DE602752C - Procedure for aligning polygonal blocks in a block lathe - Google Patents

Description

The alignment of a polygonal block in a block lathe prepares relatively great difficulties because there is no running point and the lathe must therefore be guided by the corners of the block.

It happens: it often happens that the rounding of the corners are unequal and the one above the corners exactly rotating block with the side surfaces eccentric in the machine sits. It is therefore necessary to align the block with the even sides, for example with the help of a scriber attached to a stand, the block in the machine always by one of the page number of the Polygon must be rotated corresponding angle.

With polygon turning, the support makes a back and forth movement that together creates the polygon with the rotation of the workpiece. The raw cast block must so that the support is accurate its outline follows, assume a certain angular position on the faceplate. There The lost heads of the blocks are often cast crookedly or not according to that Block angular, but rather cone-shaped with a round cross-section, is an alignment of the Block on the polygonal shape that the lathe creates after alignment True running necessary.

In order to eliminate this cumbersome and time-consuming measure and to facilitate the alignment of the polygonal blocks, it is proposed according to the invention that the ^{block provided with a Kömerhole outside the lathe by means of a drilling device 1} firstly using a removable centering device such as a round block, which is seated on the block sides to align on concentricity and then using the same centering device to adjust the clamped block to the reciprocating movement of the support by turning it with respect to the drive of the rotary form support.

According to the invention, a slid over the tailstock end of the block arrives Drilling jig for use with adjustable, resting on the block sides Guide pieces and a guide bush for drilling the center punch hole exactly centric to the block sides is provided.

As such, drilling devices are used for the centric drilling of center holes in Work pieces already known. However, these known devices are only suitable for. Workpieces with a circular and not also for those with an angular cross-section (polygonal blocks) , for which the devices according to the invention are mainly intended and are designed accordingly.

The drawing shows the devices for performing the new method for a square block shown, namely shows

Fig. Ι a square block with an attached drilling device and with an attached Centering ring.

Fig. 2 'is a view of the drilling device and
ίο Fig. 3 a view of the centering ring.

Fig. 4 shows the square block lathe with the block clamped in elevation and Fig. S in plan.

Fig. 6 is a view of the faceplate of the lathe and

Fig. 7 is an enlarged view of the gearbox for adjusting the steel to the Square shape.

The process for clamping the block is as follows.

Block 1 (Fig. 1) is placed on a suitable Stand 2 is placed and the drilling device is placed on the end of the block facing the tailstock. The drilling device consists of the body 3, which is provided with four guide pieces 4. These guide pieces are set so that they are equidistant from the center of the drilling device are away. The hardened drill sleeve 5 lies in this center The whole drilling device is made of light metal. She is with two Handles 6 and is pushed onto the end of the square block. Since the Block is conical, this pushing on is easily possible. The drill bush S is now exactly centered on a circle whose tangents are the sides of the square are. Now, with a suitable tool 7, e.g. B. with a horizontal drill or a hand drill, the punch hole 8 drilled.

The centering ring (Fig. 3) is in two parts and consists of the two halves 9 and 10. It has similar guide pieces 11 as the drilling device. The centering ring will open the strong end of the block, which is to be clamped after the faceplate, is placed on it and closed. The ring is pressed onto the square block with the guide pieces, it is aligned such that each guide piece protrudes exactly the same distance from the outer circumference, which means Measuring tools or by means of scales attached to the device is determined.

After the drilling device 3 has been removed, the block is clamped in the machine (Fig. 4), the upper support is withdrawn and the block is aligned in the machine with the aid of the clamping claws and the attached guide ring. To facilitate this set-up, a foldable arm 12 (Fig. 5) is attached to the headstock or to the bed of the machine, which can serve as a support for the lathe operator's hand and which is provided with a dial gauge 13, \ velchei shows the deviations from the concentricity. This dial gauge is compared to the commercially available dial gauges with. a graduation of ¹ Z ₁₀₀ mm are provided, equipped with a relatively coarser scale, which is adapted to the desired accuracy of the machine.

Now that the block is running round, it is necessary to remove the side of the raw cast To bring the block with the square movement generated by the machine in agreement. Between the drives the face plate and the drive for the movement of the support is a gear according to Fig. 7 switched on. The location at which this gear unit is installed is shown in Fig. 4 and 5 to see. The transmission consists of a housing 14 which is firmly connected to the spur gear 15 is. The spur gear 15 sits loosely rotatably on the countershaft 16 of the headstock and drives one lying along the bed via various wheels 17, 17 ", 18 and 19 Shaft shaft 20, from which the transverse movement necessary for the square movement of the support is initiated by means of suitable templates (not shown). This is firmly wedged on shaft 16 Ring gear pinion 21, which drives face plate 23 via ring gear 22. Further is firmly keyed on the shaft 16 a worm gear 24. The end of the shaft is extended into the federal government 25, which is provided with graduation. The lid 26 of the Housing 14 is provided with a pointer. The worm 27 that goes into the worm wheel 24 engages is rotatably mounted in the housing 14. The worm shaft is carried out to the outside and with one! Square 28 provided. The faceplate (Fig. 6) carries between the Clamping claws a graduation 29. The face plate is therefore above the intermediate ones Gear firmly connected to the scale 25, while the transverse movement of the support takes place on the various counter gears and the wheel 15, which is fixed to the Housing 14 and the housing cover 26, so also with the pointer located thereon connected is.

When the pointer points to the zero point of the scale 25, the faceplate is at one certain, e.g. B. the vertical position of the claws in the correct relationship to the movement of support, d. H. a block clamped in the claws of the faceplate is included its corner point exactly to the zero point of the scale 29 of the faceplate. The on

the square block seated centering ring 9 and 10 carries a pointer 30 (Fig. 1 and 4) which is attached so that it touches the zero point of the scale 29 in the aforementioned position when it is advanced. The pointer always has a very specific position for the position of the block. If the block is rotated with respect to the face plate during machining in the claws, the advanced pointer on the scale 29 will also indicate a deflection from the zero point. The lathe operator must determine this deflection, which is indicated in Fig. 6 as about 3 °. So that the block is now in its correct position for the square movement of the support, it is necessary to adjust the scale 25 relative to the zero point on the cover 26 ^{by this 3 0 or by a corresponding length given by the transmission ratio.} This is done by turning the square 28 with a suitable key. If the pointer 30 on the scale 29 of the faceplate and the pointer on the scale 25 indicate the same size, the block is absolutely correct for the support movement. The ring 9, 10, which is also expediently made of light metal, is now removed from the square block by opening it up, and work on the machine can begin.

A block can be placed on the support pieces 2 (Fig. 1) while the previous block is still in the machine is processed. When the block comes into the machine, the punch hole is exactly centered to the sides and also the centering ring. So the lathe operator only has the block with the claws of the faceplate using the centering ring to align exactly like a round piece, then by means of the pointer 30 the rotation of the block relative to the Determine machine movement and by means of the edging 28 the same angle of rotation to be set on the scale 25. The work of setting up the machine while clamping the block is very short Time limited.

Claims (6)

Patent claims: i. Procedure for aligning polygonal blocks in a block lathe, characterized in that the outside of the lathe by means of a drilling device Block provided with a punch hole first using a removable one that rests on the sides of the block Centering device is aligned on concentricity like a round block, whereupon using the same Centering device by turning in relation to the drive of the form rotary support, aligning the clamped Block of the back and forth movement of the support takes place. 2. Device for performing the method according to claim I, characterized in that that one with adjustable guide pieces (4) resting against the block sides, over the tailstock end of the Block pushed drilling device (3) a guide bush (5) for drilling the center hole exactly centric to the Block sides. 3. Device for performing the process ens according to claim 1, characterized in that at the end of the headstock of the block exactly centric to the block sides by means of clamping pieces (ir) this adjacent split ring (9, 10) is placed. 4. Device for performing the method according to claim 1, characterized in that that for aligning the block on concentricity a hand rest that can be swiveled out independently of the support (12) is used, which can be provided with a dial gauge (13). 5. Apparatus for practicing the method according to claim 1, characterized in that ge indicates that between the drive of the face plate (23) and the drive (20) the reciprocating movement of the support a gear provided with a scale and pointer is switched on, which is an adjustment the transverse movement of the support in relation to the position of the faceplate by means of the worm (27) and worm wheel (24) permitted. 6. Device for carrying out the procedure according to claim 1, characterized in that the attached ring (9, 10) has one in the axial direction of the Blockes adjustable pointer (30), which is mounted on a faceplate Scale (29) shows the mutual rotation of the block and the face plate. For this purpose ι sheet of drawings