DE2649323A1 - Drilling tool construction cutting edge - has air outlet openings projecting from hollow part of drill body to cutting edge base - Google Patents

Abstract

The construction of cutting edges of a drilling tool includes air outlet openings (4) projecting from the hollow attachment part of the drill body against the forwards projecting cutting edges (5,5a). The outlet openings (4) are so positioned that the discharged air is directed against the cutting edges (5,5a) surface in the direction of rotation. It thus cools the cutting edges (5,5a) and removes the drilled material. The air outlet openings (4) are terminating at the base of the cutting edges (5,5a) in the direction of the drill rotation. The axis of the air discharged through the openings is parallel to the side surface of the cutting edges (5,5a) a and crosses the surface. They are fitted with a throttle which reduces the diameter of the outlet openings (5,5a).

Description

Drill tip construction

The present invention relates to a drill bit construction, in particular on a drill bit construction in which openings for inflowing Air or compressed air open into the drill tip so that the inflowing air to Discharge of drill chips or cuttings directed against the cutting edge of the drill tip to improve the cooling effect for the drill bit. Also relates the invention is based on drill bits, in which the opening for the inflowing Air is designed in the shape of a throttle opening to allow the speed the incoming air is greater than the speed of sound in order to achieve the cooling effect for the drill bit to increase further.

Drill tips or drill heads generally have a blind hole or a cavity on the fastening part, so that the compressed air is stored in this can be, and straight inlet openings for the compressed air are in connection with the blind hole, these rectilinear inflow openings parallel in Axial direction of the drill tip run against that part on which the cutting edges protrude.

The openings for the incoming compressed air open out in the known Drill tips or drill heads under a multitude of protruding cutting edges, so that most of the compressed air does not hit the cutting edges directly, but flows in a straight line and hits the rock at the bottom of the borehole; the drilling chips or the cuttings are carried along in the compressed air and out of the borehole promoted out.

The air is driven at a so-called subsonic speed (M. = 0.85-0.9) and they are distributed to some extent. the injected air usually has about twice the distribution area at the front from 50 cm.

The distribution of the injected air is therefore sufficient at the cutting edges not enough to hit the cutting edges essentially entirely.

In the case of the known drill bits, therefore, the compressed air is used for discharge the drilling chips or the. Drilled material not directly on the cutting edge, and the cutting edge cooling effect was hardly achieved.

The cutting edges of the drill therefore often decreased due to the frictional pressure very high temperatures, sometimes up to 1000 ° C. Though the cutting of a drill are generally made of ultra-hard metals the cutting edges made from such materials are nevertheless considerable plastic deformation and melt wear when under high pressures high temperature conditions occur. In particular, the work is a maximum at the so-called friction point on the outer circumference of the cutting edge in the direction of rotation, resulting in a extreme temperature rise.

At a temperature of up to about 10000C, however, the hardness and Flexural strength the cutting by 1/3 to 1/2 of the value that is present at room temperature.

It can thus be seen that the drill tips or drill heads are a require effective cooling of their cutting edges.

In view of the above-mentioned problems inherent in drill bits the present invention is based on the effective use of compressed air for cooling the cutting edge, in addition to the task of compressed air, to carry away drilling chips or cuttings.

The object on which the present invention is based therefore exists in it, compressed air to cool the cutting edges as well as to remove the drilling chips or the cuttings to be used.

It is also intended to provide a drill bit in which the compressed air is blown against the cutting edges to remove the cuttings, in particular against the point of friction on the basis of a simple construction.

Furthermore, the durability or service life as well as the strength sustaining influence of the cutting edge of the drill tip can be improved quite decisively.

It is also intended that the cooling effect for the cutting is quite crucial to amplify, by having the incoming compressed air at a speed brings into contact with the drill tip, which is higher than the speed of sound lies.

The above object is achieved by the characterizing part of claim 1 specified features solved. As a result, the openings are for the inflowing Air to discharge the drilling chips or the Drilled material essentially against the circumferential cutting edge of the drill bit opened, creating the compressed air to discharge the drilling chips that emerge from the openings directly onto the Cutting the drill bit strikes at least one so-called friction point to cool effectively and thus to protect the drill tip against frictional heat.

In order to achieve the aforementioned goal, the profile of the inflow openings is gradually narrowed from the inlet side and outlet side towards the central area, i.e., it has the shape of a so-called throttle opening, so that the speed the incoming air exceeds the speed of sound.

The present arrangement, in which the openings for the inflow Air are essentially open against the circumferential cutting edges of the drill bit, includes various cases such as those in which the inflow ports open at sections opposite the circumferential cutting edge of the drill tip lie so that the axes of the openings cross the side surface of the cutting edges, or those in which the openings for the incoming air are at the moment Bottom part of the side of the circumferential cutting edge of the drill tip open so that the The axis of the openings runs parallel to the side surface of the cutting edges, or else many other cases in which the injected air is in contact with the side of the circumferential cutting of the drill tip can come. In other words, according to the present invention are the inflow openings while maintaining such Positions and angles provided that the exiting from the inflow openings Air directly in contact with the side of the rotating cutting edge of the drill tip is brought to cool the side of the cutting edges.

The arrangement in which the inflow openings also have the shape of a Having a throttle opening further includes a case in which the opening is radial is made narrower or a case where the opening is conically narrowed. By-the shaping or configuration of the inflow openings in the above-mentioned Way has been found that the speed of the out of these openings Exiting air exceeds the speed of sound when the pressure in the cavity at the inlet port of the inflow port is 3 to 4 kg / cm2.

In this way, according to the present invention, the cutting edges the drill bit effectively through the air to remove the drill chips or the cuttings cooled, increasing the flexural strength, resistance to wear and tear and durability and the service life of the cutting edges can be significantly improved.

The flow rate of the air for the removal of the cuttings is also increased to improve the ability of the air to evacuate the cuttings.

The invention will now be described in detail with reference to the accompanying figures described, all of which emerge from the description and the figures Contribute details or features to the solution of the problem within the meaning of the invention can and were included in the application with the will to be patented. 1 and 2A show perspective views of a drill tip according to FIG of the present invention; Fig. 2B is a partial cross-sectional view of an embodiment the air inflow opening; 3 is a plan view of the drill bit according to FIG present invention; Figure 4 is a cross-sectional view of the drill bit; 5A is a partial cross-sectional view of an embodiment of the air inflow opening and FIG. 5B is a partial cross-sectional view of another embodiment of FIG Air inflow opening.

Detailed Description of the Preferred Embodiments Es reference is now made first to FIG. In the fastening part 1 of the drill bit a cavity 2 is formed in the air for the removal of drill cuttings or cuttings is pressed in and stored. Air inflow openings 4 are on the upper part of the cavity is formed against the part 3 on which a cutting edge 5 is provided is, and the air inflow openings 4 are substantially against the side of the circumferential cutting 5 open. A throttle portion 6 is also in the air inflow port 4 designed in such a way that the diameter of its inlet opening and outlet opening constricted towards the central section in the axial direction of the air inflow opening will. Reference numeral 2a denotes an internal thread for fastening purposes, in screwing in a rod (not shown) having a conduit around it To press air into the cavity 2 for the removal of cuttings.

Fig. 1 shows a complete drill head or a drill bit, at which the outer circumference of the fastening part 1 is provided with a recess 1a, to prevent the drill bit from turning, and on the projections 3 above of the fastening part 1 are three cutting edges 5 evenly with respect to the axis lined up or arranged as the center. There are plates 5a on the cutting edges 5 attached, made of an ultra-hard alloy on the side of the twist are.

In Fig. 1, reference numeral 4 denotes an air inflow opening, which opens between the cutting edges 5, and which in particular on the rear foot part in The direction of rotation of the cutting edges 5 opens. The axis of the air inflow opening is directed against the cutting edges on the side of the rotation, and it is particular steered against the point of friction, as indicated in the drawing by the arrow is.

The drill tips of the exemplary embodiments in FIGS. 2A and 3 have the same basic construction as the exemplary embodiment according to FIG. 1, however, the air inflow openings 4 open into them at positions in the vicinity of the foot of the cutting on the side of the rotation, the axes of the openings be held along the side of the cutting edge. In this case flows out of the inflow openings 4 air escapes along the side of the cutting edge 5 and comes into contact with it, which is on the side of rotation in order to cool the cutting edges 5. the Air inflow opening 4 should preferably be shaped such that only the Part of the circumference of the inflow opening near the cutting edge on the side of rotation is gradually expanded towards the outlet port, as in Fig. 2B is shown. The air flowing out of such an inflow opening 4 is then mainly directed against the cutting edge on the side of the rotation to the cooling effect to reinforce.

Reference numeral 4a in Fig. 2B denotes a base hole formed in the projection 3 of the drill tip is formed. The reference number 4b denotes a socket, which is inserted in the base hole 4a, and the above-mentioned inflow port 4 is formed by the inner surface of the socket.

According to the present invention, the cutting edges are used cooled the air for discharging the cuttings, and the flow velocity the injected air is made greater than the speed of sound to the To improve cooling performance. For this purpose one has the profile of the inflow opening brought into an optimal shape or

improved. fig. 4 and fig. For example, Figures 5A, 5B show air inflow openings 4, the most suitable, the inflow speed of the compressed air so to increase that it is greater than the speed of sound. In these embodiments a socket 4b with a flange is inserted or fitted into the base hole 4a, the is in communication with the cavity 2 of the fastening part 1 and between the Cutting opens out, and the socket 4b forms an air inflow opening 4, from which an inner circumference is narrowed radially in the axial direction. At the air inlet opening 4 with a so-called throttle section 6 in the central part, which is designed in this way is that it widens towards the outlet opening, as well as with the above mentioned embodiments it has been found that the flow rate the air flowing out of the air inflow opening 4 is greater than the speed of sound, when the pressure in the cavity 2 is 3 to 4 kg / cm2. Further, when the throttle opening is narrowed radially, the effectiveness is further increased.

It has also been shown that when the cutting edge 5 in contact with the compressed air comes, which flows at a speed which is higher than the speed of sound is, the cooling performance compared to cooling in the subsonic range is quite considerable increases.

L e r s e i t e

Claims (4)

Claims 1. Drill tip construction with air inflow openings, which extends from a cavity on the fastening part against the projection of the cutting edges extend, characterized in that the air inflow openings (4) substantially are directed against the cutting edges (5, 5a) on the side of their rotation, so that the Air flowing out of these openings immediately hits the cutting edges (5, 5a) the side of their rotation. 2. Drill tip construction according to claim 1, characterized in that that the air inflow openings (4) on foot parts of the cutting edges (5, 5a) on the Side of their rotation open out in such a way that the axes of the air inflow openings run essentially parallel to the sides of the cutting edges. 3. Drill tip construction according to claim 1, characterized in that that the air inflow openings (4) at points opposite the cutting edges (5, 5a) open out on the side of their rotation so that the axes of the air inflow openings cross the sides of the cutting edges. 4. Drill tip construction with air inlets that open extend from a cavity on the fastening part against the projection of the cutting edges, according to one or more of the preceding claims, characterized, that the air inflow openings (4) essentially against the cutting edges (5, 5a) are directed on the side of their rotation and that a throttle portion (6) in the Air inflow openings (4) is provided such that the diameter of the opening from the inlet port and outlet port towards the central portion of the air inflow port is narrowed in the axial direction.