NO142357B - CARBON FIBER WITH A DIAMETER UNDER 30 M - Google Patents

Abstract

Carbon fiber with a diameter of less than 30 .mu.m made from mesophase pitch, and a process for its manufacture.

Description

Control device for paint spraying machines.

The object of the invention is a control device for automatic paint sprayers where the paint spray heads are displaceable by means of mechanical devices and where the parts to be processed, e.g. tin plates or other bodies with larger surfaces are passed past the color spray heads at the same time that the effect of the color spray heads is controlled depending on the input of materials into the machine.

There are known control devices for automatic paint sprayers where feeding a part to be processed into the machine engages the drive mechanism of the paint spray heads and at the same time controls the supply of compressed air to the paint spray heads by means of a cam disc which can be connected to the drive mechanism for the spray heads. The circumference of the comb disk is dimensioned in such a way and the comb is designed in such a way that after a part has moved around, the compressed air supply is closed and the color spray head's operation is switched off. When new input is made into the machine, it is put back into operation and the spraying process is restarted. The movement of the paint sprayer heads must correspond to the width of the parts to be processed and the setting takes place by extending or shortening an endless chain conveyor that moves the paint sprayer heads.

This control device is set for processing a large number of equally long and equally wide parts, and the automatic machine is then set for processing equal-sized parts and cannot be used for processing other parts or workpieces without extensive replacement of cam discs and by setting the length of the chain conveyor. Furthermore, due to the nature of the control, the drive devices in the automaton are exposed to mechanical stresses due to the occurring switching pulses during continuous input, and these stresses lead to rapid wear of the system.

Furthermore, in order to be able to process various long workpieces in such automatic machines, photocells have been used as pulse generators for solenoid valves for switching on and off the automatic machine in the control device, with the help of which the system is kept switched on as long as a light beam that is thrown towards the photocell is broken off an object that is passed by. However, the constant switching on and off of the system with the above-mentioned disadvantages will not be avoided by this.

The invention is now based on the task of finding a control device for automatic paint sprayers by means of which the paint spray heads can be controlled depending on the length and width of the objects to be processed without the operation having to be interrupted. According to the invention, the paint spray heads, which are driven in a known manner by a chain and are guided between vertical columns, remain in motion during the entire operation and with a working stroke corresponding to the largest width of the objects to be treated, while the supply of the compressed air which is necessary

until the atomization of the continuously supplied dye is controlled by valves depending on the length and width of the object to be treated, as a

valve that is operated when feeding the 1 part to be processed into the dye automat during the entire throughput time leads compressed air to the valves, which valves are controlled by cam shafts with adjustable cam stroke while the color spray heads are supplied with compressed air either when moving up or down, corresponding to the width of the object when fitting of the opening hours effective at all times to the width.

In the following, the invention will be explained in more detail with reference to the drawing which, as an embodiment, shows an automatic color sprayer for treating sheet steel that has previously passed through a plant where glow scales are removed.

The drawing shows:

fig. 1 the color spraying machine seen from the side, fig. 2 a section along the line A-B in fig. 1 and fig. 3 a connection core for the color spray machine.

The automatic paint sprayer stands behind a facility where the glow-in-the-dark shell is removed and where the steel cans 1 run in an approximately vertical position and in their longitudinal direction on a conveyor belt 2. The conveyor belt extends over the facility where the incandescent shell is removed and in the area where the color-spraying machine is located so that the steel cans 1 run through both facilities at the same speed. The flow rate can be adjusted according to the surface properties of the tins to be freed from glow scales.

On both sides of the roller aisle 2, in a spray room in a gantry 3, there are dye heads 4,5 which are stored displaceably vertically and which are connected by means of pull rods 6 and 7 to endless chains 8 and 9 which are also carried by the gantry 3. The operation of the chains 8 and 9 and thereby of the paint spray heads 4 and 5 takes place with the help of an electric motor 10 with an adjustable gearbox 11 and a chain pull 34.

By means of hoses 12 and 13, air pressure can be supplied to the paint spray heads 4 and 5.

The spray area is equipped with a further portal 14 which has a turner 15, and this turner can be adjusted in height by means of a threaded spindle which is driven by a reversible setting motor 16 and the turner determines the direction of rotation of the setting motor 16.

Depending on the number of the paint sprayer holders 4 and 5 that are used, there are in a drive box 17 an equal number of camshafts 18 and 19 which have a steadily decreasing working stroke and which are connected to the drives 10 and 11 for the paint sprayer heads 4 and 5 by means of chain pulls 35 and 36, optionally with a revolution which causes a rotation of the camshafts 18 or 19 by up and down movement of the associated color spray head 4 resp. 5.

Axially in relation to the camshafts 18 and 19, compressed air valves 22 and

23, which valves are displaceable by means of a threaded spindle 21 which is driven by a reversible motor and the valves sit in the drive box 17 and can be opened resp. closed by each camshaft 18 or 19.

Immediately in front of the portal 3 which carries the paint spray heads 4 and 5, there is arranged in the roller passage 2 a further compressed air valve 24 with a connecting arm 25, which valve is supplied with compressed air through a line 26 from a container or a supply network.

A plate 1 running through the automatic color sprayer collides, when it passes the color spray heads 4 and 5, against the coupling arm 25 for the compressed air valve 24 and keeps this open as long as the plate 1 is passed past the color spray heads 4 and 5, so that compressed air all the time as the plate runs through the automatic machine, the compressed air valves 22 and 23 are supplied through a line 27. The opening time of the compressed air valves 22 and 23, which corresponds to the plate width, is determined by their position in relation to the camshafts 18 and 19, which are designed as an evenly decreasing cam so that at the greatest working stroke for the cam, i.e. in an end position for the compressed air valves 22 and 23, these valves are open during the entire up and down movement, while the opening time for the compressed air valves 22 and 23 in the opposite end position corresponds to the narrowest plate to be processed and may possibly be equal to zero . For all intermediate plate widths, the opening time for the compressed air valves 22 and 23 can be adapted by axial displacement of the valves 22 and 23 in relation to the camshafts 18 and 19.

While the leading edges of the cams are straight and parallel to the axes, the trailing edges wrap in a spiral around the camshaft itself.

Setting of the compressed air valve 22 and 23 takes place with the help of the spindle 21 which

is driven by a reversible setting motor 20 and this motor runs synchronously with the setting motor 16 for the turner 15 and is switched by means of this turner.

When a plate 1 passes the portal 17 resp. the turner 15 and this is in the position shown in fig. 3, i.e. above the upper edge of the plate, with the help of the turner 15 and the switch 18, the setting motors 16 and 20 are already set so that the turner 15 is moved down and so that you get a setting of the compressed air valves 22 and 23 which reduces their opening time.

The setting motors 16 and 20 are energized as soon as two further switches 29 and 30, which are connected to the mains, cut off the current. Thus, the switch 29 which is arranged after the portal 14 closes when the leading edge of the plate has passed the turner 15, while the switch 30 which is in front of the portal 3 cuts off the current as soon as the previous plate has passed the color spray heads 4 and 5 in its entire length. The rest position for the switches 29 and 30, which are also operated by the plates, are "off" in the case of the switch 29 and "on" in the case of the switch 30. Hereby it is achieved that a setting of the turner 15 and the compressed air valves 22 and 23 cannot take place when a plate runs through portal 3, i.e. when the plate is sprayed. The turner 15 is guided downwards until the sensor roller 15a hits the upper edge of the plate and thus opens the connected switch 31, so that the main switch 28 falls out and interrupts the power supply to the setting motors 16 and 20. If this plate is followed by a plate that is wider, both the sensor roller 15a and a further sensor roller 15b which is arranged above the roller 15a and is likewise connected to the switch 32, pressed in by the now continuous plate, so that the switch 31 opens and the switch 32 closes. When the switches 29 and 30 are closed, a coupling switch 33 turns on and applies voltage to the setting motors 16 and 20 with the phases S and T reversed, so that these motors now rotate in the opposite direction and lift the turner 15 and displace the compressed air valves 22 and 23 in relation to the steering camshaft, so that the opening time is longer.

Thus, the compressed air supply to the color spray heads 4 and 5 is constantly controlled depending on the width of the surface that is being treated at any time, while the plates run continuously through and the color spray heads 4 and 5 are continuously in motion.

It is naturally within the nature of the invention that the camshafts 18 and 19 must be provided with two chambers if the paint spray heads 4 and 5 are to spray when moving both up and down.

It is also obvious to provide the necessary control of the switches 28 and 33 by means of photocells which are then put in place of the switch 15.

Claims (3)

1. Control device for automatic paint sprayers whose paint spray heads are me- canically adjustable across the direction of flow for the objects to be treated, which heads are supplied with the compressed air necessary for spraying the continuously added color, depending on the dimensions of the object to be treated, characterized in that the color spray heads (4 and 5 ) which constantly moves with the largest possible working stroke, is connected to compressed air valves (22 and 23) in the compressed air supply (27 and 13), which valves cooperate with camshafts (18 and 19) which have a steadily decreasing working stroke and are connected to the operation (10, 11) for the paint spray heads (4 and 5), so that the maximum possible opening time of the pressure - air valves and thus the following greatest working stroke on the camshafts (18 and 19) corresponds to a forward and a backward movement of the paint spray heads (4 and 5) , while the minimum opening time is close to zero, as the time that is necessary in each individual case and corresponds to the width of the object (1) to be processed, can be set by ak-sialfo rshifting of the compressed air valves (22 and 23) in relation to the camshafts (18 and 19) by means of a spindle (21) which is driven by a reversible setting motor (20), which motor can change the direction of rotation by means of a turner (15) which is displaceably arranged in a portal (14) and adjustable in height by means of a spindle (17) driven by an adjustment motor (16) which runs synchronously with the adjustment motor (20) and which can also be reversed, which face (15) has over mutually arranged sensor rollers (15a and 15b) which are controlled by the upper edge of the object (1) to be processed and which are connected to the parallel-connected setting motors (16 and 20) by means of switches (31 and 32) for controlling coupling switches (28 and 33); and that the power supply to the turner (15), the coupling switches (28 and 33) and the setting motors (16 and 20) is interrupted by a switch (29 and 30) which is controlled by the object (1) that runs through and is to be processed, as long as an object (1) is located in the area of the paint spray heads (4 and 5) or when no object is passed past the turner (15) while the compressed air supply to the compressed air valves (22 and 23) is open by means of a pressure valve (24) which is likewise controlled by the passing object (1) as long as an object (1) is passed the paint spray heads (4 and 5). 2. Control device for automatic paint sprayers as specified in claim 1, characterized in that the camshafts (18 and 19) are provided with two chambers for controlling the supply of compressed air when the paint spray heads (4 and 5) move up and down. 3. Control device for automatic paint sprayers as specified in claim 1, characterized in that the rotational speed of the paint spray heads (4 and 5) and cam shafts (18 and 19) are adjustable in speed of circulation for the objects to be processed.