DD201985A5 - CHUCKS FOR CLAMPING A TOOL - Google Patents

Abstract

The aim is to create an inexpensive short-chuck and the task is to ensure its clamping effect in clockwise and anti-clockwise rotation. To solve the task, a housing with a head sleeve and a detachable socket connected thereto is provided. In Gehaeuse a Kaefig and consisting of a rotary body and a sliding member actuator are provided, wherein the rotary body mounted axially immovable and rotatable from the outside by hand and can be screwed to the sliding member, d. in its front Stirnflaeche a central support surface for d. Tool and radial grooves for guiding jaws has.

Description

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-ή- Berlin, the

Chuck for clamping a tool Field of application of the invention

Clamping a tool, in particular a drill in a chuck, which is then used in a precision machine tool, in particular drill.

Characteristic «of the known solutions

From CH-PS 288 808 a chuck for tightening a drill before the subsequent insertion of the existing chuck and drill unit in a drill is known, consisting of a hollow elongated, a chuck head with Innenkegel having housing and arranged in the housing and of the Housing rear side by inserting an operating key screwed actuator, at the front end a plurality of clamping jaws are arranged non-rotatably and radially displaceable. Housing and actuator are integral. The chuck is not suitable for clockwise and anti-clockwise rotation because the clamped drill can open the chuck in one direction of rotation. In addition, the length is large and the manufacture of the items complicated.

From US-PS 24 79 973 a chuck is known, the housing is formed in several parts. In this case, the feed sleeve with a cap nut on a Ka

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fig fixed for the jaws, which in turn is bolted to a drive sleeve. In the drive sleeve an adjusting sleeve is slidably mounted, which presses the jaws in the closed position by a built-in spring. By means of an outwardly guided crank, the adjusting sleeve can be pulled back to open the chuck. Construction size and length are large. This chuck is not suitable for use in precision drills.

From the DL-PS 325 024 a chuck with one-piece housing is known, which has an inner "sliding sleeve for moving the jaws and a guided out of the housing rear screw member to move the sliding sleeve axially. Also, this chuck is not suitable for use in modern precision drills because of its long length and large size.

Object of the invention

The aim of the invention is to provide for a precision machine tool a producible at low cost as short as possible chuck.

Explanation of the essence of the invention

The object of the invention is to provide a chuck that can be tightened so securely before insertion into a precision drilling machine o. The like. That no loosening occurs in clockwise or counterclockwise rotation of the machine, which continues

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composed of a few simple items that give a particularly small length and a small overall size, which ensures excellent concentricity / the drill gives a rear axial support and allows easy disassembly.

The chuck consists of the combination of the following features

a) the housing is formed at least in two parts and consists of a head sleeve and a firmly connected to this socket

b) the connection between the head sleeve and the socket is detachable,

c) in the head sleeve a fixed mounted cage is arranged, in which the clamping jaws are guided,

d) the actuator is formed in two parts and consists of a rotary body and a sliding member,

e) the rotary body is axially immovably mounted in the housing substantially, has a design for coupling '. with a rotary drive and carries in the front area a screw thread and

f) the sliding member has in the rear region a screw thread, which is in screw engagement with that of the rotary body and has in the front end face a central support surface for the tool and radial grooves, in which engage the jaws.

The two-partedness of the housing allows the use of standard head sleeves, which is releasably connected to the socket in a simple manner. The connection ensures best concentricity properties. Since the cheese

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fig is rotatably connected to the socket, the head sleeve can not unscrew from the socket. Assembly and disassembly are particularly easy, the overall length is extremely short. The chuck can be tensioned by means of a key inserted from the rear, whereby the drill retains its axial support and can not slip later. The chuck is equally well suited for clockwise and anti-clockwise rotation and a loosening of the drill is excluded.

In a further embodiment of the invention it is provided that the socket is screwed to the head sleeve.

A further advantage is that the rotary body has an outer collar which is received in a housing recess which is bounded on the back by an annular shoulder of the socket and the front of the cage, that between the outer collar of the rotary body and the annular shoulder of the socket, a thrust bearing is arranged and that Outer collar of the rotary body on the outer circumference has a Schneckenradverzahnung and the socket has a Tangentialbohrung whose axis is tangent to the toothing pitch circle and that in the tangential bore, a drive shaft is inserted, which has a drive worm and at one end face of an actuating polygon is formed.

Thanks to this advantageous development, a particularly high clamping force can be achieved on the drill · and it is also the clamping of chucks with very

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enables thin sockets or shafts, which no longer allow the insertion of a Spannschlüssels.

embodiments

In the drawing, Figure 1 illustrates a longitudinal section through an embodiment of a chuck and

2 shows a longitudinal section through a modified embodiment of a chuck.

A socket 10 with Außflansch 12 and front screw 14 forms part of the chuck - '. Housing. The outer contour of this socket is determined by the respective drilling / milling or lathe. The socket 10 is inserted to the flange 12 in the machine. For machines with a cylindrical shank receiving the outer surface in a modification of Figure 1 is correspondingly cylindrical. Both the flange J2 and provided in the rear of the sleeve 10 circumferential groove 16 serve to tighten the socket 10 in the machine.

The socket 10 has a first bore 19 of large diameter, a subsequent bore T, 8 of medium diameter and an adjoining bore of smaller diameter, which extends to the rear end of the sleeve. In the bores 18, 19, a rotary body 20 is rotatably inserted, which has an outer collar 22 which is received together with an axial ball bearing 24 in the larger bore 19, wherein the thrust ball bearing 24 is supported on the annular shoulder formed between the bores 18, 19. A cage 26, conical in the front part and cylindrical in the back part.

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is drical, is inserted into the annular space between the front part of the rotary body 20 and the inner bore 19 in the region of the screw neck 14. The rear end face of the cage 26 forms a stop for the front face of the outer collar 22 of the rotating body. This rotary body is thus axially held substantially immovable. In the cylindrical shell of the cage 26 and in the screw neck 14 are aligned radial bores into which a dowel pin 27 is inserted from the outside. The cage 26 is thus rotationally fixed to the socket 10.

The cage 26 has at equal circumferential intervals axial slots, in each of which a clamping jaw 3 2 is guided axially and radially displaceable. In the embodiment, three jaws 32 are provided. Each clamping jaw is a plate-shaped element with an axially parallel inner surface, an oblique outer surface whose slope coincides with the conicity of the outer surface of the cage 26 and with a right-angled projecting from the rear edge web 35th

The rotary body 20 has a threaded bore 28 in the front region, in which a sliding member 3 0 engages with its rear bolt. At the front end, the slide member 30 has a disc which is slidably received in the cylindrical cavity of the cage 26. In the end face of this disc of the sliding member 30, a frontal Winkelelnut is provided for each jaw 32, in the axial leg 31, a base web 37 of the jaw 32 engages and in the lateral leg 33 of the angled retaining web 35 of the jaw is added. The middle region 35 '

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the end face of the disc serves as an axial support for the tool. The jaws 32 are biased by springs not shown in the usual way to the outside.

After the radial grooves 31 are aligned with the Asialschlitzen the cage 26, the jaws 3 2 are inserted from the outside, after which a head sleeve 34 is screwed onto the neck 14 of the socket 10. The head sleeve consists in the front part of a cone jacket and the rear part of a cylinder jacket. The inner surface of the cone sheath coincides with the conicity of the outer surface of the cage 26 and with the outer slope of the jaws 32. The cylindrical part of the head sleeve 34 has an internal thread 48 which fits exactly on the external thread 50 of the projection 14. The head sleeve 34 is screwed to the stop on the socket 10 and tightened. Another attachment is not required. Head sleeve 34 and socket 10 thus form a rigid housing.

The rotary body 20 has in its rear region a polygonal opening 38 into which a key can be inserted through the bore 36 to rotate the rotary body, whereby the sliding member 30 is axially displaced with the jaws 32 and the tool is tensioned.

Figure 2 shows a somewhat modified embodiment. The outer collar 22 of the rotary body 21 is provided with a Schnekkenradverzahnung 40. This eliminates the polygonal opening 38. The socket 11 has a tangential bore 42, the axis of the pitch circle of the Scheckenradverzahnung 40 touches. In the bore 4 2 is a

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Worm shaft 44 is used, the worm with the Schneckenradverzahnung 40 is in driving engagement. The worm shaft 44 has a frontal polygonal opening 46, so that by means of a socket wrench introduced from the outside, the rotary body 21 can be rotated and the tool can be clamped in the manner already described. The head sleeve 34 and the remaining parts, such as the slide member 30 remain unchanged.

Claims (6)

236593 7 Berlin, the invention claims T. Chuck for clamping a tool, such as drills or cutters before the subsequent insertion of the existing chuck and tool unit in Präzisionsbohr-, milling machines u. Like., With a hollow elongate, a chuck head having inner cone having housing and arranged in the housing and screwed from the rear of the housing or the housing by inserting an actuating tool actuator, at the front end a plurality of clamping jaws are arranged non-rotatably and radially displaceable, characterized by the combination following features a) the housing is formed at least in two parts and consists of a head sleeve (34) and a fixedly connected to this receptacle (10) , b) the connection between the head sleeve (34) and the plug-in sleeve (10) is detachable, c) in the head sleeve (34) a fixed mounted cage (26) is arranged, in which the clamping jaws (32) are guided, d) the actuator is formed in two parts and consists of a rotary body (20) and a sliding member (30), e) the rotary body (20) is axially immovably mounted in the housing substantially, has a design (38; 40) for coupling with a rotary drive and carries in the front region a screw thread and f) the sliding member (30) has a screw threading in the rearward region, which is in screw engagement with that of the rotary body (20) and has in the predecessor Ren face a central support surface (35) for the tool and radial grooves (31) into which engage the jaws (32). 2. Chuck according to item 1, characterized in / that the plug-in sleeve (20) with the head sleeve (34) is screwed. 3. chuck according to item 1, characterized in that the rotary body (30) has an outer collar (22) which is received in a housing recess, the back of an annular shoulder of the socket (10) and the front of the cage (26) is limited. 4. Chuck according to item 3, characterized in that between the outer collar (22) of the rotary body (20) and the annular shoulder of the plug-in sleeve (10) a thrust bearing (24) is arranged. 5. chuck according to item 1, characterized in that the radial grooves (31) in cross-section L-shaped with a lateral groove legs (33) are formed and the jaws each have an angled holding web (35) engaging in the groove leg (33). 6. Chuck according to item 3, characterized in that the outer collar (22) of the rotary body on the outer circumference of a Schneckenradverzahnung (40) and the plug-in sleeve (11) has a tangential bore (42) whose axis is tangent to the toothing pitch circle and that in the tangential bore (42) a drive shaft (44) is inserted, which is a drive screw has and at one end face of an actuating polygon (4 ~ β7 ~ is formed. For this 1 sheet drawings