CN107304014A - For the waxing attachment for the weaving loom for producing cross winding bobbin - Google Patents

Abstract

The present invention relates to a kind of waxing attachment (19) for being used to produce the weaving loom (1) of cross winding bobbin, including axially displaceable the wax body (23) being arranged in bear box (30), wax body can be positioned during winding process by drive device (34), the drive device can in a limiting fashion be controlled in waxing plane (PE) region of waxing attachment (19), and the fore-end (46) of wherein wax body (23) is abutted on moving yarn (16).According to the present invention, waxing attachment (19) has the sensor device (40) or sensing system (50) for being connected to workstation computer (28), whether its fore-end (46) for monitoring wax body (23) is located in the region of the waxing plane (PE) of waxing attachment (19), and workstation computer (28) is designed to, if not above-mentioned situation, it intervenes to correct the feeding speed of drive device (34).

Description

For the waxing attachment for the weaving loom for producing cross winding bobbin

Technical field

The present invention relates to a kind of waxing attachment for being used to produce the weaving loom of cross winding bobbin, including axially displaceable Wax body on bear box (bearing housing), in winding process, wax body can be by can be with restriction side The drive device of formula driving is positioned in the waxing plane domain of waxing attachment, and the fore-end of wax body reclines in this region On the yarn of operation.

Background technology

In textile machinery industry, waxing attachment has been used for a long time, especially with regard to production cross winding bobbin Weaving loom.Waxing attachment can be configured in many different ways, also there is related specific description in the patent literature.

It is used for the weaving loom for producing cross winding bobbin known to this known waxing attachment, mainly in winding process The coefficient of friction of middle reduction yarn.That is as the low capacity cop rewinding Cheng great Rong generally produced on ring spinner (such as performed during the cross winding bobbin of amount in so-called intersected coiled bobbin handset), the particle of wax is applied to yarn Operation and the friction resistant performance of yarn can be improved on line, this is especially relevant with the ensuing production phase in process of production, For example when braiding or knitting.Alternatively, waxing attachment may be provided at the upstream of the coiler device of rotor spinning machine.

This waxing attachment for having related detailed description in such as CH706608A2 or DE4010469A1 includes wax Body, in order to realize the uniform loss of wax body as far as possible, longitudinal central axis line of the wax body along it is slowly rotated while in yarn The direction of operation carries out axial pressure by load device.That is this waxing attachment is transported with their wax body ends contact Wax is simultaneously applied on yarn by row and the yarn of traversing in this way.

For move wax body, be mounted in drivable bearing axle the fixed but axially displaceable load device of rotation It may be designed to different patterns.

Coil spring is for example used as load device in CH706608A2, and wax body rear is arranged in bearing axle Coil spring axially applies pressure to wax body on the direction of moving yarn.

A kind of load device contrasted is also disclosed that in DE4010469A1.In the known waxing attachment, wax body Pressurizeed by extra load beam, load beam bears the spring effect of prestressing force flexural spring again in turn.Herein, wax body It is configured to continuously contact the yarn of operation.

In these known waxing attachments, the operating position of wax body can also be carried out by adjustable motion limiting mechanism Limit in advance, i.e. waxing plane can be by the looping angle-determining of yarn, so as to obtain the waxing of more or less degree Amount.

Such waxing attachment is also generally included for monitoring the sensor device that wax body is used, i.e. filled by sensor Put, the sensor device indicates when to have arrived at minimum dimension on the wax body that rotary shaft rotates installation and needs to carry out more Change.

Such as rod-type in waxing attachment according to DE4010469A1 load device (its from be supported by below rotation In the wax body turned) equipped with the emission element using permanent magnet as form.

In addition, in this known waxing attachment, sensor element, such as Hall sensor are positioned at fixed guarantor Hold on device.

If the emission element of load device is further guided due to the abrasion of wax body to fixed sensor element, Hall sensor monitors their magnetic field because of the close of magnetic element.By electronic switching device immediately or delay one section when Between after produce information signal for asking to change wax body, the wherein switching device is adjusted for processing information signal so that Winding process stops either after 10min to 240min remaining runtime just stopping or only by visually filling at once Put and be presented to operator.

The visualization instruction of this remaining runtime has the disadvantage in that that is, operator generally also needs to manually determine to exist first Each actual also how many run time of individually work station is available.That is, checking which works for operator Station, which needs most the replacing wax body before work station is by forced-stopping machine, certain difficulty.

In order to more accurately determine the remaining runtime of wax body, the past proposes one kind number in DE4226265A1 The method that method determines the remaining time of wax body.That is, in known wax body device, dress of the wax body in suitable design It is movably mounted with, is so constantly reduced because of yarn contacts along the feeding axis transverse to yarn operating path in putting Wax body reach that minimum dimension is instructed to out so that pass through wax body weight, wax amount wear extent, yarn count, winding speed etc. join Number determines that wax body reaches the expection run time before minimum dimension by calculating.

For the remaining runtime of the wax body that determines waxing attachment, it be it is also proposed in DE102013018877A1 upper Two exploring blocks are installed, first exploring block is fixedly disposed relative to rotation axis, second probe portion in wax apparatus Part is arranged in wax body or on the keeper of wax body so that on the one hand second exploring block can rotate around rotation axis, On the other hand it can be shifted along rotation axis.That is linear motion of two exploring blocks by wax body along rotation axis and It is overlapping successively.

The known waxing attachment being widely used in practice not only it is determined that in accurate remaining runtime some Problem, while in known waxing attachment, excessive wax is often applied on moving yarn, this is also a problem. That is in order to ensure yarn waxing under any circumstance fully, these known waxing attachments are generally with excessive yarn bag Twine angle and excessive wax applied amount is operated.

Due to the wax particles that yarn be run, traversing is removed from wax body generally can not be sufficiently solid attach to yarn Line, thus this waxing attachment not only result in wax amount using it is excessive and after one relatively short time can make dirty Wax apparatus.Further, since gravity and often especially generally have on the part for the associated station being arranged at below waxing attachment Too many dirt.

It is related to foregoing waxing attachment, therefore the wax body that rotation is set in fixed cover is also had been proposed that in the past Or catch tray is at least installed in the lower section of wax body, the Wax particles of yarn so rub off, not being run entrainment just can be with It is collected.

A kind of collection vessel for being equipped with the wax particles for dropping for example disclosed in DE102005028751A1 Waxing attachment.

Most known waxing attachment does not comprise only the shortcoming of unnecessary high wax consumption yet, and these are The further disadvantage for the waxing attachment known is also resided in after yarn batch is changed, when based on the thread material newly provided Need to adjust waxing condition, this always needs to undertake one, and very troublesome and time-consuming wax body backstop be again Adjustment.

This means in known waxing attachment, any change of waxing utility ratio always needs the yarn in wax body The change of looping angle, and the therefore position correction of wax body backstop.

Therefore, a kind of waxing dress for being used to produce the weaving loom of cross winding bobbin is proposed in DE102014012247A1 Put, it includes the wax body being axially movably arranged in bear box, the fore-end of wax body is propped up during operating winding In the region for supportting the so-called waxing plane on the moving yarn of work station.Bearing of the described waxing attachment in waxing attachment So-called waxing hole is provided with the front end area of housing, the yarn so run passes through fixed foundation ring (loop) continuity Ground is guided.

In addition, described waxing attachment has feeding unit, it allows, and wax body is adjustable on the direction in waxing hole, limit It is fixed axially displaced and pass through two sensing devices and carry out.

First sensor is arranged in the region of rear portion connecting plate of the bear box of waxing attachment, thus monitors stepping The anglec of rotation of motor, and it is arranged on the detection corresponding virtual condition of wax body of the second sensor in the region of front connection plate.

The content of the invention

Based on foregoing prior art, potential purpose of the invention is to create a kind of waxing attachment, wherein on the one hand ensure that Avoid any undesirable wax abrasion as best one can in operating winding, on the other hand also ensure that moving yarn can be always abundant Waxing.

The purpose is reached by a waxing attachment according to the present invention, the waxing attachment, which has, is connected to workstation computer Sensor device or sensing system, whether its fore-end for monitoring wax body be positioned at the waxing plane of waxing attachment In region, and if the fore-end no-fix of wax body is in the region of the waxing plane of waxing attachment, workstation computer It is designed to correct the feeding speed of drive device.

Especially, embodiments in accordance with the present invention are this have the advantage that by using the sensing for being connected to workstation computer Device device or by using the respective sensor system for being connected to workstation computer, may be with relatively easy and reliable side Whether the fore-end that formula carrys out continuous monitoring wax body is accurately aimed at moving yarn.This means sensor device or sensor system Whether the fore-end (as needed for the best applications for waxing) for continuous monitoring wax body of uniting is located at the institute of waxing attachment It is pressed against in the region of the waxing plane of meaning and therefore with a predetermined contact on moving yarn.If having assert wax The fore-end of body is not in the region of waxing plane, and workstation computer ensures that the driving feeding speed of wax body is obtained more Just.

The fore-end of wax body, which is positioned at, does not only result in optimal upper of yarn in the so-called waxing plane domain of waxing attachment Wax, and also ensure minimal amount of unnecessary Wax particles in wax body by being arranged in such a way wax body and be worn.

According to an advantageous embodiment, sensor device includes transmitter and receiver, and they are arranged on relative two of wax body Side so that when the fore-end of wax body is located in the region at the waxing plane rear of waxing attachment on the feeding direction of wax body When, receiver can not receive the control light beam that transmitter is launched, and sensor device then produces signal.

By will not inadvertently be arranged in the region beyond waxing plane this design ensures the fore-end of wax body In, it can so cause the contact too strong with moving yarn and then cause the unnecessary high abrasion of wax body.Pass through foregoing embodiment Meet the precondition for needing the moment economically to operate waxing attachment.

In an advantageous embodiment, workstation computer is designed to, under the signal input condition of sensor device, just Intervened for " the feeding speed of limitation drive device ".If this means sensor device has determined the fore-end of wax body Through entering the region beyond waxing plane, workstation computer is corrected the feeding speed of the drive device of wax body and ensured at once The fore-end of wax body is moved back in the region of waxing plane.

In a further advantageous embodiment, workstation computer is designed to, if do not had within the default period There is signal to be inputted from sensor device to workstation computer, it ensures that the feeding speed of drive device is improved.This means that After a special time period, the signal deletion of sensor device is read as meaning the fore-end of wax body by workstation computer Fed relative to wax body in the region that direction is located in front of waxing plane, and fore-end of the moving yarn therefore with wax body does not have There is any contact.

In order to change yarn not by this very adverse conditions of waxing, workstation computer ensures the driving of wax body immediately The growth of the feeding speed of device slightly, it means that the fore-end of wax body after a specific, relatively short period again Come back in the region of waxing plane and therefore ensure the best applications waxed in moving yarn.

By the previous embodiment of waxing attachment, it can not only ensure that wax body has in a relatively simple manner relative Longer service life, and can guarantee that yarn can continue correctly to wax.In addition, described embodiment causes closely Structure, the structure can not only be installed on waxing attachment easily, and it is very reliable and accurate to operate.

According to further advantageous embodiment, sensor device or sensing system, as provided, according to optical barrier (light barrier) principle is operated.

Optical barrier is the sensing system for having attempted to and testing in mechanical engineering field, and it, which is widely used in, for example monitors The position of removable installation part.

This means the optical barrier in optoelectronic areas is a kind of interference for recognizing light beam and with the mode exhibition of electronic signal Reveal the system come.

Because optical barrier is not only without frayed and therefore durable in use, and the parts of large-scale production can relatively just Preferably obtain, therefore the sensor device or sensing system that are operated according to optical barrier principle are very favorable devices.

In an alternative embodiment, using a kind of sensing system, it include first transmitter and acceptor device and Second transmitter and acceptor device, they are axially spaced apart from each other relative to the feeding direction of wax body to be provided separately, and connects To workstation computer.This means first transmitter and acceptor device and second transmitter and acceptor device are with respect to that This ground that axially offsets is set so that when the fore-end of wax body is positioned in the waxing plane domain of waxing attachment, the first hair The controllable light beam of emitter and acceptor device is blocked by wax body, and first transmitter and acceptor device correspondingly produce signal, and Be arranged on simultaneously on the feeding direction of wax body waxing attachment waxing plane second transmitter in rear region with connect The controllable light beam for receiving device device is not blocked and therefore produced without signal.

This means for the computer of work station, the signal of first transmitter and acceptor device is inputted and same with this When the signal from second transmitter and acceptor device missing show wax body be properly positioned to waxing plane region in And the feeding speed of the drive device of wax body need not be corrected.

If however, workstation computer also have received except the signal from first transmitter and acceptor device simultaneously Outside the signal from second transmitter and acceptor device, workstation computer recognize wax body fore-end be located at it is upper Region beyond the waxing plane of wax apparatus simultaneously ensures that the feeding speed of drive device of wax body slightly slows down and before wax body The positioning of end part is returned in the region of waxing plane of waxing attachment.

When the first and second transmitters and acceptor device all do not have signal, this shows either first transmitter and connect The control light beam of the control light beam or second transmitter and acceptor device of receiving device device is not all blocked by wax body, because wax The fore-end of body is positionable relative in the region of the waxing planar front portion of waxing attachment farther out, and workstation computer is accordingly true The feeding speed for having protected the drive device of wax body slightly increases and therefore the fore-end of wax body correctly comes back to waxing In the region of plane.

In further advantageous embodiment, workstation computer is designed such that data (its of sensing system Effective feeding speed from the controllable drive device for wax body) it can be entered by e measurement technology by workstation computer Row monitoring.

Preferably, workstation computer can handle monitored by e measurement technology obtain from controllable drive device Effectively the data of feeding speed, are so possible to determine the waxing behavior of waxing attachment during bobbin is moved.

It can determine that for example adjustment waxing utilization rate is desirable.

Waxing utilization rate this change can be realized for example by the feeding speed for the drive device for correcting wax body, wherein Feeding speed for example can be adjusted on workstation computer and/or weaving loom central control unit.

Setting feeds speed on workstation computer and setting feeding speed is equal on the central control unit of weaving loom It is beneficial, wherein setting feeding speed is very favorable in the CPU of weaving loom, because when multiple works Making station needs that when adjusting to a new feeding speed simultaneously the time can be saved.

The material that the conclusion that draws of waxing behavior of waxing attachment can also be with used wax body during being moved from bobbin It is relevant.It can also for example advise, the wax body with slightly different upper wax material is used in ensuing winding process.

Brief description of the drawings

The present invention is explained in detail below with reference to embodiment shown in figure.

Below：

Fig. 1 shows the work station of the weaving loom of production cross winding bobbin, the cross winding in embodiment with side view The winding station of winding machine has waxing attachment, and it includes the sensor device according to present invention design and arrangement；

Fig. 2 shows first with the sensor device for designing and arranging according to the present invention with stereogram and larger proportion The waxing attachment of embodiment；

Fig. 3 is shown to wax shown in Fig. 2 with the sensor device being arranged in waxing plane domain with side view and filled The fore-end put；

Fig. 4 shows the fore-end of waxing attachment with side view, and with sensing system, it is included in the feeding of wax body Side is axially upwardly spaced two sensor devices arranged apart；With

Fig. 5 shows the waxing attachment and partial cross sectional shown in Fig. 2 with stereogram, without bear box.

Embodiment

Fig. 1 shows the work station 2 of the weaving loom of production cross winding bobbin with side view, is so-called in embodiment The winding station of intersected coiled bobbin handset 1.

This intersected coiled bobbin handset 1 is known to include multiple such work stations 2, and they are generally all identicals and simultaneously Row is disposed proximate to each other.At the work station 2, as it is also known that and be not therefore explained in greater detail ground, cop 3 (it is produced and with relatively small capacity yarn for example on ring spinner) is rewound into the friendship of Large Copacity Winding bobbin 5 is pitched, the cross winding bobbin is required (such as on loom) in subsequent production operation.

The yarn 16 extracted out during rewinding from cop 3 is also required to monitor possible yarn defect, and yarn defect exceedes predetermined threshold It will be removed during value.

The yarn 16 of operation is also generally waxed during re-winding.

This means the yarn 16 of operation is directed on the waxing attachment 19 being arranged in the region of thread path, this Sample ensures the coefficient of friction reduction of yarn 16 and therefore the operation of yarn 16 and friction resistant performance are greatly improved.

Corresponding waxing attachment 19 including sensor device 40 or sensing system 50 is with reference next to Fig. 2 to Fig. 5 It is explained in greater detail.

The service unit that the cross winding bobbin 5 produced generally is automatically brought into operation by (not shown) is transported to machine The cross winding bobbin conveying arrangement 7 of length and by the cross winding bobbin transporting apparatus transports to being arranged in machine end Bobbin loading depot or similar device.

Also shown in FIG. 1, this intersected coiled bobbin handset 1 is generally also equipped with bobbin and bobbin transportation system 6, wherein Cop 3 or bare bobbin rotate on disc transport 11.

Fig. 1 merely illustrate this bobbin and bobbin transportation system 6 bobbin feeding part 24, can reverse driven storage part 25th, one of axial transport part 26 and bobbin returning part 27 of the guiding to winding station 2.

Single work station 2 also has different operation devices, and this work station 2 is being may insure just by these operation devices Really operation.This operation device is in professional domain by the known some time, therefore these schematically show in Fig. 1.

One of them known device is, for example, coiler device 4, and it includes the bobbin cradle installed around the activity of pivot axis 12 8。

According to the present embodiment, the cross winding bobbin 5 being arranged on during winding process on bobbin cradle 8 is located at its surface Drive on roller 9, and carried by the driving roller 9 that the individual motor drives by rubbing.Drive the drive device of roller 9 33 are connected to workstation computer 28 in this case through control line 35.

For the traversing of yarn 16 run during winding process, a kind of yarn transversing mechanism 10 is additionally provided.The yarn Line transversing mechanism 10 (only advising illustratively in this embodiment) has such as Yarn guide device 13, the Yarn guide device With finger-like yarn transmission pole.

During winding process, the yarn transmission pole that can be controlled by electro-mechanical driving device 14 is in cross winding bobbin 5 Two sides between make the traversing of moving yarn 16.The drive device 14 of Yarn guide device 13 is in this case also by control Line 15 processed is connected to workstation computer 28.

Yarn transversing mechanism 10 can certainly be designed to difference.The traversing of yarn can also for example be guided by yarn and rolled Cylinder is realized by the traversing Yarn guide device guided in the yarn roller of reverse (inverted).

As described above, before the work station 2 of this intersected coiled bobbin handset 1 generally includes to be located at yarn transversing mechanism 10 tightly Waxing attachment 19 in the thread path region of side, the waxing attachment causes wax is applied on yarn 16 during winding process It is possibly realized.

(especially show to become apparent from detail in Fig. 2 and Fig. 5) as shown in Figure 1, waxing attachment 19 also has drive device 34, the drive device is connected to workstation computer 28 via control line 37, and the workstation computer is further through machine bus 17 It is connected to the central control unit 44 of intersected coiled bobbin handset 1.

Fig. 2 and Fig. 5 are shown with designed according to this invention and arrangement sensing with stereogram and greater proportion respectively The first embodiment of the waxing attachment 19 of device device 40.

As shown in Fig. 2 waxing attachment 19, its such as (not shown) is fixed on the spinning station of work station 2 by erecting device On housing, including the bear box 30 with rear end terminal pad 18 and front end terminal pad 29.In rear end terminal pad 18 for example by means of Bolt 45 is helped to be fixed with drive device 34, the drive device is preferably the form of stepper motor, and drive device is via control Line 37 is connected to the workstation computer 28 and/or central control unit 44 of intersected coiled bobbin handset 1.

Especially as shown in figure 5, thread spindle 20 is connected to the motor shaft of the stepper motor 34, thread spindle for example passes through spiral shell Line part 21 is connected to feeding dolly 22, is designed to that the wax body 23 of piston-shaped is arranged in traverse feed dolly 22.

Dolly 22 is fed for example by being mounted to the guide device 39 shown in section in the interior axle of bear box 30 To displacement.This means feeding dolly 22 can be by stepper motor 34 for example, by rotating thread spindle 20 on the D of direction of rotation And on feeding direction R, i.e., the square upward displacement in so-called waxing plane PE.

As shown in Figure 2 and Figure 5, front end terminal pad 29 bends forward preferably 90 ° and therebetween part compared with lower part at it Include central Yarn guide device 38, the yarn 16 of operation draws during winding process in the central Yarn guide device Lead.

Bearing disk 31 is also equipped with the region of the front end terminal pad 29 of bear box 30, it is equipped with upper end yarn slippage Part 32 and side yarn limiting mechanism 36.

In addition, being provided with sensor device 40 in the region of front end terminal pad 29, it is for example connected to associated station 2 Workstation computer 28.

The sensor device 40 has transmitter 41 and receiver 42, and as shown in Fig. 2, Fig. 3 and Fig. 5, they are arranged to make The control light beam 43 that be sent by transmitter 41 is run in the so-called waxing plane PE regions somewhat rearward of waxing attachment 19, And it is not blocked when the fore-end 46 of wax body 23 is properly positioned in waxing plane PE regions during winding process.

If it means that the fore-end 46 of wax body 23 is properly positioned waxing plane PE region (in the region The fore-end 46 of interior wax body 23 is abutted on the yarn 16 of operation with predetermined contact), sensor device 40 would not be produced Raw signal i.

If the fore-end 46 of wax body 23 removes the region for exceeding waxing plane PE, wax body 23 is covered according to optical barrier The control light beam 43 of the sensor device 40 of principle operation, the result is that sensor device 40 produces signal i.Signal i then by Workstation computer 28 is handled, so that workstation computer 28 ensures that the feeding speed of substantially slightly higher stepper motor 34 is omited Edge down low.

In order to prevent the fore-end 46 of wax body 23 during winding process unexpectedly away from the certain distance of moving yarn 16 Position and hence in so that moving yarn 16 is no longer waxed, workstation computer 28 works according to below step：

If no longer producing signal i by sensor device 40 within certain, the default period, this often means that, Because the feeding speed of stepper motor 34 is a bit too low, the fore-end 46 of wax body 23 is feeding more or less status on the R of direction In the waxing plane PE of waxing attachment 19 front, i.e. be spaced away from moving yarn 16, workstation computer 28 ensures step The feeding speed of stepper motor 34 increases again immediately, and therefore the fore-end 46 of wax body 23 correctly returns to waxing plane PE Region in.

Fig. 4 shows another embodiment of the waxing attachment 19 according to the present invention.This means substitute in this embodiment The install sensor system 50 of sensor device 40, it is connected to the workstation computer 28 of associated station 2.

The first transmitter being provided separately in the front portion of waxing attachment 19, sensing system 50 with axially spaced-apart and reception Device device 51A, 52A and second transmitter and acceptor device 51B, 52B, they are respectively connecting to workstation computer 28.

The waxing that thus transmitter 51A and receiver 52A are arranged on waxing attachment 19 on the feeding direction R of wax body 23 is put down Face PE front, and transmitter 51B and receiver 52B is arranged on waxing plane PE rear on the feeding direction R of wax body 23.

This set, means during winding process with reference to the corresponding software in workstation computer 28, is working as wax body 23 it is properly positioned that (wherein the fore-end 46 of wax body 23 is located in waxing plane PE region and therefore with slight operating pressure It is pressed against on the yarn 16 of operation) when, it is arranged on the receiver 52A in front of waxing plane PE and is sheltered from by wax body 23 so that by The control light beam 53A that transmitter 51A is excited can not be detected by receiver 52A, and and then it generate signal i and send to work station Computer 28.

At the same time, the receiver 52B that waxing plane PE rear is arranged on the feeding direction R of wax body 23 is detected Transmitter 51B control light beam 53B, result is that no signal i is produced.

This signal input is carried out understanding the fore-end 46 for meaning wax body 23 correctly calmly by workstation computer 28 Therefore position need not simultaneously correct feeding for the drive device 34 of wax body 23 at the moment in the waxing plane PE of waxing attachment 19 region Enter speed.

If occurring in that the mistake displacement of wax body 23 during winding process, i.e. if such as fore-end of wax body 23 46 feeding direction R on be pushed into more than waxing plane PE, then wax body 23 block transmitter and acceptor device 51B, 52B, this Sample transmitter and acceptor device 51B, 52B generate signal i.

Transmitter and acceptor device 51B, 52B signal i are then correctly understood by workstation computer 28 causes wax body The feeding speed of 23 drive device 34 is slightly too high.Workstation computer 28 ensures feeding for the drive device 34 of wax body 28 accordingly Entering speed slightly reduces.

If workstation computer no longer receives signal i during winding process, because no matter first transmitter and reception Device device 51A, 52A or axially spaced second transmitter and acceptor device 51B, 52B are not blocked by wax body 23 Firmly, what the solution of workstation computer 28 was read be the drive device 34 for meaning wax body 23 feeding speed it is too low.

In this case, workstation computer 28 ensures that the feeding speed of the drive device 34 of wax body 28 slightly increases Long, the fore-end 46 of such wax body 23, which is positioned, to be returned in waxing plane PE region.

The use of sensing system 50 allows the workstation computer 28 with reference to respective design to realize to by effectively feeding speed The data that rate is drawn are recorded by e measurement technology.

The conclusion on the waxing behavior of waxing attachment during bobbin is moved then can be simply drawn from described data, It can be used for the feeding speed for for example more preferably setting the drive device 34 of wax body 23.

Claims (9)

1. a kind of waxing attachment (19) for being used to produce the weaving loom (1) of cross winding bobbin, the waxing attachment is included with can axle It is arranged on the wax body (23) in bear box (30) to the mode of displacement, the wax body can be during winding process by can be with The drive device (34) of limiting mode driving is positioned in the region of waxing plane (PE) of the waxing attachment (19), on this In wax apparatus, the fore-end (46) of the wax body (23) is abutted on moving yarn (16),

Characterized in that,

The waxing attachment (19) has the sensor device (40) or sensing system for being connected to workstation computer (28) (50), whether the sensor device or the fore-end (46) of the sensing system monitoring wax body (23) are positioned at described In the region of the waxing plane (PE) of waxing attachment (19), and the workstation computer (28) is designed to, if The fore-end (46) no-fix of the wax body (23) is in the area of the waxing plane (PE) of the waxing attachment (19) In domain, the workstation computer (28) corrects the feeding speed of the drive device (34).

2. waxing attachment (19) according to claim 1, it is characterised in that the sensor device (40) includes transmitter (41) and receiver (42), they are arranged on the relative both sides of the wax body (23) so that if the wax body (23) is with it The fore-end (46) is positioned at the waxing of the waxing attachment (19) on the feeding direction (R) of the wax body (23) In the region at plane (PE) rear, the receiver (42) can not receive the control light beam excited by the transmitter (41) , and the sensor device (40) then produces signal (i) (43).

3. waxing attachment (19) according to claim 1, it is characterised in that the workstation computer (28) is designed Into when input has the signal (i) of the sensor device (40), it is ensured that just " the described of the limitation drive device (34) feeds Enter speed " for intervened.

4. waxing attachment (19) according to claim 3, it is characterised in that the workstation computer (28) is also designed Into if the sensor device (40) is transfused to the workstation computer there is no signal (i) within the default period (28), the workstation computer (28) ensures that the feeding speed of the drive device (34) is enhanced.

5. waxing attachment (19) according to claim 1, it is characterised in that the sensor device (40) or the biography Sensor system (50) is operated according to optical barrier principle.

6. waxing attachment (19) according to claim 1, it is characterised in that the sensing system (50) includes the first hair Emitter and acceptor device (51A, 52A) and second transmitter and acceptor device (51B, 52B), their relatively described wax bodies (23) the feeding direction (R) sets and is connected to workstation computer (28) axially spaced apart from each otherly.

7. waxing attachment (19) according to claim 6, it is characterised in that the first transmitter and acceptor device (51A, 52A) and the second transmitter and acceptor device (51B, 52B) are in the feeding direction of the wax body (23) (R) axially offset ground setting on, so that when the fore-end (46) of the wax body (23) is positioned in the waxing attachment (19) when in the region of the waxing plane (PE), the control light of the first transmitter and acceptor device (51A, 52A) Beam (53A) is blocked by the wax body (23), so that the first transmitter and acceptor device (51A, 52A) produce signal (i), And the waxing plane of the waxing attachment (19) is arranged on the feeding direction (R) of the wax body (23) simultaneously (PE) the control light beam (53B) of the second transmitter and acceptor device (51B, 52B) somewhat located rearward is not blocked simultaneously Therefore signal (i) is not produced.

8. waxing attachment (19) according to claim 7, it is characterised in that the workstation computer (28) is designed Into so that by effective feeding speed of the drive device (34) that can be controlled for the wax body (23) draw it is described The data of sensing system (50), can be determined by e measurement technology by the workstation computer (28).

9. waxing attachment (19) according to claim 8, it is characterised in that the workstation computer (28) is designed Into so that number being drawn by the effective feeding speed for the drive device (34) that can be controlled, being obtained by e measurement technology According to that can be processed as, that is, it can be derived that the waxing on the waxing attachment (19) during the motion process of the bobbin The conclusion of behavior.