EP1864770A2 - Method for exact cutting of slats - Google Patents

Abstract

The invention relates to a method for tailored cutting of strips. In the method, the length dimensions (L) to be taken up by the strips are taken off between a first edge (22) and a second edge (23) on, in particular, window or door profiles and the strips are cut on the basis of the measurement results. In a first adjustment, an error compensation procedure is performed with the following steps:
a) scanning the length between the edges (22, 23) of the profile by means of a scanning device (1),
b) cutting a strip to the length dimension removed by the scanning device (1),
c) determining the deviation of the length measure of the strip from the actual dimension, and
d) storing the information about the deviation by means of an information memory,

For each subsequent measurement, the actual measurement result of the length scan is corrected with the value of the deviation, and then the bar is trimmed to the corrected length measure.

Description

The invention relates to a method for tailored cutting of strips according to the preamble of claim 1.

From window construction, various methods for cutting strips, in particular glass retaining strips are known. The glass retaining strips hold a glass pane inserted in the frame of a window in their position and consist for example of PVC, wood or aluminum. Depending on the construction of the window, these glass retaining strips are cut to length either at right angles or in miter at their ends and attached to the inner circumference of the window frame.

During manufacture of the glazing beads, the corresponding dimensions are taken off the window and the glazing beads are cut from the measured dimensions. The removal of the dimensions at the window is done, for example, using non-contact, such as laser-based method. Although such non-contact methods are theoretically very precise, however, these methods easily result in measurement errors that result in the inaccurate positioning or alignment of the required Length measuring devices are justified. Furthermore, such length measuring devices have a relatively high purchase price. The known contact methods, for example, the removal of the measures by means of telescoping telescoping telescopic tubes provide relatively inaccurate measurement results.

Since window tolerances can occur and the glass retaining strips should fit well fitting, it is therefore the object to provide a method can be tailored with the strips with compared to the prior art increased accuracy.

This object is achieved by a method having the features specified in claim 1. Advantageous embodiments of the invention are defined in further claims.

1. a) Abtasten der Länge zwischen den Kanten des Profils mittels einer Abtastvorrichtung,
2. b) Zuschneiden einer Leiste auf das von der Abtastvorrichtung abgenommene Längenmaß mittels einer Trennvorrichtung,
3. c) Bestimmung der Abweichung des Längenmaßes der Leiste vom tatsächlichen Maß, und
4. d) Speichern der Information über die Abweichung mittels eines Informationsspeichers.

In the method for tailor-cutting strips to be taken from the strips length measures between a first edge and a second edge of particular window or door profiles are removed and cut the strips based on the measurement results. In a first adjustment, an error compensation procedure is performed with the following steps:

1. a) scanning the length between the edges of the profile by means of a scanning device,
2. b) cutting a strip to the length dimension removed by the scanning device by means of a separating device,
3. c) determining the deviation of the length measure of the strip from the actual dimension, and
4. d) storing the information about the deviation by means of an information memory.

At each successive measurement, the actual measurement result of the length scan is corrected with the value of the deviation and then cut the bar to the correct length.

It should be noted that the error compensation method is to be performed only once. In the measurements made in the manufacture of the bars with the scanning device according to the error compensation method, the stored information about the deviation after the length scanning simply needs to be retrieved from the information memory, after which the bar is corrected for the value by the deviation by a separator Length measure can be cut. It should also be noted that the method is by no means limited to the cutting of the strips to clear dimensions between facing inner edges. Rather, the applicability of the method is also to extend to the case in which the strips are cut to defined by two mutually pioneering outer edges outside dimensions of particular doors or windows. The deviation corresponds to the difference between the length dimension of the strip and the actual length dimension between the edges. To store the information about the deviation are basically all conceivable memory in question. Of course, the method is also suitable for cutting other workpieces such as boards, rungs or the like.

• ca) Anlegen eines ersten Endes der Leiste an die dem ersten Ende zugeordnete erste Kante
• cb) Messen des Abstandes zwischen dem zweiten Ende der Leiste und
• der dem zweiten Ende zugeordneten zweiten Kante.

In a specific embodiment of the invention, the above-described step c) comprises the following substeps:

• ca) applying a first end of the bar to the first edge associated with the first end
• cb) measuring the distance between the second end of the bar and
• the second edge associated with the second end.

For example, step cb) is performed by a contact method. Basically, however, are also non-contact method for Implementation of step cb) conceivable.

For example, the contact method is performed with a ruler or a caliper.

In a particularly advantageous embodiment, the method is carried out with the aid of a scanning device which comprises a carrier rail with a fixed stop fixed to the carrier rail and a scanning stop mounted slidably on the carrier rail. To decrease the length dimension of the fixed stop is applied to one of the edges and brought the scanning stop with the other edge in abutment, the scanning stop is secured in its abutment position against displacement relative to the support rail.

In a specific embodiment of the invention, the scanning stop or the fixed stop is connected to a strip stop surface for applying an end face of the strip. The scanning device is fixed by means of a fixing device provided on the separator such that the distance between the parting plane and the ledge stop surface in the error compensation method corresponds to the not yet corrected length measure or after the error compensation method the corrected Längenmaß.

According to one embodiment, the fixed stop or the scanning stop on the ledge stop surface and the strip stop surface having fixed stop or scanning stop is applied indirectly via a template to a respect to the saw blade fixed base stop of the fixing device, the template is adjustable by means of adjusting means in length and storing the Information about the deviation is made by changing the length of the template by the value of the deviation. Basically it is also conceivable to apply the fixed stop or the Abtastanschlag directly to the base stop and to arrange the template between the zuzuschneidenden bar and the fixed stop or the Abtastanschlag.

In one embodiment of the invention, the method comprises at least one angle cut on at least one of the ends of the strip. For example, the angle cut may be a miter cut (cut angle = 45 °).

For example, at least one of the ends of the strips, a first angle section is performed at a first angle to the longitudinal extent of the strip and a second angle section following the first angle section at a second angle to the longitudinal extent of the strip.

In the error compensation method, the angle cut or the angle cuts are performed between the step b) and the step c).

For example, at least one of the ends of the strip, a first angle section at a first intersection angle to the longitudinal extent of the strip and a second angle section following the first angle section is performed at a second intersection angle to the longitudinal extent of the strip.

If the method comprises a first angle cut, a separating device is provided, which has a first pivot arm, which is pivotable relative to the parting plane. On the first pivot arm preferably designed as a clamping device holding means for holding the bar on the first pivot arm are provided. To perform the first angled section, the strip with a side surface on applied first pivot arm and held with the holding means fixed with respect to the first pivot arm. The first pivot arm is pivoted to a position corresponding to the first cutting angle, and then carried out the first angle section. It will be apparent to those skilled in the art that the term "parting plane" refers to the geometric plane along which the cut is made through the ledges.

For example, the separating device has a relative to the parting plane, in a pivoting plane arranged in principle perpendicular to the parting plane second pivot arm, wherein in the region of the parting plane facing the end of the second pivot arm, a second ledge stop is slidably mounted with respect to the second pivot arm axial direction. The second groin stop has a stop leg, against which the end face of the bar can be applied. To carry out the second angular section, the second pivoting arm is pivoted into a position corresponding to the second cutting angle. The strip is created with a side surface on the second pivot arm and created with the first angle cut oblique surface on the front side of the stop leg. The second ledge stop is moved in the longitudinal direction of the second pivot arm and brought into its desired position, in which the voltage applied to the stop leg bar is in its desired position with respect to the parting plane. Subsequently, the second angle cut is performed.

With the method according to the invention, a significantly increased accuracy in the cutting of strips or the like is achieved in comparison with the prior art.

Hereinafter, the invention will be explained in more detail with reference to the drawings.

Fig. 1

eine Abtastvorrichtung beim Abtasten eines Lichtmaßes an einem Fensterrahmen schematisch, in einem Horizontal-schnitt; und

Fig. 2

eine Trennvorrichtung mit eingelegter Abtastvorrichtung und zuzuschneidenden Leisten, schematisch, in Draufsicht.

Show it:

Fig. 1

a scanning device when scanning a light measure on a window frame schematically, in a horizontal section; and

Fig. 2

a separating device with inserted scanning and zuzuschneidenden strips, schematically, in plan view.

Fig. 1 shows a schematic representation of a scanning device 1 when scanning a light dimension L between two opposite inner edges 22, 23 of the inner periphery of a window frame 2. The scanning device 1 comprises a support rail 10, a fixed fixed to the support rail fixed stop 11 and one in the axial direction For scanning the light dimension L, the fixed stop 11 is first applied with its side facing outward against the first inner edge 22 of a first wing part 20 of the window frame 2. Thereafter, the scanning stop 12 is brought with its outwardly facing surface in abutment with the second inner edge 23 of the second wing part 21 opposite the first wing part 20. Finally, the scanning stop 12 is secured against movement relative to the carrier rail 10 by means of a clamping lever 13, which is connected to an eccentric 14 pressing into the clamping position on the carrier rail 10. After scanning, the scanning device 1, which now holds the light dimension L, inserted into a fixing recess of a separator 3 described in more detail in Fig. 2.

The cutting device 3 shown schematically in plan view in FIG. 2 is particularly suitable for cutting workpieces such as strips, boards, rungs or the like. The separating device 3 has a horizontally arranged base plate 4, into which a fixing recess 40 is inserted, in which the scanning device 1 is inserted after scanning and fixed therein. The saw blade (not shown) of a circular saw aligned perpendicularly to the base plate 4 is guided along the slot-shaped saw blade opening 41 to cut the strips 5, 5 ', 5 "in. The glass retaining strips 5, 5', 5" to be cut by means of the separating device 3 have a strip body 50 , 50 ", 50", on which is fastened at the side a rubber sealing lip 51, 51 ', 51 "extending over the entire length of the last body 50, 50', 50" It should be noted that in FIG the explanation three glass retaining strips 5, 5 ', 5 "at the individual processing stations (ie the Fixiervertiefung, the first pivot arm and the second pivot arm) are shown. However, it will be clear to those skilled in the art that a single glazing bead will pass through the respective processing stations required in its manufacture.

The carrier rail 10 of the scanning device 1 is aligned perpendicular to the parting plane T. The voltage applied to the support rail 10 strip 5 is applied to cut to length with its side facing away from the separation plane T to a ledge stop surface 120 of the Abtastanschlag 12. The strip stop face 120 faces the dividing plane T and is aligned parallel to the dividing plane T. In the Fixiervertiefung 40 a template 6 is inserted. The Fixiervertiefung 40 has a vertically arranged and with respect to the parting plane T fixed base stopper 42, on which the screw head 61 is supported by an associated with the template 6 adjusting screw 60. The fixed stop 11 is supported indirectly via the template 6 and connected to the latter adjusting screw 60 on the base stop 42. The adjusting screw 60 engages with an external thread into an internal thread in the template 6 and can be screwed out of the template 6 or into the template 60. When heraus- or when screwing in the adjusting screw 60, the distance between the outwardly facing surface of the screw head 61 and the separation plane T facing changes Template abutment surface 62 against which the fixed stop 11 abuts. The distance between the ledge stop surface 120 and the parting plane T is to be dimensioned so that it corresponds to the light measure, which is achieved by suitable dimensioning of the stencil length.

After the error compensation method, the deviation of the length dimension of the bar is determined by the actual length dimension, the template 6 is adjusted by the adjusting screw 60 is rotated by the distance corresponding to the deviation from the template 6 and in and so the information about the deviation saved with the template 6. It will be clear to the person skilled in the art that with each subsequent cutting of the strips after the length to be taken by a strip has been removed from the scanning device 1 and the scanning device 1 has been inserted into the fixing recess 40, the distance between the power stop surface 120 and the parting plane T now becomes Corrected Längenmaß corresponds because the fixed stop 11 is now supported on the now adjusted template 6 on the base stop 42.

The separating device 3 for carrying out an angular cut at the ends of the strips 5, 5 ', 5 "has a first pivoting arm 7, which is pivotable about a first axis 70 oriented in principle parallel to the parting plane 70. The first pivoting arm 7 is relative to the parting plane T. in the plane defined by the base plate 4 and extends transversely to the dividing plane T. The separating device T further has a fixed with respect to the parting plane first bar stop 73. The first pivot arm 7 and the first ledge 73 lie on different sides of the parting plane A clamping device K for clamping the strip on the first pivot arm 7 is provided on the first pivot arm 7. The clamping device K has a clamping arm 75 which can be pivoted about a third axis 74 and on which a first retaining plate 76 is fastened first pivot arm 7 is also one with the first Swivel arm 7 connected (not shown). Parallel to the first holding plate 76 arranged second holding plate. Between the two retaining plates extends transversely to the longitudinal extent of the first pivot arm (7) a (not shown) attached to the retaining plates clamping bracket which presses on the outwardly facing side of the bar. When the outer end 76 of the clamp arm 75 is moved toward the first pivot arm 7, the pivot arm 7 rotates about the third axis 74 and the clamp is pressed against the ledge and the latter against the first pivot arm 7. In this way, we fixed the bar 5 on the pivot arm 7 by clamping.

On the last body 50 'of the first pivot arm 7 applied Glashalteleiste 5' is a first angle section at a first intersection angle to the longitudinal axis of the bar 5 'perform. To perform the first angular cut, the strip 5 'is placed with a side surface on a perpendicular to the base plate 4 and extending transversely to the dividing plane T bearing surface on the first pivot arm 7 and with the front side on the first groin 73. Thereafter, the bar 5 is fixed immovably with respect to the first pivot arm 7 with the clamping device K. The first pivot arm 7 is pivoted by means of a provided on the base plate 4 first angle scale 43 in a position corresponding to the first cutting angle. Then, the first pivot arm 7 is locked by a locking screw in this position. Subsequently, the first angle cut is performed. The provided on the base plate 4 arcuate first guide groove 44 is used in cooperation with an engaging in the first guide groove 44, connected to the first pivot arm 7 first pin 71 of the improved guidance of the first pivot arm 7 in its pivoting movement.

The separating device has a second pivoting arm 8 which extends transversely to the dividing plane T and which surrounds a second axis 80 arranged parallel to the first axis 70 in a direction perpendicular to the dividing plane T arranged pivot plane is pivotable. The second pivoting arm 8 is used to carry out a second angle section following the first angle section, in which, for example, the rubber sealing lip 51, 51 ', 51 "is cut at a second angle of intersection The second strip stop 9 is slidably mounted in the axial direction of the second pivoting arm 8. The angular second strip stop 9 has an abutment leg 90 arranged transversely to the longitudinal extent of the second pivoting arm 8. In order to carry out the second angle section, the second pivoting arm 8 is secondarily provided by means of a second plate provided on the base plate Angle scale 45 is pivoted in a position corresponding to the second cutting angle and locked by a locking screw in this position.The strip 5 "is arranged with a side surface with a side surface on a perpendicular to the base plate 4 and extending transversely to the parting plane T Anlagefl che second swing arms 8 and applied with the resulting in the first angle section inclined surface on the front side of the strip base body 50 "at the stop leg 90th The second strip stop 9 is then displaced in the longitudinal direction of the second pivoting arm 8 and brought into a desired position, in which the strip 5 "lying with the end face on the second stop leg 9 is in the desired position with respect to the parting plane T. Finally, the second angle cut becomes carried out.

The mentioned target position of the strip 5 "is the position in which the boundary edge at which the first inclined surface and the second angular section on the end face of the rubber sealing lip 51" second inclined surface abut one another, is in principle aligned flush with the parting plane T.

The provided on the base plate 4 second guide groove 46 is used in cooperation with an engaging in the second guide groove, with the second pivot arm 8 connected second pin 81 of the improved guidance of the second pivot arm 8 in its pivotal movement.

In an arcuate third guide groove 47, a first guide member 82 is slidably guided by means of a third pin 83 engaging in the third guide pin 83 and fixable at a selectable point with respect to the base plate 4. The first guide element 82 has a first guide element 84 which tapers in the direction of the second pivot arm 8 in a V-shaped manner, as a result of which a V-shaped section 85 is formed. The first guide element 84 is movable relative to the second pivot arm 8 in the axial direction and fixable in a selectable position with respect to the parting plane T. At the first guide element 84 a perpendicular to the base plate 4 aligned guide pin 86 is attached. On the second pivot arm 8, a second guide element 91 is provided, which is connected to the second ledge stopper 9. When the second pivot arm 8 is moved towards the first guide member 82, the guide bolt 86, which is fixedly connected to the first guide member 84 previously fixed with respect to the parting plane T, engages with the guide recess 92 complementary to the V-shaped portion at the second one Guide member 91, wherein an inwardly facing sliding surface 93 of the second guide member 91 slides along the peripheral surface of the guide pin 86, whereby the second guide member 91 and consequently connected to the second guide member 91 second ledge stop 9 are deflected in relation to the second pivot arm 8 axial direction , With the aid of an adjustment setting, the last stop 9 can be positioned in the axial direction such that the second ledge stop assumes the desired position when the guide pin 86 bears against the inner edge of the guide recess 92, which is complementary to the circumferential surface of the guide pin 86.

The mirror-symmetrically arranged to the first guide member 82 second Guide member 82 'is consistent with respect to its operation with the first guide member 82 and is therefore not explained in detail.

The stop screws 77 serve as a stop for the first pivot arm 7 in certain cutting angles corresponding stop positions.

Claims (23)

Method for tailoring strips (5, 5 ', 5 "), wherein in the method the lengths (L) to be taken up by the strips (5, 5', 5") between a first edge (22) and a second edge ( 23) in particular window or door profiles removed and the strips (5, 5 ', 5 ") are cut from the measurement results,
characterized,
that during an initial comparison an error compensation method is carried out with the following steps: a) scanning the length between the edges (22, 23) of the profile by means of a scanning device (1), b) cutting a strip to the length dimension removed by the scanning device (1), c) determining the deviation of the length measure of the strip from the actual dimension, and d) storing the information about the deviation by means of an information memory, whereby in each successive measuring operation the actual measurement result of the length scan is corrected with the value of the deviation and then the bar is cut to the corrected length measure. Method according to claim 1,
characterized,
that step c) comprises the substeps: ca) applying a first end of the bar to the first edge associated with the first end cb) measuring the distance between the second end of the bar and the second edge associated with the second end. Method according to claim 2,
characterized,
that step cb) is performed by a contact method. Method according to claim 3,
characterized,
that the contact method with a ruler or a caliper is performed. Method according to one of claims 1 to 4,
characterized,
in that the method is carried out with the aid of a scanning device (1) which comprises a carrier rail (10) with a fixed stop (11) fixedly attached to the carrier rail and a scanning stop (12) displaceably mounted on the carrier rail, wherein the length dimension (L ) the fixed stop (11) on one of the edges (22) applied and the scanning stop with the other edge (23) brought into abutment and the scanning stop (12) is secured in its abutment position against displacement relative to the support rail (10). Method according to one of claims 1 to 5,
characterized,
in that the scanning stop (12) or the fixed stop (11) is connected to a strip stop surface (120) for applying an end face of the strip, wherein the scanning device (1) is fixed in such a way that the distance by means of a fixing device provided on the separating device (3) between the parting plane (T) and the ledge stop surface (120) in the case of the error compensation method corresponds to the not yet corrected length dimension and with each subsequent measuring operation to the corrected length dimension. Method according to one of claims 1 to 6,
characterized,
in that the fixed stop (11) or the scanning stop (12) has the bar stop surface (120) and the fixed stop (11) or scanning stop (12) having the bar abutment surface (120) indirectly via a template (6) to a relative to the parting plane (T) stationary base stop (42) of the fixing device is applied, wherein the template (6) by means of adjusting means (60) is variable in length and storing the information about the deviation by changing the length of the template (6). Method according to one of claims 1 to 7,
characterized - characterized
the method comprises at least one angle cut on at least one of the ends of the strip. Method according to claim 8,
characterized,
that in the error compensation method, the one or more angle cuts are performed, wherein the one or more angle cuts after step b) and before step c) are performed. Method according to claim 8 or 9
characterized,
that at least one of the ends of the strip, a first angle section at a first intersection angle to the longitudinal extent of the strip and a second angle section following the first angle section is performed at a second intersection angle to the longitudinal extent of the strip. Method according to one of claims 8 to 10,
characterized,
in that the separating device (3) has a first pivoting arm (7) which is pivotable relative to the parting plane (T) in a pivoting plane arranged in principle perpendicular to the parting plane (T), and
in that holding means for holding the strip are provided on the first pivoting arm (7), the strip being provided with a side face on the first pivoting arm (7) and held fixedly with respect to the first pivoting arm (7) by the holding means, the first pivot arm (7) is pivoted to a position corresponding to the first cutting angle, and then the first angle cut is performed. Method according to claim 11,
characterized,
in that the separating device (3) has a second pivoting arm (8) pivotable relative to the dividing plane (T) in a pivot plane arranged perpendicularly to the parting plane (T), wherein in the region of the end of the second pivoting arm (8) facing the parting plane (T) a second strip stop (9) is displaceably mounted in the axial direction with respect to the second pivoting arm (8),
wherein the second strip stop (9) has a stop leg (90) against which the end face of the strip can be applied, wherein for performing the second angular section of the second pivot arm (8) pivoted to a position corresponding to the second cutting angle, the strip with a side surface on second stop arm (8) is displaced in the longitudinal direction of the second pivot arm (8) and brought into its desired position, in which the stop leg (90 ) fitting strip is in the desired position with respect to the parting plane (T) and then the second angle section is performed. Separating device for cutting workpieces, in particular for carrying out the method according to one of claims 1 to 12,
characterized,
in that the separating device (3) has a first pivot arm (7) to which the workpiece to be cut can be applied, wherein the first pivot arm (7) is pivotable relative to the parting plane (T). Separating device according to claim 13,
characterized,
in that the first pivot arm (7) can be pivoted about a first axis (70) arranged in principle parallel to the parting plane (T), in a pivot plane arranged in principle perpendicular to the parting plane (T). Separating device according to claim 13 or 14,
characterized,
in that holding means are provided on the first pivoting arm (7) with which the workpiece on the first pivoting arm (7) can be held firmly in relation to the first pivoting arm (7), wherein the holding means are preferably in the form of a clamping device (K) , Separating device according to one of claims 13 to 15,
characterized,
in that the separating device (3) has a first strip stop (73) which is fixed relative to the parting plane (T), the first pivoting arm (7) and the first strip stop (73) lying on opposite sides of the parting plane (T). Separating device according to one of claims 13 to 16,
characterized,
in that the separating device (3) has a second pivoting arm (8) which can be pivoted relative to the parting plane (T) and to which the workpiece to be cut can be applied. Separating device according to claim 17,
characterized,
in that the second pivoting arm (8) can be pivoted about a second axis (80) arranged in principle parallel to the first axis (70). Separating device according to claim 17 or 18,
characterized,
that facing in the region of the parting plane (T) end of the second pivot arm (8), a second trim stop (9) is provided which is mounted axially displaceably on the second pivot arm (8) in relation to the second pivot arm (8). Separating device according to claim 19,
characterized,
that the second strip stop (9) has a stop leg (90) against which the end face of a strip can be applied. Separating device according to one of claims 17 to 20,
characterized,
in that second adjusting means are provided in connection with the second bar stop (9) on the second pivot arm (8), which interact with pivoting of the second pivot arm (8) with first adjusting means provided on the separating device (3) such that the second bar stop ( 9) is automatically placed in its desired position when the second pivot arm (8) reaches a certain angular position. Separating device according to claim 21,
characterized,
in that the first adjusting means comprise a guide bolt (86) which is capable of being changed in relation to the second swivel arm (8) in the position variable with respect to the parting plane (T) and in that the second adjusting means comprise a second guide element (91) the second strip stop (9) is connected and at least one sliding surface (93), wherein upon pivoting of the second pivot arm (8) on the guide pin (86) to the outer surface of the guide pin (86) and the sliding surface (93) come into contact with each other and sliding against one another, wherein the sliding surface (93) is formed such that the second strip stop (9) due to the sliding of the sliding surface (93) on the outer surface of the guide pin (86) undergoes a deflection, said strip stop (9) by means of a Adjusting adjustment in the axial direction can be positioned so that the second bar stop (9) assumes its desired position when the guide pin (86) at an inner edge a Leitausnehmung (92) of the second guide element (91). Separating device according to one of claims 13 to 22,
characterized,
that the separating device (3) comprises a circular saw.

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