DE3245874A1 - Thread-cutting tool - Google Patents

Abstract

The thread-cutting tool is provided with worm gearing which is accommodated in a head ring housing. It is covered with a heat-insulating material at its end faces as well as at the circumferential surface. This prevents excessive heating of the head ring housing during work. In addition, it covers the parting line between two housing parts of the head ring housing. The heat-insulating material also covers any joint misalignment at this parting line as well as edges or burrs on the head ring housing.

Description

Thread cutting tool

Addition to patent .... (patent application P 32 31 5384) The invention relates to a thread cutting tool according to the preamble of claim 1.

The thread cutting tool according to the main patent builds as a result of the very high speed of the electric motor, which not only makes the tool easier to handle, but also its weight can be significantly reduced. As the worm gear a correspondingly high speed, the housing of the head ring heats up. That Head ring housing consists of two essentially mirror-symmetrical designs Housing parts that are connected to one another by screws. In assembled State a parting line is formed on the contact surface of the two housing parts, which must be sealed against the leakage of the gear lubricant. aside from that the two housing parts must be reworked at the joint edges in order to achieve a to obtain smooth outer surface of the head ring housing.

The invention is based on the object of the thread cutting tool to develop according to the main patent so that the head ring housing without expensive Sealing work and rework can be mounted in such a way that the heat generated during the operation of the thread cutting tool the manageability not affected.

According to the invention, this object is achieved with the characterizing features of claim 1 solved.

At. the thread cutting tool according to the invention prevents the heat insulating Material too much heating of the head ring housing when working, so that it by the user of the thread cutting tool even after prolonged use can be touched. The heat-insulating one covering the end face and the jacket surface Material also covers the parting line between the two housing parts of the head ring housing. Any joint misalignment that may arise at this parting line is caused by the heat-insulating Material covered so that it does not have to be reworked. Also edges or Machining burrs on the face and on the outer surface of the head ring housing do not have to be reworked due to the covering by the heat-insulating material will. This facilitates the manufacture of the thread cutting tool according to the invention considerably simplified and cheaper. It also comes with the heat insulating Material also formed a seal of the head ring housing so that no additional Sealing is required.

Further features of the invention emerge from the further claims, the description and the drawings.

The invention is illustrated by some in the drawings Embodiments explained in more detail. 1 shows the invention in a side view Thread cutting tool, Fig. 2 is a section along the line II-II in Fig. 1, Fig. 3 in a representation corresponding to FIG. 2, a second embodiment of a thread cutting tool according to the invention, FIG. 4 is a side view of a Another embodiment of a thread cutting tool according to the invention, Fig. 5 in a schematic circuit diagram a brush displacement of the electric motor of the Thread cutting tool according to the invention according to FIG. 4, FIG. 6 shows a longitudinal section the line The thread cutting tool according to Figures 1 and 2 has one in one Housing 1 housed electric motor 2 and a head ring 3, in the cutting heads 4 (Fig. 2) can be used. The housing 1 of the electric motor 2 consists of two housing parts arranged one behind the other in the longitudinal direction of the thread cutting tool 5 and 6, which are preferably detachably connected to one another. The housing part 5 is designed as a handle that is easily accessible from the hand of the operator of the thread cutting tool can be encompassed.

The housing part 5 has smaller external dimensions than the housing part 6, in which the (not shown) stator and rotor of the electric motor are housed are. To operate the electric motor 2 is on the underside 7 of the housing part 5, seen in the usual position of use of the thread cutting tool, a switch 8 provided. As a result, he is inevitably with the detection of the housing part 5 pressed with the whole hand on the end face 9 of the housing part facing away from the head ring 3 5 is a connection cable 10 for the Electric motor 2 led to the outside.

The head ring 3 has two essentially mirror-symmetrical designs Housing parts 21, 22 (Fig. 2), which are arranged mirror-symmetrically to each other and detachable by screws 23 (Fig. 1). are connected to each other. The two housing parts 21, 22 are shell-shaped and have a curved part of a circle Outer wall 24, 25, which runs approximately over an angular range of 1800 (Fig. 1) The outer walls are with their end faces against each other, so that the head ring 3 has a closed outer surface. The outer walls 24, 25 are part of a circle curved area into radially extending, annular wall sections 26, 27 over, which form the end faces of the head ring 3 and the outer walls 24, 25 with each a flange 28, 29 connect .. The flanges are axial and protrude beyond the wall sections 26, 27 on both sides.

The outer walls 24, 25 run on the one facing the housing 1 Side, seen in the axial direction of the head ring 3, partially circular up to the level of Outside of the housing (Fig. 1). Run at the end facing away from the housing 1 the outer walls 24, 25, as can be seen in FIG. 1 for the outer wall 24, partially circular, seen in the axial direction of the head ring 3, approximately up to the level of Axis B of the housing 1. The wall sections 26, 27 also run in this.

Area ring-shaped and then each go into a single-plate housing part 30 over, which lies in the end faces of the head ring. The flanges 28, 29 run circular and delimit a circular receiving opening 32 for a retaining ring 40.

The axially lying outer walls running in the direction of one another 24, 25 are over the entire circumference of the plate-shaped Housing parts 30 is provided so that the two housing parts over the entire circumference of the head ring 21, 22 rest with their end faces and a closed outer wall of the Form head ring.

The outer sides 33, 34 of the facing away from the receiving opening 32 Housing parts 21, 22 are flat and form a boundary of a handle 35, which is bow-shaped (Fig. 1) and in the area below the head ring 3 and the housing is in the working position of the thread cutting tool according to FIG Fig. 1 seen. The handle 35 is also formed from two handle parts 36, 37 (Fig. 2), each formed in one piece with the housing parts 21, 22 of the head ring 3 are and are in the assembled position with their front sides against each other.

The retaining ring 40 rotatably mounted in the receiving opening 32 is provided on the outer circumference with a worm gear 41, which is preferably is formed integrally with the retaining ring. She is at a radial across the retaining ring 40 protruding ring 42 provided between the flanges 28, 29 of the housing parts 21, 22 protrudes and with its two Ausenseiten.axial to the The end faces of the flanges are supported. The retaining ring is used for radial securing 40 provided with a flange 43 which is attached to the radial inside of the flanges 28, 29 is applied, the end faces facing away from each other flush with the end face of the Flange 43 lie.

The retaining ring 40 serves to receive the cutting head 4 and is for this purpose provided with a further, radially inner flange 44 which by a half-width web 45 with the radially outer flange 43 connected is. The inner flange 44 has a polygonal receiving opening 46, in the rotatable one accordingly polygonal plug-in extension 47 des Cutting head 4 can be inserted. In the installed position, the cutting head 4 lies on the End face of the inner flange 44, while the plug-in projection 47 on the opposite The end face of the flange 44 protrudes slightly.

To axially secure the cutting head 4 in the receiving opening 46 a snap ring is provided as the locking element 48, which is in an inside Circumferential groove 49 of flange 44 is mounted. When the cutting head 4 with its plug-in attachment 47 is pushed into the receiving opening 46, the snap ring 48 becomes more elastic Deformation in the circumferential groove 49 pressed radially outward, so that the plug-in approach can be inserted. As soon as the cutting head 4 assumes its installation position, springs the snap ring 48 in a circumferential groove 50 of the plug attachment 47, whereby the cutting head 4 is axially secured in the receiving opening 46 Electric motor 2 has a very high speed, which is higher than about 25,000 rpm. lies. The electric motor 2 preferably has a speed of approximately 30,000 rpm. . Because At this high speed, the electric motor can be built small, which is not only the case Handiness of the thread cutting tool, but also its weight is considerable decreased. This high speed is reduced in only two gear stages in such a way that that the working speed of the retaining ring 40 or the thread cutting head 4 in the. On the order of, for example, about 30-50 rpm.

lies. The drive shaft (not shown) of the electric motor 2 is via a gear transmission, which forms a first gear stage, with a worm shaft 54 drive-connected, on the one in the worm gear teeth 41 of the retaining ring 40 engaging screw 59 is seated. The first gear stage has a reduction ratio of about 6.5 to 7.5, preferably from 7.2. The second, through the Worm gear teeth 41 and the worm 59 formed gear stage has a reduction ratio from about 100 to 120, preferably from about 109. With these two gear stages a total reduction ratio of about 800 is thus achieved, whereby the high speed of the electric motor 2 to the working speed of the retaining ring 40 is reduced.

The module of the worm gear teeth 41 and. the screw 59 is smaller than about 1.6 mm and was preferably about 1.0 mm. The module of the first gear stage is less than about 1.6 mm, preferably about 1.0 mm.

The two wall sections 26, 27, which are the two end faces of the head ring 3 form, and the jacket surface 24, 25 are made of a heat-insulating material 70, which extends up to the flanges 28, 29 of the housing parts 21, 22. (Fig. 2). In addition, the handle 35 is also complete with the heat insulating material -70, which also covers the outer sides 33, 34 of the housing parts 21, 22. the by the worm gear mechanism housed in the head ring 3 during use The heat generated by the threading tool is absorbed by the heat insulating material. 70 held back, so that the head ring 3 and the handle 35 even after long, uninterrupted Machining can be touched by hand without further processing.

Preferably the heat insulating material is heat insulating. Plastic that can be easily applied to the head ring 3 and the handle 35. A thermoplastic is preferably used as a thermally insulating plastic elastic plastic, which in addition to the heat insulating properties also has shock-absorbing properties. Should. The thread cutting tool If you put it hard on a surface or fall on the floor, then the shock will through such an elastic plastic is damped in such a way that the head ring 3 is not damaged will.

The heat-insulating surrounding the handle 35 and the head ring housing.21, 22 Material is preferably formed in one piece, so that it is in one operation can be applied. Preferably, the heat-insulating material of the head ring housing 21, 22 and the handle 35 of constant thickness. But it is also possible on the Head ring housing 21, 22 to apply a thicker FZimeisoLiereXide layer because the heat generating in the head ring housing the worm gear is housed.

The housing 1 of the electric motor 2 usually consists of heat-insulating material Plastic so that it does not have to be insulated against heat. But it goes without saying it is also possible to coat the housing 1 with the heat-insulating material 70, which is preferably formed in one piece with the rest of the heat-insulating material is.

The embodiment according to FIG. 3 is essentially the same like the embodiment according to FIGS. 1 and 2.

In the following only -the. different features explained will. In this embodiment, the housing parts 21a, 22a form an axial and a radial support for the retaining ring 40a. On the radial ones Wall sections 26a, 27a of the two housing parts are each approximately half radial Width an axially inwardly projecting abutment piece 71, 72 is provided as Rings running coaxially to the receiving opening 32a are formed, but also through can be formed in the circumferential direction at a distance from each other parts. On the front sides 73, 74 of the contact pieces 71, 72 is the ring 42a of the retaining ring 40a. As a result, the retaining ring 40a is axially on the Plant pieces 71, 72 supported.

The retaining ring 40a only has a single flange 44a, that on the inside of the flanges 28a, 29a delimiting the receiving opening 32a of the housing parts 21a, 22a rests. These annular flanges 28a, 29a form the Radial bearing for the retaining ring 40a. In contrast to the embodiment according to the Figures 1 and 2 have the flanges 28a, 29a axial distance from the retaining ring 40a, so that the flanges only provide radial support for the retaining ring 40a form. As a result of the described design of the housing parts 21a, 22a and the Mounting ring 40å, the mounting part is almost completely from the housing parts 21a, 22a covered to the outside. Only the thin flange 44a of the retaining ring 40a extends to the end faces of the head ring 3a. This allows the heat insulating Material 70a to be provided close to the receiving opening 32a, so that not thermally insulated part des.Kopfringes 3a is only low. This makes an optimal Thermal insulation of the head ring 3a guaranteed.

It is known in an electric motor designed as a universal motor for a better power output the Achslaqe a carbon brush holder and thus of carbon brushes to be arranged twisted to the field winding. Figures 4 to 6 show an embodiment in which the carbon brushes 77, 78 depending on the direction of rotation of the electric motor 2 are rotated in different angular positions for winding a stator 83 can. Fig. 6 shows a rotor or armature 75 within the stator 83 with ein.Statorwick 79 which is installed in the housing 1 of the electric motor 2 in a rotationally fixed manner is rotatable. The rotor 75 has a collector connected to it in a rotationally fixed manner 92, on which the carbon brushes 77, 78 rest. The rotor 75 has a main field axis 76 (Fig.5) while the brush axis (Fig..5) is denoted by 80.

If the brush axis 80 is perpendicular to the main field axis 76, that is the brush rotation angle * is 00, so there is none between the brushes 77, 78 Induction voltage effective. There is therefore no current, so that the electric motor 2 cannot develop torque. If the brush axis 80 is in the direction of the main field axis 76, so the brush twist angle has a size of 900, so Although a current is generated, there is no torque because the magnetic axis of the rotor currents are in the same direction as the magnetic axis of the main flow. However, when the brush axis 80 is set at an intermediate angle is, a current is generated through the carbon brushes 77, 78, its magnetic Axis in rotor 75 a component perpendicular to the main field. Possesses and therefore a Torque developed. It has been found that the brush twist angle is preferably 4 Should be 20 ° in order to obtain a maximum power output of the electric motor 2.

The stator winding 79 is connected to the voltage network.

An operating capacitor 81 is connected in parallel to the stator winding 79.

If the electric motor 2 is driven in one direction, then the carbon brushes 77, 78 are at the brush rotation angle o with respect to the stator winding 79 is twisted. As the thread cutting tool is used both for cutting is provided by right-hand and left-hand thread, the electric motor 2 must have a Allow right and left rotation of the cutting jaws housed in the cutting head 4. This means that the electric motor has a maximum power output in both directions of rotation 2 is reached is a Carbon brush holder 84, 84 'by means of an actuator 82 (Fig. 4) adjustable. Preferably, the actuator 82 formed by an adjusting ring, which is rotatably mounted on the housing 1 of the electric motor 2 is and can be provided with a corrugation for better handling. With the actuator 82, the carbon brush holder 84, 84 'when changing the direction of rotation of the electric motor 2 and thus the worm gear 42, 59 rotated in this way be that the brush axis 80 is the angle 4 or the angle 6 with respect to the Main field axis 76 assumes, depending on the direction of rotation of the electric motor. The carbon brush thai77, 78 are connected to a plate 85 via the carbon brush holders 84, 84 ', which is connected to the actuator 82 via screws 86, which are part-circular Pass through slots in a cover 87 of the housing 1. The slots are so long that the actuator 82 is rotated with the screws 86 by the brush rotation angle can be. By rotating the actuator 82, 1 are fixed in the housing Contacts 88 depending on the position of the actuator with the collector 92 via the carbon brushes. 77, 78 connected. There are two contacts each for clockwise and counterclockwise rotation.

In this way, the reversal of the direction of rotation shown in FIG achieved. The actuator 82 is secured in both end positions by a locking element 89, which is preferably formed by a ball under spring force, which is in the Actuator 82 is housed and in each of the two end positions in a recess 90 engages in a rotatably mounted disc 91 of the housing 1.

If the brush axis 80 makes the angle α with the main field axis 76 includes, is.die power supply line with the carbon brushes 77, 78 connected in this way and the electric motor 2 is driven so that a right-hand thread is cut on the workpiece can be. If a left-hand thread is to be cut, the carbon brushes 77, 78 rotated with the actuator 82 until the brush axis 80 the angle bb with the Main field axis 76 includes. The brush rotation angles 4 and L are preferably at around + 20 ° or - 200.

Depending on the design of the electric motor 2 can of course also other brush rotation angles can be provided in order to achieve the maximum power output in each case of the electric motor.

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Claims (15)

A n p r e c h e 0 Thread cutting tool with a housing, in which an electric motor is housed, which has at least one worm gear one rotatably mounted in a head ring and housed in a head ring housing Drives the retaining ring, which is provided with a worm gear toothing, b at least one worm engages, the electric motor having a speed of more than about 25,000 rpm and the worm gear toothing has a module of less than about 1.6mm, according to patent .... (patent application P 32 31 538.4), thereby it is indicated that the knob ring housing (21, 22) is attached to at least one End face (26, 27) and on the lateral surface (24, 25) with a heat-insulating Material (70) is coated. 2. Thread cutting tool according to claim 1, characterized in that that the ~ heat-insulating material (70) is a plastic, preferably a thermoplastic, is. 3. thread cutting tool according to claim 1 or 2, characterized in that that. the heat insulating material (70) is an elastic plastic. 4. Thread cutting tool according to one of claims 1-3, wherein the Head ring housing is provided with a handle, characterized in that the handle (35) is sheathed with a heat insulating material (70), which is preferably one piece with the material surrounding the head ring housing (21, 22). 5. Thread cutting tool according to one of claims 1-4, characterized in that that the heat insulating material (70) the other end face of the. Head ring housing (21, 22) covered. 6. Thread cutting tool according to one of claims 1-5, characterized in that that. the heat insulating material (70) of the head ring housing (21, 22) and / or the Handle (35) has constant thickness. 7. Thread cutting tool according to one of claims 1-6, wherein the Head ring housing has flanges which axially form the end faces of the head ring housing protrude, characterized in that the heat insulating material (70) to the Front sides (26, 27) of the head ring housing (21, 22) up to the flanges (28, 29) runs. 8. Thread cutting tool according to one of claims 1-7, characterized in that that the head ring housing (21, 22) radially supports the retaining ring (40). 9. Thread cutting tool.nach one of claims 1-8, characterized in that that the head ring housing (21a, 22a) at a radial distance from the flanges (28a, 29a) has at least one axially protruding contact piece (71, 72) which is an axial bearing for the. Forms retaining ring (40a). 10. Thread cutting tool according to one of claims 1-9, characterized in that that the flanges (28a, 29a) of the head ring housing (21a, 22a) the radial bearing for the Form retaining ring (40a). 11. The thread cutting tool of claim 10, wherein the retaining ring Provided with a radially inner flange to accommodate a cutting head is, characterized in that the flange (44a) of the retaining ring (40a) on the flanges (28a, 29a) of the head ring housing (21a, 22a) rests in a sliding manner. 12. Thread cutting tool according to one of claims 1-11, in which the electric motor has carbon brushes, the axis of which with the main field axis of a Field winding encloses an angle, characterized in that the carbon brushes (77, 78) can be adjusted with respect to the field winding (79) by means of an actuator (82) are. 13. Thread cutting tool according to claim 12, characterized in that that the actuator (82) is rotatably mounted on the housing (1) of the electric motor (2) Adjusting ring is. 14. Thread cutting tool according to claim t2 or 13, characterized in that that the actuator (82) in both end positions on the housing (1) of the electric motor (2) can be locked. 15. Thread cutting tool according to one of claims 12-14, characterized characterized in that the brush twist angle |,) is approximately 200.