JPS63500091A - stone cutting saw - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] stone cutting saw The present invention resists cutting pressure by support rollers on both sides of at least one saw section. A rope that is supported by a rope that moves in a circular motion, a feeding drive device, and each feeding method. Support roller bearing holder that can be rotated around the rope saw axis depending on the direction This relates to a stone cutting saw equipped with a casing.

A known stone cutting saw of this type (Austrian Patent No. 3717<S1) (Details), depending on each feeding device, support is provided around the rope saw shaft. By adjusting the rotation of the holding roller, the cutting pressure generated acts on the supporting roller. Since the force is located perpendicular to the axis of rotation of the support roller, the rope saw of the support roller The side walls of the guide groove are protected against heavy loads. This allows the rope saw to Reduced wear on the guide grooves and, related to this, more accurate rope saw guides Guaranteed even after period of use.

Such a rope saw guide provides the necessary prerequisites for accurate sawing contours. However, this method is insufficient for this purpose. Brush, support roller The rotation axis of the casing for the bearing must be rotated to ensure accurate cutting guidance. must overlap the saw axis. Unavoidable wear of band saw guide grooves This axis of the rope is relative to the structurally defined axis of rotation of the casing. For example, curves with a small radius of curvature can no longer be cut accurately enough. Can not do it.

The object of the present invention is therefore to overcome this basis of known stone cutting of the type mentioned at the outset. Eliminates fundamental drawbacks and provides precise sawing contours even with unavoidable wear. The rope saw guide is guaranteed to be

According to the invention, this problem is solved when the support roller is connected to its axis and to the rope saw axis. supported by the casing so as to be adjustable in a direction perpendicular to the Therefore, depending on the radial wear of the support roller, the rope will be displaced towards the saw axis. The issue was resolved by configuring the

Via the adjusting drive provided for this purpose, the respective adjustment of the rope saw guide groove is controlled. By post-adjusting the supporting rollers by the degree of wear, rope saws can be installed in a simple manner. This prevents the shaft from slipping out of the casing narrow, and the shaft is not rotated when adjusting the casing. This particular position of the loop is guaranteed to be maintained. This allows accurate All conditions for a suitable cutting guide are met.

A prerequisite for this is, of course, that the rope saw does not lift off the supporting rollers. That's what it means. For this purpose, the casing is attached to a support rod in relation to the rope saw shaft. On the side facing the roller, it has a spring-loaded crimping roller for the rope saw. child These crimping rollers are spaced apart from the saw section, relative to the support rollers on the saw section side. They are also staggered in this axial direction of the rope.

By spring-elastic crimping rollers, independent of this diameter change of the rope, and Regardless of the wear that occurs on the support roller and the crimping roller, the rope saw Since the rope is brought into close contact with the Vibrations do not enter the saw classification range. Moreover, the pressure roller is supported on the saw section side. With respect to the holding roller, the rope should be placed away from the saw section and offset in this axial direction of the rope. Spring-loaded crimp opening, support on the saw section side rather than on the Rollers define the cut shape in the saw section area.

When the crimping roller is spring-elastically supported, the force exerted by the spring-loaded crimping roller is Considering that the unique frequency curve of the obtained vibration system is not in this vibration frequency range, All you have to do is However, spring-elastic crimping rollers are suitable for non-vibrating ropes. In addition to allowing the rollers to move, the rollers are pressed against the support rollers with a predetermined force. The saw also acts to carry the supporting roller to avoid sluggishness, so the roller Wear in the area of the loop and the guide groove is limited to a minimum.

Moreover, by post-adjusting the support roller, the rope saw guide groove and rope This wear-resistant geometric rope saw-shaped fixation ensures This displacement of the rope in the area of the saw section is used for controlling the feed drive. It will be done. This is known for flat cutting (US Pat. No. 40,673) Specification No. 12). When making flat cuts, this wear-limited displacement of the rope While it does not act on the cutting guide, this displacement is very unpleasant when cutting curves. Since it is recognized that there is a A rope saw guide is required.

Also, as in the prior art, one monitoring for this maximum permissible displacement of the rope Merely providing equipment is not sufficient. This is because, for example, if you cut off one corner To ensure a homogeneous cut shape over the entire cut shape, a straight This is because only a small displacement with respect to the cut shape is allowed. Considering these circumstances With this in mind, at least one casing constantly detects this displacement of the respective rope. Equipped with a signal generator located in front of the saw section side of the support roller of the output dam. In this case, the feed drive device is controlled via a regulating device connected to the signal generator. and continuously adjustable according to the cutting shape. This allows the feed drive is a constant displacement of a given rope in a certain section range of cutting geometry. For example, a transition between two different curved sections is required not only to maintain It is also adjusted for different rope saw displacements when This change is calculated It is programmed and given in advance by the device.

Post-adjusting the support roller by this wear degree of rope saw guide groove and rope is, according to another embodiment of the invention, at least one. -La's. -pu's axis On the opposite side of the rope, a spacing signal generator fixed to the casing is arranged for this purpose. Controlled in a simple way by belonging. This interval signal generator supports Loads the control device of the adjusting drive for shifting the retaining roller. The interval signal generation When this deviation of the rope is indicated by the device, the adjusting drive compensates for said deviation. the desired saw geometry is maintained.

Adjust the support roller in a direction perpendicular to the axis of the support roller and the axis of the rope saw. As such, very different structures are conceivable for knotting. Support rollers adjust A particularly advantageous relationship is obtained if it is supported on a possible eccentric shaft. Because this In this case, there is no need for a sliding guide for the support bearing sump. Therefore, the support row To re-adjust the angle, it is only necessary to rotate the eccentric shaft. It connects to the eccentric shaft This is simply carried out by means of a lever arm on which the adjusting drive acts.

If two saw sections are placed one after the other, 1 each between the two saw sections. It is necessary to support the rope saw by support rollers on the saw section side. in this case , if the support roller is subjected to uniform wear between the two saw sections, this support roller are post-adjusted together.

For this purpose, the adjustable eccentric shaft of this supporting roller is in each case connected to one crankshaft. A driving connection is made between the crank arms by a crank arm and a connecting rod. Therefore, the regulating drive The device need only act on one of the two eccentric axes. of two support rollers If the wear is significantly different, each support roller is equipped with a spacing signal generator for the rope saw; A control device is provided which is connected to the interval signal generator. However, one Generally, in order to take into account the different wear on the two support rollers, two It is sufficient to provide one longitudinally adjustable connecting rod between the crank arms .

Support for two saw v'S sections arranged one after the other in a common casing If rollers are provided, there are two support rollers and A cooperating common, spring-loaded crimping roller is provided. Arrangement like this offers a very concise construction and guarantees a particularly effective arrest of rope saw vibrations. do.

Therefore, only one pressure roller, which is arranged between two support rollers in each case, It is also advantageous to provide it in this section or in the outer saw section.

Rotating bearings are also suitable for flexible bearings of spring-loaded pressure rollers. In order to be able to take advantage of the advantages of It has a rotation axis parallel to the roller and is supported against the casing by a spring. It is supported by a pivot lever. Moreover, the pressure roller is installed on the rotating lever. This means that over the length of the lever, the spring force and This has the advantage of providing a good transmission ratio of the spring stroke.

Embodiments of the invention are shown in the drawings.

FIG. 1 shows a simplified longitudinal section of the rope and support for stone cutting according to the invention. side view, FIG. 2 is a partial sectional view taken along line nn in FIG. 1, and FIG. 6 is a partial cross-sectional view of the rope saw support. The cross-sectional view of the holding part, FIG. 4, shows the feed device and adjusting drive for post-adjusting the support roller FIG.

This rope saw 1 for stone cutting, which is not shown in detail for the sake of clarity, is The saw section is supported against the cutting pressure by support rollers 2 on both sides. others For this purpose, the support roller 2 is supported by a casing 3, and this casing 3 is According to the embodiment, the rope saw rotates around the axis of the rope saw 1 via three running rollers 4. The robot is held freely and can be rotated depending on the respective feed direction. The cutting pressure received by the rope saw 1 is transferred by the support roller 2 to this support roller. -22 is derived at right angles to the axis of rotation. For this reason, the shaft of support roller 2 The receiver is hardly loaded by axial forces. Moreover, the appropriate horizontal direction Due to the absence of a directional force, the rope saw guide groove 5 of the support roller 2 is advantageously approximately half-length. Loaded radially. This has a favorable effect on the service life.

In addition to the two supporting rollers 2, a crimping roller for the rope saw 1 is located in the casing 3. A pressure roller 6 is provided between the two support rollers 2 and It is arranged on the opposite side of the support roller 2 in relation to the saw shaft. This pressure roller 6 A pivot lever 7 is used for support. This turning lever 7 is connected to the support roller 2 is supported within the casing 3 around a rotation axis 8 parallel to the rotation axis of the and is supported via a spring 9. , this spring 9 is a rubber spring in the embodiment. A preload is applied by an adjusting screw 10. swivel lever -7 possible swivel angles are formed by the screw to allow stop adjustment. It is limited by the stopper 11 which is attached. This causes the pressure roller 6 to press the spring 9. The rope saw 1 is pressed against the support roller 2. The rope saw 1 is always pressed into the rope guide groove 5 of the support roller 2. can be lost. This makes it possible to reduce the vibrations that may be applied to the saw section 1a. A reliable rope restraint and guide is guaranteed. provided in the example The rubber spring has an automatic vibration damping effect and thus resists this vibration generation of the rope. work. The damping provided by the rubber spring 9 is not sufficient, or another spring should be used. In some cases, the support is assembled into one structural unit, possibly together with the spring 9. vibration damping devices can be incorporated.

If the support roller 2 is fixed and bearing on the casing, the rope guide groove 5 and this wear of the rope is necessarily associated with this shearing of the rope, which resulting in obstruction of the cutting guide. Rope saw shaft in conjunction with casing 30 rotating shaft In order to allow a fixed inclinological position of the support roller 2 has its axis aligned with the rope. It is arranged so as to be adjustable in a direction perpendicular to this axis. For this purpose, the support rod According to the embodiment, the roller 2 is mounted on an eccentric shaft 12, which is connected to the case. It is rotatably held by a support 13 of the thing 3. Adjust the eccentric shaft 12 together. For this purpose, this eccentric shaft 12 is connected to a clamp connected to each other via a connecting rod 15. It has a quad arm 14. Rotation adjustment of the eccentric shaft 12 is performed by pivoting the casing 3. and an adjusting drive 1 acting on a lever arm 17 connected to the eccentric shaft 12 6. The connecting rod 15 between the two crank arms 14 extends in the longitudinal direction. along which can be adjusted via a threaded spindle 18. This screw A spindle pivotally connected to one of the crank arms 14 by a gimple 18. The bolt nut 19 is adjusted. By changing the length of the connecting rod 15, The link arm 14 is caused to rotate relative to each other, which results in uneven control of the support roller 2. control is obtained, whereby asymmetric wear relationships are easily taken into account.

In order to detect the wear of the support roller 2, the support roller 2 is The casing of the rope saw 1 is attached to at least one supporting roller 2 on the opposite side of 2. A fixed interval signal generator 20 is provided, and this interval signal generator 20 is , loads the secondary control device 21 of the adjusting drive 16. Interval signal generator 20 and support As the distance from the holding roller 2 increases, the rope guide groove 5 or the rope If wear of the rope saw 1 is detected, according to FIG. The drive device 16 is configured to move the rope saw at a predetermined position coaxial with the rotation axis of the casing 3. The support roller 2 is then forced to adjust again until it reoccupies the position. According to figure 4 In the circuit diagram shown, the support roller 2 is held adjustably within the slide guide 22. Ru.

at the respective maximum possible cutting capacity, e.g. on the basis of a cutting guide or , when the cutting conditions change based on the positional differences in the material properties of the cut object. Also, in order to maintain a predetermined quality of cut, the feed drive 23 is operated in the saw section 1a range. is controlled in accordance with the respective displacement of the rope saw 1 at . For this, support The respective displacements of the rope and 1 in the guide plane perpendicular to the axis of roller 2 are constantly checked. A signal generator 24 for outputting the signal is arranged in front of the support roller 2 on the saw section side. ing. This signal generator 24, like the interval signal generator 20, works without contact. It consists of an inductive or capacitive distance measuring device. Rotating the casing Based on the alignment of the supporting rollers 2 made possible by The saw 1 operates only on the plane defined by the rope guide groove 5 of the support roller 2. The signal generator 24 causes the rope saw 1 to change direction according to the cutting pressure. By measuring the distance, this deflection of the rope is detected precisely. of rope This wear-related deviation is compensated for by post-adjusting the support roller 2. child This allows the feed drive to be adjusted via the regulating device 25 connected to the signal generator 24. 23 is controlled according to the rope saw displacement in each case, so the cutting pressure does not change. be kept constant via feed control, regardless of the cutting conditions Can be adapted to any cutting shape.

The adjustment device 25 and the control device 21 are connected to a calculator 26 as shown in FIG. Therefore, it is realized. In this connection, a predetermined curved shape is determined via the calculator 26. Due to the shape, different cutting pressures can be applied, thus ensuring a homogeneous cut. Needless to say, it can be done. Feed the material to be cut in the direction perpendicular to the rope saw. As for the feed drive device 23, All drive devices are conceivable that ensure this relative movement. Therefore, for example, For the drive, on the one hand, for the drive of the workpiece slit, and on the other hand, the casing. Two motors are provided in the frame supporting the workpiece 3 or the workpiece is If fixed, one motor of the gantry drive and movable within the gantry A motor for the frame of the casing 3 is also provided.

international search report -ml#kp(T/A786100046ANNEX To T):E INT ERNATIONAL 5EARCH PORT 0NINTERNAT? 0 NAf, A2? LICATION No, PCT/AT 86100046 (!+A 13637) US-A-4 (116135612104/77 No. ne

Claims (1)

[Claims] 1. The cutting pressure is resisted by supporting rollers on both sides of at least one saw section (1a). A circularly moving rope saw (1) supported by a Support rod that can be rotated around the rope saw axis according to the respective feed direction. - a casing (3) for a roller bearing; The roller (2) is mounted in the casing (3) with the shaft and rope of this support roller (2). The adjustment drive (16) is adjustable and supported in a direction perpendicular to the saw axis. ) towards the rope saw axis, depending on the radial wear of the support roller (2). A stone cutting saw characterized by being able to be moved. 2. The casing (3) is opposite to the support roller (2) in relation to the rope saw shaft. On the side, it has a spring-loaded crimping roller (6) for the rope saw (1). The pressure roller (6) is pressed against the support roller (2) on the saw section side. (1a) and offset in this axial direction of the rope. The stone cutting saw described in item 1 of the box. 3. At least one casing (3) always detects the respective rope displacement. a signal generator (24) placed upstream on the saw section side of the support roller (2) for and the feed drive device (23) is a regulating device connected to the signal generator (24). (25) continuously adjustable according to the cutting shape. The stone cutting saw described in Section 2 or Section 2. 4. On the opposite side of the at least one support roller (2) in relation to the rope saw, a Assigned to the casing-fixed spacing signal generator (20) for the loop saw (1). and the spacing signal generator (20) provides an adjustment for displacing the support roller (2). Claims 1 to 3 load the control device (21) of the node drive device (16). A stone cutting saw described in any one of the preceding paragraphs. 5. Claim wherein said support roller (2) is supported by an adjustable eccentric shaft (12). A stone cutting saw according to any one of the ranges 1 to 4. 6. Said adjusting drive (16) comprises a lever arm ( 17) The stone cutting saw according to claim 5, which acts on the above. 7. The adjustable eccentric shafts (12) of the two support rollers (2) of the casing (3) , one crank arm (14) each and these crank arms (14) Claims 5 or 6, in which the connecting rod (15) between the The stone cutting saw mentioned in the section. 8. The connecting rod (12) is longitudinally adjustable between the two crank arms (14). 8. The stone cutting saw according to claim 7, which is constructed as follows. 9. A spring-elastic pressure roller (6) is arranged in each case between two support rollers (2). The stone cutting saw according to claim 2, wherein the stone cutting saw is located at 10. The pressure rollers (6) are each supported by a pivot lever, the pivot lever being - has a rotation axis (8) parallel to the pressure roller (6) and a spring (9) Claim 2 or 9 supported against the casing (3) by The stone cutting saw mentioned in the section. 11. Claim 10, characterized in that the spring (9) is constructed as a rubber spring. stone cutting saw. 12. Claims in which the support part incorporates a vibration damping device in addition to the spring (9) The stone cutting saw described in box 10.