FI94604B - Arrangement for removing broken drill bits and thread taps - Google Patents

Description

- 94604

Broken drill bits and threaded studs removal device Anordning för att avlägsna brutna borrblad och gängtappar 5

The invention relates to a device for removing broken drill bits and threaded pins or the like, comprising a body part and a torch tip part 10.

Broken drill bits and threaded pins, etc. are currently removed using three different techniques. The most commonly used technique is a burner, by means of which a broken drill bit or a threaded pin is removed by burning e.g. a threaded pin from the base material sufficiently well.

The disadvantage of this method is that the initiated hole or the thread of the finished hole is completely unusable. As a result, the hole has to be filled and the piece of material re-machined, after which drilling and threading can be started again. For example, the removal of the threaded pin 20 is quick with the help of a burner, but the post-processing of the piece of material is slow and causes additional costs.

Another commonly used technique is spark machining technology. Spark machine tools are relatively expensive to purchase and the spark-working technology is suitable for small diameter taps, mainly less than 8 mm. Spark machining technology is slow and slower the larger the diameter of the threaded pin. Also, spark machining technology is not always completely reliable and the thread can often be damaged.

30 The third known technique is a drilling technique, i.e. a broken threaded pin is drilled off with a carbide blade. The disadvantage of this method is that the thread is usually broken during drilling, because the broken threaded pin is seldom broken so that the fracture surface is substantially straight.

As this method has not proved to be sufficiently acceptable in practice, it is not very commonly used.

With regard to the state of the art, reference is made to FI-78634, SE-300401, US-4138909, US-3439567 and US-3279047.

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FI-78634 discloses a broken bolt removal device. A sleeve-like release member is mounted on top of the broken bolt and the end of the sleeve-like release member against the broken bolt is welded to the end of the broken bolt through a longitudinal hole of the sleeve-like release member. The arm of the sleeve-like release member is then grasped and the sleeve-like release member is unscrewed, whereby the broken bolt is unscrewed along its own threads.

10 In the solution according to SE-300401, two welding electrodes are welded to the broken part, after which the broken part can be removed from the electrodes by lifting.

U.S. Pat. No. 4,138,909 and U.S. Pat. No. 3,439,567 disclose a similar device for removing broken drill bits and threaded pins as in FI-78634. In the solutions according to these US publications, the auxiliary part is welded to the bolt and the removal is done by twisting.

In the solution according to 3279047, the core of the tool is melted in the path-20 space and after cooling the pin is removed by twisting.

The object of the invention is to provide an improvement on the currently known devices for removing broken drill bits and threaded pins.

It is a more detailed object of the invention to provide a removal device which allows the thread of an initiated hole or a finished hole to remain fully usable when removing a drill bit or threaded pin.

Yet another object of the invention is to provide a removal device with which the removal of drill bits and threaded pins can be performed sufficiently *. quickly.

Yet another object of the invention is to provide a discharge device which is lightweight and inexpensive, but nevertheless reliable in operation.

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The objects of the invention are achieved by a removal device characterized in that at least one hole for an electrode is drilled in the tip of the burner, whereby a broken drill bit, threaded pin or the like melts away without damaging the thread by welding current and oxygen flow.

Numerous significant advantages are achieved with the removal device according to the invention. The removal device according to the invention enables a cheap and fast solution for removing broken drill bits and threaded pins.

The removal device according to the invention is suitable for broken drill bits and threaded pins with a diameter of 8 mm or more. Since the majority of drill bits and threaded pins used in the heavy engineering industry are larger than 8 mm in diameter, the discharge device according to the invention is a significant step forward in that sense, the larger the diameter of the drill bits and taps to be removed, the easier it is to remove. In addition, the removal device according to the invention is light and easy to move from one work station to another.

The invention will be explained in detail with reference to some preferred embodiments of the invention shown in the figures of the accompanying drawings, to which, however, the invention is not intended to be exclusively limited.

Figure 1 shows a schematic side view of a preferred embodiment of a removal device according to the invention.

Fig. 2 shows a bottom view of the nozzle part of the tip portion of the burner of the discharge device according to Fig. 1.

Figure 3 shows a side view of a preferred alternative embodiment of the carbon electrode used in the removal device according to the invention.

Fig. 4 shows a bottom view of the carbon electrode of Fig. 3 mounted on the tip-35 portion of the burner.

. 94604 4

In the embodiment according to Figures 1 and 2, the discharge device according to the invention is generally indicated by reference numeral 10. In this embodiment, the discharge device 10 consists of a body 11 and a burner tip 12. The heating nozzle heating nozzles are indicated by reference numeral 13. Ref. happipul-flask.

According to the basic idea of the invention, an electrode, e.g. a carbon electrode 15, is connected to the combustor. In the embodiment according to Figures 1 and 2, the nozzle hole of the middle nozzle, i.e. the O 2 nozzle, is burned larger in diameter n carbon carbon 15. As best seen in Figure 1, the hole 16 extends through the tip portion 12 of the burner. Reference numeral 17 denotes a vir-15 rear cable which comes, for example, from a welding machine.

A hole 16 corresponding to the diameter of the selected carbon electrode 15 is drilled in the tip portion 12 of the burner. The hole 16 is preferably drilled in a central O 2 nozzle hole in the nozzle portion of the tip 12, which is generally 1-3 mm in diameter. The diameter of the combustion whistle heating nozzles 13 is generally 0.5 mm or 1 mm. It should be noted that the hole 16 is drilled so that it passes completely through the tip portion 12 of the burner. Since the carbon electrodes 15 conform to the standard diameter, it is preferable to select a carbon electrode 15 having the smallest possible diameter. In practice, the smallest diameter of the carbon electrode 15 is generally 4 mm. As a result, the hole 16 is drilled so that its diameter is 4 mm. In this case, the removal tool 10 according to the invention can reliably remove all threaded pins with a diameter of 8 mm or more.

Fig. 1 shows a threaded hole [broken thread 19 in the base material 18]. The broken thread pin 19 is removed by means of the removal device 10 according to Fig. 1 as follows.

When removing the threaded pin 19, the carbon electrode 15 is adapted to pass through the hole 16 so that the lower part of the carbon electrode 15 emerges from the tip portion 12 of the burner k-94604 5 at the desired distance. Current is applied to the carbon electrode 15 via a current cable 17. The power cable 17 preferably comes from a hit-and-blow machine, as is commonly used in even smaller workshops. Oxygen flows from the oxygen cylinder (not shown) to the heating nozzle 5 with the valve 14 in the open position. The flow of oxygen to the object to be removed, i.e. e.g. to the threaded pin 19, ensures that the threaded pin 19 remains at a sufficiently high temperature, whereby e.g. the broken threaded pin 19 simply melts away without damaging the thread, because the oxygen flow blows the slag away.

10

In the removal device 10 according to the invention, it is advantageous to use an oxygen supply pressure which is higher than the oxygen supply pressure used in normal combustion pipes, generally 4-5 kg / m 2, preferably 10 kg / m 2. The magnitude of the welding current is preferably selected to be 75-120 A 15 depending on the size and depth of the hole. In practice, it has been found that a welding current of 100 A is very advantageous. There are preferably at least 6 heating nozzles 13, which ensures that the oxygen flows evenly. When the initiated hole 10 is removed by the removal device 10 according to the invention, i.e. a hole in which part of the hole has already been threaded, the molten metal is simply blown through the hole by means of an oxygen flow. Instead, when removing the broken threaded pin 19, the oxygen flow lifts the molten metal out of the hole.

If desired, the body 11 of the removal device 10 according to the invention can be ’. 25 rusts with a targeting device (not shown) of the tip portion 12 of the burner when the diameter of the threaded pin 19 to be removed is small, generally 8 mm or 10 mm, in order to avoid possible damage to the thread. On the other hand, a broken threaded pin 19 with a larger diameter, e.g. a threaded pin 16 mm or larger in diameter, does not necessarily require any alignment, but the removal of the broken threaded pin 19 * can be performed "freely". If necessary, the removal device 10 according to the invention can be fastened, for example, to the steel frame with a magnetic fastening, whereby the alignment of the tip part 12 of the burner can be performed in a reliable manner.

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Figures 3 and 4 show an embodiment which is particularly well suited for the removal of a deeply broken threaded pin 19 in the base material 18. In this case, the diameter of the carbon electrode 15a is selected to be greater than 4 mm, preferably either 6.5 mm or 8 mm. A hole 20 for oxygen flow is drilled in such a carbon electrode 15a. For the carbon electrode 15a, of course, a hole 16 is also drilled, but in this embodiment the hole 16 does not extend through the tip 12 of the burner as a whole, but only for a distance of a certain length, e.g. 20 mm. The device of Figures 3 and 4 is operated in a manner similar to that of Figures 1 and 2, but sufficient oxygen flow to a site located deep in the base material 18 is provided by an oxygen flow according to the combustion nozzle of a conventional combustor.

In the removal device 10 according to the invention, it is realized in a very simple manner 15 to change the diameter of the combustion nozzle of a conventional incinerator to correspond to the diameter of the carbon electrode 15,15a used in the removal device 10. If the object to be removed is located deep in the base material 18, then, if necessary, a hole 20 for the combustion nozzle is made in the carbon electrode 15a. A conventional burner has four valves-20, one of which is for acetyl. This valve is, of course, not used in the discharge device 10 according to the invention. The second valve is the so-called oxygen flow. a main valve which is naturally open when the discharge device 10 is operated. The third valve is a valve for the flow of heating oxygen, by means of which the flow of oxygen is directed to the heating nozzles 13. This valve is open at the time of the event, i.e.

in the embodiment of Figures 1 and 2. The fourth valve is a hap-blow valve which is open at the time of the event, i.e. in the embodiment according to Figures 3 and 4.

Only some preferred embodiments of the invention have been described above, and it will be apparent to those skilled in the art that numerous modifications may be made thereto within the scope of the inventive idea set forth in the appended claims.

Claims (10)

A removal device (10) for broken drill bits and threaded pins or the like, comprising a body part (11) and a burner tip part (12), characterized in that at least one hole (16) of electrode (15) is drilled in the burner tip part (12). 15a), wherein the broken drill bit, threaded pin or the like (19) melts away without damaging the thread due to the welding current and oxygen flow. Removal device according to claim 1, characterized in that the hole (16) is formed by a hole in the combustion nozzle of the burner tip part (12). Removal device according to Claim 2, characterized in that the hole (16) extends through the tip part (12) of the burner. Removal device according to one of Claims 1 to 3, characterized in that the diameter of the electrode (15) is 4 mm. Removal device according to Claim 2, characterized in that the hole (16) in the tip part (12) of the burner extends a certain length, preferably 20 mm. Removal device according to Claim 5, characterized in that *; i. 25 that the electrode (15a) is provided with a hole (20) for oxygen flow. Removal device according to Claim 1, 2, 5 or 6, characterized in that the diameter of the electrode (15a) is 6.5 mm or 8 mm. Removal device according to one of Claims 1 to 7, characterized in that the electrode (15, 15a) is a carbon electrode. Removal device according to one of Claims 1 to 8, characterized in that the welding current of the electrode (15, 15a) is 75 to 120 Å, preferably 100 Å, and that the oxygen supply pressure is about 10 kg / m 2. Exhaust device according to one of Claims 1 to 9, characterized in that there are at least 6 heating nozzles (13). • 94604