SE514287C2 - Ways to set the machining parameters of a machine - Google Patents

Abstract

A method for setting the working parameters of a machine (1) in relation to a workpeice (2), the outer edge (2) of which, in relevevant cases with adjacent portions, is to be worked by the machine. The method includes insertion of the said workpiece (2) to the machining position (B) of the said machine (1) before setting of the working parameters of the machine. In the said machining position (B) sensing means (3, 4) are advanced towards the said workpiece (2), the said sensing means (3, 4) being arranged to sense and record the outer edge (2a) of the said workpiece (2) in respect of position on either side of the said machining position (B). Thereafter the said machine (1) is moved in a controlled manner together with the said workpiece (2) or the said sensing means (3, 4) with its or their recorded values or alternatively only with its or their recorded corresponding values to a second position (I) which is more easily accessible to the machine operators than the said machining position (B). The working parameters of the machine (1) are then set or adjusted manually by the machine operators to correspond to the workpiece and the machine (1) is thereafter moved in a controlled manner to the machining position (B) to perform working of the workpiece (2).

Description

ZS 30 35 40 45 SO 514287 2 machining obstacle in the way of operating personnel when operating and adjusting the other machining machine.

The present invention aims to reduce or completely eliminate the above problems by simplifying and facilitating the possibility of setting the machining parameters for a given workpiece.

The above object has been solved in the method according to the present invention mentioned in the introduction to the introduction by applying to said workpiece in the machining position of the machine or alternatively sensing means, which are arranged to sense and register the outer edge of said workpiece, where appropriate also adjacent parts, with respect to position , on either side of said machining position, that said machine is subsequently moved in a controlled manner together with said workpiece - if appropriate - or with said sensing means with its or their registered values or alternatively only with its or their registered, corresponding values to a second position, which is more or more easily accessible to service personnel than said machining mode, after which, if applicable, said workpiece - if appropriate - or a smaller part of said workpiece or a part corresponding to said workpiece with identical outer shape contacts or is brought to k contact with the registered values of said sensing means or set the corresponding said registered values, after which the machine's processing parameters are manually set and -adjusted by the service personnel corresponding to the workpiece and said sensed values, and by the processing machine then returned to said machining process other workpieces having an edge shape identical to the outer edge of said workpiece.

A particularly advantageous embodiment according to the present invention comprises that said machine with associated sensing means with its or their registered values is moved articulated from the machining position to the second position, especially if the machine is rotated about a substantially vertically aligned axis, which may be located at a distance from the machine, and if said rotation about said axis is performed about 90 ° from the machining position. Particularly simple and inexpensive is a method of implementation if interpreters are used as sensing means, which are applied manually or automatically to the workpiece from the side of said machine which is turned from the machining position of the machine.

The invention is described in more detail below in connection with the accompanying drawing, the fi g. 1 shows a side view of the type of belt sander and plaster as described, for example, in the above-mentioned Swedish patent but supplemented according to the present invention and fi g. Fig. 2 shows a top view of the belt sander etc. according to Fig. 1 in two positions, one position B indicated by substantially solid lines and the other position I with dashed lines.

The belt slip illustrated in fi g. 1 and 2 are provided with a continuous, not shown in more detail in the drawing, sanding belt 7 which is intended to machine a workpiece 2, as is further indicated in the view from above according to Fig. 2. Said workpiece. 2 may be a large disc intended to be machined on one side or the edge or on two mutually parallel edges or sides of a respective two opposite machining machines or may be an elongate profile intended to be machined on one edge or side or on two mutually parallel edges or sides of one and two opposite processing machines, respectively. In all cases it is more or less difficult or cumbersome to access and set the parameters of the processing machine and - the machines, for example belt tension, belt alignments and belt position to the workpiece 2, application directions and / or position for one or fl your printing shoes, change of shape on printing shoes , change of sanding belt, etc. and this difficulty is primarily due to the fact that the shape that the workpiece 2 is intended to be given by means of the processing machine or machines depends to a large extent on how such parameters are set and which profile said printing shoe and shoes are designed. with and can only be selected and set with good accuracy in close relation to the actual workpiece 2, which the latter, however, constitutes an obstacle (= is in the way) for the service staff as it wishes to make the necessary adjustments and adjustments. Even worse is the accessibility to the respective machining machine if the workpiece 2 is passed through with machining on both edges of this 2 at the same time it is desired to be carried out, especially if the machining machines were also placed opposite each other, which relationship may be desirable for your different reasons. In each case, each machining machine also - in addition to the workpiece 2 - stands in the way of setting and adjusting the other machining machine. The above applies to virtually any type of processing machine and the present invention is applicable to most types of processing machines, although only belt grinding machines are specifically mentioned here.

I ñg. 2 shows a belt sander 1 seen from above in a machining position marked with B with solid lines and in a setting position marked with dashed lines. As can be seen from the machining position B for, for example, one side edge 2a of a larger disk 2, the large disk 2 in itself constitutes a difficult obstacle when it comes to accessing and setting the machining parameters of the belt sander 1 and from behind - seen from the left in Fig. 1 - the machining machine 1 own rear, height-adjustable pillars and the belt sander itself obstruct the way for the service personnel to be able to perform a correct tuning of the belt sander 1 towards the current side edge of the workpiece 2 in question. In other words, all fine adjustment and adjustment of the processing machine 1 is relatively a large workpiece 2 difficult to carry out.

In the case of smaller workpieces 2, on the other hand, if desired or suitable, the workpiece 2 can be held, for example by means of negative pressure holders not shown in the drawing, relative to the processing machine 1 when moving it to a setting position marked with I in Fig. 2.

According to the present invention, the belt sander 1 has been provided with interpreters 3, 4, which are arranged to be displaceable by means of, for example, threads relative to the belt sander 1, as indicated in the rear - to the left according to Fig. 1 - 10 15 20 25 30 35 40 45 50 287 4 the ends of the interpreters 3, 4, and which are manoeuvrable from the back of the belt sander 1 - from the left according to fi g. 1- to abut against the side edge 2a of the workpiece 2 in its machining position B. Said interpreters 3, 4 are located on either side of the machining part 7 of the belt sander 1 and are advantageously provided with suitable recesses at their ends so that the side edge 2a of the workpiece 2 is given a distinct position in these. These interpreters 3, 4 are adjusted manually from the back of the belt sander 1 via said threads in the intended machining position B for the workpiece 2. Alternatively, such interpreters can of course be replaced with corresponding edge sensors of another type, for example photocells with counters, light curtains etc., if desired or justified. The essential thing with such interpreters 3, 4 is that they can determine the position of the workpiece 2 relative to the machining machine 1 in machining position B to the required extent, after which this position designation is fixed relative to the machining machine 1.

After such a position determination of the workpiece 2 relative to the processing machine 1, the latter 1 is moved together with the position values of said interpreters 3, 4 to a position which in Fig. 2 is marked with I and is called the setting position. The processing machine 1 and its interpreters 3, 4 with set values are in this position I marked by dashed lines.

In this example shown, the movement from machining position B has been carried out in that the machining machine 1 is rotatably arranged about an axis 6, which is marked with a cross in fi g. 2 and said shaft 6 runs perpendicular to the plane of the paper according to Fig. 2. Said axis of rotation 6 is advantageously located near one side of the processing machine 1. The rotation indicated here is marked with the dotted line 9 and constitutes about 900 but can of course be made larger or smaller depending on the space available behind the machine 1.

After this rotation to position setting I, a smaller part 5 of a workpiece 2 or a corresponding, small part with the same side edge as the workpiece 2 has and to be machined is moved to the position indicated by a dotted arrow 8 and this position is determined by the position of the interpreters 3, 4 relative to the belt sander 1, whereby it becomes possible in position I to easily and easily access the machining parameters of the belt sander 1 in relation to the part 5, which in this case symbolizes the large workpiece 2.

The smaller part 5 must of course have a minimum extent corresponding to the distance between the ends of the interpreters 3 and 4 towards the workpiece 2, but of course in this case need not have a greater extent in a direction across the connecting line between the said interpreters 3 and 4, whereby the workpiece 2 size no longer has any significance in terms of accessibility for the operating personnel to set the parameters of the processing machine 1.

As an alternative to said rotation, of course, other types of movement of the processing machine or machines 1 etc. can be arranged with associated interpreters or other, corresponding sensors, of which, for example, lifting, lowering, tipping, reversing, etc. These types of movements can be provided. with per se known agents such as, for example, eider. g After setting the machining parameters of the belt sander 1 in relation to, for example, the side part of the smaller part 5 in 514 287 5 in position setting I, the smaller part 5 is removed from the machine 1 and this 1 is moved - in this case rotated about the shaft 6 - back to the machining position B, after which the machine 1 is ready to start machining the large workpiece 2 and other workpieces to be provided with identical side edge as the workpiece 2.

When using several machining machines 1 etc. for, for example, machining of opposite side edges of the workpiece 2, all machining machines 1 etc. are advantageously made movable as above so that they can be set in terms of machining parameters in other positions than in their associated machining positions.

Claims (5)

10 15 20 ZS 30 35 40 45 SO 514 287 6 Patent claims A method of setting machining parameters of a machine (1) in relation to a workpiece (2), the outer edge (2a) of which, if applicable with adjacent parts, is to be machined by the machine, which method comprises inserting said workpiece (2) into said machining position (B) of said machine (1), characterized in that in said machining position (B) it is applied to said workpiece (2) or alternatively sensing means (3, 4) are activated, which are arranged to sense and register said workpiece (2). ) outer edge (2a), if applicable also adjacent parts, with respect to position, on either side of said machining position (B), that said machine (1) is then checked for fl being moved together with said workpiece (2) - if appropriate - or with said sensing means (3, 4) with its or their registered values or alternatively only with its or their registered, corresponding values to a second position (I), which is more accessible to the service personnel l than said machining position (B), after which suitably said workpiece (2) - if appropriate - or a smaller part of said workpiece (2) or a part (5) corresponding to said workpiece with identical outer shape contacts or is brought into contact with said values of said sensing means (3, 4) or set corresponding to said registered values, after which the machining parameters of the machine (1) are manually set and -adjusted by the operating staff corresponding to the workpiece (2) and said sensed values, respectively, and that the machining machine (1) is subsequently moved back. to said machining position (B) for performing machining of said workpiece (2) and of other workpieces having an edge shape identical to the outer edge (Za) of said workpiece (2). 2. A method according to claim 1, characterized in that said machine (1) with associated sensing means (3, 4) with its or their registered values or alternatively with only its or their registered, corresponding values for fl surface articulated or controlled controlled on another suitable method from the machining position (B) to the second position (I). 3. A method according to claim 1 or 2, characterized in that said machine (1) with associated sensing means (3, 4) with its or their registered values or alternatively with only its or their registered, corresponding values is rotated about a substantially vertically aligned shaft (6), which is preferably spaced from the machine (1). 4. A method according to claim 3, characterized in that said rotation about said axis (6) is performed about 900. Method according to one of the preceding claims, characterized in that interpreters are used as sensing means (3, 4), which are applied to the workpiece (2) from the side of said machine (1) facing away from the machining position (1) of the machine (1). B).