DE3932522A1 - Thread-tapping tool - delivers coolant into chamber behind chuck for discharge via chuck slots on central drilling - Google Patents

Abstract

The thread-tapping tool comprises a body with shank secured in the mounting on the machine which accommodates the tap in a chuck. An extraction body forms a toolholder between body and chuck, and is subject to the action of feed and return springs, so as to control tapping automatically on insertion in the work. The cooling fluid is delivered at the side of the body (1) and via an annular passage (11) into a cylindrical chamber at the end of the tap (4) behind the chuck (3). From there it passes out through the chuck slots or via a central drilling (14) through the tap to the machining point. ADVANTAGE - The coolant pressure has no effect on the tap, thus avoiding and inaccuracy in the thread cut.

Description

The invention relates to a tapping tool, consisting from a basic body with cylindrical or conical Shank for screwing or clamping on the machine The thread is picked up by means of a collet drill, being between the collet and the base body a pull-out body is arranged as a tool holder, wel cher is under the action of a pressure and return spring. Here is the tap when inserting the Ge winds in the workpiece under spring action for propulsion speaking of the thread cut for automatic control. As a rule, the workpiece is rotated here and the Ge wind drill is only advanced; in some cases the tap is also driven.

Here, the coolant is known from behind in the Insert tapping tool on the base body and over Feed longitudinal channels to the tap. By between the shoulders lie with the known tools Fluid pressure on the tap, which this pushes forward more than the thread cut  speaks or in the case of counter used for pressure relief compression spring pushes it back more than the Ge wind cut corresponds. In both cases the Ge the winch is cut and the workpiece is rejected.

It is an object of the invention to provide a coolant drove, which acts pressure-neutral on the tap to achieve and thus avoids thread waste.

The thread identifies itself to solve this task drilling tool according to the preamble of claim 1 the invention in that the supply of the cooling liquid on the side of the body at the end of the tap behind the collet is made such that the coolant over Plier slots and / or with a pierced tap through its center hole at the machining point occurs. This will equalize the pressure weight in forward and reverse printing, i.e. pressure neutrality reached.

Preferred embodiments of the invention are exemplary as tapping tools in the drawing poses and shows:

Fig. 1 is a longitudinal section through a first embodiment of the tapping tool,

Fig. 2 shows the longitudinal section through a second embodiment of a tapping tool, and

Fig. 3 shows the longitudinal section through a last embodiment form of a tapping tool.

As can be seen from the sectional view according to FIG. 1 in the first exemplary embodiment, the tapping tool consists of a base body 1 here with a cylindrical shaft 2 for fixing to the machine receptacle, which is not shown, of the tap 4 taken up via a collet 3 . Between the collet 3 and the base body 1 as a tool holder an extract body 5 is seen before, which is under the action of a pressure spring 6 and a return spring 7 - here in the rest position - so that the tap 4 when inserting the thread in the workpiece is under spring action Automatically controls propulsion according to the thread cutting.

The supply of the cooling liquid "K" takes place here from the flange 8 on the base body 1 with rear inlet bore 9 and radial channel 10 to the annular channel 11 to the cylinder chamber 12th The cylinder chamber 12 is here at the end of the Ge drill 4 behind the collet 3 , so that the Kühlmit tel "K" via pliers slots 13 and / or a central bore 14 on the tap 4 of the job is supplied. Here is the key 15 for guiding the body 5 with a tap 4 when advancing behind the ring channel 11th

In the second embodiment according to Fig. 2, the tapping tool is also composed of a base body 21 with a cylindrical shank 22 for securing to the acquisition Maschinenauf, which is not shown here, the pincer 23 taken tap 24 via a tension. Between the collet 23 and the base body 21 as a tool holder, an extract body 25 is arranged, which is under the action of a pressure spring 26 and a return spring 27 - here in Ar beitsstellung - so that the tap 24 when inserting the thread in the workpiece the spring-loaded propulsion controls itself according to the thread cutting.

The supply of the cooling liquid "K" takes place here via an eccentric longitudinal bore 28 , if necessary. Connections 29 and radial channel 30 to the annular channel 31 to the cylinder chamber 32 . The cylinder chamber 32 is also here at the end of the tap 24 behind the collet 23 , so that the coolant "K" exits through pliers slots 33 and / or a central bore 34 on the tap 24 at the work site. Here is the feather key 35 for guiding the tension member 25 with a tap 24 in front of the annular channel 31 , so that yet another angular channel 36 has to be interposed to the cylinder space 32 , as is evident from the drawing.

In the last exemplary embodiment according to FIG. 3, the tapping tool again consists of a base body 41 with a conical shaft 42 for fixing to the machine receptacle, which is not shown here, of the tap 44 received via a collet 43 . Between the collet 43 and the base body 41 as a tool holder a tightening body 45 is turned on, which is under the action of a compression spring 46 and a return spring 47 - here in Ar beitsstellung - so that the tap 44 when bringing the thread in the workpiece under Actuating spring action actively controls standing propulsion according to the thread cut.

The supply of the cooling liquid "K" takes place here via oblique inlet bores 48 or 48 a on the flange 49 or on the rear at the shaft end 42 a and radial connection 50 to the annular channel 51 to the cylinder space 52 .

The cylinder chamber 52 is also here at the end of the Ge thread drill 44 behind the collet 43 , so that the cooling medium "K" comes through pliers slots 53 and / or central bore 54 on the tap 44 to the job. Here is the key 55 for guiding the retraction body 45 with a tap 44 behind the ring channel 51 .

Claims (6)

1.Tapping tool, consisting of a base body with a cylindrical or conical shaft for screwing in or clamping on the machine receptacle of the tap taken up by a collet, with a pull-out body arranged between the collet and the base body as a tool holder, which under the action of a At pressure and return spring stands, such that the drill automatically cuts the spring-loaded propulsion according to the thread cut when inserting the thread in the workpiece, characterized in that the supply of the coolant to the side of the base body via an annular channel in a cylinder chamber on Zy End of the tap behind the collet is done in such a way that the coolant slits through pliers and / or emerges at the machining point through the central bore of the sen at the machining point. 2. tapping tool according to claim 1, characterized in that in particular with cylindri the stem of the base body, the coolant over a Flange on the same at the rear inlet bore - over a radial channel - to the ring channel in the cylinder chamber can be fed to the tap or the collet. 3. tapping tool according to claim 1, characterized in that in particular with cylindri shank of the base body, the coolant when outside central longitudinal bore for the inlet, if necessary with side connections - via a radial channel - to the ring channel in the cylinder space can be fed to the tap or collet.   4. tapping tool according to claim 1, characterized in that in particular with conical Shaft of the base body, the coolant over oblique Inlet holes on a flange or on the back of the bottom body - via a radial connection - to the ring channel in feed the cylinder space to the tap or collet is cash. 5. Tapping tool according to one of the preceding An claims, characterized in that the feather key, ball guide or Notched shaft for guiding the suit body in its holder in the base body in front of or behind the ring channel with cylinder space at the end of the tap. 6. tapping tool according to claim 5, characterized in that lie in front of the ring channel gender key, ball guide or notched shaft between the Annular channel and the cylinder space at the end of the tap there is an angular channel.