This application claims the benefit of German Patent Application No. 102012112553.8 filed Dec. 18, 2012, the contents of which are incorporated herein by reference as if fully rewritten herein.
The invention relates to a tool module for a textile machine, in particular for fastening to a bar of a textile machine, such as a tufting machine or also a knitting machine, for example.
The bar of a tufting machine or of a knitting machine supports a large number of tools, such as grippers, needles, guide needles, blades, reed fingers or the like, for example, which are combined in modules in groups. Each module comprises a base body, in or to which a number of tools is fastened. To equip the bar with tools, modules are connected to the bar.
This principle can be gathered from DE 42 23 642 C2 and furthermore from DE 44 11 277 A1, from U.S. Pat. No. 5,947,042 or from DE 199 28 885 C1.
DE 103 92 189 T5 furthermore shows tool modules for fastening to a bar, wherein these tool modules encompass a first, horizontally oriented contact surface, which is embodied on the bottom of a nose, which projects away from a rib on the rear side. Provision is made on both sides of the rib for a second contact surface, which is divided by means of the rib and which is oriented vertically and which is spaced apart from the first contact surface.
It is a task of the invention to show a way for a more accurate and simpler production of tool modules.
A tool module according to the invention encompasses a module body, to which at least one tool is fastened or can be fastened. The module body furthermore encompasses at least two contact surfaces, which are arranged relative to one another at an angle (e.g. a right angle). The contact surfaces can be embodied so as to be flat or curved. According to the invention, at least one of the two contact surfaces extends into the groove in a straight extension. A production-friendly structure is obtained by means of this measure. For example, the module bodies can be produced in the casting process and can thereby be demolded easily along the contact surface, which extends into the groove. Casting molds, which are embodied in a relatively simple manner, can be used to produce the module bodies.
In addition, the proposed embodiment of the groove facilitates an accurate production of the modules. In particular, the special arrangement of the groove benefits the flatness of the contact surface, which connects to the groove. This is in particular the case, when the contact surface, which, of the two contact surfaces, which are separated by the groove, has the smaller area, is determined as that contact surface, which extends into the groove in a straight extension. This applies in particular in response to the production of module bodies of pourable metals, such as aluminum, zinc, or the alloys thereof a well as of plastic or a plastic composite. In particular, it is preferred for the groove to surround the larger one of the contact surfaces at least on two sides. With regard to the cool-down and shrinking behavior of the used materials, this can increase the flatness of the contact surface.
At least one of the contact surfaces is preferably a plane surface. The contact surface can be embodied so as to be connected or so as to be divided. For example, the groove, which runs along the edge of the contact surface, can be branched and can encompass branches, which divide the plane surface into partial surfaces. The partial surfaces can be connected to one another or can be divided completely by means of the branch of the groove.
The contact surface can also be a curved surface, for example a cylindrical surface, a truncated cone-shaped surface or the like. In the case of a truncated cone-shaped surface, the cone angle is preferably small, for example smaller than 5°.
The module body is preferably a cast body, for example an injection molded body, for example of a metal. The groove can encompass a rectangular, square or trapezoidal cross section. The corners of this cross section can be rounded. Such cross sections lead to a groove comprising a flat, that is, non-rounded base. Preferably, this flat base is arranged parallel to at least one of the contact surfaces. This results in a clearly arranged structure, which is free from undercuts and releases the contact surfaces to the extent that the module body is subject to minimal deformation in response to cooling down.
The groove can encompass two shoulders, which are located opposite one another. They are preferably oriented parallel to one another or they draw an acute angle between one another, which opens away from the groove. This results in a structure, which is free from undercuts, which makes it possible to demold the module body easily even in the case of particularly simple molds comprising few or no movable parts.
The module body can be embodied smoothly in one piece, so that the contact surfaces are embodied on the same body. However, it is also possible to design the module body in two or more pieces, in that provision is initially made for a base body, into which an arrangement element is inserted. The arrangement element can be cast into the base body or can be fastened therein in a different manner. While the one contact surface is embodied on the base body, the other contact surface is preferably embodied on the arrangement element. The arrangement element can be a pin, a journal with or without a head, an ashlar-formed body or a different body. It can be arranged in the casting mold for the module body and can thus be connected to the cast base body during the casting.
Further details of advantageous embodiments of the invention follow from the drawing, the description or claims.
The module body 15 is equipped to come into contact with the positioning surfaces of the bar 10 so as to fit appropriately. Positioning surfaces can be a front plane surface 17, for example, or also cylindrical wall surfaces 18, 19, 20 (
As can be seen from
On its rear side, the module body 15 encompasses further contact surfaces. They can be embodied, for example, on a rectangular projection 23 and/or on one or a plurality of journals 24, 25, which project away from the rear side. In the case of the rectangular projection 23, a contact surface 26 can be embodied as a flat surface on a bottom side, which is covered in
The tool module 16 according to the invention is characterized in that at least two contact surfaces 22, 26 and/or 22, 27 and/or 22, 28 are separated from one another by a groove 29, 30, 31 (
For example, the module body 15 consists of a metal, for example zinc die casting. However, it can also be made of aluminum die casting, plastic die casting, plastic composite or a different material. Preferably, it is produced in a corresponding casting process. However, other production processes, which cannot be assigned to the master forming, but to the forming or machining, are also possible. Incorrect positionings are avoided by means of the groove 29 to 31 and it is ensured that the contact surface 22 comes into a holohedral secure contact with the plane surface 17. It is furthermore ensured that the tool modules 16 can be removed easily from the bar 10, when a fastening screw is unscrewed from the fastening opening 32, which is illustrated in
Likewise, the contact surface 27 extends into the groove 30 and forms a journal-side shoulder 36 of the groove 30 in the groove 30. A further ring-shaped shoulder 37 is arranged so as to be located opposite the ring-shaped shoulder 36. A preferably flat base 38 is arranged between the shoulders 36, 37. The base 38 can be oriented parallel to the contact surface 22. It can also be embodied in a truncated cone-shaped manner and can rise towards the journal 24, for example.
A minimal elastic resilience of the journal 24 can be effected by means of the groove 30, so as to prevent a jamming of the tool module 16 on the bar 10, in particular when using two journals 24, 25, and, on the other hand, to nonetheless provide for a play-free fit of the contact surface 27, 28 in corresponding positioning holes of the bar 10.
The cross sections of the grooves 29, 30 are illustrated as virtually square rectangles in
According to
The journal can also be connected to the module body 15 in a different manner, for example by injection, screwing in, gluing in, welding in, soldering in or the like.
A modified embodiment is shown in
As is illustrated in
Provision can be made on both sides of the T-shaped projection 46 for contact surfaces 53, 54, which are preferably located in a common plane. The contact surface 53 is separated and spaced apart from the contact surface 47 as well as from the contact surface 48 by means of a groove 55. Accordingly, a groove 56 separates and spaces the contact surface 54 apart from the contact surfaces 49, 50. The contact surfaces 47, 48 extend into the groove 55 in a straight extension. The contact surfaces 49, 50 extend into the groove 56 in a straight extension. With regard to the cross sectional shape and the function of the grooves 55, 56, reference is made to the previous description and to the effect in particular of the grooves 29, 30, 31. These explanations apply accordingly herein. In addition, it is pointed out that the grooves 55, 56 can be branched, as is illustrated in
With regard to the grooves 57, 58, the explanations made with regard to the remaining grooves apply as well.
A tool module 16 comprises a module body 15, comprising at least two contact surfaces 22, 27. They are separated from one another by means of a groove 30 and one of them extends into the groove 30. A fixed and accurate fit of the tool module 16 on each bar is ensured by means of this groove. Yarn filaments or very fine dirt particles, grout or wear on the accommodations can be accommodated by the groove. In addition, a simple and failure-free assembly is ensured.
10 Bar
11 Tools
12-14 loop grippers
15 module body
16 tool module
17 plane surface
18-20 wall surfaces
21 upper narrow side of the bar 10
22 flat contact surface
23 rectangular projection
24, 25 Journals
26-28 contact surfaces
29-31 groove
32 fastening opening
33 base
34 first shoulder
35 second shoulder
36 first ring-shaped shoulder
37 second ring-shaped shoulder
38 base
39 arrangement element
40 shaft
41 branch
42 side surfaces
43 fastening opening
45 module body
46 projection
47-50 contact surfaces
51, 52 groove
53, 54 contact surface
53
a,
53
b partial surfaces
54
a,
54
b
55, 56 groove
57, 58 branch
Number | Date | Country | Kind |
---|---|---|---|
102012112553.8 | Dec 2012 | DE | national |