DE2853899A1 - Material filling agent content control - has squeeze roller pressure varied according to material speed - Google Patents

Abstract

To control the filling agent content in continuous material, partic. sizing in bands of yarns, the pressure applied by the squeeze rollers is adjusted according to the speed of material travel. There is an electric rotary speed monitor on the material transport machine which is connected to a converter to translate the electric signals into pneumatic impulses. The converter is connected to a pneumatic amplifier with its output connected to units which convert the pneumatic signals into mechanical energy where there are the rollers of a mangle where the material passes through. There are two nominal value sources in the connection between the rotary speed monitor and the converter representing material flow speed and squeeze roller pressure. The system gives a precise control of the application of a filling agent, and ensures that the content value is consistent throughout the material being treated.

Description

Device for controlling the content of weighting

medium in web-shaped material.

The invention relates to a device for controlling the salary on weighting agents in web-shaped goods, in particular sizing in sheets of threads.

It is known to measure the squeezing pressure of a sizing machine Squeezing device according to the speed of the thread sheet or to control the web-shaped goods. Nevertheless, there are irregularities in the size content when the sizing machine changes its speed. In particular is this is the case with the transition from crawler gear to normal gear and vice versa. Even if the squeezing pressure adjustment does not take place synchronously with a change in speed, Such difficulties arise at the start of the game and after a tree change.

So far, attempts have been made to use a so-called "sizing reserve" to master the difficulties. The thread sheet or the web-shaped material was thereby deliberately more heavily loaded with weighting agent, so that no loading weak points develop.

The invention is based on the task of loading sheets of thread or to improve web-shaped goods with weighting agents, in particular to make them more uniform. This object is achieved by the invention described in claim 1. Beneficial Refinements of the invention are described in claims 2 to 9 the The advantages achieved by the invention are in particular that the hitherto excessive loading of weighting agents, which is customary for safety, is avoided. In the case of sizing increases consumption and the associated wastewater pollution limited and the quality of the finished product increased. Speed changes, Start-up processes, shutdown processes and transitions from standstill to creep speed can can be processed quickly and easily.

In the drawings, an embodiment of the invention is shown. On the basis of this exemplary embodiment, the invention will be described in the following sections of text to be further explained and described.

Fig. 1 shows the circuit diagram of a device according to the invention, Fig. 2 is a view of the control panel of the same device.

A sizing machine not shown in detail has a roller squeezing unit, which is shown symbolically on the control panel Fig. 2 and there as in Fig. 1 is denoted by 11.

In detail, the roller squeegee mechanism 11 has a guide roller 12, two lower rollers 13, 14, two rubberized nip rollers 15, 16 and two pressure rollers 17, 18 on. A thread sheet 19 is so around the guide roller, the lower rollers and the pressure rollers led that from below liquid floated size in the thread sheet penetrates. The two nip rollers 15 and 16 load with controllable Pressure on the lower rollers 13, 14 and on the thread sheet in between.

On the machine transporting the thread sheet 19, here on the sizing machine, not shown, is an electric tachometer arranged in the form of a tachometer generator 20. Through an electrical line 21 is the Tachometer with a converter that converts electrical signals into pneumatic signals 22 connected. The converter 22 is designed as an electrical current in pneumatic Trained to transform energy into converters. The converter 22 has an operative connection 23 to a pneumatic amplifier 24. In this operative connection 23 is a pneumatic amplifier Comparator 25 connected to which a setpoint generator 26 for the standstill and creep speed squeezing pressure connected. From the output of the amplifier 24 there are active connections 27, 28, 29, 30, 31 to devices 32 to 35 for converting pneumatic into mechanical ones Energy available. In the operative connection leading to the devices 32 and 33 28 is a directional valve 36 and in the operative connection leading to the devices 34 and 35 29 a directional control valve 37 is switched.

The devices 32 and 33 have operative connections 38 and 39 to the nip roller 15 and the devices 34 and 35 operative connections 40 and 41 to the nip roller 16.

In another connecting line 42 between the tachometer 20 and the converter 22 are connected several components, namely a setpoint generator 43 for setting according to the normal gear machine speed, a changeover switch 45, optionally three function generators 46, 47, 48, whose common outputs 49 with one second setpoint generator 44 connected for setting the normal gear squeezing pressure are. The inputs 50, 51, 52 of the function generator 46, 47, 48 end at three changeover contacts 53, 54, 55 of the switch 45. In the connecting line 42a between the second Setpoint generator 44 and the converter 22 is an electrical voltage in one proportional electric current converting converter 56 switched. The setpoint generator 43 and 44 are designed as potentiometers. With the pneumatic comparator 25 is a selection relay. The comparator 25 selects from the two Active connections 23, 23a placed at its input always automatically the one which is switched to the higher, pneumatic energy. The third setpoint generator 26th is connected to the comparator 25 via the operative connection 23a and consists of an adjustable pneumatic throttle. In the operative connection 28, behind the directional control valve 36, a pressure gauge 57 for the squeeze pressure display is connected. The devices for converting pneumatic energy into mechanical energy act they are pneumatic cylinder-piston arrangements.

In the following description of a functional sequence, elements which have not yet been mentioned and are grouped together on the control panel are explained.

The control panel Fig. 2 has, inter alia, a control panel at the top left 58, summarizes the following switching means: an emergency stop switch 59, an off button 60, an on button 61 for creep speed, an on button 62 for normal gear, a button 63 for lowering the normal speed and a button 64 for increasing it normal speed.

By means of a throttle valve handle 65, it is already at a standstill the setpoint generator 26 can be set. The now used as a setpoint for the squeezing pressure The value valid at standstill and in crawling gear is read off the pressure gauge 57.

The two setpoint generators 43 and 44 can also be at a standstill of the machine. The set throughput speed is on Pointer and directly readable on the scale of the setpoint generator 43. In the same way is on the pointer and on the scale of the setpoint generator 44 the setpoint of the Normal gear squeezing pressure can be read directly. Also one of the three function generators 46, 47, 48 can be preselected using switch 45. The associated functional history is painted in a simplified representation on the switch scale.

As soon as the three setpoint generators are set and one of the three Function generator is selected, the creep speed can be activated by pressing the ON button 61 or the normal gear has been switched on by pressing the on button 62. The normal passage speed is reduced as long as you press button 63 and increases as long as you press the button 64 presses. Emergency stop switch 59 and buttons 60 to 64 do not have a direct effect on them here a drive device of the sizing machine shown in more detail.

During operation, the speed supplied by the tachometer 20 and at the setpoint generator 43 tapped voltage modified by one of the three function generators and passed to the converter 56 via the second setpoint generator 44. In the converter 56 the conversion takes place in a proportional current, which through the converter 22 in pneumatic energy is converted. The lines downstream of the converter 22 are already pneumatic lines. In the comparator designed as a selection relay 25 the input with the higher pneumatic energy is automatically selected leads. Therefore, a minimum squeezing pressure set at the setpoint generator 26 cannot are undercut.

The amplifier 24 connected downstream of the comparator 25 also works pneumatic. The directional control valves 36 and 37 allow relief in the open state of the devices 32 to 35 for converting pneumatic energy into mechanical energy.

The stub axles of the nip rollers are obtained by these devices 15, 16 a mechanical load. The function according to which one of the three function generators 46, 47, 48 modified the voltage, is determined empirically from case to case. The drive rollers 17 and 18 have a constant load, either by spring pressure or by pneumatic devices.

The invention offers the further advantage that even when there is a change the throughput speed by pressing the button 63 or 64 d2-s on the setpoint adjuster set Ratio of throughput speed to squeezing pressure is retained according to the selected function.

The invention is not limited to the illustrated and described embodiment limited. Other designs are also possible within the scope of the protection claims.

Claims (9)

Claims: 1. Device for controlling the content of weighting agent in web-shaped material, in particular sizing in sheets of threads, the squeezing pressure a squeezing device according to the throughput speed of the material to be weighed down Good is controlled, in that it is shown that a) on which the thread sheet (19) - or the machine transporting the web-shaped material, in particular a sizing machine, an electric tachometer (20) is arranged, b) the tachometer (20) connected to a converter (22) which converts electrical signals into pneumatic signals is, c) the converter (22) is an operative connection (23) to a pneumatic amplifier (24) has, d) from the output of the amplifier (24) operative connections (27 to 31) to devices (32 to 35) are available for converting pneumatic into mechanical energy, e) the devices (32 to 35) mentioned under d) active compounds (38 to 41) a squeeze roller or to a plurality of squeeze rollers (15, 16) of a roller squeegee (11) have through which the thread sheet (19) or the web-shaped material passed is, f) into the connecting line (42) between the tachometer (20) and the converter (22) two setpoint generators (43, 44) are connected, namely a setpoint generator (43) for setting the normal machine speed, equivalent to the normal speed throughput, and a second setpoint generator (44) for setting the normal gear squeezing pressure. 2. Apparatus according to claim 1, characterized in that in the Connection line (42) between the first and the second setpoint generator (43 or 44) a changeover switch (45) is connected, which has two or more changeover contacts (53, 54, 55), each of which has an operative connection to one function generator (46, 47, 48) have their outputs (49) connected to the second setpoint generator (44) are. 3. Apparatus according to claim 1 or 2, characterized in that the tachometer (20) as a speed-proportional output voltage delivering Tachometer generator is designed. 4. Device according to one of claims 1 to 3, characterized in that that the setpoint generators (43, 44) are designed as potentiometers. 5. Device according to one of claims 1 to 4, characterized in that that the converter (.22) as an electrical current into pneumatic energy walking converter is formed. 6. Device according to one of claims 2 to 5, characterized in that that in the connecting line (42a) between the second setpoint generator (44) and the converter (22) converts an electrical voltage into a proportional electrical one Current unuetzender converter (56) is switched. 7. Device according to one of claims 1 to 6, characterized in that that in the operative connection (23) between converter (22) and amplifier (24) a pneumatic Comparator (25) is connected to which a setpoint generator (26) for the standstill and creep pinch pressure is connected. 8. Apparatus according to claim 7, characterized in that it is the pneumatic comparator (25) is a selection relay. 9. Apparatus according to claim 7 or 8, characterized in that the setpoint generator (26) consists of an adjustable pneumatic throttle.