METHOD FOR MANUFACTURING TOOL OR CORRESPONDING PRODUCT

Abstract

A method for manufacturing a tool, liquid nozzle or corresponding product, in which one or more holes or openings of a desired shape are made into the product during manufacture. The hole or opening is required to have at least one of the following characteristics: interchangeability, serviceability, processability or mechanical wear-resistance, and to achieve this, the inner surface of the hole or opening is accessible in an appropriate manner. The product is divided into at least two parts with the dividing line arranged to run through the hole or opening in such a manner that in the product parts the hole or opening is open, such as an open groove, in which case it is freely accessible in each part.

Claims

9. A method for manufacturing a tool, a liquid nozzle or a corresponding product, the method comprising: making one or more holes or openings of a desired shape into the product during manufacture, said hole or opening having at least one of the following characteristics when in use: interchangeability, serviceablity, processability or mechanical wear-resistance, with an inner surface of said hole or opening being accessible; and dividing the tool, liquid nozzle or product into at least two parts with a dividing line arranged to run through said hole or opening such that in the two parts, the hole or opening is open to be accessible in each of the two parts, the dividing line being arranged to cross the hole/opening in a direction that is different to a direction in which the tool, liquid nozzle or product splits/opens into the two parts or in a direction that is different to a direction of an actual dividing plane of a row of holes/openings in the tool, liquid nozzle or product.

10. A method as claimed in claim 9, wherein there are several holes/openings, and their inner diameter is less than 5 mm to prevent hard-coating or plasmaspraying of their inner surfaces when they are holes in a uniform product.

11. A method as claimed in claim 9, wherein the dividing line runs through a middle of the hole/opening, dividing the hole/opening symmetrically into two parts.

12. A method as claimed in claim 9, wherein the dividing line is, in a case of plural side-by-side holes/openings, arranged to run perpendicular to an actual dividing plane at each hole/opening as it advances alternately back and forth to form an actual waveform dividing line.

13. A method as claimed in claim 9, comprising: forming locking forms in the dividing line to prevent the dividing plane from opening perpendicularly in a direction of the dividing plane, and arranging a specific sideways deviation as the locking form.

14. A tool, a liquid nozzle or a corresponding product comprising: one or more holes or openings of a desired shape made during manufacture to have at least one of the following characteristics when in use: interchangeability, serviceablity, processability or mechanical wear-resistance, with an inner surface of said hole or opening being accessible; and a dividing line by which the tool, liquid nozzle or product is divided into at least two parts, the dividing line being arranged to run through said hole or opening such that in the two parts, the hole or opening is open to be accessible in each part, and the dividing line is arranged to cross the hole/opening in a direction that is different to a direction in which the tool, liquid nozzle or product splits/opens into the two parts or in a direction that is different to a direction of an actual dividing plane of a row of holes/openings in the tool, liquid nozzle or product.

15. A tool, liquid nozzle or corresponding product as claimed in claim 14, wherein the dividing line is arranged to run through a middle of the hole/opening and to divide the hole/opening symmetrically into two parts.

16. A tool, liquid nozzle or corresponding product as claimed in claim 14, comprising: locking forms formed in the dividing line to prevent a dividing plane from opening perpendicularly in a direction of the dividing plane, a specific sideways deviation configured in a waveform or square being arranged as the locking form.

Description

[0007] In the following, the invention will be described in greater detail with reference to the attached drawing, in which

[0008] FIG. 1 shows a steel wire guide unit as seen from the direction of the holes,

[0009] FIG. 2 shows a guide unit, in which the holes are side-by-side in a direct line,

[0010] FIG. 3 shows the unit of FIG. 1 with the parts detached,

[0011] FIG. 4 shows the unit of FIG. 2 with the parts detached,

[0012] FIG. 5 is an oblique view of the unit of FIG. 3 with the parts detached, and

[0013] FIG. 6 is an oblique view of the unit of FIG. 4 with the parts detached.

[0014] The method of the invention is described using the example of FIG. 1, which relates to the manufacture of vehicle tyres, where a guide tool is required to feed thin steel wires forming a steel web in a tyre. FIG. 1 shows the left side of a symmetrical tool la. The tool 1a comprises a row of holes evenly distributed in a zigzag form, in which the diameters of the holes 6 are less than 1 mm. Thin steel wires are led through the holes 6 in the tool 1a inside a rubber mixture to form a metal web of the tyre. The tool 1a is divided into two parts 2 and 3 through a dividing plane L that is horizontal in FIG. 1. The dividing line 5, instead, runs in a waveform comprising vertical portions, where the dividing line 5 runs through the holes 6. The dividing line 5 extends from one edge of the tool la to another and forms the dividing plane L, the parts 2 and 3 of which are detachable from each other.

[0015] The dividing line 5 runs through the holes 6 preferably symmetrically in the middle, whereby the grooves forming the holes 6 in the parts 2 and 3 are semi-circular profiles that are needed to guide a round wire.

[0016] Direct detachment of the parts 2, 3 from each other is prevented by sideways deviations 4 added at some points of the waveform. The start and end parts of the dividing line 5 also contain corresponding deviations 4 that prevent the direct detachment of the parts 2, 3 from each other. The deviation may also be a rectangular profile. The parts 2 and 3 can be separated from each other by sliding the parts 2, 3 in relation to each other in the direction of the holes 6 until they detach.

[0017] In the example of FIG. 2, all adjacent holes 6 are on the same line. In spite of this, the dividing line 5 still has a waveform. In this case, too, the dividing line 5 runs vertically at the holes 6, even though the dividing plane L is substantially horizontal.

[0018] FIGS. 3 to 6 show the parts 2, 3 of the examples of FIGS. 1 and 2 separate. The parts 2, 3 are made by precision work using wire spark machining. The parts 2, 3 can be hardened preforms, into which the waveforms and holes, or as in this case hole halves, are made using wire spark machining. Hard-coatings can be made in different ways to the inner surfaces of the hole 6 halves in the separate parts 2 and 3.

[0019] It is previously known to make small holes that are less than 2 mm, for instance, by drilling them into a uniform preform before hardening. It is also possible to make small holes in a uniform hardened preform by spark machining. The small holes made into a uniform preform in the above-mentioned ways cannot, however, be hard-coated afterward. The splitting of the tool according to the invention and providing small holes as hole halves makes it possible to coat the inner surfaces of the holes afterward. A damaged part can also be replaced with a new one.

[0020] The method of the invention can be applied to all industrial products, in which the guidance of wires and fibres or liquid flows, such as liquids used in nozzle units with a small diameter or high-pressure liquids, is needed. In a nozzle split according to the method, the wear surfaces can be easily accessed and coated or replaced.

[0021] In an embodiment, other cross-sectional profiles than a round hole are also needed. These profiles may include a rectangle, square, oval and, especially in liquid nozzles, a slotted cross-sectional profile having a length considerably bigger, for instance 10 times bigger, than the width.

[0022] In an embodiment, the parts are not only as top and bottom parts, but also side by side in the lateral direction, whereby replacement parts become smaller units. [0023] cm 1-8. (canceled)