CN115637514A

CN115637514A - Coating for rotary disc feeder

Info

Publication number: CN115637514A
Application number: CN202211289055.XA
Authority: CN
Inventors: 迈克尔·斯特罗贝尔; 伊马德廷·卡拉拉尔; G·施魏格尔
Original assignee: Rieter Ingolstadt GmbH
Current assignee: Rieter Ingolstadt GmbH
Priority date: 2014-09-10
Filing date: 2015-09-02
Publication date: 2023-01-24
Also published as: US20170253458A1; TWI622680B; EP3191390A1; EP3191390B1; WO2016037913A1; BR112017001117A2; TW201610249A; BR112017001117B1; DE102014113000A1; CN106536391A

Abstract

The invention relates to a rotary disc feeder for a knitting machine, in particular a drawing frame or a picker, for placing a fiber band in a pot, comprising a base body (2) and a fiber band channel (3) arranged in the base body (2). According to the invention, when the carousel feeder (1) is used as intended, the side of the carousel feeder (1) facing the cans has, at least in regions, a coating (6) with a three-dimensional structure formed by spherical, irregular projections (11).

Description

Coating for rotary disc feeder

Technical Field

The invention relates to a carousel feeder for placing fiber ribbons in a can, having a base body and fiber ribbon channels arranged in the base body, and to a method for producing a carousel feeder for a knitting machine, in particular a draw frame or a picker.

Background

DE 103 34 758 B4 discloses a rotary feeder for a knitting machine, in particular a draw frame, a teaspoon or a combing machine. During operation of the machine, the rotary feeder and the fiber web to be processed in the machine are in contact with one another. The lower surface of the carousel feeder, which is in contact with the fiber band, has a three-dimensional structure of projections and recesses, at least in sections, the projections being formed in a honeycomb shape. The purpose of the three-dimensional structure is generally to reduce friction between the carousel feeder and the fiber tape when they are in contact. The excessively high friction pulls together the fibers of the fiber band placed in the container by the rotary motion of the carousel feeder. By said pulling together, an uncontrolled laying may be caused and damage to the fibre band may be caused.

However, a disadvantage of these honeycomb-like protrusions is that they are originally designed and approved for processing specialized polyester types. In the polyester types of different manufacturers, which are used today, which have mutually different characteristics, this effect of pulling together occurs despite the fact that the protuberances are honeycomb-shaped. This negative effect occurs even with other fibrous materials, such as cotton.

Disclosure of Invention

It is therefore an object of the present invention to create a three-dimensional structure on a rotary disc feeder which reduces the friction between the rotary disc feeder and the fibre band and thus prevents fibres of various fibre materials with different properties from being pulled together.

This object is achieved by a carousel feeder for a knitting machine and a method for manufacturing a carousel feeder according to the independent claims.

A rotary disc feeder for a knitting machine, in particular a drawing frame or a teaspoon machine, for placing a fiber band in a can is proposed, which has a base body and a fiber band channel arranged in the base body.

According to the invention, when the carousel feeder is used as intended, the side of the carousel feeder facing the cans has, at least in regions, a coating with a three-dimensional structure consisting of spherical, irregular projections.

In the case of a rotary disk feeder, which is used as intended, the rotary disk feeder is usually arranged above the pot and performs a rotary movement about a vertical axis. The can is here generally a downwardly closed cylindrical container. The fiber band was placed in the jar through the upper orifice of the jar.

A fiber band passage is provided in the base body of the rotary feeder through which the fiber band extends and is placed downward in the tank. Usually, the coating here comes into contact with the fibrous strip already placed in the can. The situation in which the fibres of the fibre band are pulled together by the carousel feeder is prevented by a tailored coating having a three-dimensional structure consisting of spherical, irregular protrusions. The spherical, irregular projections prevent a contact surface between the coating and the fiber band, since only the upper regions of the spherical projections come into contact with the fiber band and only a low friction is exerted on the fiber band.

It is also advantageous if the coating is provided on the base body and/or on a cover, wherein the cover is fastened to the side of the base body facing the can. The coating directly on the substrate accelerates the manufacturing process and reduces the material expenditure and thus overall the manufacturing costs. It is additionally or alternatively advantageous for the coating to be provided first on a separate cover. This simplifies the production process, since only the cover requires a coating process and the cover must be fixed to the base body. Also, the cover can be removed for maintenance purposes or replaced entirely.

It is additionally advantageous if the cover is glued to the base body, screwed to the base body and/or rolled into a recess in the base body by means of an edge projecting above the base body. In order to save manufacturing costs, a method of pasting can be utilized. If the cover is releasably arranged on the base body, a screwing-in manner is applied. The protruding edge is simply rolled in the groove of the base body by means of a machine.

It is particularly advantageous if the coating is arranged on the base body and/or the cover in sections, in particular at a distance from the edge on which the cover is rolled. Costs can thus be saved, since only a small number of surfaces of the cover and/or the base body are applied. It is also ensured that the applied area no longer passes after application

It is also advantageous if the coating is formed by at least one base layer, structural layer and/or cover layer. A base layer is generally necessary to form a bottom layer for the definition of the structural layer. Thus, the base layer balances out the irregularities of the substrate and provides a smooth surface on which the structural layer can be applied.

The structural layers constitute a three-dimensional structure consisting of spherical, irregular protuberances.

In order to protect the structural layer from wear, a cover layer is applied. By means of a protective covering layer on the structural layer, it is possible, for example, to consider a structural layer consisting of a softer material in order to simplify the production process. Of course, it is also conceivable for the base layer, the structural layer and/or the cover layer to be composed of different materials.

It may also not be necessary to use a base layer and/or a cover layer.

Advantages are likewise achieved if the coating consists of chromium and/or a chromium alloy. Coatings made of this material are particularly resistant to wear phenomena. In addition to this, chromium and/or chromium alloys can be easily cleaned or polished.

It is also advantageous for the projections to have a size in the range from 0.1 μm to 10 μm, in particular from 0.6 μm to 4 μm. When the size of these protrusions is within this range, an effect similar to the lotus effect known from nature is also effective on the fiber band. The intermediate spaces between these protrusions are too small for the fibre band or its fibres to hook in between them. Thus, the fibers that pull the fiber tape together are prevented by these intermediate chambers. The protrusions may be arranged and dimensioned such that the air pockets are formed in the intermediate chambers. The air pockets can also pass over the projections, so that the fiber band is only indirectly in contact with the coating by means of the air pockets. The balloon ultimately reduces sliding friction and reduces the pulling together phenomenon.

A method for producing a rotary table feeder for a knitting machine, in particular a draw frame or a picker, for depositing a fiber band in a pot, having a base body and a fiber band channel arranged in the base body is also proposed.

According to the invention, when the carousel feeder is used as intended, the side of the carousel feeder facing the cans has, at least in regions, a coating with a three-dimensional structure consisting of spherical, irregular projections. The situation in which the fibres of the fibre band are pulled together by the carousel feeder is prevented by applying a coating having a three-dimensional structure consisting of spherical, irregular protrusions.

It is particularly advantageous here if the coating is provided on the base body and/or on a lid, wherein the lid is fastened to the side of the base body facing the can. If the coating is provided on a substrate, costs are saved by saving material and faster manufacturing. Instead, the coating can also be applied to the lid, which simplifies the application process, since only the lid requires the application process. Subsequently, the cover is fixed to the base body by a simple working step.

It is also advantageous if the cover is glued to the base body. The application is a simple and rapid process, so that both the cover and the base must be handled in a plurality of work steps.

In addition or alternatively, the cap can of course also be screwed onto the base body. In case the method is applied, the cover can be removed for maintenance purposes. Thus, the complete lid can also be replaced.

Alternatively or additionally, it is also possible for the cover to be rolled in a groove in the base body by means of an edge which projects above the base body. It is advantageous here that the winding-in action can be carried out simply by means of a machine, and likewise saves production time and costs.

It is also advantageous if the coating is arranged on the base body and/or the cover section by section, in particular at a distance from the edge, on which the cover is rolled. Costs can thus be saved, since only a small surface of the cover and/or the base body is coated and losses of coating when the cover is deformed are avoided.

It is particularly advantageous if the coating is formed by at least one base layer, structural layer and/or cover layer. The base layer serves as the base layer (Untergrund) of the structural layer. Furthermore, the base layer also fulfills the function of compensating possible irregularities in the underlying material of the base body or the cover. The base layer forms a smooth surface for the structural layer. The structural layer contains a three-dimensional structure which is formed by spherical, irregular projections and is applied to the base layer after it. The final cover layer is applied last and serves as an encapsulation or generally serves to protect the structural layer from external influences.

The following is the method used to apply each coating. The base layer is applied by a common electroplating process. However, gas separation methods, chromating or other methods are also conceivable, by means of which a suitable base layer can be produced.

The coating of the structural layer is carried out in a packaged reactor. The chromium separation method of electroplating is also used here. In the method for producing a structural layer, the properties of the nucleation process are used to a good extent. On the basal layer, embryonic cells are gradually formed, which grow spherically during the duration of the process. By randomly generating blasts on the base layer, an irregular structure of these protrusions is achieved. By varying the physical parameters in the reactor, the size of the protrusions, the distribution over the surface, the growth rate or the like can be controlled. Therefore, the temperature inside the reactor has an influence on the growth rate of the protrusions. The reproducibility of the structural layer is achieved in that the same physical parameters are set in each method. In addition, a high dimensional accuracy can be achieved by this method.

The cover layer is finally applied by a different method (similar to that of the base layer). It is noted here that the cover layer cannot be applied too thick, since the undesired protrusions (and the recesses located between them) are compensated for by the cover layer.

Advantages are likewise achieved if the coating consists of chromium and/or a chromium alloy. The advantage of "chrome plating" is wear resistance and is stable against different corrosive gases and liquids.

Drawings

Further advantages of the invention are illustrated in the following examples. Wherein:

FIG. 1 shows a schematic structure of a rotary disc feeder;

FIG. 2a shows a cross-section of a coating with spherical, irregular protrusions;

FIG. 2b shows a cross-section of the coating with a smaller number of spherical, irregular protrusions; and

fig. 3 shows a cross section of the rim area of a carousel feeder with a lid and a coating.

Detailed Description

A schematic structure of a carousel feeder 1 is shown in fig. 1. The rotary table feeder 1 is formed here by a base body 2 and a fiber band channel 3 arranged in the base body 2. The fiber band, not shown here, is brought up through the fiber band channel 3 and leaves the rotary disc feeder 1 through the fiber band channel 3 and the opening 4 of the base body 2 facing downwards. A lid 5 is fixed to the base body 2 on the underside of the carousel feeder 1 and likewise has an orifice 4. In the case of a regular application of the carousel feeder 1, this lower side is the side facing the tank. A coating 6, which is illustrated in detail in fig. 2, is applied to the lower surface or underside of the lid 5.

Fig. 2a shows a cross section of the coating 6 with spherical, irregular protrusions 11. The coating 6 is applied to a backing material 7. The primer 7 can be part of the cover 5 or part of the base 2. The coating 6 has three individual layers, namely a base layer 8, a structural layer 9 and a cover layer 10. The base layer 8 is connected to the primer 7 and serves, for example, as a carrier layer for the structural layer 9 or to compensate for irregularities of the primer 7. A structural layer 9 with spherical, irregular protrusions 11 is applied to the basic layer 8. As can be seen, the protrusions 11 have different sizes. The covering layer 10 closes the coating 6 downwards.

Fig. 2b shows the coating 6 in a cross-section similar to fig. 2 a. The same components as in fig. 2a are therefore not described here. However, these projections 11 are not provided so thick on the base layer 8, i.e. the number of projections 11 per surface unit is also smaller than in fig. 2 a. The two projections 11 each have a distance, which can be in the range of several orders of magnitude of the intermediate projections 11. If the intermediate protrusions 11 have a size of, for example, 5 μm, the spacing between two respective protrusions 11 is, for example, 50 μm. However, it is also conceivable for the distance between two projections 11 to be only a fraction of the size of the elevations 11. It is thus also conceivable, for example, for the distance between two projections 11 to be only 1-2 μm or even less.

Fig. 3 shows a part of the rim area of the carousel feeder 1 with the lid 5. A recess 12 is provided in the edge region of the base body 2 of the carousel feeder 1. The lid 5 is fixed to the base 2 in such a way that: the side of the lid 5 is rolled in this groove 12. The coating 6 is provided on the lid 5, which is only shown in storage due to the small size compared to the carousel feeder 1. But the coating does not reach the area where the lid 5 is rolled up. It is therefore a section which is not provided with a coating 6.

The invention is not limited to the embodiments shown and described. Even if they are shown and described in different embodiments, variations and combinations of features within the framework of the patent claims are likewise possible.

List of reference marks

1. Rotary disc feeder

2. Base body

3. Fiber tape channel

4. Orifice

5. Cover for portable electronic device

6. Coating layer

7. Bottom material

8. Base layer

9. Structural layer

10. Covering layer

11. Protrusion

12. Groove

Claims

1. A carousel feeder of a braiding machine, in particular a drawing frame or a bur machine, for placing a fiber band in a tank, having a base body (2) and a fiber band channel (3) arranged in the base body (2), characterized in that, when the carousel feeder (1) is applied as intended, the side of the carousel feeder (1) facing the tank is at least partially provided with a coating (6) having a three-dimensional structure, which is formed by spherical irregular protrusions (11), by means of which coating the spherical irregular protrusions of the three-dimensional structure prevent the fibers of the fiber band from being pulled together by the carousel feeder and the contact surface between the coating and the fiber band, so that the upper area of the spherical protrusions is in contact with the fiber band and only exert a small friction on the fiber band, the coating (6) being arranged on a separate cover (5), which separate cover (5) is rolled in a recess (12) on the base body (2), which coating (6) is arranged at a distance from the edge of the base body (2); the protrusions are arranged and dimensioned such that air pockets can be formed in the intermediate cavities between the protrusions, the air pockets being able to pass over the protrusions, the coating (6) being composed of at least one basic layer (8), a structural layer (9) and a cover layer (10), the protrusions (11) having a size in the range of 0.1 μm to 10 μm, in particular 0.6 μm to 4 μm.

2. Carousel feeder according to the preceding claim, characterized in that the coating (6) is provided on the base body (2) and/or on a lid (5), wherein the lid (5) is fixed on the side of the base body (2) facing the tank.

3. Carousel feeder according to one or more of the preceding claims, characterized in that the lid (5) is glued to the base body (2), screwed together with it and/or rolled in a groove (12) on the base body (2) by means of an edge raised above the base body (2).

4. Carousel feeder according to one or more of the preceding claims, characterized in that the coating (6) is provided on the base body (2) and/or on the lid (5) segment by segment, in particular spaced apart from the edge on which the lid (5) is rolled.

5. The carousel feeder according to one or more of the preceding claims, characterized in that the coating (6) consists of chromium and/or a chromium alloy.

6. A method for manufacturing a carousel feeder for a weaving machine, in particular a draw frame or a bur picker, for placing a fibre band in a tank, having a base body (2) and a fibre band channel (3) arranged in the base body (2), characterized in that, when the carousel feeder (1) is applied as intended, the side of the carousel feeder (1) facing the tank is at least partially coated with a coating (6) with a spatial structure, which spatial structure is formed by spherical, irregular protrusions (11), by means of which the coating with spherical, irregular protrusions prevents the fibres of the fibre band from being pulled together by the carousel feeder and prevents the contact surface between the feeding and the fibre band, so that the upper area of the spherical protrusions is in contact with the fibre band and only exerts a small friction on the fibre band, the coating (6) being arranged on a separate cover (5), which separate cover (5) is rolled in a recess (12) on the base body (2), which coating (6) is arranged at a distance from the edge of the base body (2); the protrusions are arranged and dimensioned such that air pockets can be formed in the intermediate cavities between the protrusions, the air pockets being able to pass over the protrusions, the coating (6) being composed of at least one basic layer (8), a structural layer (9) and a cover layer (10), the protrusions (11) having a size in the range of 0.1 μm to 10 μm, in particular 0.6 μm to 4 μm.

7. Method for manufacturing a rotary disc feeder according to the preceding claim, characterized in that the coating (6) is provided on the base body (2) and/or the lid (5), wherein the lid (5) is fixed on the side of the base body (2) facing the tank.

8. Method for manufacturing a rotary disc feeder according to one or more of the preceding claims, characterized in that the lid (5) is glued to the base body (2), screwed together with the base body and/or rolled in a groove (12) in the base body (2) by means of an edge which is raised above the base body (2).

9. Method for manufacturing a carousel feeder according to one or more of the preceding claims, characterized in that the coating (6) is provided on the base body (2) and/or on the lid (5) segment by segment, in particular spaced apart from the edge on which the lid (5) is rolled.

10. Method for manufacturing a carousel feeder according to one or more of the preceding claims, characterized in that the coating (6) is constituted by at least one base layer (8), a structural layer (9) and/or a covering layer (10).

11. Method for manufacturing a rotary disc feeder according to one or more of the preceding claims, characterized in that the coating (6) consists of chromium and/or a chromium alloy.