DE19930219B4 - System for controlling and lowering a ring rail in a spinning machine - Google Patents

Abstract

A system for controlling the raising and lowering of a ring rail in a spinning machine, comprising a lifting and lowering device in which the ring rail (8) is raised and lowered by a motor (12), which comprises:
an adjusting device (25) for setting conditions for forming a cop, for example, the amount by which the ring rail is raised per cycle and the amount by which the ring rail is lowered per cycle and a length wound per cycle;
a storage device (22) for storing the conditions for forming a cop, which are set by the setting device (25); and
a control device (20, 13) for driving and controlling the motor (12) of the lifting and lowering device in such a way that the motor (12) raises and lowers the ring rail (8) according to the conditions for forming a cop, which in the Memory device (22) are stored, characterized by
a changing device (20, 21, 25), which per cycle depending on the type of yarn ...

Description

The present invention relates to a system for controlling the raising and lowering of a ring rail in a spinning machine, such as a ring spinning machine and a ring-spinning machine, according to the preamble of claim 1. Such a system is known from DE 37 06 513 A1 known.

According to Japanese Patent Laid-Open Publication No. 62-206033, a cop is formed into a desired shape by inputting conditions for forming a cop via an input device, such as the amount by which the ring rail is raised and lowered in one cycle, and the per Cycle wound length. When the slew rate and lowering speed of the ring rail are constant, as in 4 (A) As shown, the yarn winding pitch at the upper portion of a cop, at which the diameter gradually becomes smaller, becomes smaller as the diameter portion decreases. According to 4 (B) can be prevented by the ring bank is raised and lowered in accelerated motion, so that the Garnaufspulsteigung is formed constant in the reduced diameter portion of the cop.

In a ring spinning machine, the yarn tension has a significant influence on the Stability of the Spinning. The tension acting on the spun yarn is smaller on the upstroke of Ring Bank as the downhill. If the tension is too low, balloon formation of the wound up occurs Yarns up, and a thread break. On the other hand, too great a tension cause a thread break, and prevent a uniform downward movement of the ring rail. For example, when synthetic fiber becomes a yarn with a larger yarn count (thicker yarn) is spun, too high a lowering speed of Ring Bank in certain cases hamper a steady downward movement, whereby the ring rail is braced by the yarn. Furthermore has the raising and lowering speed of the ring rail has an effect the Garnaufspulsteigung on. The Garnaufspulsteigung in turn affects the stability of the yarn while spinning and rewinding in a winding step. Therefore, proper lifting should be and lowering speed of the ring rail according to the spinning conditions be given.

In a conventional ring spinning machine, depending on the spinning conditions during the normal spinning operation, a rise amount C (traversing length) in one cycle and the amount of winding per cycle may change. As in the 4 (A) and 4 (B) However, the lifting time Tu and the lowering time Td of the ring rail per cycle are fixed. Therefore, in order to change the raising and lowering speed of the ring rail in a state in which the rising time Tu and the lowering time Td are set, a single traversing length must be changed. However, the individual traversing length can not be changed freely because it is limited by the spinning conditions. Therefore, if the rising time Tu and the lowering time Td must be kept constant, spinning under optimum spinning conditions is difficult when the yarn type is changed.

The DE 195 28 204 C1 describes a control device for a spinning machine. This control device has at least one ring bank, which can be moved according to a predetermined time-distance dependence having an oscillating component, and which can be driven by an electromotive drive assigned to it. In this case, the electric motor drive is controlled by an evaluation and control unit. In an evaluation and control unit, guide points for the mean travel and the amplitude of the time-travel dependency can be entered.

Out H. B. Wolf, cotton mill, Springer-Verlag Berlin / Heidelberg / New York, 1966, page 155, 156 is a breakdown for elevation: lowering ratio 2: 1 according to one Path-time diagram for various eccentric forms known. Also it is mentioned that The relationship 3: 1 and the ratio 4: 1 can be. The stronger but the relationship moved to one side, the tighter it is for them Lifting direction the winding, making it easier to wind up Slip turns (= slipping of Kopslagen) can arise. This Danger is countered by a reduction in delivery per car game.

Out the user manual of the company Zinser for types 350 and 450, pages 4 - 3 - 15, 16 and 17 dated 30.09.1997 is to be taken as an indication that the movement of the ring rail in the main spinning is done in double strokes. Each double stroke is made up of one up and one down stroke. At the end of each double stroke, the lower turning point of the ring bank becomes shifted upwards by the amount of the transfer. In connection This is the general note that all parameters of the double stroke affect the Kopsaufbau and the parameters of the double stroke are selectable. More is received only on the adjustment of the lifting height in relation to Spinnringdurchmesser and the adjustment of the winding length and the laying.

The The present invention has been made in view of the above Difficulties, and therefore an object of the present invention in providing a system for controlling lifting and Lowering a ring rail in a spinning machine, which is easy the lifting and Lowering speed of the ring rail can change to such a speed, which better fits the spinning conditions.

These The object is solved by the features of claim 1.

By this solution The lifting and lowering speed of the ring rail can be easier be changed to such a speed, the better to fits the spinning conditions.

The change device preferably has a database storing multiple patterns, and a selector for selecting a pattern among the ones several patterns stored in the database.

at Such an arrangement will be the ratio of the time spent for the increase The ring rail is required at the time for lowering the ring-bridge is fatal, while a cycle, by the selection device by selecting a pattern set among several patterns stored in the database are. The relationship The times can be changed be that selected Pattern is replaced by another pattern. Therefore, the process becomes to change of the relationship the times required compared to that case, in which individual values are entered.

The change device can also be the time that is required for the rise of the ring rail, and for lowering them, per cycle, by changing the values of a standard pattern set at which a rise time and a lowering time before be set.

In the standard pattern, where the rise time and the setback time The ring bank can be set per cycle beforehand, therefore, the for lifting or lowering required time so that the lifting and lowering time of the ring rail is changed to the desired time.

The change device preferably leaves a change the raising and lowering time, on the condition that the sum the lifting time and the lowering time are constant.

at This arrangement, the lifting and lowering of the ring rail change on the condition that the Sum of the rise time and the lowering time is constant. Therefore, can be prevented that the Raising and lowering of the ring bank per cycle, in a predetermined Must lie area, which is determined by the spinning conditions, outside the predetermined range lie.

The change device can change the lowering time, when the rise time is set.

The Rise time of the ring bank per cycle can not be compared to one fixed rise time changed which is set in advance, and only the setback time allowed change. In this way, the rise time of the ring bank per cycle is in a predetermined period in which the Aufspulsteigung not very small, so that in the subsequent processes do not interfere.

The The invention will be described below with reference to drawings explained in more detail, wherein the same Components are designated by like reference numerals in the figures. It shows:

1 (A) to 1 (C) Diagrams showing the raising and lowering patterns of a ring rail;

2 a schematic view of a drive system in a ring spinning machine;

3 a side view with a representation of the state of wound yarn; and

4 (A) and 4 (B) Diagrams with a representation of the raising and lowering movement of a conventional ring rail.

Hereinafter, an embodiment of a ring spinning machine will be described in detail with reference to FIGS 1 to 3 described. How out 2 spindles become 1 rotationally driven by a spindle drive system. This spindle drive system has a drive pulley 3 and a driven pulley 4 on, with drive by a motor 2 , where a tangential strap 5 around the pulleys 3 and 4 is wrapped around. As an engine 2 a variable speed motor is used which is powered by an inverter 6 is driven. This engine 2 is with a rotary encoder 2a Mistake.

A lifting and lowering device raises a ring rail 8th and a Garnleitösenvorrichtung 9 via a transmission shaft 7 on or lower it off. The ring bank 8th is through at predetermined intervals several drive spindles 10 (of which only one spindle in 2 shown), which are arranged at predetermined intervals in the longitudinal direction of the spinning machine so that they extend in the vertical direction. On a threaded section 10a the drive spindle 10 is a spindle nut 11 screwed. The transmission wave 7 parallel to the ring rail 8th runs, is rotatably arranged at a height, which is the height of the spindle nut 11 equivalent. The transmission wave 7 turns forwards or backwards, causing a vertical displacement of the drive spindle 10 in the axial direction. The transmission wave 7 is with a drive shaft of a lifting motor 12 coupled via a gear mechanism (not shown). Therefore, the lifting motor drives 12 the wave 7 so that it rotates forward or backward, causing the ring rail 8th is raised or lowered. As a lifting motor 12 a servo motor is used, which has a servo driver 13 is controlled, which consists of a control device. The motor 12 is with a rotary encoder 12a Mistake. Incidentally, the arrangement is basically the same as that of the apparatus described in Japanese Patent Laid-Open Publication JP-2-277826, for example.

Similar to the ring bank 8th becomes the Garnleitösenvorrichtung 9 raised and lowered by means of a (not shown) drive spindle, by forward or reverse rotation of the transmission shaft 7 is raised and lowered. A Garnleitöse 9a is at the Garnleitösenvorrichtung 9 appropriate. Y yarn, which is from a roving bobbin 14 is fed, is about the Garnleitöse 9a a ring traveler 15 fed on a ring 8a slides. As in 3 shown is an antiballon ring 8b at the ring bank 8th attached via a support.

The roving bobbin 14 is in operation on a drive shaft of a stretching motor 16 coupled via a deceleration mechanism (not shown). As a stretching engine 16 a servo motor is used which has a servo driver 17 is controlled. The motor 16 is with a rotary encoder 16a Mistake. The motors 2 . 12 and 16 are so by a control unit 18 controlled that the speed over the inverter 6 and the servo drivers 13 and 17 is varied. The roving bobbin 14 and the spindle 1 are rotated so that the amount of yarn that comes from the roving 14 is fed (amount of spinning) and the amount of yarn which passes through the spindle 1 is wound up, always equal to each other. Their rotation ratio is set according to the spinning state.

In the control unit 18 is a microcomputer 19 intended. The microcomputer 19 indicates: a central processing unit 20 (hereinafter referred to as CPU), which constitutes a control device and a change device, and also serves as an arithmetic device; a program memory 21 which forms the changing device; a working memory 22 as a storage device; an input interface 23 ; and an output interface 24 , The control unit 18 further indicates: an input device 25 a motor drive circuit 26 , Servo motor driver circuits 27 and 28 which constitute the adjusting device, the changing device and a selector; and a display device 29 which forms the changing device.

The program memory 21 is designed as a read only memory (ROM). The CPU 20 operates on the basis of predetermined program data stored in the program memory 21 are stored. The working memory 22 is constructed as random access memory (RAM), and temporarily stores the spinning conditions imposed by the input device 25 be entered in the control unit 18 is provided, the results of arithmetic processing in the CPU 20 , and the same. The working memory 22 has a bypass power supply (not shown).

The CPU 20 is via the input interface 23 to the rotary encoders 2a . 12a and 16a as well as to the input device 25 connected. The CPU 20 is via the output interface 24 and the motor drive circuit 26 to the inverter 6 connected, and is with the servo drivers 13 and 17 via the output interface 24 and further via the servo motor driver circuit 27 and 28 connected. Furthermore, the CPU 20 via the output interface 24 to the display device 29 connected.

A counter 30 is in the microcomputer 19 intended. The counter 30 is with the rotary encoder 12a and the CPU 20 connected. As a counter 30 an up-down counter is used. The counter 30 is configured to count up when one of the rotary encoder 12a output pulse during the forward rotation by the lifting motor 12 is fed, and counts down when the lifting motor 12 performs a reverse rotation, and one of the rotary encoder 12a output pulse is input.

The CPU 20 operates on the basis of predetermined program data stored in the program memory 21 are stored. The program memory 21 is designed as ROM and stores the program data as well as various types of data needed to execute the program data. The various types of data include, for example: data relating to the relationship between spinning conditions, such as the type of yarn, the yarn count of spun yarn, and the draw ratio, and the twist number of spindle during the spinning process; Data related to the relationship between the revolution speed of the spindle in normal operation and the raising and lowering rate of the ring rail 8th ; and data related to the oscillating frequency of the ring bank 8th , which corresponds to the spinning conditions, and is counted until the bobbin is full.

The program memory 21 stores a variable speed control program for the period between the start of the machine and stopping the machine when the bobbin is full, for the respective engine 2 . 12 respectively. 16 , The variable speed control program specifies the speed change as the default pattern. Parameters of the standard pattern are entered through the input device 25 set. The operating conditions of the lifting and lowering device are determined on the basis of the data relating to the spinning conditions imposed by the input device 25 For example, spinning lengths, stroke and traversing length, rotational speed of the spindle during operation, and setting values, for example, the raising and lowering rates and the raising and lowering frequency of the ring rail 8th during a high speed pulsing process with normal traversing length.

The various types of data include a database in which several patterns are stored, in which the time the ring bank 8th needed to increase or decrease per cycle, so one of the conditions for forming a cop, is set to a predetermined value. The multiple patterns store typical data obtained by previously performing trial spinning operations under various spinning conditions.

The input device 25 is used to input data related to spinning conditions, such as the yarn count of spun yarn, spindle speed during spinning, spinning length and stroke. The input device 25 serves as an adjusting device for adjusting the conditions for forming a cop, for example, the extent (traversing length) around which the ring rail 8th in a cycle is raised, the extent to which the ring rail 8th is lowered in one cycle, and the wound length (laying) per cycle. The input device 25 serves as a changing device for changing the ratio of the time that the ring rail 8th needed to rise, at the time, which the ring bank 8th for lowering 8th needed. Furthermore, the input device is used 25 as the selector for selecting a pattern among the plural patterns stored in the program memory 21 stored as a database, with the lifting time and the lowering of the ring bank 8th different from one another per cycle.

The CPU 20 recognizes the direction in which the ring rail 8th moved, so whether the ring bank 8th raises or lowers, based on a signal generated by the rotary encoder 12a and calculates the position of the ring rail 8th , Using this calculation result, the CPU controls 20 the servomotor 12 so that the ring bank 8th performs a predetermined raising and lowering movement according to the spinning conditions.

It also shows when the input device 25 serves as a selector, the CPU 20 on the display device 29 several patterns P0, Pi indicating the change of the lifting speed and the lowering speed in a lifting and lowering cycle of the ring rail 8th show, such as in the 1 (A) to 1 (C) shown based on the operation of the input device 25 , In the 1 (A) to 1 (C) the reference character C denotes a traversing length (traverse stroke), the reference character Tu a rise time, the reference character Td a lowering time, and the reference character ΔS a laying. The CPU 20 First, the standard pattern P0, which is used under usual spinning conditions, is displayed on the display screen of the display device 29 , and then shows the CPU 20 one after another, the other patterns Pi corresponding to commands issued by the input device 25 come.

Next, the operation of the system constructed as described above will be described. Before starting the spinning machine are first through the input device 25 Spinning conditions entered, for example, the yarn count of the spun yarn, the speed of the spindle (maximum speed) in normal operation and the draw ratio, and conditions for forming a cop, such as the spinning length, the stroke, the traversing length C, the laying ΔS and the rising time Tu and Lowering time Td in a lifting and lowering cycle of the ring rail 8th ,

Spinning conditions such as the yarn count of the spun yarn, the spindle speed (maximum speed) in normal operation and the stretch ratio, as well as the spinning length, stroke, traversing length C and displacement ΔS are directly by direct numerical input by operating the input device 25 entered. The lifting time Tu and the lowering time Td are set by selecting a pattern among the plural preset patterns.

If the input device 25 is pressed so that a pattern selection key is pressed, the in 1 (A) shown standard pattern P0 on the Display screen of the display device 29 displayed. A user presses a setting key when the user thinks that the standard pattern P0 is a pattern having a lifting time Tu and a lowering time Td satisfying the spinning conditions. By this operation, the raising time Tu and the lowering time Td of the standard pattern T0 displayed on the display screen are inputted as setting values, and are stored in the working memory 22 saved. If the standard pattern P0 is not a pattern having such a rising time Tu and lowering time Td satisfying the spinning conditions, patterns Pi stored in the database are displayed one after the other on the display screen by an operation involving the Request display of the next candidate. Then, a suitable pattern Pi is displayed, and the user presses the setting key to input the corresponding raising time Tu and the lowering time Td as the setting values. It should be noted that the corresponding type of yarn, that is, the types of the yarn material including cotton, synthetic fibers and blends, and the thickness of the spun yarn (yarn count) are also displayed on the display screen together with the respective patterns P0 and Pi. Therefore, the user selects a pattern which takes into account not only the patterns P0, Pi but also the type of the yarn shown.

Upon completion of the adjustment of the operating conditions consisting of the spinning conditions and conditions for forming a cop, a start switch is depressed to start the engine. The CPU 20 performs a synchronous drive and a synchronous control of the motors 2 . 12 and 16 according to the operating conditions, by the input device 25 entered and in the memory 22 were saved. The lifting motor 12 is driven so that it the transmission shaft 7 rotates, causing over the spindle nut 11 the drive column together with the ring rail 8th is moved up or down. The ring bank 8th etc. moves up when the lifting motor 12 causes a rotation in the vertical direction, on the other hand, downward in a rotation in the reverse direction. Y yarn, which from the process reel 14 is fed to a bobbin B on the Garnleitöse 9a and the ring traveler 15 wound.

The CPU 20 recognizes the direction in which the ring rail 8th moves, based on the output of the rotary encoder 12a , Furthermore, the CPU recognizes 20 the position of the ring rail 8th based on a value provided by the counter 30 is counted. The CPU 20 then outputs a signal for the reverse rotation or a signal for the forward rotation to the servo motor driver circuit 27 out when the ring rail 8th has moved by a distance corresponding to a previously entered raising or lowering amount corresponding to the individual traversing length. The ring bank 8th is a stroke corresponding to the traversing length C by the forward-reverse rotation of the lifting motor 12 raised and lowered while moving up and down each time it is raised and lowered by a distance ΔS.

• (1) Das Verhältnis zwischen der Zeit, welche die Ringbank 8 zum Ansteigen benötigt, und der Zeit, welche die Ringbank 8 zum Absenken benötigt, in einem Zyklus, was eine der Bedingungen zur Ausbildung eines Kops darstellt, kann einfach durch die Änderungsvorrichtung geändert werden. Daher kann die Anhebe- und Absenkgeschwindigkeit der Ringbank 8 einfach auf eine Geschwindigkeit, bzw. ein Zeitverhältnis geändert werden, die besser zu den Spinnbedingungen paßt.
• (2) Das Verhältnis zwischen der Zeit, die zum Anheben benötigt wird, und der Zeit, die zum Absenken benötigt wird, in einem Zyklus, wird durch Auswahl eines Musters unter mehreren Mustern geändert, in welchem sich die Anhebezeiten Tu und die Absenkzeiten Td ändern. Daher kann der Vorgang der Änderung vereinfacht werden, verglichen mit jenem Fall, in welchem numerische Werte eingegeben werden.
• (3) Das Verhältnis zwischen der Zeit, die zum Anheben benötigt wird, und der Zeit, die zum Absenken benötigt wird, in einem Zyklus, kann geändert werden, während die Muster P0 oder Pi beobachtet und bestätigt werden, die graphisch (als Bild) auf dem Anzeigebildschirm dargestellt werden, so daß Verwechslungen verhindert werden können.
• (4) Ein Benutzer kann einfach das geeignete Muster P0 oder Pi auswählen, da zusätzlich zum Muster P0 oder Pi der Anzeigebildschirm den entsprechenden Garntyp darstellt, also die Arten von Garnmaterial einschließlich Baumwolle, Kunstfasern und Mischungen, sowie die Dicke des gesponnenen Garns (Garnnummer).
• (5) Wenn ein Muster ausgewählt wird, ist das zuerst auf dem Anzeigebildschirm dargestellte Muster das Standardmuster P0, welches den üblichen Spinnbedingungen entspricht, die häufig eingesetzt werden. Daher läßt sich Zeit einsparen, wenn übliche Spinnbedingungen ausgewählt werden. Die voranstehende Ausführungsform kann entsprechend den folgenden Anordnungen abgeändert werden, die nachstehend zusammen mit den durch sie erzielbaren Auswirkungen beschrieben werden.
• (6) Es kann eine derartige Anordnung getroffen werden, daß ein vorbestimmtes Standardmuster P0 automatisch ausgewählt wird, wenn von der Änderungsvorrichtung kein Muster ausgewählt wird. In diesem Fall kann durch Einstellung eines häufig verwendeten Musters als Standardmuster P0 beim normalen Spinnen die Zeit ausgeschaltet werden, die ein Benutzer benötigt, um einen Auswahlvorgang mit der Änderungsvorrichtung durchzuführen.
• (7) Die Auswahlvorrichtung kann automatisch das optimale Muster entsprechend Spinnbedingungen auswählen, die über das Eingabegerät 25 eingegeben werden. Daher ist die Auswahl eines Musters durch einen Benutzer unnötig, und kann die Zeit zur Einstellung der Betriebsbedingungen der Maschine verkürzt werden.
• (8) Die Änderungsvorrichtung weist ein Anzeigegerät auf, welches Diagramme mehrerer Muster darstellen kann, die in der Datenbank gespeichert sind. Daher kann der Benutzer das Anzeigemuster beobachten und bestätigen, was das Auftreten von Fehlern bei der Auswahl verringert.
• (9) Werte in dem Standardmuster P0 werden durch Erhöhung oder Verringerung numerischer Werte geändert. Daher werden die Werte nicht gleichzeitig wesentlich geändert, wodurch verhindert wird, daß numerische Werte eingestellt werden, die völlig unverträglich mit den Spinnbedingungen sind, etwa der Anhebezeit und der Absenkzeit.

This embodiment leads to the following effects.

• (1) The relationship between the time the ring bank 8th needed to increase, and the time the ring bank 8th for lowering, in one cycle, which is one of the conditions for forming a cop, can be easily changed by the changing device. Therefore, the raising and lowering speed of the ring rail 8th be easily changed to a speed, or a time ratio that better fits the spinning conditions.
• (2) The relationship between the time required for lifting and the time required for lowering in one cycle is changed by selecting a pattern among plural patterns in which the lifting times Tu and the lowering times Td change , Therefore, the process of change can be simplified as compared with the case where numerical values are input.
• (3) The ratio between the time required for lifting and the time required for lowering in one cycle can be changed while observing and confirming the patterns P0 or Pi graphically (as a picture) be displayed on the display screen, so that confusion can be prevented.
• (4) A user can easily select the appropriate pattern P0 or Pi because in addition to the pattern P0 or Pi, the display screen represents the corresponding yarn type, that is, the types of yarn material including cotton, synthetic fibers and blends, and the thickness of the spun yarn (yarn count). ,
• (5) When a pattern is selected, the pattern first displayed on the display screen is the standard pattern P0 corresponding to the usual spinning conditions that are frequently used. Therefore, time can be saved if usual spinning conditions are selected. The above embodiment may be modified according to the following arrangements, which will be described below together with the effects obtainable by them.
• (6) Such an arrangement may be made that a predetermined standard pattern P0 is automatically selected when from the Change device no pattern is selected. In this case, by setting a frequently used pattern as the standard pattern P0 in normal spinning, the time required for a user to perform a selecting operation with the changing apparatus can be turned off.
• (7) The selector can automatically select the optimum pattern according to spinning conditions via the input device 25 be entered. Therefore, selection of a pattern by a user is unnecessary, and the time for setting the operating conditions of the machine can be shortened.
• (8) The changing device has a display device that can display diagrams of a plurality of patterns stored in the database. Therefore, the user can observe and confirm the display pattern, which reduces the occurrence of errors in the selection.
• (9) Values in the standard pattern P0 are changed by increasing or decreasing numerical values. Therefore, the values are not significantly changed at the same time, thereby preventing that numerical values are set that are completely incompatible with the spinning conditions, such as the lifting time and the lowering time.

• (A) Bei der voranstehenden Ausführungsform, bei welcher ein Muster unter den mehreren Mustern P0 und Pi ausgewählt wird, kann statt der Darstellung von Mustern einzeln auf dem Anzeigebildschirm des Anzeigegeräts 29 eine gleichzeitige Darstellung der mehreren Muster erfolgen, um aus diesen ein einzelnes Muster auszuwählen. In diesem Fall werden die Unterschiede zwischen den Mustern verdeutlicht, und kann das geeignete Muster leicht ausgewählt werden.
• (B) Als Art und Weise zur Änderung des Verhältnisses der für das Anheben erforderlichen Zeit und der für das Absenken erforderlichen Zeit kann eine solche Anordnung eingesetzt werden, bei welcher die CPU 20 automatisch auf der Grundlage der Spinnbedingungen, die von dem Eingabegerät 25 eingegeben werden, ein Muster auswählt, welches zu den Spinnbedingungen paßt, oder ein Muster, welches zu Spinnbedingungen paßt, die den früheren Spinnbedingungen ähnlich sind. In diesem Fall wird das Erfordernis, daß ein Benutzer ein Muster auswählt, ausgeschaltet, und wird die Einstellung der Betriebsbedingungen vereinfacht.
• (C) Eine andere Art und Weise zur Änderung des Verhältnisses der zum Anheben erforderlichen Zeit und der zum Absenken erforderlichen Zeit kann eingesetzt werden, bei welcher jeweilige Zeitwerte in dem Standardmuster P0, in welchem die Anhebezeit Tu und die Absenkzeit Td vorher eingestellt wurden, so geändert werden, daß die Zeit eingestellt wird, welche die Ringbank 8 benötigt, um in einem Zyklus angehoben und abgesenkt zu werden. Beispielsweise speichert der Programmspeicher 21 das Standardmuster P0, welches in 1(A) gezeigt ist, und ebenso die Anhebezeit Tu und die Absenkzeit Td. Wenn das Verhältnis der zum Anheben erforderlichen Zeit und der zum Absenken erforderlichen Zeit geändert wird, wird das Eingabegerät 25 betätigt, damit das Standardmuster P0 auf dem Anzeigebildschirm des Anzeigegeräts 29 dargestellt wird, so daß die Anhebezeit Tu und die Absenkzeit Td, die dort dargestellt werden, auf gewünschte Werte geändert werden. Falls die Auswahl unter mehreren Mustern erfolgt, wird infolge der Tatsache, daß sich die gewünschten Spinnbedingungen nicht immer unter diesen Mustern auffinden lassen, ein Muster von Spinnbedingungen ausgewählt, welches den gewünschten ähnlich ist, wobei es in diesem Fall möglich ist, einfach die Anhebezeit Tu und die Absenkzeit Td auf die gewünschten Werte einzustellen. Hierdurch kann auch die Speicherkapazität verringert werden, welche der Programmspeicher 21 benötigt, um die Muster zu speichern, da es unnötig ist, die mehreren Muster in dem Programmspeicher 21 zu speichern.
• (D) Bei der Art und Weise der Änderung des Verhältnisses der Zeit, die zum Anheben erforderlich ist, und der Zeit, die zum Absenken erforderlich ist, durch Änderung der Anhebezeit Tu und der Absenkzeit Td in dem Standardmuster, können die Zeit repräsentierende Werte dadurch geändert werden, daß die Standardwerte erhöht oder verringert werden. Anders ausgedrückt wird die Zeit dadurch geändert, daß eine Feineinstellung der Anhebezeit Tu und der Absenkzeit Td in dem Standardmuster erfolgt. In diesem Fall ist es einfach, zu verhindern, daß als die Anhebezeit und die Absenkzeit Werte eingestellt werden, die völlig unverträglich mit den Spinnbedingungen sind.
• (E) Auf die voranstehend geschilderte Weise kann eine Anzahl an Standardmustern zur Verfügung gestellt werden, die sich wesentlich voneinander in Bezug auf die Anhebezeit Tu und die Absenkzeit Td unterscheiden. Beispielsweise können ein Muster, bei welchem die Anhebezeit Tu einen doppelt so hohen Wert aufweist wie die Absenkzeit Td, ein Muster, in welchem die Anhebezeit Tu gleich der Absenkzeit Td ist, und ein Muster zur Verfügung gestellt werden, in welchem die Anhebezeit Tu etwa die Hälfte der Absenkzeit Td beträgt. In diesem Fall wird ein Standardmuster, welches zur Größe der Anhebezeit und der Absenkzeit paßt, ausgewählt, um die Zeit einzustellen, die erforderlich ist, durch Erhöhung oder Verringerung jener Werte, welche die Zeit in diesem Muster repräsentieren. In diesem Fall ist im Vergleich zu jenem Fall, in welchem ein einzelnes Standardmuster vorgesehen ist, eine geringere Erhöhung oder Verringerung der numerischen Werte, welche die Zeit repräsentieren, zur Einstellung der Zeit auf die gewünschte Zeit erforderlich.
• (F) Bei der Einstellung des Verhältnisses der zum Anheben erforderlichen Zeit und der zum Absenken erforderlichen Zeit durch Änderung jeweiliger Werte, welche die Zeit in dem Standardmuster P0 repräsentieren, bei welchem die Anhebezeit Tu und die Absenkzeit Td vorher eingestellt werden, können die Anhebezeit Tu und die Absenkzeit Td sich unter der Bedingung ändern, daß die Gesamtzeit der Anhebezeit Tu und der Absenkzeit Td konstant ist, also die Anhebe- und Absenkzeit T in einem Zyklus der Ringbank 8. Die Anhebe- und Absenkzeit T in einem Zyklus der Ringbank 8 muß in einem vorbestimmten Bereich liegen, der durch die Spinnbedingungen festgelegt ist. Daher besteht die Befürchtung, daß die Anhebe- und Absenkzeit T in einem Zyklus außerhalb des vorbestimmten Bereiches liegen könnte, wenn die Anhebezeit Tu und die Absenkzeit Td frei eingestellt werden. Ein derartiger Nachteil kann jedoch verhindert werden, wenn die Anhebe- und Absenkzeit T konstant ist.
• (G) Als andere Art und Weise der Änderung des Verhältnisses der zum Anheben erforderlichen Zeit und der zum Absenken erforderlichen Zeit kann eine solche Anordnung getroffen werden, daß sich die Absenkzeit Td ändern kann, unter der Bedingung, daß die Anhebezeit Tu konstant ist. Beispielsweise wird das in 1(A) dargestellte Standardmuster P0 auf dem Anzeigebildschirm des Anzeigegerätes 29 dargestellt, bei welchem die Anhebezeit Tu unveränderlich auf einen bestimmten Wert eingestellt ist, während die Absenkzeit Td geändert werden kann. Die Absenkzeit Td wird dann auf den gewünschten Wert durch Betätigung des Eingabegeräts 25 geändert. Die Anhebezeit Tu entspricht einer Aufspulsteigung des Garns, welches auf die Spule B aufgespult werden soll. Sind die anderen Bedingungen gleich, so ist die Aufspulsteigung desto geringer, je kürzer die Anhebezeit Tu ist. Eine zu geringe Aufspulsteigung kann manchmal zu Schwierigkeiten beim Abwickeln in der Wicklerstufe führen. Daher wird die Anhebezeit Tu auf eine vorbestimmte Zeit festgesetzt, wodurch die Aufspulsteigung so festgelegt wird, daß sie einen Wert hat, der nicht allzu klein ist, um Schwierigkeiten in nachfolgenden Vorgängen zu verhindern.
• (H) Das Muster muß nicht unbedingt graphisch dargestellt werden, sondern kann auch als Tabelle dargestellt werden, welche eine Kombination der Anhebezeit Tu, der Absenkzeit Td und der Chase-Länge C angibt.
• (I) Eine weitere mögliche Anordnung ist folgendermaßen ausgebildet: Ein arithmetischer Ausdruck ist in dem Programmspeicher 21 gespeichert, und wird zur Berechnung der Garnspannung während des Spinnvorgangs entsprechend de Spinnbedingungen verwendet, auf der Grundlage der Drehzahl der Spindel, der Dicke des gesponnenen Garns (Garnnummer) und der Garnmasse. Auf der Grundlage der eingegebenen Spinnbedingungen wird die Spannung des Garns beim Spinnen berechnet, so daß die CPU 20 eine geeignete Anhebezeit und Absenkzeit entsprechend der sich ergebenden Spannung einstellen kann. Auch in diesem Fall wird die Einstellung der Anhebezeit und der Absenkzeit vereinfacht.
• (J) Alternativ kann ein Motor mit variabler Geschwindigkeit (beispielsweise ein Käfigläufer-Induktionsmotor), dessen Beschleunigung über einen Wechselrichter gesteuert wird, statt des Servomotors verwendet werden, der als Hebemotor 12 verwendet wird, und eine Vorwärts-Rückwärtsdrehung durchführen kann. Zusätzlich kann ein Mechanismus zwischen der Ausgangswelle dieses Motors und der Transmissionswelle 7 vorgesehen werden, der die Drehrichtung der Transmissionswelle 7 mit Hilfe einer Magnetisierung bzw. Entmagnetisierung eines Paars elektromagnetischer Kupplungen ändert.
• (K) Statt des Anhebe- und Absenkgeräts, welches die Antriebssäule 10 bei der Vorwärts/Rückwärtsdrehung der Transmissionswelle 7 anhebt bzw. absenkt, kann die Spindelmutter 11, der mit der Antriebsspindel 10 in Eingriff steht, über eine Zahnstange gedreht werden, wie bei jenem Gerät, das in der japanischen offengelegten Gebrauchsmusteranmeldung Nr. 1-58667 beschrieben ist.
• (L) Die Ringbank 8 ist nicht auf eine Ringbank beschränkt, bei welcher eine Halterungswand zur Anbringung des Antiballonrings 8a vorspringend vorgesehen ist, und kann alternativ die Form eines umgekehrten U aufweisen, wie eine Standard-Ringbank.
• (M) Alternativ kann das Spindelantriebssystem und das Streckteilantriebssystem durch einen einzigen Motor angetrieben werden.
• (N) Statt der Anordnung, bei welcher die Spindel 1 durch den Tangentialriemen angetrieben wird, kann eine solche Anordnung eingesetzt werden, daß die Spindel durch ein Spindelband angetrieben wird, welches um Spindeltrommeln herumgeschlungen ist.
• (O) Die vorliegende Erfindung kann bei einer Ringzwinnmaschine eingesetzt werden, und ist nicht auf eine Ringspinnmaschine beschränkt.

It should be noted that the modes for carrying out the present invention are not limited to the above-described modes, and that the present invention may be practiced as follows.

• (A) In the above embodiment, in which a pattern among the plural patterns P0 and Pi is selected, instead of displaying patterns one by one on the display screen of the display device 29 a simultaneous representation of the multiple patterns to select from these a single pattern. In this case, the differences between the patterns are clarified, and the appropriate pattern can be easily selected.
• (B) As a manner of changing the ratio of the time required for the lifting and the time required for the lowering, such an arrangement may be employed in which the CPU 20 automatically based on the spinning conditions imposed by the input device 25 or select a pattern that matches the spinning conditions, or a pattern that matches spinning conditions that are similar to previous spinning conditions. In this case, the requirement for a user to select a pattern is turned off and the adjustment of the operating conditions is simplified.
• (C) Another way of changing the ratio of the time required for lifting and the time required for lowering may be employed, in which respective time values in the standard pattern P0 in which the raising time Tu and the lowering time Td have previously been set are be changed, that the time is set, which the ring bank 8th needed to be raised and lowered in one cycle. For example, the program memory stores 21 the standard pattern P0, which is in 1 (A) and also the raising time Tu and the lowering time Td. When the ratio of the time required for lifting and the time required for lowering is changed, the input device becomes 25 to make the default pattern P0 on the display screen of the display device 29 is displayed, so that the lifting time Tu and the lowering time Td, which are shown there, are changed to desired values. If the selection is made among several patterns, due to the fact that the desired spinning conditions can not always be found among these patterns, a pattern of spinning conditions similar to those desired, in which case it is possible to simply set the lift time Tu and set the lowering time Td to the desired values. As a result, the storage capacity can be reduced, which the program memory 21 needed to save the patterns as it is unnecessary to save the multiple patterns in the program memory 21 save.
• (D) In the manner of changing the ratio of the time required for lifting and the time required for lowering by changing the lifting time Tu and the lowering time Td in the standard pattern, the values representing time can thereby be changed so that the default values are increased or decreased. In other words, the time is changed by making a fine adjustment of the lift-up time Tu and the decrease time Td in the standard pattern. In this case, it is easy to prevent setting as the raising time and the lowering time values which are completely incompatible with the spinning conditions.
• (E) In the above-mentioned manner, a number of standard patterns can be provided that are substantially different from each other with respect to the lifting time Tu and the lowering time Td. For example, a pattern in which the lift-up time Tu is twice the value of the decrease time Td, a pattern in which the lift-up time Tu is equal to the decrease time Td, and a pattern in which the lift-up time Tu is about the Half the lowering time Td is. In this case, a standard pattern matching the size of the raising time and the lowering time is selected to set the time, which is required by increasing or decreasing those values which represent the time in this pattern. In this case, as compared with the case where a single standard pattern is provided, a smaller increase or decrease in the numerical values representing the time is required to set the time to the desired time.
• (F) In setting the ratio of the time required for lifting and the time required for lowering by changing respective values representing the time in the standard pattern P0 at which the lifting time Tu and the lowering time Td are previously set, the lifting time Tu and the lowering time Td change under the condition that the total time of the raising time Tu and the lowering time Td is constant, that is, the raising and lowering time T in one cycle of the ring rail 8th , The lifting and lowering time T in one cycle of the ring rail 8th must be in a predetermined range determined by the spinning conditions. Therefore, there is a fear that the raising and lowering time T could be out of the predetermined range in one cycle when the raising time Tu and the lowering time Td are set freely. However, such a disadvantage can be prevented when the raising and lowering time T is constant.
• (G) As another way of changing the ratio of the time required for lifting and the time required for lowering, such an arrangement may be made that the lowering time Td may change under the condition that the lifting time Tu is constant. For example, the in 1 (A) illustrated standard pattern P0 on the display screen of the display device 29 in which the lifting time Tu is invariably set to a certain value while the lowering time Td can be changed. The lowering time Td is then set to the desired value by operating the input device 25 changed. The lifting time Tu corresponds to a Aufspulsteigung of the yarn, which is to be wound on the bobbin B. If the other conditions are the same, the shorter the lifting time Tu, the lower the winding pitch. Too low a winding pitch can sometimes lead to difficulties in unwinding in the winder stage. Therefore, the lift-up time Tu is set to a predetermined time, whereby the winding pitch is set to have a value not too small to prevent trouble in subsequent operations.
• (H) The pattern does not necessarily have to be graphically displayed, but may be represented as a table indicating a combination of the lift-up time Tu, the decrease time Td, and the chase length C.
• (I) Another possible arrangement is formed as follows: An arithmetic expression is in the program memory 21 and is used to calculate the yarn tension during the spinning process according to the spinning conditions based on the spindle speed, the yarn spun yarn count (yarn count) and the yarn weight. On the basis of the entered spinning conditions, the tension of the yarn during spinning is calculated so that the CPU 20 can set a suitable lifting time and lowering time according to the resulting tension. Also in this case, the setting of the lifting time and the lowering time is simplified.
• (J) Alternatively, a variable speed motor (for example, a squirrel cage induction motor) whose acceleration is controlled by an inverter may be used instead of the servo motor as a lifting motor 12 is used, and can perform a forward-reverse rotation. In addition, a mechanism between the output shaft of this engine and the transmission shaft 7 be provided, the direction of rotation of the transmission shaft 7 by means of magnetization or demagnetization of a pair of electromagnetic clutches.
• (K) Instead of the lifting and lowering device, which is the drive column 10 in the forward / reverse rotation of the transmission shaft 7 raises or lowers, the spindle nut 11 that with the drive spindle 10 is engaged, rotated over a rack, as in the apparatus described in Japanese Laid-Open Utility Model Application No. 1-58667.
• (L) The ring bank 8th is not limited to a ring rail, in which a support wall for mounting the antiballone ring 8a projecting, and may alternatively have the shape of an inverted U, such as a standard ring rail.
• (M) Alternatively, the spindle drive system and the draft part drive system can be driven by a single motor.
• (N) Instead of the arrangement in which the spindle 1 is driven by the tangential belt, such an arrangement can be used that the spindle is driven by a spindle belt, which is wrapped around spindle drums.
• (O) The present invention can be applied to a ring spinning machine, and is not limited to a ring spinning machine.

Claims (9)

System for controlling the raising and lowering of a ring rail in a spinning machine, with a lifting and lowering device, in which the Ring Bank ( 8th ) by a motor ( 12 ) is raised and lowered, comprising: an adjustment device ( 25 ) for setting conditions for forming a cop, for example, the amount by which the ring rail is raised per cycle and the amount by which the ring rail is lowered per cycle and a length wound per cycle; a storage device ( 22 ) for storing the conditions for forming a cop, which of the adjusting device ( 25 ) are set; and a control device ( 20 . 13 ) for driving and controlling the engine ( 12 ) of the lifting and lowering device in such a way that the engine ( 12 ) the ring rail ( 8th ) raises and lowers according to the conditions for forming a cop that is stored in the memory device ( 22 ), characterized by a change device ( 20 . 21 . 25 ), which changes, per cycle, depending on the type of yarn, the ratio of a time in which the ring rail is raised at a time in which the ring rail is lowered, wherein the storage device ( 22 ) also saves the changed time ratio. System for controlling the raising and lowering of a ring rail in a spinning machine according to claim 1, characterized in that the changing device comprises a database storing a plurality of patterns and a selection device ( 25 ) for selecting a pattern among a plurality of patterns stored in the database. System for controlling the raising and lowering of a ring rail in a spinning machine according to claim 1, characterized in that the changing device ( 20 . 25 ) sets the times required for raising and lowering the ring bank per cycle by changing numerical values of a standard pattern (P0) in which a lift-up time (Tu) and a decrease time (Td) are previously set. System for controlling the raising and lowering of a ring rail in a spinning machine according to claim 3, characterized in that the changing device ( 20 . 25 ) allows the raising and lowering times to change, on the condition that the sum of the raising time (Tu) and the lowering time (Td) is constant. System for controlling the raising and lowering of a Ring rail in a spinning machine according to claim 3, characterized in that that the change device allows the Lowering time (Td) changes, on the condition that the Lifting time (Tu) is constant. System for controlling the raising and lowering of a Ring rail in a spinning machine according to claim 2, characterized in that that a predetermined Standard pattern (P0) is automatically selected when the change device no Select pattern (Pi). System for controlling the raising and lowering of a ring rail in a spinning machine according to claim 2, characterized in that the selection device automatically selects an optimum pattern (Pi) corresponding to spinning conditions, which is controlled by an input device ( 25 ). System for controlling the raising and lowering of a ring rail in a spinning machine according to claim 2, characterized in that the changing device is a display device ( 29 ), which may represent a graph of multiple patterns (Pi) stored in the database. System for controlling the raising and lowering of a Ring rail in a spinning machine according to one of claims 3 to 5, characterized in that numeric Values of the standard pattern (P0) by increasing or decreasing the changed numeric values become.