SE1050930A1 - Corrosion-protected neck adapter for a rock drill, method and rock drill comprising corrosion-protected neck drills - Google Patents

Abstract

A neck adapter (2) comprises a stretched body (4), which has an outer surface and an inner surface. A first part (17) of the outer surface is provided with a first anti-corrosion coating and a second de! of the outer surface and / or the inner surface is provided with a second anti-corrosion coating. The first and second anti-corrosion coatings are made of different materials. Furthermore, a rock drilling machine is presented comprising a neck adapter (2) and a method for corrosion protection of a neck adapter (2). Selected for publication: Fig. 1

Description

20 25 30 2 SE 523 949 describes a method of corrosion protection of a neck adapter. According to the process described, corrosion-prone parts are coated by zinc phosphating, zinc manganese phosphating or manganese phosphating with a subsequent oiling or waxing. The phosphating of the neck adapter takes place internally in the through hole and on a cylindrical outer surface.

The cylindrical outer surface of the neck adapter forms a surface against which a seal in the rock drilling machine abuts. It has been found that this seal is subject to wear due to the fact that the conversion layer which occurs during the phosphating has an abrasive effect on the seal when the neck adapter rotates in the rock drilling machine. In particular, the conversion layer has a seeping effect once corrosion begins to occur on the cylindrical surface.

The conversion layer then has a relatively rough surface.

SUMMARY OF THE INVENTION An object of the present invention is to provide a naoad adapter which is corrosion protected and at least partially obviates the above-mentioned disadvantages.

This object is achieved according to an aspect of the invention with a neck adapter for a rock drilling machine, which neck adapter comprises an elongate body. The elongate body has an outer surface and an inner surface. At least a part of the outer surface and a part of the inner surface are provided with a corrosion-protective surface coating. A first part of the outer surface is provided with a first anti-corrosion coating and a second part of the outer surface and / or at least a part of the inner surface is provided with a second anti-corrosion coating. The first and second anti-corrosion coatings are made of different materials.

Since the first and the second corrosion-protective surface coating consist of different materials and are used on different parts of the neck adapter, corrosion-protective surface coatings can be used with properties which are suitable for each part of the neck adapter. Consequently, the above-mentioned object is achieved.

Neck adapter is used in a rock drilling machine for transmitting rotational force, feed and impact energy to splice rods and drilling tools. The inner surface of the neck adapter may form a through hole for the flow of a coil medium. The neck adapter is suitably made of a steel material, for example semi-hardened steel. The anti-corrosion coatings should extend the life of the neck adapter when subjected to corrosive attacks during operation, downtime and during transport. Lvied surface coating means a coating on at least a part of the surface of the neck adapter which has been applied to the surface in at least one process step in the manufacture of the neck adapter. For example, Lubricants applied for operation or assembly are not to be considered as a coating in accordance with the present invention.

According to embodiments, the first anti-corrosion coating may have a smoother surface than the second anti-corrosion coating. In this way, the first anti-corrosion coating can be selected with a surface finish so that a seal can abut against the first part of the outer surface without being subjected to as much abrasion as if it abuts against a surface coated with the second corrosion-resistant surface coating. The second anti-corrosion coating can be selected according to criteria other than surface finish, for example the cost of the coating.

According to embodiments, the first corrosion-protective surface coating can be constituted by a chrome layer and said second corrosion-protective surface coating can be constituted by a conversion layer. The conversion layer may be, for example, a phosphate layer.

According to embodiments, the conversion layer may be oiled or waxed. A conversion layer such as a phosphate layer is porous and its anti-corrosion properties can be improved by oiling or waxing.

According to embodiments, the elongate body may have an end surface and a through hole extending through the elongate body between the first part of the outer surface and the end surface. The first part of the outer surface may be a cylindrical surface and the inner surface may be a boundary surface formed by the elongate body in the through hole. The cylindrical surface is suitable to form a contact surface for a seal in a rock drilling machine. The through hole can be used for the flow of a flushing medium, for example water, from the rock drilling machine to a drilling tool. According to embodiments, the first surface coating can have a surface fineness of at most Ra 1.0 μm.

The first part of the outer surface thus constitutes a suitable surface for applying a seal in the rock drill bit.

In embodiments, the conversion layer may comprise one or more of zinc phosphate, zinc manganese phosphate, or manganese phosphate.

According to embodiments, the first anti-corrosion coating may have a thickness between 20 - 60 μm, preferably about 40 μm. In this way a good corrosion protection of the first part of the outer surface can be obtained.

According to embodiments, the second anti-corrosion coating may have a thickness between 10 - 50 μm, preferably about 30 μm. In this way a good corrosion protection of the second part of the outer surface and / or the inner surface can be obtained.

By a coating thickness is meant the height of the coating on the neck adapter, i.e. on the material that the neck adapter is made of, for example semi-hardened steel.

The height of the surface coating can be measured, for example, under a microscope on a cross section through a neck adapter in the area of the surface in question. The cross section runs perpendicular to the current surface. If the cross-section through the neck adapter is made in a portion where it has, for example, a cylindrical shape, the plane of the cross-section is at right angles to a central axis through the elongate crust of the neck adapter.

According to embodiments, only the first part of the outer surface may be provided with the first anti-corrosion coating and the other surfaces of the neck adapter may be provided with the second anti-corrosion coating. In this way, the first anti-corrosion coating can first be applied to the neck adapter in a first process. In a second process, the remaining surfaces of the neck adapter can then easily be provided with the second corrosion-protective surface coating. Since in the second process no surfaces need to be taken into account which are not to be surface treated, the second process is particularly simple to carry out. According to one aspect of the present invention, there is also provided a rock drilling machine comprising a neck adapter according to any of the above aspects and / or the above embodiments.

According to embodiments, the neck adapter is rotatably arranged in the rock drilling machine. The first part of the outer surface can form a contact surface for a seal arranged stationary in the rock drilling machine.

According to embodiments, the rock drilling machine can be arranged to pump a liquid via a space delimited by, among other things, seals: and the first part of the outer surface, to the through hole in the neck adapter.

According to one aspect of the present invention, there is also provided a method of corrosion protection of a neck adapter according to any of the above aspects and / or the above embodiments. According to the method, the neck adapter first undergoes an electrolytic process to provide the first part of the outer surface with the first anti-corrosion coating. Thereafter, the neck adapter undergoes a second process to provide the second part of the outer surface and / or the said part of the inner surface with the second corrosion-protective surface coating. The first process may involve immersing the neck adapter in a solution containing chromium ions to coat the first portion of the outer surface with a chromium layer.

According to embodiments, the second process may comprise applying a solution comprising phosphoric acid, and zinc ions, zinc manganese ions or manganese ions to the entire neck adapter. In this way, the first anti-corrosion coating can first be applied to the neck adapter in the first process. When the first corrosion-protective surface coating is, for example, a chrome layer, in the second process the remaining surfaces of the neck adapter can easily be provided with the second corrosion-protective surface coating as the solution applied in the second process does not affect the chrome layer.

Further features and advantages of the present invention will become apparent from the appended claims and the following detailed description. Those skilled in the art will recognize that various features of the invention may be combined to create other embodiments than those described below. This without departing from the scope of the present invention as defined in the appended claims.

DESCRIPTION OF THE FIGURES Various angles of approach of the invention, including its particular features and advantages, appear from the following detailed description and the accompanying drawings, in which: Figs. 1 and 2 show different views of a neck adapter according to embodiments, Fig. 3 schematically shows a rock drilling machine with a neck adapter according to embodiments, and Fig. 4 shows a method for surface treatment of a neck adapter according to embodiments.

DETAILED DESCRIPTION The present invention will now be described in more detail with reference to the accompanying drawings, in which examples of embodiments are shown. The invention should not be construed as limited to the described examples of embodiments. Like reference numerals in the figures generally refer to like elements. For the sake of simplicity, well-known functions and constructions will not necessarily be described in detail.

Figs. 1 and 2 show different views of a neck adapter 2 according to the embodiment. The neck adapter 2 is designed to be arranged in a rock drilling machine for transmitting rotational force, feed and impact energy from the rock drilling machine to a drilling tool via splice rods. The neck adapter 2 comprises an elongate body 4. The elongate body 4 is substantially cylindrical and made of, for example, hardened steel. A center axis X extends through the longitudinal direction of the elongate body 4. At one end, the neck adapter 2 is provided with a drive part. The drive part comprises external splines 6 so that the neck adapter 2 can be rotated in the rock drilling machine. Furthermore, the drive part comprises a sieve surface 8 in order to be able to receive and transmit impact force from the drilling machine to the drilling tool. At its other end, the neck adapter 2 is provided with a fastening device 10 arranged to fasten a drilling tool or a connecting rod. The fastening device 10 is exemplified here in the form of a thread. A through hole 12 extends through the neck adapter 2. The through hole 12 has an inlet opening 14 arranged in a portion of a cylindrical outer surface 17 of the neck adapter 2. At least a part of the cylindrical surface 17 forms a first part of an outer surface of the elongate body 4 and thus the neck adapter 2. The through hole 12 has an outlet opening 16 in an end surface 18 of the neck adapter 2. The through hole 12 is arranged to guide a flushing medium, for example water, from the drilling machine to the splice rods and the drilling tool.

In Fig. 2, in addition to the neck adapter 2, a chamber 20 is also shown which surrounds one of the neck adapters 2. The chamber 20 is arranged around the neck adapter 2 in the area of the cylindrical surface 17. The chamber 20 is provided with an inlet pipe 22. Thus, a flushing medium can be led via the inlet pipe. 22 to the chamber 20 and thence further through the neck adapter 2 via the inlet opening 14, the through hole 12 and the outlet opening 16. The chamber 20 is part of a rock drilling machine (not shown) and forms a space delimited by, among other things, two seals 24, 24 'and the cylindrical surface 17 of the neck adapter 2. The two seals 24, 24 'seal against the neck adapter 2 and seal against the cylindrical surface 17.

Fig. 3 schematically shows a rock drilling machine 30 with a neck adapter 2 according to embodiments. The rock drilling machine 30 comprises a drilling machine 32 from which the neck adapter 2 protrudes a piece. An assumption! splice rods 34 and a drilling tool 36 are connected to the neck adapter 2 and rotated by the drilling machine 32. To transport cuttings from a borehole 38 being drilled, a flushing medium, for example water, is supplied to the drilling tool 36 via the neck adapter 2 and the splice rods 34. , to which a tilt supply line 42 for the flushing medium connects.

In a comparison between Figs. 2 and 3, it can be seen that the spool head 40 comprises the chamber 20 and that the supply line 42 is connected to the inlet pipe 22. The rock drilling machine 30 comprises a schematically shown pump 44 which is connected to the tilt supply line 42. During operation the neck adapter 2 is rotated in the drill 32 while the seals 24, 24 'seal against the cylindrical surface 17 of the neck adapter 2 so that the flushing medium can be pumped via the chamber 20 and the through hole 12 in the neck adapter 2 to the drilling tool 36. The neck adapter 2 is exposed to a corrosive environment i.a. . during operation, during downtime and during transport. Particularly exposed are areas of the neck adapter 2 which come into contact with the coil surface, for example on the cylindrical surface 17 of the chamber 20 and in the through hole 12. To protect the cylindrical surface 17 from corrosion, the neck adapter 2 is at least in the area of the chamber 20 and the seals 24. , 24 'provided with a first anti-corrosion coating in the form of a crown layer with a thickness between 20 - 60 μm, preferably about 40 μm. In order for the seals 24, 24 * to have a good corrosive function even after longer operating times, the chrome layer has a fine surface finish. In addition to the good corrosion protection of the chrome layer, the surface finish gives the advantage that the interval between replacements of the seals 24, 24 'can be kept relatively long. For example, the chromium layer may have a surface finish of at most Ra 1.0 μm. in the through hole 12 and on the ankle 18 the neck adapter 2 is provided with a second anti-corrosion coating in the form of a conversion layer. Conversion layers include, for example, one or more of zinc phosphate, zinc manganese phosphate, or manganese phosphate. Such a conversion layer is porous and is suitably oiled or waxed to obtain the best possible corrosion protection properties. The conversion layer has a thickness between 10 - 50 μm, preferably about 30 μm.

According to an embodiment of the neck adapter 2, the cylindrical surface 17 is provided with a first anti-corrosion coating and the other surfaces of the neck adapter 2 are provided with a second anti-corrosion coating comprising zinc phosphate, zinc manganese phosphate, and / or manganese phosphate. The other surfaces include i.a. outer surfaces such as the striking surface 8, the surface of the fastening device 10, the surface of the splines 16, the breathing surface 18 and an inner surface of the elongated body 4 in the through hole 12. The second corrosion-protective surface coating can thus be easily achieved by immersing the neck adapter 2 in a solution comprising phosphoric acid, and zinc ions, zinc manganese anions or manganese ions.

Fig. 4 shows a method for surface treatment of a neck adapter 2 according to embodiments.

The reference numerals used refer to the details of the preceding figures, in particular Figs. 1 and 2. In some of the process steps below, other steps may be performed such as, for example, cleaning of process liquids from a previous process step. In step 50, which is arbitrary and depends on which surface unit the neck adapter has after the previous manufacturing step, grinding of the cylindrical surface 17 takes place to a surface fineness of about 1 μm.

In step 52, outer surfaces of the neck adapter 2 are masked in addition to the cylindrical surface 17.

In step 54, a first process takes place in the form of an electrolytic coating of the cylindrical surface 17 with a first corrosion-protective surface coating, for example a chromium layer by electrolysis in a liquid comprising chromium ions.

In step 56, the other surfaces of the neck adapter 2 are coated with a second anti-corrosion coating in the form of a conversion layer in a second process comprising immersing the neck adapter 2 in a solution comprising phosphoric acid, and zinc ions, zinc manganese ions or manganese ions.

In step 58, the conversion layer is oiled or oiled.

A step 60 can optionally be performed and involves polishing the cylindrical surface with the first anti-corrosion coating.

Step 60 can alternatively be performed optionally after step 54. In case the first corrosion-protective surface coating is a chromium layer, this chromium layer does not need to be masked before step 56.

Those skilled in the art will recognize that the embodiments described above may be combined. Various modifications are also apparent to those skilled in the art. For example, the surface of the elongate body may be coated with the first anti-corrosion coating on more parts than the first part, Lex. For example, a second portion of the outer surface may be coated with the first anti-corrosion coating. The second part of the outer surface can then, for example, consist of an abutment surface for another seal or a bearing seat. Furthermore, several parts of the inner surface can be coated with the second anti-corrosion coating. In the case of the cyanide surface 17, a different surface finish before and / or after coating with the first anti-corrosion coating may be sufficient in some cases, for example a surface finish of a maximum Ra 2.0 μm or a maximum of Ra 3.0 μm. Furthermore, the spool head 40 can be more integrated in the drilling machine 32 than according to the embodiment shown in Fig. 3. The flushing head 40 can be built into bearing means and propulsion transmitting in the drilling machine 32. Furthermore, the pump 44 shown in Fig. 3 can alternatively be arranged separately and thus does not have to be included in the rock drilling machine 30. Furthermore, the solution comprising phosphoric acid, and zinc ions, zinc manganese anions or neck adapter by spraying instead of immersion in the solution. Furthermore, the masking mentioned in step 52 of the method shown in Fig. 4 can be accomplished in several different ways. For example, two pipes can be threaded over the neck adapter so that the parts that are not to be coated with the first corrosion-protective surface coating are covered by these pipes.

Thus, the invention is not limited to the described embodiments.

The invention is limited only by the scope of protection defined in the claims.

Claims (1)

A patent adapter (2) for a rock drilling machine, which neck adapter (2) comprises an elongate body (4), which elongate body (4) has an outer surface and an inner surface, wherein at least a part of said outer surface and a part of said inner surface are provided with a corrosion-protective surface coating characterized in that a first part (17) of said outer surface is provided with a first corrosion-protective surface coating and a second part of said outer surface and / or at least and the! of said inner surface is provided with a second anti-corrosion coating, said first and second anti-corrosion coatings being made of different materials. The neck adapter (2) according to claim 1, wherein said first anti-corrosion coating has a smoother surface than said second anti-corrosion coating. The neck adapter (2) according to any one of claims 1 and 2, wherein said first corrosion-protective surface coating consists of a crown layer and said second corrosion-protective surface coating consists of a conversion layer. The neck adapter (2) according to claim 3, wherein said conversion layer is oiled or waxed. The neck adapter (2) according to any one of the preceding claims, wherein said elongate body (4) has an end surface (18) and a continuous heel (12) extends through said elongate body with said first part (17) of said outer surface and said end surface (18), and wherein said first portion (17) of said outer surface is constituted by a cylindrical surface (17) and said inner surface is constituted by a boundary surface formed by said elongate body (4) in said continuous heat (12). The naokad adapter (2) according to any one of the preceding claims, wherein said first surface coating has a surface fineness of at most Ra 1.0 μm. The neck adapter (2) according to any one of the preceding claims, wherein said conversion layer comprises one or more of zinc phosphate, zinc manganese phosphate, or manganese phosphate. The neck adapter (2) according to any one of the preceding claims, wherein said first corrosion-protective surface coating has a thickness between 20 - 60 μm, preferably about 40 μm. The neck adapter (2) according to any one of the preceding claims, wherein said second corrosion-protective surface coating has a thickness between 10 - 50 μm, preferably about 30 μm. The neck adapter (2) according to any one of the preceding claims, wherein only said first part of said outer surface is provided with said first anti-corrosion coating and the other surfaces of said neck adapter (2) are provided with said second anti-corrosion coating. A rock drilling machine (30) comprising a neck adapter (2) according to any one of claims 1 to 9. The rock drilling machine (30) according to claim 11, wherein said neck adapter (2) is rotatably arranged in said rock drilling machine (30) and said first part (17) of said outer surface constitutes an abutment surface for a seal (24, 24 ') arranged stationary in the rock drilling machine (30). The rock drilling machine (30) according to claim 12, wherein the rock drilling machine (30) is arranged to pump a liquid via a space delimited by, inter alia, said seal (24, 24 ') and said first part (17) of said outer surface, to said through hole (12) in said neck adapter (2). A method of corrosion protecting a neck adapter according to any one of claims 1 to 9, wherein said neck adapter first undergoes an electrolytic process to provide said first portion of said outer surface with said first corrosion protective surface coating and then undergoes a second process to provide said second part of said outer surface and / or said part of said inner surface with said second anti-corrosion coating. The method of claim 15, wherein said second process comprises applying a solution containing phosphoric acid and zinc ions, zinc core anions or manganese ions to the entire neck adapter.