EP3959365A1 - Device and method for adjusting at least one flexible bend concentrically with respect to a rotatably mounted clothed drum of a carding machine - Google Patents

Abstract

The present invention relates to a device and a method for adjusting at least one flexible bend (27) concentrically with respect to a rotatably mounted clothed drum (4) of a carding machine, wherein at least one flexible bend (27) for guiding a plurality of revolving card-flat bars (14) of a revolving flat system (17) either side of the drum (4) is in each case adjustably arranged directly or indirectly on a respective side shield (16) by means of a plurality of adjustment points, wherein a means is provided by means of which at least one point of contact can be established between the card clothing (14a) of the card-flat bar (14) and the card clothing (4a) of the drum (4), such that the flexible bend (27) can be adjusted concentrically with respect to the drum (4).

Description

Title: Device and method for setting at least one flexible bend concentrically to a rotatably mounted garnished drum of a card

description

The invention relates to a device and a method for setting at least one flexible sheet concentrically to a rotatably mounted garnished drum of a card, with at least one flexible sheet being arranged on both sides of the drum directly or indirectly on a side plate, adjustable by means of several setting points.

The carding gap of a card is determined by the distance between the clothing of the rotating flat bars and the clothing of the drum. The flat bars run by means of sliding elements or pins on a sliding strip or a flexible bend, which form the guide track of the flat bars opposite the drum. The sliding strips can be made in one piece or in two pieces. In the case of two-part sliding strips, these can have an upper wedge-shaped sliding strip and a lower wedge-shaped sliding strip. The lower slide bar can be formed in one piece with the flexible bend. Since the wedge-shaped sliding strips are aligned with one another with their wedges, a displacement of the sliding strips with respect to one another causes a different height profile, which changes the distance between the upper sliding strip and the drum. The slide strips can in turn be arranged on a flexible bend which is arranged directly or indirectly on both sides of the side plate of the card. However, the sliding strips can also be arranged on the side plate of the card to be adjustable. The concentricity and the distance of the Flexible bend and thus the sliding strips can be adjusted to the drum. In the following, the term flexible bend also subsumes a sliding strip that is arranged directly or indirectly adjustable on the side plate of the card. The setting of the flexible sheet concentric to the drum is the first step towards setting a constant carding gap. The flexible bend is usually set by means of distance gauges, in that the distance is determined on the side edge area between the sets of flat bars and the set of the drum. This means that the contour or the entire course of the guideway cannot be traced over the cover circuit, since the fitter always only refers to the area of a single adjusting spindle. The result of the adjustment depends very much on the experience of the fitter. Alternatively, according to DE 102014015480 A1, a measuring cover was developed that is built into the revolving cover system instead of one to three flat bars. This measuring cover runs around with the other flat bars and electronically records its distance to the clothing of the drum. The concentricity of the sliding strips to the drum can be displayed very clearly via a graphic evaluation, so that the flexible bend and thus the sliding strips can be set exactly concentric to the drum by adjusting the spindles. The relatively high costs for this measuring cover are a disadvantage.

In the event of a collision between the drum and at least one component, for example the rotating flat bars of a card, the contact and temperature control T-CON (DE 102006002812 A1) provides for an automatic shutdown. In addition, opposing components that could collide with each other are electrically isolated and a voltage is applied to both components. He follows If there is contact between the components, a short circuit occurs, with a digital filter in the machine control system selecting and evaluating the number of contacts in order to prevent the card from being switched off immediately. So far, this system has been used to prevent clothing and machine damage, with the carding gap between the carding drum and the revolving flats being able to be readjusted during operation, especially when the temperature of the carding machine changes.

EP 2743385 B1 varies the present method in that the intensity or contact duration of each short circuit is determined and evaluated with the number of contacts determined.

In both documents, the setting or changing of the existing carding gap after the setting of the flexible bend or the sliding strip is disclosed as soon as there is contact between the drum clothing and a flat clothing. An adjustment of the flexible arch or the sliding strip is not disclosed with these systems.

The object of the invention is to improve the adjustment of the concentricity of the flexible bend or the sliding strip to the drum on a card. This object is achieved on the basis of a device and a method according to the preamble of claims 1 and 13 in conjunction with the characterizing features. Advantageous further developments of the invention are given in the dependent claims.

The device according to the invention for setting at least one flexible bend concentrically to a rotatably mounted garnished drum of a card has at least one flexible bend each for guiding a multiplicity of revolving flat rods Revolving cover system on both sides of the drum, the flexible arches being arranged directly or indirectly adjustable on a side plate by means of several adjustment points. The invention is characterized in that there is a means with which at least one contact between the clothing of the flat rod and the clothing of the drum can be established so that a flexible bend can be set concentrically to the drum. Via the contact between the clothing of the flat bar and the clothing of the drum, a single flexible bend or both flexible bends can be set concentrically to the drum at the same time or one after the other. A constant distance or contact between the clothing of the flat rod and the clothing of the drum can be established by means of a limited adjustment of the sliding strip in the area of the adjustment points of the flexible bend. If the flat bars run only on one upper side of the flexible bend, the flexible bend can be adjusted concentrically to the drum by means of the adjustment points. The concentric adjustment of the flexible arch to the drum takes place via the adjustment points. The setting of the carding gap takes place via the following setting of the sliding strip or the setting points of the flexible arch.

The means for determining the at least one contact between the clothing of the flat bar and the clothing of the drum can preferably be designed as an ohmmeter. With the ohmmeter, a constant distance between the sets can be determined indirectly by determining the electrical resistance. Adjusting the adjusting spindle changes the electrical resistance of the fittings. Alternatively, the contacts between the clothing of the flat rod and the clothing of the drum can be determined by an electrical contact measurement, in which the clothing with the flat rod and the clothing with the drum are electrically isolated and a voltage is applied to both components, and via the contact at least one short circuit can be produced in both components. The contact and temperature control T-CON is used for this purpose, by means of which the contacts are detected and assigned to a location.

In a first variant, a classic flat bar can be used to adjust the flexible bends, the set of which lies flat against the flat bar over the entire working width. It can be assumed here that the first contact does not necessarily take place in an edge region of the drum, but can also take place in a central region of the drum. In this case, the drum must stand still, which does not necessarily have to be the case with the other following variants, but can be useful due to possible collisions and clothing wear. If the first contact occurs, for example, in the middle area of the drum, the flexible arches can be readjusted on both sides in this position of an adjusting spindle until the number of contacts over the drum width or flat bar length has expanded and reached the edge area or can be determined. This process can be repeated in the area of each adjusting spindle so that the flexible bend is set concentrically to the drum via the cover travel. The carding gap can then subsequently be set by adjusting the sliding strips and, for example, readjusted depending on the temperature.

In a further variant, the at least one flat rod can be formed, at least one on a lateral edge area Take up spacer, which is designed to remove the set locally limited at a defined distance from the flat rod or to space it. By determining the contacts between the clothing of the flat bar and the clothing of the drum, the setting points of the flexible bend can be set concentrically to the drum. Since only individual contacts take place between the sets in the area of the adjustment points of the flexible bend, this method is suitable for both resistance measurement and determination using electrical contacts.

The setting points can be designed as manually or motor-driven adjusting spindles which are arranged on the side plate. The lateral edge area is to be understood as the area of the flat rod in which the sliding elements or pins protrude laterally from the profile of the flat rod. With a length of the flat rod of 100 to 130 cm, the spacer is designed in such a way that the set at the lateral edge area is approximately 1 to 5 cm away from the base area of the flat rod by a defined distance of, for example, 0.2 to 0.5 mm. is spaced, and after this 1 to 5 cm again flat against the rest of the flat bar.

By touching the teeth or tips of the sets of flat bar and drum exclusively in the edge area, a concentric distance or radius of the flexible bend arranged on both sides to the drum can be set so that the flat bar can be aligned absolutely parallel to the drum or to the drum axis. The sets are therefore not subject to wear, since only the teeth or tips arranged on the side touch briefly in order to make the setting. This means that after the setting, all flat bars are moved parallel to the drum, so that no fiber fly can occur on the side and the carding quality across the drum width is equal to. After the flexible bend has been set, the spacers are removed again or the integrated spacers are moved back to zero so that the set rests flat against the flat bar again.

The set of the flat rod is preferably arranged detachably from the flat rod at least on a lateral edge region. Due to the detachable arrangement, a standard flat rod can be used, which is already in the card. For this purpose, the set is advantageously magnetically attached to the flat rod.

In an advantageous alternative embodiment, the set can be designed to be attached to the flat rod by means of segmented clamps or clips. With this alternative embodiment, too, the clothing can be locally removed or spaced apart from the flat rod in the edge region at a defined distance.

As an alternative to these two embodiments, the flat rod can be designed as a reference flat rod, in which the clothing is arranged at a lateral edge area at a varied distance from the drum, which protrudes from the plane of the rest of the clothing arrangement.

The spacer can preferably be designed as a separate shim that can be pushed or inserted between the set and the flat bar. In this way, a flat rod located in the card can be used, in which, for example, a feeler gauge is inserted in a locally limited manner in the lateral edge area. In a further embodiment, the spacer can be integrated in the flat rod. This can be done pneumatically or hydraulically Cushions are used that can only be activated manually or automatically for the setting process. Of course, this also presupposes that the clothing can be detached from the flat rod to a limited extent in the lateral edge area.

With a further advantage, the spacer can be designed as a pressure or screw element which removes the set from the flat rod in order to set the adjustment points. The pressure or screw elements can be integrated in the flat bar and limited to a defined dimension. In an advantageous embodiment, two flat rods are used to adjust the flexible bend, the first flat rod being designed to receive a spacer at a lateral edge area, and the second flat rod being designed to accommodate a spacer at a lateral edge area, which is opposite the edge area of the first flat rod lies. This means that the flexible bends, which are arranged on both sides of the drum on the side plate, can be adjusted at the same time.

With a further advantage, the card has a control which is designed to store the contacts between the clothing of the flat bars and the clothing of the drum according to the location of the contact and to display them visually. This can be done at any number of points along the sliding strip. Documentation for setting the card is thus automatically implemented for the fitter and the customer.

With the method according to the invention for setting at least one flexible sheet concentric to a rotatably mounted garnished drum of a card, in which at least one flexible sheet is arranged on both sides of the drum directly or indirectly adjustable on a side plate by means of several setting points, at least one flat rod with its clothing are opened Contact the set approached the drum so that at least one flexible bend can be adjusted concentrically to the drum in the area of its setting points.

The contacts are preferably determined by means of resistance measurement. The electrical resistance between the sets of drum and flat bar can be used via an ohmmeter to set a concentric course of the flexible bends to the drum. If the resistance changes, the distance between the components has also changed. The adjusting spindle is then adjusted until the electrical resistance is the same at all adjustment points.

Alternatively, the contacts can be determined by means of an electrical short circuit, at least the sets of the flat bars and the set of the drum being electrically insulated and a voltage being applied to both components. The contact and temperature control T-CON is used for this purpose, by means of which the contacts are detected and assigned to a location. On at least one flat rod, the clothing is preferably removed from the flat rod at an edge region at a defined distance. Thus, by determining the contacts at the edge area of the clothing of the flat rod and the clothing of the drum, the setting points of the flexible bend can be set concentrically to the drum.

By touching the teeth or tips of the sets of flat bar and drum exclusively in the edge area, a concentric distance or radius of the flexible bend arranged on both sides to the drum can be set so that the flat bar is aligned absolutely parallel to the drum or to the drum axis can. The sets are therefore not subject to wear, since only the teeth or tips arranged on the side touch briefly in order to make the setting. This means that after the setting, all flat bars are moved parallel to the drum, so that no fiber fly can occur and the carding quality is the same across the width of the drum.

The contacts are preferably determined over a course of part of the circumference of the drum, the contacts being stored in a controller and being displayed visually.

Further measures improving the invention are shown in more detail below together with the description of a preferred exemplary embodiment of the invention with reference to the figures. Even if the exemplary embodiment relates to a card, the components described here can also be parts of a card.

Show it:

Figure 1 is a schematic side view of a card with the device according to the invention; FIG. 2 shows a perspective illustration of the sliding strip;

FIG. 3 shows a schematic representation of a side plate with the sliding strip and the revolving cover system; FIG. 4 shows a schematic representation of the drum with one of two modified flat bars;

FIG. 5 shows another embodiment of FIG. 4.

Fig. 1 shows a card 100 according to the prior art, in which fiber flocks are passed via a shaft to a feed roller 1, a feed table 2, via several lickerins 3a, 3b, 3c, to the drum 4 or the tambour. On the drum 4, the fibers of the fiber flocks are parallelized and cleaned by means of fixed carding elements 20, suction hoods and separating knives and by means of rotating carding elements arranged on a revolving flat system 17, which are designed as flat rods 14. The resulting fiber web is then a doffer 5, a doffing roller 6 and several nip rollers 7, 8, conveyed to a fleece guide element 9, which transforms the fiber web with a funnel 10 into a sliver which is transferred via take-off rollers 11, 12 to a subsequent processing machine or a can 15. The adjustment of the flat rods 14 to the drum 4 (carding gap) takes place via a flexible bend (not shown here) or sliding strips 18, which have elements aligned with one another in a wedge shape.

The following description relates to the adjustment of the concentricity of the flexible bend or the sliding strip 18 to the drum 4. Depending on the design of the card, the flexible bend can have a sliding strip 18 of constant cross-section, on which the flat bar 14 slides along its flat travel. Alternatively, the slide strip 18 can also consist of two wedge-shaped slide strips 18a, 18b, which are arranged against one another and wherein the upper slide strip 18a is arranged displaceably on the lower slide strip 18b, so that the outer radius of the slide strip 18 changes with a shift. In both variants, the sliding strip 18 is arranged and fastened on the flexible bend 27 or in an upwardly open groove of the flexible bend. The lower slide strip 18b can be designed in one piece with the flexible bend 27. The flat bars 14 can depending on the design of the

The card also slide along a coated upper side of the flexible sheet 27.

In a first exemplary embodiment, the concentricity of the flexible bend 27 is determined using a resistance measuring device without a separate electrical voltage having to be applied to the components.

For a second exemplary embodiment, the clothing 14a with the associated flat bar 14 can be designed to be electrically conductive, but be arranged within the card 100 in an electrically insulated manner. This is at the flat rods 14 of the revolving flat system 17, the set 14a arranged in an electrically conductive foundation. The flat bars 14 are electrically insulated and guided on the sliding strip 18, the electrical contact for the contact and temperature control T-CON being routed via the set 14a into the foundation via the outer sliding elements or the pins into the contact and temperature control T-CON and is transmitted. This is not necessary for the first exemplary embodiment.

Figures 2 and 3 show the principle of the sliding strip 18, which can consist of an upper displaceable wedge-shaped sliding strip 18a and a lower stationary wedge-shaped sliding strip 18b. Independently of this described embodiment, a one-piece slide strip 18 can also be arranged on the flexible bend 27. The lower stationary wedge-shaped slide bar 18b is arranged in a stationary manner on or in an upwardly open groove of the flexible bend 27 and so cannot be seen. In this example, the slide strip 18 for the revolving cover system 17 is shown. The flexible bend 27 is usually connected to the side plate 16 of the card 100 in a directly or indirectly adjustable manner, so that each card 100 has at least one one-part or multi-part flexible bend 27 on both sides of the drum 4. On the flexible bend 27, the lower slide strip 18b can be arranged in a stationary manner or in one piece with it. The upper slide bar 18a is arranged displaceably on the lower slide bar 18b, a gear 21a that at least partially penetrates the lower slide bar 18b shifts the upper slide bar 18a on the circumference. The radius of the flexible bend 27 and the sliding strip 18 arranged on it must be set concentrically to the radius of the drum 4, since the flat bars 14 are guided on their flat circle against the direction of rotation of the drum 4 and should always have the same distance from the drum 4 (carding gap). . On top of the top Slide strip 18a slide the revolving cover 14 with their slide elements or pins 14b, which are guided and moved via a belt 24 at a distance from one another. The sliding elements or pins 14b can interact with the contact arch 23 of a contact element 22, which can be arranged, for example, on the side of the sliding strip 18 or on the flexible arch 27. Alternatively, the flat bar 14 can also be connected directly to a contact sheet 23, for example via a sliding contact. The electrical contact during calibration is thus made via the tips of the sets 14a, via an electrically conductive foundation of the flat rod 14 in the pins 14b, which are electrically connected to the foundation, up to the contact sheet 23. This embodiment shows the arrangement of four, for example Contact elements 22 on the sliding strip 8, so that the location of contact between the clothing 14a of a flat rod 14 and the clothing 4a of the drum 4 can be localized very precisely. The contact elements 22 with their contact arcs 23 are in turn electrically connected to the control of the card 100. In order to adapt the radius of the slide bar 18 concentrically to the radius of the drum 4 and / or to adjust the basic distance between the upper side of the slide bar 18 and the drum 4, the flexible bend 27 has a plurality of adjusting spindles 19 which can be adjusted manually or by motor. In this exemplary embodiment, six adjusting spindles 19 and two further adjustment points are provided at the ends of the flexible bend 27, with which the flexible bend 27 can be adjusted on each side of the card 100. The adjustment of the upper slide bar 18a on the lower slide bar 18b takes place, as already mentioned, with a

Gear 21 a, which is driven by means of drive 21. The drive 21 can be designed as a motor-gear combination, for example as a stepper motor with an externally arranged sensor system or as a servomotor with an integrated sensor system. By adjusting or shifting the upper slide strip 18a on the lower slide strip 18b, the wedge shape translates the movement, in which a large distance is covered on the circumference of the lower sliding strip 18b, which causes only a slight change in the radius.

Figure 4 shows a representation of a detail of a flat rod 14 and a drum 4 with a view from the can 15 to the opened card 100. A first flat rod 14 is provided with a spacer 26, which is on one side of the flat rod 14 under the clothing 14a or whose foundation is laid. For this purpose, the set 14a can be detached from the flat rod 14 in the area of the sliding elements or the pins 14b on the flat rod 14. The set 14a can advantageously be fastened magnetically to the flat rod 14. Alternatively, the fastening (clips, clamps) of the set on the flat rod 14 can be segmented on at least two flat rods in the area of the pins, so that the fastening at the edge area is detachable. Of course, two prepared flat bars can also be prepared and inserted into the revolving flat system 17 and exchanged again after the flexible bends 27 have been set. In a first embodiment, the spacer 26 can be designed, for example, as a shim, which has defined dimensions, as is the case with a feeler gauge sheet. The thickness of the spacer 26 can be, for example, 0.2 mm. In this figure 4, the clothing 14a is positioned closer to the clothing 4a of the drum 4 on its left-hand side in the illustration, so that the tips of the clothing 4a, 14a touch or almost touch each other at a single point. On the right-hand side, the clothing 14a of the flat rod 14 is attached unchanged to the latter and is thus at a distance of 0.2 mm from the clothing of the drum 4. On the left-hand side, precise contact is made in a targeted manner, in which the clothing 14a of the flat rod 14 in the area of an adjusting spindle 19 is brought into contact with the clothing 4a of the drum 4. A second flat rod, which is arranged directly next to the first flat rod on the revolving flat system 17, can be on the right side a spacer 26 between set 14a and flat rod 14 are provided. Since both flat bars are next to each other, they are now positioned in the area of a first adjusting spindle 19. Presumably only one flat rod with its clothing on one side of the card will rest against or touch the clothing of the drum. Thus, the adjusting spindle 19 must be readjusted on the side on which the sets do not touch. A resistance measuring device or the T-CON contact and temperature control can be used to determine whether there is any contact. If both flat bars with their respective “lowered” set, once on the left side, once on the right side, have contact with the set 4a of the drum 4, after removing both spacers 26 it can be assumed that the flat bar 14 is absolute is arranged parallel to the drum 4 and thus the flexible bends 27 on both sides of the card have the same distance from the drum axis. The flat bars 14 still provided with the spacer 26 are now moved to the other five adjusting spindles 19 and the process is repeated in each case. With this method, the flexible bend 27 can be set exactly on each side of the card. The use of the resistance measuring device or the contact and temperature control T-CON enables an objective determination of a contact between the sets 14a of the flat rod 14 and the set 4a of the drum, which is no longer based on the fitter's subjective experience.

In the exemplary embodiment in FIG. 5, the spacer 26 is designed as a pressure element which can be actuated hydraulically or pneumatically. The pressure element is embedded in the foot area of the flat rod 14 and can be moved out of the plane of the foot area in such a way that the set 14a is removed from the flat rod 14 at a defined distance. In addition, the pressure element can be controlled manually or automatically. Alternatively, a screw is shown as a spacer 26 at the same point, which screw can at least partially penetrate the foot region of the flat rod 14 and can be arranged, for example, in the fastening for the pins 14. The set 14a can also be removed from the flat rod 14 by screwing in the screw by a defined amount. The screw can be prepared in such a way that only a certain number of turns are possible in order to precisely determine the distance between the set and the flat rod. Instead of the screw, a bayonet or snap lock can also be installed, in which the defined distance between the set 14a and flat rod 14 can be achieved with, for example, a 30 ° rotation. Of course, the two flat bars can also be designed as reference flat bars and are only used for the alignment process of the flexible arches. Then the reference flat bars are exchanged for conventional flat bars in the card.

The visual or graphic display of the contour of the flexible bend 27 is achieved in that the flat bars 14 provided with the spacers 26 move over the entire bend of the drum 4 by means of a cover drive and contact is established between the sets at any number of points. The recording of the lid travel (contact over the arch of the drum) enables the graphical representation of the guideway (flexible arch and thus the sliding strip) in relation to the drum surface to be displayed using the machine control. The course of the graphic thus corresponds to the contour of the flexible arch (s). With the method according to the invention and the associated device, the flexible bends 27 arranged on both sides of the drum 4 on the side plates 16 can be adjusted so that the flat bars 14 are moved absolutely parallel to the drum 4 or to the drum axis. The method described with FIGS. 4 and 5 is based on two flat rods, which are approached on an opposite side with an enlarged distance between the clothing and flat rod in contact only in the edge region of the drum. The method can also be implemented with a single flat rod in that the flat rod 14, which is underlaid with a spacer 26 or spacer element in the area of an end face between clothing 14a and flat rod 14, first moves along one side of the flexible bend 27 on the card. After the first flexible bend 27 has been set, the flat rod is rotated by 180 ° in the revolving flat system 17 and the second flexible bend 27 can be set. These two methods for adjusting the flexible bend 27 have the advantage that one or two existing flat rods 14 of the card can be used.

In an alternative embodiment, a single flat bar 14 can be used for the simultaneous adjustment of both flexible bends 27, in that this flat bar 14 has a split set which are electrically isolated from one another. The clothing is divided preferably in the middle of the flat rod 14, so that a separate electrical contact can be established between a part of the clothing and an edge region of the drum 4 on both sides of the flat rod 14. Spacers 26 or spacer elements are inserted between the flat rod 14 and the set 14a on both end faces, so that both flexible bends 27 can be adjusted simultaneously.

With the methods described above, the flexible bends 27 can be set on the basis of a specifically established contact or a resistance measurement between the clothing 14a of a flat rod 14 and an edge region of the drum clothing.

Alternatively, with a single flat rod 14, the set 14a of which rests flat on the flat rod 14 over the entire working width and was not underlaid with spacers 26 in the edge area, can be used to adjust the flexible arches 27. It can be assumed here that the first contact does not necessarily take place in an edge region of the drum 4, but can also take place in a central region of the drum 4. In this case, the drum 4 must stand still, which does not necessarily have to be the case with the other methods described above, but can be useful due to possible collisions and clothing wear. If a first contact takes place, for example, in the middle area of the drum 4, the flexible bends 27 can be readjusted on both sides in this position of an adjusting spindle 19 until the number of contacts extends over the drum width or flat bar length and has reached the edge area or can be determined is. This process can be repeated in the area of each adjusting spindle 19 so that the flexible bend 27 is set concentrically to the drum 4 via the cover travel. The carding gap is then set by adjusting the slide strips 18 and readjusted, for example, as a function of temperature.

The embodiment of the invention is not limited to the preferred exemplary embodiment specified above. Rather, a number of variants are conceivable which make use of the solution shown even in the case of fundamentally different designs. All of the features and / or advantages arising from the claims, the description or the drawings, including structural details or spatial arrangements, can be essential to the invention both individually and in a wide variety of combinations. Reference number

100 card 1 feed roller

2 dining table

3a, 3b, 3c lickerin

4 drum

4a set

5 customers

6 scraper roller

7 squeegee roller

8 squeeze roller

9 Fleece guide element

10 funnels

1 1 take-off rollers

12 take-off rollers

13 frame

14 flat rod

14a set

14b pen

15 jug

16 side plate

17 Revolving lid system

18 sliding strips

18a upper slide bar

18b lower slide bar

19 adjusting spindle

20 fixed carding element

21 drive

21 a gear

22 contact element

23 Contact sheet

24 straps

25 guide wheels

26 spacers

27 flexible bend

T-CON contact and temperature control

Claims

Claims

1. Device for setting at least one flexible bow (27) concentrically to a rotatably mounted garnished drum (4) of a card, with at least one flexible bow (27) for guiding a plurality of revolving flat bars (14) of a revolving flat system (17) on both sides of the drum (4) is arranged directly or indirectly on each side plate (16) adjustable by means of several adjustment points, characterized in that a means is present with which at least one contact between the set (14a) of the flat rod (14) and the set (4a ) the drum (4) can be locked so that a flexible bend (27) can be set concentrically to the drum (4).

2. Apparatus according to claim 1, characterized in that the

Means for determining the at least one contact between the clothing (14a) of the flat bar (14) and the clothing (4a) of the drum (4) is designed as an ohmmeter.

3. Apparatus according to claim 1, characterized in that the

Means for determining the at least one contact between the clothing (14a) of the flat rod (14) and the clothing (4a) of the drum (4) is designed as an electrical contact measurement, in which the clothing (14a) with the flat rod (14) and the The set (4a) with the drum (4) is electrically isolated and a voltage is applied to both components, and at least one short circuit can be produced via the contact between the two components.

4. The device according to claim 1, characterized in that the at least one flat rod (14) is designed to receive a spacer (26) at least on a lateral edge region, which is designed to remove the set (14a) locally limited at a defined distance from the flat rod (14) or to space it.

5. The device according to claim 1, characterized in that the set (14a) of the flat rod (14) at least on one side

Edge region of the flat rod (14) is detachably arranged.

6. The device according to claim 4, characterized in that the set (14a) is designed to be attached magnetically or by means of segmented clamps or clips on the flat rod.

7. The device according to claim 2, characterized in that the spacer (26) is designed as a separate shim.

8. The device according to claim 2, characterized in that the

Spacer (26) is integrated in the flat bar (14).

9. The device according to claim 6, characterized in that the spacer is designed as a pressure or screw element which can remove the set (14a) from the flat rod (14) for setting the adjustment points.

10. Device according to one of the preceding claims, characterized in that the flat rod (14) has a divided set, the parts of the clothing being arranged on the flat rod, electrically isolated from one another.

11.Vorrichtung according to claim 1, characterized in that two flat rods are used to adjust the flexible bend, wherein the first flat rod is designed to receive a spacer (26) at a lateral edge region, and the second flat rod is designed to have one at a lateral edge region Take up spacer, which is the edge area of the first flat rod opposite.

12. Device according to one of the preceding claims, characterized in that the card has a controller which is designed to store the contacts between the clothing of the flat bars and the clothing of the drum according to the location of the contact and to display them visually.

13. A method for setting at least one flexible sheet (27) concentrically to a rotatably mounted garnished drum (4) of a card, with at least one flexible sheet (27) on both sides of the drum (4) directly or indirectly on one side plate (16) by means of several Adjustment points is arranged adjustable, characterized in that at least one flat rod (14) with its

Set (14a) is approached on contact with the set (4a) of the drum (4), so that at least one flexible bend (27) can be adjusted concentrically to the drum (4) in the area of its adjustment points.

14. The method according to claim 13, characterized in that the at least one contact can be determined by means of a resistance measurement.

15. The method according to claim 13, characterized in that the at least one contact can be determined by means of an electrical short circuit, at least the sets of the flat bars and the set of the drum are electrically insulated and an electrical voltage is applied to both components.

16. The method according to any one of claims 13 to 15, characterized in that the determination of the contacts via a Course of a partial circumference of the drum (4) can be stored in a controller and can be displayed visually.