DE2730602B2 - Deep drilling bits - Google Patents

Description

The invention relates to a deep drilling bit with a steel bit shaft which has a flushing channel, one end of which has a hard material coating that is firmly connected to it and forms a chisel surface is provided, o.isen wear resistance is essential is larger than that of the steel shaft and the cutting elements, which are in a recess of the Hard material covering are arranged as well as a protruding from the hard material covering, in the direction of rotation of the Chisel-facing cutting surface and have a rear surface for rear support, which is attached to a corresponding, designed as an abutment counter surface of the hard material coating is applied

In a known deep drilling bit of this type (US-PS 37 09 308) the cutting elements are formed by diamonds, which are used for their connection with the bit body in a certain arrangement in a form for applying the hard coating on the bit shank, whereupon the hard coating forming Matrix and infiltration material is entered into the mold. The mold is then heated to a temperature of approximately 1180 ^° C., with the matrix material being bonded by melting the infiltration material and the diamond cutting elements being embedded in the recesses of the hard material coating that are formed in the process. The cutting elements have a good rear support in the hard material coating, but they are weakened by the high temperatures used when they are embedded in the hard material coating, especially when synthetic diamonds are used as cutting elements, so that their durability in drilling is limited.
Deep drilling bits are also known ("Journal of Petroleum Technology", May 1975, pages 543 to 551) which have cutting elements consisting of a large number of interconnected grinding parts, but which are not embedded in a hard material coating of the bit shank during its manufacture by the infiltration process, but be inserted into corresponding holes in the steel shaft of the deep drilling bit by means of a hard metal carrier pin. The connection of the preformed cutting elements, consisting of the large number of abrasive particles, to their carrier pin takes place here by means of a soldering process. However, this attachment of the known cutting elements to the carrier pins to be inserted in the chisel shank does not meet the requirements of practical drilling operations, with the result that, especially when drilling in hard and heterogeneous rock formations, rapid wear of the chisel occurs due to the loss or destruction of the preformed cutting elements.
In order to improve the durability of this known drill bit, in particular the fastening of the preformed cutting elements, an older proposal (DE-OS 27 23 932) provides for the cutting elements to be designed as elongated pins with a thin polycrystalline layer of abrasive material, which are frictionally engaged in the steel bit shank provided recesses are used.

The invention is based on the object of providing a deep drilling bit of the type specified at the beginning create, the cutting elements of which can be attached in a particularly simple, material-friendly manner and a have high durability in drilling operations.

This object is achieved according to the invention in that the cutting elements are selected from a plurality consist of interconnected abrasive particles and only after the hard material coating has been applied to the Chisel shaft are used in this previously formed recesses. This makes the high Temperatures that occur when the cutting elements are poured into the hard material surface during its production after Infiltration processes occur and in particular synthetic diamonds as cutting elements in their Adversely affect properties, avoided. In the embodiment according to the invention, the

Cutting elements rather ζ. B. by tight fit or by a soldering process, with the correspondingly lower temperatures, in the recesses of the Hard material covering are attached. Consisting of a multitude of interconnected abrasive particles, In addition, preformed cutting elements can be removed from the Recesses in the hard material covering are removed and new cutting elements are replaced by for Example with cutting elements attached by a soldering process, the chisel on a slightly over the soldering temperature lying temperature is heated, which the hard material coating remains unaffected. in the Association with the rear support of the cutting elements on a corresponding, as an abutment trained opposite surface of the hard material coating, which ensures that the cutting elements in the drilling operation The Tiet Dohr chisel according to the invention has only compression, but not bending a very long service life.

The cutting elements can be found in US Pat

37 45 623 or by forming mixtures of diamond particles, secondary abrasive material particles and particles of a metallic binder using the manufacturing techniques according to the above US patent in appropriately designed forms z. B. after in the US-PS 38 41 852 and 38 71 840 described hot pressing processes are produced. One is preferred preformed grinding element, which according to the instructions jo gen of US-PS 37 45 623 is formed.

The design of a deep drilling bit according to the invention is particularly when synthetic is used Diamonds appropriate as they are z. B. used in the cutting elements according to US-PS 37 45 623 will. Such diamonds are usually used in the manufacture of drill bits Process as they are e.g. B. in US-PS 37 09 308,

38 24 083 and 37 57 879 are described, used temperatures to a far greater extent w weakened than natural diamonds. In these manufacturing processes, the diamonds are exposed to temperatures that are used in the infiltration process or hot-pressing process according to the patent specifications mentioned. The temperatures used in these processes are in a range above 1 090 ⁰ C, for example at 1177 ° C. While such temperatures are suitable for natural diamonds, they are too high for synthetic diamonds and unduly weaken them.

The construction of the drill bit according to the invention enables the use of both natural as well as synthetic diamonds since using natural or synthetic diamonds Preformed cutting elements can be formed at temperatures common to synthetic diamonds are suitable (see. US-PS 37 45 623).

In this way, according to the invention, the manufacture of the drill bit base is at high Temperatures and the manufacture of the preformed cutting elements when using natural diamonds according to the above-mentioned high temperature processes or when using synthetic ones Diamonds using lower temperatures, as z. B. in US-PS 37 45 623 described b5 is possible. Thus, the preformed cutting elements, when they are e.g. B. use natural diamonds, according to the hot-pressing process mentioned in US-PS 38 71 840 using accordingly designed molds for manufacturing the preformed cutting element in the desired geometric Shape are formed.

The recesses containing the cutting elements are advantageously in several in the longitudinal direction running and over the cutting surface distributed rows arranged at mutual distances, wherein the cutting elements in one row are offset from the cutting elements in an adjacent row are arranged. This ensures that with one revolution of the drill bit about its axis in substantially all of the formation surface traversed by the drill bit in its orbit from the Cutting elements is detected.

There are also provisions for removing the cuttings from the cutting elements. That Flushing medium is usually passed through a central bore to bring about the flushing effect For this purpose, channels connected to the central bore are in front of the cutting elements intended. The flushing agent channels extend across the cutting surface of the drill bit from the central bore up to the calibration area of the chisel. Although in some use cases these flushing channels can be omitted, but they usually help to clean up the bit face essential to. The cutting elements can have a clearance angle of zero, but preferably with a negative lateral clearance angle, creating a snow plow effect when discharging of the cuttings is brought to the calibration area of the chisel. The detergent channels are preferably provided in an arrangement extending in front of the cutting elements. By aligning the Clearance angle and the flushing medium through the channels, the cuttings in the annulus between the Drill bit and the borehole and through this, passed up to the surface. When arranging the Cutting elements in a pattern and the arrangement of the flushing medium channels in front of the cutting elements there is a flow of flushing medium over the cutting surface of the chisel in the immediate vicinity of the cutting elements, which contributes significantly to flushing away the drill cuttings from the cutting elements.

Further features and advantages of the invention emerge from the claims; in the following Description is, in conjunction with the drawing, an embodiment of the subject matter of the invention explained in more detail. In the drawing shows

F i g. 1 shows a vertical section through a drill bit according to the invention,

F i g. FIG. 2 is a view along line 10-10 of FIG. 1,

Fig. 3 shows a detail according to the line 11-11 the F i g. 2 on a larger scale,

4 shows a section along the line 12-12 of FIG. 3, and

F i g. 5 shows a section along line 13-13 in FIG. 4th

In the illustrated embodiment according to FIGS. 1 and 2, the drill bit is formed by a shank 101 which is provided with a hard material coating 102. The end face 103 of the drill bit has a conical basic shape which ends in the central opening 104. Like F i g. 2 shows, the central opening may have the shape of a three-way manifold with three paths 104 . The paths communicate with channels 105 which extend to the calibration area 106 and are connected to grooves 107 in the stabilization area 108 .

The bit face is provided with bumps 109 spaced in longitudinal rows on the bit face are arranged. Each stool carries a projection 110 and a recess 111 in which a preformed Cutting element 112 of the above composition is attached. As the F i g. 3, 4 and 5 show are the Cutting elements arranged in recesses 111 on the lugs 110 on the drill bit face are formed and act as recordings. The entire back of the preformed cutting element is from the recess and the projection 110 supported as a socket for receiving the preformed cutting element serves.

The recesses or sockets support the cutting elements both vertically and with horizontal clearance angle. Like F i g. Figure 4 shows is the preformed cutting element with a negative one vertical clearance angle 120 and, as in FIG. 3 with a negative horizontal clearance angle 136 arranged. The negative vertical clearance angle can be around 4 ° to 20 °, while the negative horizontal clearance angle can amount to about 1 ° to 10 °, preferably about 2 °.

The stools are arranged in spaced-apart longitudinal rows along the channels 105 the bit surface formed. The stools with their recesses are spaced apart in the rows arranged from one another so that the cutting elements are in a stepped, overlapping arrangement with respect to one another are distributed on the cutting elements in the cusps in adjacent longitudinal rows. The cutting surface dei Cutting elements have an orientation in the same angular direction as the direction of rotation of the drill bit The flushing medium channels 105 are arranged in front of the row in front of cutting elements. The flushing medium, wel ches is fed through the central bore of the tubular drill bit shank 101 flows in the Manifold 104 and thus through the channels 105 for rinsing out the drill cuttings, which in the direction of zurr

ίο calibration area moved and up in the Annular space between the drill string and Bohrlochwanc is discharged.

The cutting elements are pre-formed parts that can be replaced if damaged or lost. Sit can drill bits formed in the hard material coating of the diamond recesses or mounts be arranged in a predetermined pattern to achieve a full-surface cutting effect. Füi The preformed cutting elements can be fine «primary abrasive materials, such as diamonds or their equivalent Hard material particles are used, the preformed cutting elements are arranged in a predetermined arrangement on the drill bit. the Use of such preformed cutting elements in a pattern which substantially covers the entire zi machining formation surface covered and a replacement of individual damaged cutting elements has the advantage that a worn drill bit can be easily repaired can and does not have to be scrapped.

For this purpose 2 sheets of drawings

Claims (6)

Patent claims: 1. Deep drilling bit with a steel chisel shaft having a flushing channel, one end of which is provided with a hard material coating that is firmly connected to this and which forms a chisel surface, the wear resistance of which is significantly greater than that of the steel shaft and the cutting elements which are arranged in a recess in the hard material coating are as well as have a cutting surface protruding from the hard material coating, pointing in the direction of rotation of the chisel and for rear support its rear surface, which is applied to a corresponding counter surface of the hard material coating designed as an abutment, characterized in that the cutting elements (112) are made up of a plurality of interconnected There are abrasive particles and are only inserted into recesses (111) previously formed in the chisel shank (101) after the hard material coating (102) has been applied. 2. Deep drilling bit according to claim 1, characterized in that the hard material coating (102) has protruding humps (109) as part of the rear support of the cutting elements on the recesses (111). 3. Deep drilling bit according to claim 1 or 2, characterized in that the one another associated abrasive particles are formed by diamonds. 4. Deep drilling bit according to one of claims 1 to 3, characterized in that the cutting elements (112) are arranged in rows and have the same angular orientation in each row. 5. Deep drilling bit according to one of claims 1 to 4, characterized in that the recesses (111 ) containing the cutting elements (112) are arranged in several longitudinal rows and distributed over the cutting surface (103) at mutual distances and the cutting elements in one row are offset from the cutting elements in an adjacent row are arranged. 6. Deep drilling bit according to one or more of claims 1 to 5, in which the hard material coating extends from a central area of the drill bit to its calibration area and several flushing agent channels connected to the tubular bore of the bit shank run in the cutting surface to the calibration area of the bit, thereby characterized in that the flushing agent channels (105) are arranged in front of the cutting elements (112) .