DE1777428C3 - Device for driving a tool attached to a drill for the purpose of necking out a hole - Google Patents

Description

45 The invention relates to a device for

Driving a tool attached to a drill to make a hole in a sheet metal wall, preferably a pipe wall which can be attached to a drilling spindle and a drilled hole when retracting of the drill.

Such a device is known from GB-PS 53,229. In this device, however, must the drilling tool on the one hand and the necking tool on the other hand are operated separately.

The invention is based on the object of providing a common device in a device of the type described above To enable drive for drilling tool and necking tool.

The solution to the problem posed by the invention consists in dab the drill with the necking tool is attached to the front end of a shaft which has an external thread into which a threaded sleeve can be engaged, by means of which the rotating direction of rotation remains unchanged compared to the drilling process Shaft supported against the sheet metal wall and the necking tool out of the drilled hole in the wall can be led out. A device according to the 428

Invention has the advantage that the necking tool automatically by means of a single drive from the drilled hole can be moved out without changing the direction of rotation of the drive needs

In an advantageous embodiment of the invention the threaded sleeve provided with an internal thread is designed as a split nut, whereby preferably are pivotably articulated on the nut supports which are located on opposite sides of the central axis of the Extend drill and the shaft and attack the pipe by means of fork-like ends on the pipe. In these In the embodiment, the supports are on the one hand organs for the automatic retraction of the necking tool and on the other hand those to support the torque.

In a further embodiment of the invention, the shaft is alternatively directly from the drilling spindle or via a countershaft can be driven at a different speed. This ensures that the drill Available force is translated in such a way that after completion of the drilling process for the subsequent necking out of the hole to form an outwardly drawn flange the torque increases and the speed of the output shaft is reduced.

The invention is shown in the following description with reference to the drawing in one embodiment explained it shows

F i g. 1 a tube provided with two holes, one of which has a flange for attaching a Branch pipe is provided, which has been produced with the help of a device according to the registration,

F i g. 2 a tool for drilling and forming a hole into an outwardly drawn cylindrical one Flange according to FIG. 1, which has just been pulled out of a tube, and by means of a Device can be driven after registration

F i g. 3 a device in the embodiment according to the invention for attachment to a drilling spindle,

4 shows a side view according to FIG. 3, partly in Cut.

DL device according to the invention is used in the context of a mode of operation in which in a Wall, for example the jacket of a pipe 1, a hole 2 and on this a flange 3 for the branch pipe is formed (see. Fig. 1). That with the invention Device drivable tool, with the help of which such a hole and the associated one Flange can be made is shown in FIG. 2 shown.

First of all, on the basis of FIG. 2 describes the tool itself. It consists of a metal drill 4, which has a hole on both sides of its central axis, which is at an angle to the center line of the Drill 4 is arranged so that the bolts 5 inserted into the holes from the drill 4 so far below of the shoulder 6 carrying them emerge that between the upper edge of the protruding bolt 5 and the The lower part of the supporting extension 6 has an uninterrupted, cylindrical surface Width at least corresponds to the wall thickness of wall 1. After drilling the hole, the drill is used 4 pushed up to the supporting extension 6 in the tube 1, the lower ends of the with the help of a Adjusting device pulled up bolts 5 get into the interior of the tube 1. By turning the Adjusting device, the bolts 5 are pushed into the tube 1 until they come under the edges of the hole 2

gen. In this position, the bolts are moved using the Setting device set The further rotating drill is then withdrawn from the pipe, whereby the bolts 5 flare the edge of the hole to form a flange 3 on which the branch pipe can easily can be soldered. The lower ends of the bolts are designed so that they are at the deformation point Form the smallest possible contact angle. At the upper end of the bolt 5 a projection 7 is provided, which holds the bolt axially in full contact with the adjustment device and the frame. The level Extension 8 prevents rotation of the bolt about its axis.

In tests carried out, it has been shown that the tool enables a very high work performance, because with it the hole and the flange can be formed. With the help of the tool one can in Make branch holes of any size for pipes and plates.

F i g. 2 also shows an embodiment of a setting device. This has a cone 9, which is adapted to the angle between the crimp bolts and has two mutually symmetrical, ascending notches, on which the protruding parts 7 of the bolts 5 can be attached. If you then screw the cone 9 towards the drill, the bolts 5 move in their axial direction so that they can be adjusted for different sized flange diameters. the Clamping device 10 of the drill is indicated by dashed lines.

The device according to the invention is shown in FIGS. 3 and 4 shown. It consists first of all of a support body or housing 11 and a drive shaft arranged thereon or in it, the output shaft receiving the tool and countershaft with gears. The drive shaft 13 connected to a drilling spindle has at its lower free end a gear 13a of larger diameter and a gear 130 of smaller diameter. The upper part 12a of the output shaft 12 serves as a bearing and is provided with internal teeth which are adapted to the smaller gearwheel 136. The output shaft 12 also carries a gear 126. Below the gear 126 is a cylindrical body 12c which is provided with an external thread. However, the lower part of the cylindrical body 12c is not threaded and also serves as a bearing. As a result of the long cylindrical surfaces, the output shaft 12 can be moved in its axial direction and fixed in any desired position with the aid of a resilient latching device YId.

In Fig. 3, the output shaft 12 is shown in an intermediate position in which it is disengaged with the drive shaft 13 is located. If the output shaft 12 is now moved into its upper position, it engages the smaller gear 13 /? of the drive shaft 13 in the correspondingly designed internal toothing of the upper Bearing part 12a of the output shaft 12, so that the torque and the drive speed of the Bohrers unchanged to that in F i g. 2 tool shown can be transferred.

However, when the output shaft moves in its lower position 12, then the gear 14a come to the countershaft 14, and the gear 126 of the Abtnebswelle 12 engaged with each other, while the direct connection between the drive shaft 13 and the output shaft is interrupted 12th The power is now transmitted via the larger gear 13a of the drive shaft 13, the gears 146 and 14a of the countershaft 14 to the gear 126 of the output shaft 12, so that the torque increases according to the gear ratio and the rotational speed of the output shaft 12 is reduced accordingly.

Surrounding the externally threaded cylindrical body 12c of the output shaft 12 is a split nut 15 to which supports 16 are attached by means of joints 18 including pivot pins 20 so that when the support posts 16 are pivoted down about the pivot pins 20 in their F i g . 3 positions shown, wedge surfaces of the joints 18 between the supports 16 and the nut parts cause the two parts of the nut 15 to be pressed together and brought into threaded engagement with the cylindrical part YIc of the output shaft 12. If the drive shaft 13 is then set in rotation, and if the supports 16 are supported on the workpiece to be machined and the output shaft 12 is also in its lower position, then the supports 16 are guided out of the housing 11, namely they are pushed out by the nut 15 and the externally threaded cylindrical body 12c. In this case, the distance between a tool arranged on the output shaft 12 and a workpiece to be machined is increased.

When the supports 16 are pivoted to the side about the pivot pin 20 and through slots 19 in the housing 11 apart from each other through, cause the wedge surfaces on the joints 18 between the nut parts and the supports 16 that the two parts of the nut are apart and disengaged from the external thread of the cylindrical part 12c of the output shaft 12 are brought. After opening the Nut 15 springs 17 bring the parts of the nut 15 and the supports 16 back to their original position.

A tool according to FIG. 1 is attached to the output shaft 12 of the device. 2 arranged. The mode of operation is such that a hole is drilled in the wall of a pipe when the output shaft 12 is in its upper part Position. After the hole has been drilled in the wall of the pipe, the adjustment cone is used 9, the molds 5 extended in the working position and the output shaft 12 in its lowest position emotional. Thereafter, the supports 16 are in their from the F i g. 3 and 4 visible support positions pivoted, whereby they press the parts of the nut 15 together and with the external thread of the cylindrical Bring body 12c of output shaft 12 into engagement. The supports 16 are then against the wall of the pipe pressed and during the subsequent rotary movement of the output shaft 12, the drill 4 and the The necking tool 5 is pushed out of the tube, the latter being the one shown in FIG. 1 shown flange 3 forms.

1 sheet of drawings

Claims (6)

Claims: 1777 1. Device for driving a tool attached to a drill for necking a hole in a sheet metal wall, preferably a pipe wall, which can be attached to a drilling spindle and necking out a drilled hole when withdrawing the drill, characterized in that that the drill (4) with the necking tool (5) at the front end of a shaft (12) is attached which has an external thread (12c) in the one threaded sleeve (15) can be engaged, by means of which the opposite to the drilling process in unchanged Direction of rotation rotating shaft (12) against the sheet metal wall (1) supported and the necking tool (5) from the drilled hole (2) in the wall ({; can be guided out 2. Apparatus according to claim 1, characterized that the threaded sleeve provided with an internal thread is designed as a split nut (15). 3. Apparatus according to claim 2, characterized in that on the nut (15) supports (16) are pivotably articulated on opposite sides of the central axis of the drill (4) as well extend the shaft (12) and engage the tube (1) by means of fork-like ends. 4. Apparatus according to claim 3, characterized in that the parts of the nut (15) of the External thread (12c) released in the pivoted position of the supports (16) and in the centering position of the Supports (16) are indented. 5. Device according to one of claims 2 to 4, characterized in that the nut (15) according to the opening can be returned to its starting position by means of springs (17). 6. Device according to one of claims 1 to 5, characterized in that the shaft (12) alternatively directly from the drilling spindle (13) or via a countershaft (14) at a different speed is drivable.