DE2435188A1 - Position socket for quick change chuck coupling - has tubular piece in drive, with feed and stops - Google Patents

Abstract

Device for coupling an insert body carrying an inserted part with a drive body, particularly a position socket, which takes a tool, with a quick change chuck insertable in a spindle of a machine tool, where the chuck incorporates a fluid channel connected to the inserted part, and is pressure medium fed via a feed ring. In the drive body, a tubular component forming part of the fluid channel is axially displaceably fitted, and a spring tries to hold the tubular component on the inserted component. Between the tubular component and the drive body effective stops are provided, which prevent the separation of the tubular component from the drive body.

Description

"Device for coupling an insert body receiving an insert with a drive body, in particular an adjusting sleeve receiving a tool with a quick-change chuck that can be inserted into a spindle of a machine tool The invention relates to a device according to the preamble of the claim 1.

In a known feed of this type, the fluid channel is through Bores formed in the tool, in the adjusting sleeve and in the quick-change chuck. Disadvantageous at this liquid channel is that liquid at the connections between the Tool and the adjusting sleeve on the one hand and the adjusting sleeve and the quick-change chuck on the other hand can escape laterally and is thus lost to cool the tool.

The present invention aims at varying degrees insert body and / or insert piece that can be inserted into the drive body to create substantially sealed liquid channel on the outside. This task is achieved according to the invention according to the characterizing part of claim 1.

The one standing up on the insert under the effect of the energy store Pipe section seals the liquid channel between the drive body and the insert from substantially, so that practical in the area of the insert body no fluid is lost. It is thus one of the connection of the liquid quile on the drive body to the insert piece more continuous, outwards essentially closed fluid channel available. Because of the axial displaceability of the pipe section, this is not only pressed onto the insert piece, but the The position of the pipe section can be inserted differently in the drive body Insert bodies and insert pieces that can be used to different extents in the insert body be adjusted.

By the features of claim 2 falling out of the pipe section prevented from the drive body in an advantageous manner.

The features of claim 7 are a passage of liquid between the pipe section and the insert body in the event that liquid emerges between the pipe section and the insert piece.

According to the features of claim 8, the insert receiving the Sealed cavity in the insert body.

Further advantages of the invention emerge from the remaining claims, the description and the drawing. In this one is in one. Drive spindle one Quick-change chuck that can be used in a machine tool with an adjusting sleeve inserted therein for receiving a tool drawn in dash-dotted lines as an exemplary embodiment of the subject matter of the invention shown schematically in longitudinal section; An as Quick-change chuck designed drive body 1 has a shaft part 2 for receiving in a not shown, possibly axially displaceable drive spindle a tool machine and a sleeve part 3. On this is a sleeve-shaped Coupling piece 4 axially displaceable. Between a shoulder in the sleeve part 3 and one Shoulder in the coupling piece 4, an energy storage device in the form of a spring 5 is clamped, which strives, the coupling piece 4 in the direction of the free end of the sleeve part 3 to slide. The coupling piece 4 has at its end facing away from the shaft part two ring grooves 7 and 8. The ring groove 8 closes on the side of the ring groove 7 a conical surface 9 is located in the area of the annular groove 8 and the conical surface 9 In the sleeve part 3, a set of three locking balls 10, which are at equal intervals are arranged in the sleeve part 3 and of which only one locking ball 10 can be seen. A locking body 11 is axial in a groove on the outside of the sleeve part 3 movably mounted. This has a stepped recess 12 for receiving a locking body designed as a ball 13 is used. Between the locking body 11 and the sleeve part 3, a spring 14 is clamped, which the locking body 11 in Direction to press the ball 13 seeks. In the sleeve part 3 is an adjusting sleeve 15 used as an insert body, which is shown for receiving a dash-dotted line Tool 23 serves as an insert.

On the adjusting sleeve 15, a nut 16 is screwed, the one has an annular groove 17 having a smaller diameter projection, in which at in the sleeve part 3 inserted position, the locking balls 10 engage. The adjusting sleeve 15 carries a wedge 19 which sits in a groove in the sleeve part 3. One only sided open and up to the central bore of the adjusting sleeve 15 reaching expeller slot 20 is for removing a stuck in the adjusting sleeve 15 tool with the help an ejector tool (not shown) that can be inserted into the ejector slot 20 intended. The exact design and the mode of operation of the parts described above can be found in DT-OS 1 602 765.

The drive body 1 has a longitudinal bore completely penetrating it 25, which serves to receive an axially displaceable pipe section 26. This piece of pipe is in the narrowed bearing part 47 of the drive body 1 is axially displaceable stored, while in the remaining area between the pipe section 26 and the wall of the Longitudinal bore 25 a radial distance is present. In the one located in the shaft part 2 The end of the pipe section 26 is a plug 27 that can be displaced in the longitudinal bore 25 attached to support an energy storage device in the form of a helical spring 28 is used, which at its end facing away from the pipe section 26 in a longitudinal bore 25 locking and secured in its position by means of a transverse pin 29 as well by means of a sealing ring 30 to the outside sealed plug 31 is supported. The step 27 is part of a stop device, which has an in the shaft part 2 attached and designed as a stop pin 32 stop member is assigned.

For sealing a between the shaft part 2 and the pipe section 26 A sealing ring arranged in the area of the bearing part 47 is used for the existing gap 33. The displacement of this sealing ring 33 during the axial displacement of the pipe section 26 there is a shoulder in the area of the bearing part 47 on the one hand and one in the shaft part 2 attached stop pin 35 on the other hand opposite.

Between the two stop pins 32 and 35 is one with the longitudinal bore 25 connected transverse bore 36 is provided which is connected to an annular channel 37 in one of the Drive body 1 surrounding feed ring 38 is connected. The ring channel 37 is standing via a connecting line 39 to a source of liquid, not shown in connection. On both sides of the transverse bore 36 angeorb designated sealing rings seal the Gap between the drive body 1 and the feed ring 38, its axial position on the drive body 1 through a shoulder in the area of the bearing part 47 and through a spring washer secured on the side facing away from it.

is. For the connection between the longitudinal bore 25 and the pipe section 26 is used at least one attached in the region of the plug 27 in the pipe section 26 Cross hole 40.

The pipe section 26 penetrates a longitudinal bore in the adjusting sleeve 15 and is in the area of this bore of a sealing ring 42 surround. For the purpose of introducing the pipe section 26 into the longitudinal bore of the adjusting sleeve 15 this is widened conically on the side facing away from the tool holder and the tube end facing away from the plug 27 is conical on the outside. The open one The side of the expeller slot 20 is sealed off from the outside by a sealing washer 43.

The pipe section 26 is, as shown in the drawing, under the Action of the helical spring 28 on the tool 23 and is with its fluid bore tied together.

When removing the adjusting sleeve 15 from the drive body 1 by lifting of the coupling piece 4, the pipe section 26 becomes under the action of the helical spring 28 moved in the removal direction of the adjusting sleeve 15 until the pin 27 on the stop pin 32 is pending. When inserting the adjusting sleeve 15 into the drive body 1 penetrates the pipe section 26 the adjusting sleeve 15 until it rests on the tool 23 and then moved together with this in the direction of the insertion movement of the adjusting sleeve 15 will. Here, the position of the pipe section 26 automatically adapts itself differently far a tool 23 inserted into the adjusting sleeve 15 and / or a different one Adjusting sleeve 15 inserted far into the drive body 1.

For the supply of liquid to the tool 23 is from the connecting line 39 via the annular channel 37, the transverse bore 36, the longitudinal bore 25, the transverse bore 40 and the interior of the pipe section 26 is continuous and practical to the outside tight connection up to the liquid channel in the tool 23 available.

The liquid originating from the liquid source (not shown) Can be used to cool and / or lubricate the tool 23 or the like.

Claims (8)

A n s 1. Device for coupling an insert receiving - Einsetskorpers with a drive body, in particular one that receives a tool Adjusting sleeve with a quick-change chuck that can be inserted into a spindle of a machine tool, one of which can be connected to a pressure medium source via a feed ring and with has the liquid channel connected to the insert, thereby g e k e n n z e i c h -n e t that in the drive body (1) a part of aes fluid channel forming Pipe section (26) is axially displaceable-mounted and that an energy store (28) seeks to keep the pipe section on the insert (23) su. 2. Apparatus according to claim 1, characterized in that g e k e n n z e i c h -n e t that a stop device effective between the pipe section (26) and the drive body (1) (27, 32) is provided, which enables the pipe section to be removed from the drive body prevented. 3. Apparatus according to claim 2, characterized in that g e k e n n z e i c h -n e t that the stop device (27, 32) one in which the energy store (28) facing end of the pipe section (26) attached and this radially protruding Stop body (27) and a protruding into the sliding path of this stop body, has a stop member (32) provided on the drive body (1). 4. Apparatus according to claim 3, characterized in that g e k e n n z e i c h -n e t that the stop body (27) is a plug fastened in the pipe section (26), its The outer diameter is greater than the outer diameter of the pipe section that the pipe section in the area of the stop body has a transverse bore (40) and that between the pipe section and a distance belonging to the liquid channel is provided for the drive body (1) is. 5. Device according to one of the preceding claims, characterized in that g e k e n n n n e i c h n e t that between the pipe section (26) and the drive body (1) a sealing ring (33) is provided and that stop parts are provided in the drive body (35, 27) limit the entrainment of the sealing ring by the pipe section. 6. Device according to one of the preceding claims, characterized in that g e k e n n n n e i c h n e t that the pipe section (26) on its from the energy storage (28) facing away from the end in adaptation to the mouth of a bore in the insert (23) is conical. 7. Device according to one of the preceding claims with a bore in the insert body, due to the fact that the bore is too full Receiving part of the pipe section (26) is used and that in its wall a to surround it this pipe section provided sealing ring (42) is arranged. 8. Device according to one of the preceding claims with an ejector slot in the insert body, marked by the fact that in the ejector slot (20) a sealing piece (43) is inserted. Blank page