NO148394B - PROCEDURE FOR AA IMPROVING THE RE-CHARGING CAPACITY OF A HERMETIC CLOSED CELL INCLUDING A POSITIVE ELECTRODEMASS CONTAINING FINDLY MANGANDOXIDE - Google Patents

Description

Device for cutting burning of solid beam steps.

The invention relates to a device for

cutting burning of solid beam steps along a sawtooth-shaped cutting line for the production of lattice beams, e.g. according to patent no. 102,718.

With such devices, it is known to

guide the cutting torch along the fixed beam and to give it a transverse movement during the advancing movement. These two components of motion combine to form a resultant that constitutes the desired cutting line.

It is also known to store a curve drum in a stand which is movable along the beam, in which curve drum a pusher engages to which the cutting torch is attached. During the forward movement of the stand, the drum constantly rotates and thereby gives the pusher an oscillating movement across the longitudinal axis of the beam.

However, such a device is possible

only use for a single beam size. However, the dimensions of the desired lattice beams are often changed, and new stands must therefore be built with drums of other dimensions, and this naturally causes significant costs. A significant disadvantage of the known device also consists in the fact that the advancing speed of the rack is constant, so that the cutting torch moves along the cutting line at a speed that is constantly changing step by step. Therefore, the quality of the cutting edges also differs in the individual locations.

According to the invention, these disadvantages are completely eliminated by

the arrangement of a regulating device for the stroke length of the pusher and one for the advancing speed of the rack.

In this way, it is possible to process beams of different sizes and with different cutting lines using a single device that can be adjusted for all applications. Conveniently, the pusher's stroke length is changed by inserting a coupling, and the advance speed is changed by the arrangement of an adjustable gear.

According to the invention, it is an advantage to arrange the coupling under the curved drum and to store it pivotably about a vertical shaft, and to make the distance between the shaft and the drum changeable, whereby it is appropriate that the drum is adjustable in the rack wall in relation to the shaft of the coupling .

A further feature according to the invention consists in the rack being equipped with an exchange for different advancement speeds. Hereby, the invention is additionally characterized by the design of the exchange in the form of an adjustable exchange, which regulates the speed of advancement in steps and gives the cutting torch a constant speed along the cutting line.

In a variant according to the invention, the cutting torch's stand can be connected to a special towing carriage, which is movable along the flanges of the massive beam. In any case, it is advantageous to design the stand wheels on one side as guide wheels and on the other side as rollers. In this way, the stand is adapted to all desirable beam sizes without having to change wheels.

These and other characteristics according to the invention are shown schematically in the drawing in the form of an exemplary embodiment. Fig. 1 shows a longitudinal section through the cutting device.

Fig. 2 shows a floor plan.

Fig. 3 shows a side view.

Fig. 4 shows a variant of the device in side view.

According to fig. 1, the longitudinal movement of the driving stand 1 occurs with the help of the drive 2, which rolls on the stationary rack 3. One roller 4 thereby centers the driving stand 1, while the other roller 5 is designed in the form of a roller, or smooth roller, so that different beams with different step heights can be processed in the same device. The drive 2 is driven by a motor, not shown, which is arranged in the stand 1. The beam 6 is clamped to the base by means of the clamping blocks 7. Bearing walls 8 are attached to the driving stand 1, where the drum 9 is rotatably stored. This drum 9 is driven over the sprockets 10, 11 depending on the forward speed of the driving stand 1. In the outer surface of the cylinder 9 there is a guide groove 12, in which groove a sensor pin 13 slides, which is connected to the cutting device 14.

There are numerous variants of this design example. It is e.g. possible to guide the running stand 1 on a rail system placed next to the I-beam 6. Hereby, the separating tool 14 can be placed on a laterally projecting slide. On the other side, one has the option of arranging the separation tool 14 on a traverse running over the beam 1 at the end surfaces of which there are arranged supports which are mounted on a traveling stand. There may also be a drive device which, in the form of a push carriage, pulls a trolley that carries the control device for the transverse movement of the separator. The tractor may be equipped with an engine that drives friction wheels.

Fig. 2 shows a schematic plan of the device according to fig. 1, and it is assumed here that the sensor pin 13 is located on a lifting arm 16, which is rotatably stored in the hinge 17. In this case, the separation device 14 is located on a slide 18, which is moved across the longitudinal axis of the beam by means of the latch 19.

As also fig. 3 shows there is wood

this embodiment according to fig. 2 possible to vary the dividing line 20 in spite of the given guide path 12 in that the storage of the drum 9 can be shifted in the slot 21 1 the side walls 8, so that in the event of a change

of the distance between the guide pin 13 and the lifting arm bearing 17 and the resulting rotation angle variation, a change in the step height to the dividing line 20 is achieved. For this reason, the chain guide wheels 22 are arranged, which wheels, despite the preposition of the drum 9, ensure engagement of the chain wheels 23 In order for the step length t to the dividing line 20 to also be able to be changed, it is recommended to insert a step transmission, respectively a stepless transmission in the transmissions 11, 22 and 23, so that the desired period length t can be achieved. Such exchanges are known, and therefore they are to facilitate the overview in fig.

2 and 3 omitted from the drawing.

Instead of shifting the bearing of the drum 9, the entire stand 8 can also be shifted in relation to a fixed bearing point 17 placed on another stand, so that it is also possible to adjust the bearing 17. The guide pin 13 must thereby also be adjustable in the lifter 16.

According to the invention, several I-beams 6 can also be arranged next to each other and attached to the flanges of auxiliary beams. All beams are fixed to the base. On the drivable frame 1 is the motor which drives the frame 1 via the drive 2 and the rack 3. In the frame 1, a pusher 18, to which the cutting torch 14 is attached, is laterally movable. The gas bottles necessary for the cutting torch 14 are placed on the frame 1. The impact movement sideways can also be provided with the electric motor which drives a rack and thus the pusher 18 via a drive, which motor is periodically switched on. It can be assumed here that there is a towing contact rail in the rack along which both motors' towing contacts slide. The motors can thus be controlled remotely, and it is recommended to use synchronous motors. While the advance motor is constantly running, the motor for the pusher can be regulated by means of an electric switch to forward movement, standstill, backward movement and standstill again. Furthermore, the speed of the advance motor can be regulated so that during the ad-splitting along the straight sections m and n in the cutting line 20, the speed is reduced, so that the separating tool 14 has a constant speed along the really backward path along the dividing line 20. This

speed regulation can also happen over

an exchange.

In fig. 4 it is shown how in a

driving stand 24 is equipped with a traction motor

25, which firstly drives the rack wheels 26 and secondly drives the drum 9.

The drum 9 corresponds to the one shown in

fig. 1. It is rotatably stored in a further

driving rack 1, where the pusher 18 together

with the sensor pin attached to the pusher

13 is led to be movable across. Both driving racks 1, 24 can be guided on the beam 6 as

cut out or on separate rails.

Claims (8)

1. Device for cutting burning off massive beam cutter along a sawtooth-like cutting line for the production of lattice beam beams consisting of a stand movable along the solid beam beam with a curve drum stored in the stand, whose curve profile can be transferred to a pusher that carries the cutting torch, characterized in that an adjustable exchange (16, 19) for the stroke length of the pusher (18) and one (10, 11) for the advance speed of the rack (1). 2. Device according to claim 1, characterized in that the adjustable transmission for the pusher (18) consists of a coupling (16) stored in the stand (1) and driven from the curve drum (9) 3. Device according to claim 2, characterized in that the coupling (16) is arranged under the curved drum (9) and is rotatably stored about a vertical shaft (17), whereby the distance between the shaft (17) and the drum (9) is changeable. 4. Device according to claim 3, characterized in that the drum (9) is adjustable in the stand wall (8) in relation to the shaft (17) of the coupling (16). 5. Device according to claim 2, characterized in that an exchange for different advancement speeds is arranged in the rack. 6. Device according to claim 5, characterized in that the exchange is an adjustable exchange which regulates the advancement speed in steps and gives the cutting torch a constant speed along the cutting line. 7. Device according to claim 1 or the following, characterized in that the stand for the cutting torch is connected with a special towing carriage which is movable on the flanges of the solid block. 8. Device according to claim 1 or the following, characterized in that the stand wheels are designed on one side as guide wheels (4) and on the other side as rollers (5).