RU95122809A - METHOD AND DEVICE FOR APPLYING A LAYER-CARRIER OF A LUBRICANT MATERIAL IN PARTICULAR ON THE WIRE MATERIAL OBTAINED BY THE METHOD OF DRAWING - Google Patents

Claims (1)

1. A method of applying a surface lubricant carrier layer to a material subjected to cold deformation, in particular to wire material obtained by a drawing method, wherein a solid lubricant can subsequently be applied to a lubricant carrier layer and a material is applied to form a lubricant carrier layer -carrier in the dry phase, characterized in that the carrier material used is a dry carrier material consisting of fillers and a fraction of soap.  2. The method according to claim 1, characterized in that the dry carrier material, preferably in the form of a powder and / or granules, is applied mechanically by pressing, rubbing and pressing.  3. The method according to claim 1 or 2, characterized in that the dry carrier material is applied using a plurality of approximately spherical clamping bodies, while the dry carrier material in a free state in the form of smaller particles between the clamping bodies, together with the clamping bodies by the bodies surrounding the wire material on which the coating is applied, it is driven into a loading movement.  4. The method according to one of claims 1 to 3, characterized in that the wire material in the process of its continuous movement is supplied with a carrier layer of a lubricant.  5. The method according to one of claims 1 to 4, characterized in that the carrier layer of the lubricant is first applied with a greater thickness than necessary, and then the thickness of the layer is reduced, in particular due to the fact that the wire material is pulled through accordingly completed outlet.  6. The method according to any one of claims 1 to 5, characterized in that the fraction of fillers is greater than the fraction of soap, in particular metallic soap.  7. The method according to one of claims 1 to 6, characterized in that the wire material on which the coating is applied is cleaned of scale before applying the carrier layer of the lubricant, in particular by mechanical means.  8. The method according to claim 7, characterized in that the removal of the scale layer is carried out by means of at least two times the process of bending wire material that proceeds continuously.  9. The method according to claim 7 or 8, characterized in that the removal of the scale layer is carried out by uniform mechanical loading of the wire material by friction, pressure and / or impact using a variety of grinding media, in particular approximately spherical shape, and also preferably in the process continuous, rectilinear movement of wire material.  10. Dry carrier material for applying as a carrier layer of a lubricant to a material subjected to cold deformation, in particular to a wire material processed by a drawing method, in particular for use in the method according to one of the preceding claims, which consists of dry recipe, characterized in that the dry recipe contains fillers and a fraction of soap.  11. The dry carrier material according to claim 10, characterized in that the dry formulation is made in the form of powder and / or granules.  12. The dry carrier material according to claim 10 or 11, characterized in that in the dry formulation the fraction of fillers is larger than the fraction of soap, and the fraction of fillers is, in particular, about 70 - 98 wt.%, And the fraction of soap, in particular , about 2 to 30 wt.%.  13. The dry carrier material according to one of claims 10 to 12, characterized in that the fillers partially or completely consist of metal oxides and / or metal salts.  14. The dry carrier material according to one of claims 10 to 13, characterized in that the soap fraction is a metal soap or a mixture of several types of metal soap. 15. Dry carrier material according to one of paragraphs.10 to 14, characterized in that the dry formulation consists of the following components:
fillers:
about 38 wt.% titanium dioxide
about 38 wt.% lithium phosphate
about 15 wt.% magnesium oxide,
soap fraction:
about 9 wt.% zinc stearate.  16. The dry carrier material according to one of claims 10 to 12, characterized in that the dry formulation contains a fraction of potassium soap. 17. The dry carrier material according to clause 16, wherein the dry formulation consists of the following components:
about 23 wt.% potash (potassium carbonate)
about 45 wt.% fatty acid
about 6 wt.% titanium dioxide
about 26 wt.% carbonate. 18. The dry carrier material according to clause 16, wherein the dry formulation consists of the following components:
about 25 wt.% potash (potassium carbonate)
about 70 wt.% fatty acid
about 5 wt.% fatty alcohol
19. Dry carrier material for applying a layer of a lubricant to a material subjected to cold deformation, in particular to wire material obtained by drawing method, in particular for use in the method according to one or more of the preceding claims, which consists of a dry formulation on synthetic or vegetable based.  20. A device for applying a carrier layer of a lubricant on a material subjected to cold deformation, in particular on a wire material obtained by the drawing method, and in particular for implementing the method according to one of claims. 1 to 9, characterized in that it provides a reservoir for receiving many free clamping bodies, as well as a certain amount of dry carrier material, in particular one or more of paragraphs 10-18, and for the formation of a carrier layer of lubricant on the wire material, respectively, at least in areas located inside the tank, the clamping bodies surrounding the wire material can be driven in such a way that they mechanically apply a dry mat to the surface of the wire material rial carrier contained between them in the form of small particles through uniform contact with the surface of the material.  21. The device according to claim 20, characterized in that the rotary conveyor screw is placed inside the tank, the shaft of which has an axial processing channel for passing wire material, and the screw shaft in its both end zones located inside the tank has passage openings for clamping bodies and for the dry carrier material contained between them, and the conveying screw, depending on the direction of its helical line, is driven in such a way that the pressing bodies together with the dry carrier material with the body they come in a circular motion, namely, outside the processing channel in the reservoir, and move in the opposite direction to the broaching direction of the wire material, passing through the first passage through the hole in the processing channel, moving there in the broaching direction when the carrier layer of the lubricant is formed, and in the end zone of the processing channel again come out of it through the second passage hole.  22. The device according to item 21, wherein the inside of the processing channel is evenly distributed along the length and perimeter of the nozzle, turned inward in the direction in the preferred way centrically extending wire material, and / or narrowing the cross section, which are designed for mixing and turbulence clamp solids and dry carrier material.  23. The device according to item 21 or 22, characterized in that there is provided an axial hole leading into the reservoir and into the processing channel for the input of the wire and axial leading from the processing channel and the tank to the outside of the outlet for the wire, and the inlet preferably has a somewhat a larger cross section than the wire material, and the outlet in its cross section is thus matched, in particular, with the wire material and the desired thickness of the carrier layer of the lubricant Methods and material that the desired thickness of the layer is controlled by scraping off part of the lubricant-carrier layer.  24. The device according to one of paragraphs.20 to 23, characterized in that at least part of the number of clamping bodies, preferably having at least a spherical shape, consists of a ceramic material, in particular magnesium silicate or aluminum oxide or steel.  25. The device according to one of paragraphs.20 to 24, characterized in that at least part of the number of pressure bodies is formed by larger particles of dry carrier material having the form of granules or pellets.  26. A device for removing an oxide layer or a layer of scale from a material that has been subjected to hot deformation, in particular has been rolled, in particular from wire material, and intended, in particular, to implement the method according to claim 7 or 9, characterized in that it is a reservoir for receiving a plurality of free grinding media that surround the wire material placed at least by its sections respectively inside the reservoir, and which can be driven in such a way that they remove the mechanism chemically, the scale layer due to uniform contact with the surface of the material.  27. The device according to p. 26, characterized in that inside the tank is placed a rotatable conveying screw, the shaft of which has an axial processing channel for the wire of wire material, and the shaft of the screw in its two end zones located inside the tank has passage holes for grinding media, and the transport auger, depending on the direction of the helix of the worm, is driven in such a way that the grinding bodies come in a circular motion in the tank, namely outside the processing channel, and move go in the opposite direction to the broaching direction of the wire material, pass through the first passage through the hole into the processing channel, move there in the broaching direction, removing the scale layer and form particles of scale, and in the end zone of the processing channel go out through the second passage through with the particles dross.  28. The device according to p. 27, characterized in that inside the processing channel uniformly along its length and perimeter are located facing inward in the direction, preferably passing centrically wire material nozzles designed to mix and turbulent grinding media.  29. The device according to item 27 or 28, characterized in that there is provided an axial wire inlet for the tank and the processing channel for the wire inlet and an axial wire outlet for the wire from the processing channel and the tank, the inlet and outlet being respectively preferred way a slightly larger cross-section than wire material.  30. The device according to one of paragraphs.26-29, characterized in that the tank in its lower part has openings-cells that allow the formed particles of scale to fall out of the tank under the action of gravity, while the grinding bodies remain in the tank.  31. The device according to one of paragraphs.26-30, characterized in that the grinding media, which preferably have at least approximately a spherical shape, consist of a ceramic material, in particular magnesium silicate or aluminum oxide or steel.