the holder 1 at the speed of the strand 3. The cutting in the outward-transverse movement and the back-transverse movement is referred to in the jargon with the term "bidirectional cutting". The above-described movements are known per se and therefore require no further description. The back-to-back movement, the longitudinal movement and the back-to-back movement preferably take place in successive cycles.

Hereinafter, the holder 1 according to FIGS. 1 and 2 will be described in more detail in connection with the transverse drive 5.

As shown in FIG. 1, the holder 1 is U-shaped, seen in the front or rear view, with a base portion 1b and two leg portions 1c extending from its ends to one side, which may extend parallel to one another. The inner length L2 of the leg portions 1c and their transversely to the passage 3a directed distance c from each other are greater than the associated maximum horizontal and vertical transverse dimensions d, e of the strand 3. The cutting wire 1a extends transversely to the leg portion pair 1c and is with its ends attached in the end regions by a fastening device, not shown. The distance f between the cutting wire 1a and the base portion 1b is measured equal to or larger than the associated transverse dimension d of the strand 3.

The transmission 7 has for transversely directed movement of the holder 1 a transversely to the longitudinal center axis 2 back and forth movable, at least - seen in the rear view and front view - rod-shaped drive element 11, for. B. a link rod 12, on or that is part of a gear 7 forming the lever drive 7a with a toggle lever, which is formed by at least one pivot lever 13 and the rod-shaped drive element 11, which at their ends facing each other by a pivot joint fourteenth are connected to a hinge axis 14a transversely to the longitudinal center axis 2 pivotally connected to each other. The pivot lever 13 is also pivotally mounted at its base end remote from the pivot joint 14 transverse to the longitudinal center axis 2 in a stationary pivot bearing 15 with a bearing axis 15a that is arranged on a bearing part 16 that directly or indirectly by a machine frame on supported existing soil and thus is stationary. The rod-shaped drive element 11 is connected at its end remote from the pivot lever 13 by a pivot joint 17 with a hinge axis 17 a transversely to the longitudinal center axis 2 pivotally connected to the holder 1.

As a pivot drive for the pivot lever 13, the transverse drive 5 may have a drivable by the drive motor 6 crank drive 7b, which engages pivotally directly or indirectly on the pivot lever 13. The crank mechanism 7b has a crank lever 19, which can be driven rotatably by the drive motor 6, and a crank rod 21, which is also pivotably connected to the crank lever 19 and the pivot lever 13 by pivot joints 18 with longitudinal gel axis 18a transverse to the longitudinal center axis 2. The pivoting lever 13 is preferably a double-armed lever with two lever arms 13a, 13b, of which the lever arm 13a is pivotally connected to the rod-shaped drive element 11 and the lever arm 13b with the connecting rod 21.

The holder 1 is in the, z. B. at least vertically or vertically and horizontally effective, longitudinal guide 8 with respect to the toggle longitudinally displaceable. In this case, at least the horizontally active part of the longitudinal guide 8 or an additional horizontally effective longitudinal guide 8a is present, preferably integrated into the second pivot joint 14. A longitudinal guide element 8b associated with the pivoting lever 13 can be formed by a guide rod 22, which extends parallel to the longitudinal central axis 2 and has a round cross-section, the length L3 of which is so great that the rod-shaped drive element 11 projects around it Longitudinal movement of the holder 1 is displaceable, which optionally corresponds to one or more of the distances a. To increase the stability of the longitudinal guide 8 and the pivot lever 13 are preferably two pivoting levers 13a, 13c (Fig. 2) are provided, which are interconnected by the guide rod 22 and whose distance g is dimensioned from each other so large that the rod-shaped drive member 11 with the holder 1 is slidable about the longitudinal movement length.

The pivot bearing 15 has a longitudinally extending bearing rod 23 which is pivotally mounted in two pivot bearings 15a, 15b, which have a longitudinally spaced from each other and z. B. are formed on two stationary support arms 24 of the existing support. If the bearing rod 23 is a pivotally mounted shaft, the pivot levers 13a, 13c are rigidly connected to the bearing rod 23, the lever arm 13b being rigidly connected to the base of one of the two lever arms 13a, 13c or rigidly connected to the bearing rod 23 can.

As can also be seen from Fig. 1, the toggle lever is arranged so that the rod-shaped drive element 11 extends substantially horizontally, wherein in the illustrated starting position and after the dash-dotted lines indicated Hin-transverse movement in each case an acute angle W1 with the pivot lever thirteenth includes, these angles W1 are preferably about the same size.

The holder 1 is thus drivable by a transverse drive 5, which is located on the side of the passage 3a, on which the holder 1 is arranged in its illustrated starting position. As a result, a space-saving construction is given because on the other side of the passage 3a no transverse drive 5 or gear 7 is present. Not only is the design simplified and made smaller, but also material is saved, but on this other side there is also space for further constructions.

In the case of the above-described toggle lever drive 7a, the pivoting lever 13 is thus arranged below the rod-shaped drive element 11. The crank mechanism 7b extends with its connecting rod 21 preferably approximately horizontally from the pivoting lever 13 inwards, so that the drive motor 6 is located below the passage 3a and / or under the holder 1. This also gives a space-saving construction, which makes good use of the space located under the passage 3a or holder 1.

In the above description, the holder 1 is described in a short construction with respect to the longitudinal direction of the device, in which, for. B. only one cutting wire 1a or two or three cutting wires 1a in a longitudinal distance a from each other on the holder 1 in a parallel to the longitudinal center axis 2 extending row R are arranged. In such an embodiment, the drive element 11 - not only in the front or rear view but also seen in plan view - be rod-shaped, d. H. z. B. be designed by a push and pull rod, which forms a joint rod.

In particular, if a plurality of cutting wires 1a are present, z. B. four or five cutting wires 1a, as the embodiment of FIG. 1 and also that of FIG. 3 also shows, it is advantageous to form the drive element 11 at least at its the holder 1 end facing in the longitudinal direction oblong, z. B. with a longitudinal dimension L4, which may correspond approximately to the length L1 of the holder 1. Already hereby receives the drive element 11, the design of a flat disk or rocker 11a. In this case, this disk shape can be formed by the drive rocker 11 a has a frame 25 which z. B. three or four rigidly interconnected frame sections is formed, for. B. a longitudinally extending frame portion 25a on the holder 1 facing the end 11b facing away from the front and rear end of the frame portion 25a transversely outwardly extending frame portions 25b, 25c and preferably also in the longitudinal direction extending frame portion 25d on the holder 1 End of the drive rocker 11a.

By means of this disk-shaped or frame-shaped construction of the drive rocker 11a, it is stabilized, in particular with respect to load moments which are effective in its plane, but also with respect to load moments acting transversely to its plane. In addition, one of the longitudinal direction dimension L4 of the drive rocker 11a corresponding guide length of the longitudinal guide 8 can be realized. As a result, tilting in the longitudinal guide 8 are prevented and reduces wear and increases the life.

This guide stabilization is so great that - as can be seen in FIG. 2 - the length L6 of the drive rocker 11a facing away from the holder 1 approximately parallel to the longitudinal center axis 2 can be made shorter than the end facing the holder 1 11b. The stabilization is so great that the horizontally effective longitudinal guide 8a a horizontally effective part of the other or per se conventional longitudinal guide 8, z. B. in the area of the holder 1, makes dispensable and thus the drive rocker 11a could be performed with the holder 1 in the longitudinal direction and in the horizontal only through the longitudinal guide 8a. Since the longitudinal guide 8a can be made relatively short, further space is saved in the area, so that more space is available for other constructions.

With regard to a resultant cutting force S of the cutting wires 1a, it is advantageous, for reasons of a uniform distribution of forces, to arrange the length L6 of the frame-side guide part 8b substantially symmetrically with respect to the resulting cutting force S or with respect to the pivot joints 17. The length L6 can also be slightly offset in its longitudinal direction, as shown in the figure.

The drive rocker 11a at the end 11c associated guide element 8b may, for. B. be formed by a guide bush 8 c with a round inner cross-sectional shape, which is fixedly connected to the frame portions 25 b, 25 c and / or with the frame portion 25 d, z. B. by welding, and which is slidably mounted with little play on the guide rod 22.

Material and weight of the holder 1 can be reduced if the opposing leg portions 1c do not extend over the length L1 of the holder 1, but are formed by transversely extending leg arms extending from the longitudinally extending base portion 1b transversely inwards and outwards, respectively. extend to the longitudinal center axis 2 out.

The above-described stabilization also contributes, if the pivot joint 17 is either also elongated in the longitudinal direction or by several, z. B. two, and by a longitudinal distance h from each other having pivot joints 17b, 17c shown in FIG. 2, which connect the holder 1 and the drive member 11 in the region of its front and rear ends. The pivot joints 17a, 17b may, for. B. be formed by hinge webs 26 a, 26 b, which protrude from the drive rocker 11 a inwardly and from the holder 1 to the outside and are interconnected by a respective associated hinge pin.

In functional operation of the device, the pivoting lever 13 or the pivoting levers 13a, 13b are pivoted back and forth between an inwardly and outwardly inclined pivoting position, wherein the articulated rod 12 or the drive rocker 11a in at least one pivot joint 17 due to the arc movement of the pivot joint 14 is pivoted up and down, the Articulated rod 12 and the rocker 11a in the outer position shown in FIG. 1 (starting position) and in the inner end position shown only hinted, each preferably extends substantially horizontally.

The drive rocker 11a of the transverse drive 5 forms for the holder 1, a horizontal effective transverse guide, which is not shown in the drawings and illustrated in the embodiments of FIGS. 1 and 2 in detail.

Figs. 3 and 4 show modified embodiments which differ in several respects from the above-described embodiments. The holder 1 and the toggle lever formed by the articulated rod 12 and the drive rocker 11 are of essentially the same design. Identical or comparable parts are also designated by the same reference symbols in FIGS. 3 and 4.

There are a longitudinal guide 31 and a transverse guide 32 for the holder 1 available and shown in the drawing. The longitudinal guide 31 is effective and arranged between a frame 33 and a base of the device for cutting the strand 3 and a longitudinal guide slide 34, for. B. between the top of the frame 33 and the underside of the longitudinal guide slide 34 in an intermediate space 35 is arranged. The longitudinal guide slide 34 is divided by a preferably horizontally extending dividing joint 37 into two parts, namely the lower slide base 36 and a transverse guide carrier 38 arranged thereon, which by a fastening device, not shown, for. B. a screw, with the slider base 36 is detachably connected. To connect the slide base 36 with the transverse guide support 38, these two plates at the dividing joint 37 may have mutually facing plates with associated holes for the fastening device or screwing.

The longitudinal guide 31 may have on both sides of a vertical longitudinal center plane E1 of the passage 3a each have a longitudinally extending guide rod 31a, which are respectively mounted in its front and rear end portions on the frame 33, for. B. in the frame 33 upwardly projecting bearing pieces 31 b. The slider base 36 has downwardly projecting guide pieces 31c with mating guide holes, with which on the guide rods 31a slidably seated. A longitudinal center plane E2 of the longitudinal guide 31 is offset with respect to the longitudinal center plane E1 by the dimension v to the side on which the base portion 1b of the holder 1 or transverse drive 5 are located.

The transverse guide 32 is formed by two guide rods 32a fastened one above the other on the transverse guide carrier 38, on which the holder 1 is guided transversely and horizontally displaceably by means of guide pieces 32b, preferably with guide rollers, wherein the guide rods 32a and guide pieces 32b are in the height of the leg portions 1c of the Halters 1 are located. The guide rods 32 a are attached to vertical support rods 38 a of the transverse guide carrier 38, the z. B. are attached to the lower plate and extend upwards. The support rods 38a may be braced and stabilized in their upper end regions by longitudinally and transversely extending support struts 38b.

In the exemplary embodiment, the guide rods 32a are arranged above and below the passage 3a, wherein the support rods 38a arranged on the side remote from the transverse drive 5 are located laterally from the passage 3a. In the above-described embodiment of the longitudinal and transverse guides 31, 32, it is ensured that during a longitudinal movement of the transverse guide carrier 38, the latter including the articulated rod 12 or the drive rocker 11a is also moved, wherein the longitudinal guide 8a is an additional horizontal longitudinal guide.

By a coordinated back and forth movement of the guide slide and transversely directed back and forth movement of the holder 1 can be either the already described "continuous cutting" or "bidirectional cutting" realize.

A longitudinal drive 30 may be formed by a longitudinally extending piston cylinder drive, the housing z. B. is supported on the frame 33 and the piston rod acts on the longitudinal guide slide or on the slide base 36 or vice versa.

Another modification of the embodiment of FIGS. 3 and 4 of the embodiment of FIGS. 1 and 2 is that the crank mechanism 7b is arranged vertically with the connecting rod 21. In addition, the drive motor 6 with respect to the frame 33 can be arranged laterally below the knee lever, so that the connecting rod 21 extends from the drive motor 6 upwards. In this case, the drive motor 6 can be arranged and fixed directly on a side wall 33a of the frame 33 or on one of the projecting therefrom and the transverse drive 5 supporting support walls 24. In such an arrangement, it is favorable for reasons of space utilization and a small construction, the lever arm 13b with respect to the one or more pivoting levers 13; 13a, 13c projecting towards the frame 33 in such a way that in between an upwardly open angle W2 is included, which is 90 ° or can be slightly larger or smaller.

In the embodiment according to FIGS. 5 and 6, the device for cutting a strand has an adjusting device 41, with which the cutting wire or wires 1a or their fastening devices 1d on the holder 1 optionally beyond the normal stroke end position H1 facing away from the transverse drive 5, namely into an in Fig. 5 also indicated supernumerary Hubendstellung H2, is movable, in which the or the cutting wires 1a not only have a greater distance from the existing strand 3 or passage 3a but also have a distance from an optionally present transverse guide support 38 and therefore are more accessible , z. B. to clean the one or more cutting wires 1a, check, adjust the voltage or replace. The overstroke length is designated X in FIG.

It is advantageous to integrate the adjusting device 41 in the transverse drive 5, in particular in the articulated rod 12 and in the articulated rocker 11a, as shown in FIGS. 5 and 6. In this case, a telescopic device 42 is very well, with which the effective length L7 of a respective component of the transverse drive 5 or toggle lever drive 7a can be extended and shortened again. 6 and 5 show embodiments in which the adjusting device 41 or the telescoping device 42 are formed by the articulated rod 12 or the articulated rocker 11a having two end parts 11d, 11e which can be telescoped by one or two cylinder piston drives 43 arranged side by side, wherein the hinge 14 at the outer end portion 11d and the hinge 17 at the inner end portion 11e, respectively for connection to the one or more pivoting levers 13; 13a, 13c are connected. As clearly shown in FIG. 6, the outer end portion 11d may comprise the guide bush 8c forming the guide element 8b, which is mounted longitudinally displaceably on the guide rod 22. The Z. B. with the piston rod or rods 43a of the cylinder piston 43, in particular rigid, connected inner end portion 11e may be formed by a longitudinally extending cross member 11f, in the front and rear end portions of the hinge webs 26a for forming the pivot joints 17 and 17; 17a, 17b are preferably mounted projecting inwardly.

The cylinder piston drive or drives 43 thus form a drive motor 44 for increasing and decreasing the length L7 of the relevant component having the telescoping device 42. The device is also an unillustrated switching element for switching on the adjusting device 41 or Teleskopiervorrichtung 42 in terms of enlargement or reduction of the Adjustment X assigned. In the case of the cylinder piston drives 43 or z. B. act to pneumatic or hydraulic piston cylinder, which can be acted upon with a pneumatic or hydraulic fluid for the purpose of adjustment.

The adjusting device 41 according to the invention is also suitable for holders 1 of another type, for. Example, for a vertically adjustable holder, not shown, which consists of two on both sides of the passage 3a arranged holding parts, to which the one or more cutting wires 1a are fixed in a substantially horizontal position. In such an embodiment with two lateral holder parts both are driven by a particular vertically effective transverse drive.

In the invention, a disc-shaped U-shaped holder 1, as shown in FIGS. 1 and 2 is visible or an elongated U-shaped holder 1 as shown in FIG. 2, 4 and 6 with respect to the passage 3a for the strand 3 in the machine be arranged laterally left or right (shown) or above or below (not shown), wherein in the initial position, the opening of the U with the cutting wire 1a facing the passage 3. A lateral arrangement of the U-shaped holder 1 has the advantage that the one or more in the starting position and in the opposite end position H1 or H2 next to the strand 3 and passage 3a located (s) cutting wire (wires) 1a by a laterally arranged wire cleaning device (not shown) can be cleaned without particles to be cleaned by the wire fall on the strand 3.

Claims (21)

Apparatus for cutting a strand (3) of plastically deformable material, in particular clay or similar material, which is movable on a support in a passage (3a) extending in the longitudinal direction of the strand (3), with at least one transverse to the passage (3a ) extending cutting wire (1a), the end in a holder (1) is movable by a longitudinal drive and a transverse drive (5) so that the cutting wire (1a) at a conveying speed corresponding longitudinal movement of the one side of the passage (3a) is moved to the other side and back again, wherein the transverse drive (5) has a toggle lever with a hinge rod (12) pivotally connected at its one end by a first pivot joint (17) about a first hinge axis (17a) Holder (1) is connected and at its other end by a second pivot joint (14) about a second pivot axis (14a) pivotally connected to one end of at least one pivoting lever ls (13, 13a, 13b) is pivotally mounted at its other end in a pivot bearing (15) about a bearing axis (15a),
characterized,
in that the first and the second hinge axis (17a, 14a) and the bearing axis (15a) extend parallel to the longitudinal direction of the passage (3a) and the holder (1) moves in relation to the toggle in a longitudinal guide (8a) extending along the passage (3a) ) is displaceable. Apparatus for cutting a strand (3) of plastically deformable material, in particular clay or similar material, which is movable on a support in a passage (3a) extending in the longitudinal direction of the strand (3), with at least one transverse to the passage (3a ) extending cutting wire (1 a), the end in a holder (1) is held by a longitudinal drive (30) and a transverse drive (5) is movable so that the cutting wire (1 a) at a conveying speed corresponding longitudinal movement of the one Side of the passage (3a) is moved to the other side and back,
characterized,
that an adjusting device (41) is provided with which the one or more cutting wires (1a) on the transverse drive (5) side facing away from the normal stroke end position (H1) also movable and return to the normal stroke end position (H1) is movable back and are. Device according to claim 2,
characterized,
that the adjusting device (41) is formed by a telescopic device (42). Device according to claim 2 or 3,
characterized,
in that the adjusting device (41) or the telescoping device (42) is integrated in the transverse drive (5) and is preferably adjustable by a drive motor (44). Device according to one of the preceding claims 2 to 4,
characterized,
in that the transverse drive (5) has a toggle lever with an articulated rod (12), which is connected at its one end by a first pivot joint (17) about a first hinge axis (17a) pivotally connected to the holder (1) and at its other end by a second pivot joint (14) pivotally connected about a second pivot axis (14a) to one end of at least one pivot lever (13, 13a, 13c) pivotally mounted at its other end in a pivot bearing (15) about a bearing axis (15a) is
wherein the first and the second hinge axis (17a, 14a) and the bearing axis (15a) extend parallel to the longitudinal direction of the passage (3a) and the holder (1) with respect to the toggle in a longitudinal guide (8a ) is displaceable. Device according to one of claims 2 to 5,
characterized,
that the adjusting device (41) or telescopic device (42) is integrated in the articulated rod (12). Device according to one of claims 4 to 6,
characterized,
in that the drive motor (44) is formed by one or two cylinder piston drives (43) arranged next to one another. Device according to one of the preceding claims,
characterized,
that the holder (1) - in the longitudinal direction of the passage (3a) seen - a U-shaped form having a base portion (1b), and two of whose ends projecting Leg portions (1c), that the cutting wire (1a) extends from the one end portion to the other end portion of the leg portions (1c) and the ends of the cutting wire (1a) are held at the end portions, and that the distances (f, c) to one between the cutting wire (1a) and the base portion (1b) and, secondly, between the leg portions (1c) are larger than the associated maximum cross-sectional dimensions (d, e) of the strand (3). Device for cutting a strand (3) of plastically deformable material, in particular clay or similar material, which is movable on a conveyor in a passage (3a) extending in the longitudinal direction of the strand (3), with at least one transverse to the passage (3a ) extending cutting wire (1a), the end in a holder (1) is movable by a longitudinal drive and a transverse drive (5) so that the cutting wire (1a) at a conveying speed corresponding longitudinal movement of the one side of the passage (3a) is moved to the other side and back again,
characterized,
that the holder (1) - in the longitudinal direction of the passage (3a) seen - a U-shaped form having a base portion (1b), and two projecting from the ends of leg portions (1c), in that the cutting wire (1a) extending from the one End portion to the other end portion of the leg portions (1c) and the ends of the cutting wire (1a) are held at the end portions, and that the distances (f, c) between the cutting wire (1a) and the base portion (1b) and the other between the leg portions (1c) are greater than the associated maximum cross-sectional dimensions (d, e) of the strand (3). Device according to one of the preceding claims,
characterized,
in that the holder (1) is elongated in the longitudinal direction of the passage (3a). Device according to claim 10,
characterized,
that the length (L1) of the holder (1) is greater than its over both leg portions (1c) extending cross-sectional dimension. Device according to claim 10 or 11,
characterized,
in that a plurality of cutting wires (1a) are held on the holder (1), each having a spacing (a) extending from one another in the longitudinal direction of the passage (3a). Device according to claim 12,
characterized,
in that the holder (1) has leg-section pairs present in the number of cutting wires (1a), which extend from the base section (1b) at the intervals (a) of the cutting wires (1a) at respective intervals. Device according to one of claims 9 to 13,
characterized,
in that the transverse drive (5) has a toggle lever with an articulated rod (12) which is pivotally connected at one end to the holder (1) by a first pivot joint (17) about a first articulation axis (17a) and at its other end a second pivot joint (14) pivotally connected about a second pivot axis (14a) to one end of at least one pivot lever (13, 13a, 13b) pivotally mounted at its other end in a pivot bearing (15) about a bearing axis (15a) is Device according to claim 14,
characterized,
in that the first and the second hinge axis (17a, 14a) and the bearing axis (15a) extend parallel to the longitudinal direction of the passage (3a) and the holder (1) moves in a longitudinal guide (8a ) is displaceable. Device according to one of the preceding claims,
characterized,
in that the articulated rod (12) is formed by a longitudinally extending armature (11a) in the longitudinal direction of the passage (3a), which is formed by a longitudinally extending passage (3a) longitudinally extending first pivot joint or by at least two first pivot joints (17a , 17b) is connected to the holder (1) having a distance (h) extending in the longitudinal direction of the passage (3) from each other. Device according to one of the preceding claims,
characterized,
in that the longitudinal guide (8a) is integrated in the second pivot joint (14) between the articulated rod (12) or rocker (11a) and the pivot lever (13). Device according to claim 17,
characterized,
in that the longitudinal guide (8) is formed by a round bearing rod (22) which protrudes from the pivoting lever (13, 13a or 13c) and on which the articulated rod (12) or the rocker (11) is mounted so as to be pivotable and longitudinally displaceable. Device according to claim 18,
characterized,
in that two pivoting levers (13a, 13c) are arranged at a longitudinal distance (g) from one another, between which the bearing axis (22) extends, and which are mounted pivotably together in the pivot bearing (15). Device according to one of the preceding claims,
characterized,
in that the toggle lever can be driven by a crank mechanism (7b), the crank rod (21) of which acts on the or one of the pivot levers (13, 13a, 13c) or on a second pivot lever arm (13b). Device according to one of the preceding claims,
characterized,
in that the holder or holders (1) lying opposite one another are moved by the longitudinal drive (3) and the transverse drive (5) for a bidirectional cutting of the strand (3).

Images