DE2614107A1 - Hole cutter fine setting guide bush holder - adjusts angled bushing co-ordinating with four angle headed setting blocks - Google Patents

Abstract

A hole cutter guide bushing with inclined end faces, is laterally clearance held in a housing. Four-equi-spaced housing screws, parallel to the housing move angled setting blocks vertically. Bushing and blocks faces interact; blocks' vertical movement sets the bushing laterally, with fine adjustment. A reamer (18) bushing (20) and housing (22) locates against a workpiece (12). A co-ordinated screws pair (26) sets two angle headed (24k) and a grooved (24r) blocks (24) vertically restrained (20a) bushing. an end cover (30g) restrains the screws axially. An index mark (22mm) reads screws head graduations (26s). Another screw pair adjusts co-ordinately.

Description

Guide bush for tools

The invention relates to a guide bush for a while the machining rotating and axially displaceable tool, preferably a reamer, the guide sleeve being carried by a holder and for eliminating of spacing deviations in at least one perpendicular to its axial direction Coordinate direction is adjustable relative to the holder.

It is the object of the present invention to fix the guide bushing to make such that their readjustments to eliminate the deviations on the one hand without dismantling the guide arrangement from the machine and, on the other hand, also without Postprocessing whose structural elements can be carried out. This object is achieved according to the invention solved in that the guide bush on a flat, to the axial direction of the tool perpendicular surface of the holder is slidably seated, and that on each On the side of the guide bush an actuator is arranged lying in the coordinate direction is, which is adjustable in the direction of the guide sleeve and an inclined Has footprint that has a correspondingly inclined counter surface the guide bush cooperates.

In most processing cases, such arrangements have a It is necessary to eliminate deviations in distance in two coordinate directions. These further elimination is made possible according to other features of the invention, that the same in the second coordinate direction on both sides of the guide bush Actuators are arranged with en-either the sloping footprint of each in a coordinate direction arranged actuator or the mating surfaces of the guide bush are designed plane-parallel to the other coordinate direction.

In the preferred embodiment of the invention is between the Floor space of each actuator and the counter surface of the guide bush at least a rolling element, preferably a ball. This way there is friction Reduced to a minimum between the elements and thus a high level of ease of movement and accuracy in setting is achieved. It is also useful to use the footprint of the actuator and / or the mating surface of the guide bushing as a guide groove to train for the rolling elements.

According to another feature of the invention, it is particularly advantageous to make each actuator displaceable in the axial direction by means of an adjusting screw and to assign a line marking to this set screw, which is marked with a Holder cooperates. With suitable Division of the line marking it is achieved that the setting used to eliminate is achieved solely on the basis of the Marking takes place, so there is no need to use measuring equipment for the elimination In the following description, an exemplary embodiment of the invention is based on a drawing explained. 1 shows the guide bush with its holder in the Longitudinal section along line I-I of FIG. 2, FIG. 2 a partial cross-section along the line II-II of FIG. 1, FIG. 3 a view of FIG. 1 viewed from below, and FIG. 4 a Detail from Figure 1 in partial plan view.

In Figure 1, the table 10 is a machine tool not shown in detail shown, for fine machining a, for example, in the plate-shaped workpiece 12 provided, already pre-machined bore 12b to a certain finished size is used, the axis B of this hole a certain, exact distance to a Center in the same work piece, for example the axis A of a centering hole 12z must have.

The work piece 12 is for this purpose with its centering hole 12z placed on a correspondingly matching centering pin 14 of the work table 10, with a stop edge 12a against a stop pin stuck in the table 10 1o pressed and in this centering position via clamping means, not shown at the Table 10 clamped.

The finishing of the bore 12b takes place to the desired nominal size as shown with a rotating reamer 18, which. in a not shown Tool holder of the machine is clamped and from above in and through the hole 12b is performed. To guide the reamer 18, one usually uses one Guide bush 20, which is arranged in the following manner. It is a block-shaped one Holder 22 is provided, which with the help of Tialteelemente not shown during The machining is clamped immovably on the machine above the table 10 is. This holder 22 has an opening 22 a, which is central to the axis B, and one annular plane surface 22b lying perpendicular to the same axis. The guide bush 20 has an annular shoulder.20b which rests on the flat surface 22b. the Guide hole itself is designated by 20a.

There are four bores on the circumference of the central opening 22a of the holder 22 22c distributed evenly and running parallel to the axis B. In each bore 22c a cylindrical adjusting pin 24 is guided, on the one hand in a conical Head 24k ends. On the other hand, the pin 24 has a threaded hole 24g, in which engages a set screw 26.

Each head 24k has an arcuate flattening 24a on the circumference, whose curvature is adapted to the diameter of the inner bore 22i of the holder 22 is.

It is thus achieved that each adjusting pin 24 in the direction the axis B can be moved, but not rotatable about its own longitudinal axis is.

In each head 24k is a transverse to the axis of the pin 24, inclined groove 24r is provided.

The portion of the sleeve extending downward from the shoulder 20b 20 is conical in shape and has two parallel longitudinal grooves 20r each each transverse groove 24r of the pin 2 on. A ball 28 is located in each longitudinal groove 20r out, which is supported on the other hand in the transverse groove 24r.

The set screw 26 has a collar 26a and a head 26b, in which is a hexagon socket 26i for receiving an operating key known per se for the screw 26 is used. Over the heads 26b of all screws 26 is a cover plate 30 arranged with the aid of some countersunk screws 32 with the holder 22 is firmly connected. For each head 26b of the pin 26 is in the cover plate 30 a receiving bore 30a is provided which ends in a shoulder 30b. This paragraph forms an annular support surface for the collar 26a of the screw 26, whereby what is achieved is that the adjusting screw 26 is rotated, but not axially to the Halt he 22 can be adjusted.

It should be noted that a part of the circumference of each head 26b is exposed by a recess 30g on the circumference of the cover plate 30, so that a line marking 26s on the circumference of the head 26b and the collar 26a visible and relative to a mark 22m of the holder 22 is adjustable.

The angular distances of the graduation lines of the marking 26s are the Dimensions, thread pitches and angle inclinations on the adjusting elements in this way adapted that each division amount of the marking 2s a certain amount for the Displacement of the guide bush 20 in a coordinate direction corresponds. To the Operator is thus known that a division amount of the line marking a corresponds to a certain amount of adjustment.

For example, a division amount corresponds to the line mark 26s a displacement of 0.01 mm for the bush 20.

The device described is used in the following manner A work piece 12 is attached in the centering position on the table 10 and the hole 12b with; of the reamer 18 1 # finely machined. Then this work; s # tjjck 19 from Table 10 removed and with the help of known measuring means, the distance X of his determined on both axes A and B. Be it now suppose that the Distance determined by measurement larger than the nominal value by a certain amount is e.g. B. deviates by 0.02 mm from the target value. This means that you have the guide bush 20 must be adjusted by 0.02 mm to the right in this coordinate direction according to Fig. 1, in order to bring the distance X to the nominal value for the next clamped workpiece. The adjustment of the sleeve 20 in the coordinate direction takes place in the described Device by turning the adjusting screw 26 on the right according to FIG two division lines of the marking 26s counterclockwise opposite the Mark 22m must be adjusted, whereby the adjusting pin 24 on the right by a corresponding Amount is driven downwards. The two on the right move away Balls 28 by a small amount from their associated longitudinal grooves 20r and their positive engagement with the head of the sleeve 20 is released here.

It is now possible to adjust the adjusting screw 26 on the left according to FIG by the same amount, but in the opposite sense, i.e. by two To adjust the lines of the marking 26s clockwise. The left adjusting pin 24 is thereby pulled upwards, its transverse groove 2! # Takes the two assigned Balls 28 also upwards, which means that the balls 28 the whole sleeve 20 is adjusted by 0.02 mm to the right. Now the distance is between the Axes A and B brought to the target dimension X. The next work piece clamped on the table 12 is then fine-machined on its bore 12b at this exact target distance. During this adjustment, neither the position of the holder 22 of the guide bush had to be changed 20 still change the setting of the tool 18 in the coordinate direction.

It is easy to see that with the help of the other two adjusting pins 24 and adjusting screws 26, which are at the top and bottom as shown in FIG. 2, the guide bushing 20 can also be adjusted in the other coordinate direction in an analogous manner, so that an adjustment of the center distances in both coordinates with an unchangeable position of the holder 22 and can be done in a very smooth and rapid manner.

It should also be mentioned that instead of two to reduce friction provided balls also only a single between each adjusting pin 24 and the Guide sleeve 20 could be provided. They can also be used instead of Rugel of roles as a means of transmission is quite possible. In special cases, the rolling 7, wiscllenelemente 28 are also omitted at all and suitable inclined surfaces on the adjusting pin 24 and the guide bush 20 directly with one another in a form-fitting manner Intervention.

L e r s e i t e

Claims (7)

P a t e n t a n s p r ü c h e: 1. Guide bush for a during Rotating tool for machining and displaceable in the direction of travel, preferably a reamer, the guide bushing being carried by a folder and for Elimination of spacing deviations in at least one direction perpendicular to the axis standing coordinate direction is adjustable with respect to the holder, characterized in that that the guide bush (20) is on a flat, to the axial direction of the tool (18) perpendicular surface (22b) of the old (22) is slidably seated, and that on there is no actuator (24) on either side of the guide bush in the coordinate direction is arranged, which is adjustable in the axial direction of the guide bush and a has inclined; end footprint (24r), which with a correspondingly inclined Counterflciche- (20r) cooperates on the guide bush. 2. Guide bush according to claim ~ 1, for eliminating spacing deviations also in a second coordinate direction that is perpendicular to the axis, characterized in that on each side of the guide bushing in the second coordinate direction lierand another actuator (2 '#) arranged -i.st, the in axial direction the guide bush (20) is adjustable and a sloping surface (2 '#) with a correspondingly inclined # ggestell-Len # counter surface (20r) on the Guide bushing works together, the sloping footprint each in one Coordinate direction arranged actuator to the other coordinate direction is designed plane-parallel. 3. Guide bush according to claim 1, for eliminating spacing deviations also in a second coordinate direction perpendicular to the axial direction, characterized in that on each side of the guide sleeve (20) in the second A further actuator (24) is arranged lying in the coordinate direction, which in Axial direction of the guide bush is adjustable and a sloping surface has, with a correspondingly inclined counter surface on the guide bush cooperates, the inclined opposite surface of the guide bush to the other coordinate direction is designed plane-parallel. 4. Guide bush according to one of claims 1-3, characterized in that that between the footprint (24r) of each actuator (24) and the mating surface (20r) the guide bush ('0) has at least one rolling element, preferably a ball (28) arranged; is. 5. Guide bush according to claim 4, characterized in that either dafl the footprint of the actuator (24) and / or the counter surface of the guide bush (20) is designed as a guide groove (20r or 24r) for the rolling elements (28). 6. Guide bush according to one of claims 1-3, characterized in that that each actuator. (24) can be moved in the axis direction by means of an adjusting screw (26) is. 7. Guide bush according to claim 6, characterized in that the Adjusting screw (26) is assigned a line marking (26s) with a mark (22m) cooperates on the holder (22).