DE469215C - Device for dividing a continuously moving tube or rod made of glass - Google Patents

Description

Device for dividing a continuously moving pipe or rods made of glass. The invention relates to such devices for cutting up of a continuously moving, still hot, but already rigid pipe or Rod of glass into individual sections, in which a cooled demolition tool lightly applied to the workpiece at certain time intervals and the division the same is thus primarily caused by abrupt temperature changes.

The invention aims to divide the workpiece with large To bring about safety and without scratching. For this purpose there is the chilled Demolition tool is not, as has been the case up to now, made of steel or other solid and tight seals Material, but in a new way from one: also very hard, but also at the same time very porous material. Such material is in technology in the form of porous sintered carborundum or similar porous sintered carbides, Nitrides and oxides are widely available. The porosity of the new demolition tool causes a constant all-digit impregnation of the same with coolant and a constant guiding of the latter to the contact edge of this tool. the The cold capacity of the tool is thus better maintained and less light on the contact edge of the tool affected by the hot workpiece. the The hardness of the tool has the additional advantage that when it is put on the same also at the same time a fine one at the place where the workpiece is placed Notch is created that causes the workpiece to jump through due to temperature changes supports. To even after the tool has worn out and in different cases thick calibers of the workpiece to be cut a safe, not too hard placement of the demolition tool, the latter is elastic on its bearing arm, for example by means of a rubber hose. The bearing arm can only open and from movable or at the same time, as is known per se, in the feed direction of the workpiece and be movable in the opposite direction. With only moving up and down The elastic fastening of the tool is particularly advantageous when the bearing is poor, then when there is contact between the tool and the workpiece, a certain if is also only possible for a very short time while the tool moves with it. It can thus Scratches less easily on the moving workpiece by grinding the resting one Tool can be formed.

In the drawing is an embodiment of the new device in Fig. i in side view, partly in section, in Fig. z in front view and shown in plan in Fig.3.

The new device consists of one mounted on a rod fork-shaped holder a, which is secured by a thumb q on the axis 3. under Interposition of a vertically guided pusher 5 in equal time segments is raised. The lowering of the holder 2 takes place after Passing by of the thumb q. on the handle 5 by its own weight. On a pin protrusion 6 of the holder a is attached by means of a clamp 7, a rubber hose 8, on whose front end by means of a clamp 9 of the pin io one. nasch open at the top Box i i is clamped on. The box i i has prismatic ones. Shape and is after tapered at the bottom. The box i i has one provided with openings 12 Bottom 13. Below this is in extensions 14 of the box side walls, the demolition tool pinched, which consists of a coherent hard and very porous body 15, consists of porous sintered carborundum. This Absprengkbrper 15 has prismatic Shape and runs down into, a sharp, blade-like contact edge 16 from. The workpiece to be cut, in this case a. Glass tube 17, is transverse to the contact edge 16 of the tool 15 is moved and supported in the area thereof by a rail 18.

When operating the device, the tool 15 is kept cool at all times, which can be done simply by the fact that after the previous impregnation of the Tool constantly coolant, for example by means of a drip device or a fine nozzle into which box i i is introduced. The box i i still with moistened fiber material, such as wool, for better distribution of the cooling liquid filled over the whole porous tool.

When the holder z is lowered, the cutter-like edge 16 of the comes Wexlczeuges 15 with the hot tube 17 in contact and .generated in this one fine notch. At the same time, however, there is also the strong cooling effect of the coolant flowed through body 15 or fine liquid particles of the cooling liquid itself to the effect, so that the tube 17 splinterless at the finely notched contact point jumps through.

In the case of tubes or rods with a larger diameter, from about 10 mm onwards upwards, it is advisable to use the explosive tool i 5, as is known per se, while of the detonation process in the same direction and at the same speed as to move the workpiece 17 so that a relative rest state between the tool and Workpiece or a sufficiently long contact between the two occurs. This can for example take place in that the holder a together with the support rod i, axis 3, thumb ¢ and pusher 5 is stored on a slide, which at certain time intervals moving forward and back to the starting position each time the tool is lifted is moved back.

In the case of thinner tubes or rods, however, the longitudinal movement ceases to exist of the tool only an up and down movement of the tool takes place. Elial scratching can: not occur on the workpiece to be cut, because the tool is somewhat flexible in the feed direction through the rubber hose 8 is. There will be no contact with the workpiece due to friction, albeit only for a very short moment, taken away, but enough to make a good one Ensure jumping through of the workpiece. With the tool only moved up and down As is easy to understand, particularly high cutting teeth can be achieved.

Shortly behind the rail 18 serving as the workpiece support, the pipe or pipe cut off by abrupt changes in temperature and supporting notch effect Rod parts in a collecting channel, not shown. If necessary, it can be put on 'of the tool also take place shortly after the' rail 18, so that through the Overhanging free end of the pipe or rod to be cut on the AufsetzsteUe there are still tensile stresses that make jumping through easier.

Claims (1)

PATENT CLAIMS: i. Device for dividing a continuously moved on, still hot, but already rigid tube or rod made of glass in individual sections by means of a cooled cutting tool, characterized in that, that the cutting edge of the tool is made of hard and at the same time very porous, a cooling liquid absorbent substances, such as porous sintered carborundum. a. contraption according to claim i, characterized in that the tool (15) at its known Way up and down movable, possibly also along the workpiece and forth movable bearing arm (a) is elastically attached. 3. Device according to claim i and a, characterized by a tool in the form of a box open at the top (1 i), under the perforated bottom (12, 13) one made of hard and porous materials existing cutting edge (15) is attached.