DE102018109893A1 - chuck - Google Patents

Abstract

In a chuck for receiving a workpiece with clamping jaws (3) which are arranged radially displaceably in a chuck housing (2) and on its underside via a toothing (6) by a in the toothing (6) engaging, rotatable spiral thread disc (8) moves can be, the spiral thread disc (8) by a coaxial with the spiral thread disc (8) arranged drive plate (12) can be driven, wherein in the direction of the spiral thread disc (8) at least one provided with a biasing force, on the drive plate (12) fixed driving element (14) in a recess (11) of the spiral thread disc (8) engages such that when a threshold value of the torque or the corresponding transverse force is exceeded, the driver element (14) against the bias of the recess (11) slides.

Description

The invention relates to a chuck. In particular, the invention relates to a chuck according to the preamble of patent claim 1.

In the prior art chucks are known in which preferably three equally spaced over a circumference arranged jaws are moved radially inwardly or outwardly to clamp a workpiece. Such chucks are originally used primarily in cutting production, especially on lathes, but also milling machines. In these embodiments, the jaws are guided in profiles in the chuck so that they only move radially.

In a known and conventional embodiment, the jaws are moved by a spiral threaded disc and engaging teeth on the foot side of the jaws when the spiral thread disc is rotated. By means of such a chuck, workpieces having a cylindrical portion can be tensioned by the three inwardly moving clamping jaws and also be inserted into a recess in the interior of the chuck. For example, in many lathes, a rod or tube may be passed through the chuck as a semi-finished product. Likewise, it is also possible to clamp a ring or pipe from the inside when the jaws are moved outward and engage with steps on the inside of the ring or pipe. The spiral thread disc in turn is driven by a sprocket and a bevel gear via, for example, a hex wrench to tension the chuck. Likewise, it is also known to use a worm wheel with corresponding threaded ring for this purpose. By this power conversion also a self-locking occurs when the Allen key is removed.

From the DE 18 10 722 C3 is an example of a chuck with three jaws and a spiral thread disc for driving the jaws known.

A disadvantage of this prior art is that the maximum clamping force is not limited and depending on the operator, it can come to a very strong tightening the jaws.

This is particularly disadvantageous when the chuck is a particular embodiment used for measuring devices. In addition to the previously described chucks special chucks are known in the art, which are used in measuring devices. These consist largely or entirely of light metals, in particular special aluminum alloys, or even plastics. Light weight is often critical because workpieces are clamped into the chuck and moved into measuring devices with that chuck, such as laser or survey by a probe. In this case, the productivity and operating speed is increased by a low weight when a workpiece can already be clamped inserted into the chuck in the measuring device. However, on the other hand, no forces are exerted on the workpiece as in a machining production and only an accurate and secure positioning must be achieved.

A disadvantage of such chucks of a measuring device or Meßspannfuttern, however, that they are sensitive to excessive tightening of the clamping device. Even if hardened light metals, special alloys and coatings are used, bends and indentations in the material can easily occur if people over-tighten the chucks. Since increasingly measuring devices are also used in normal production lines in addition to production machines and are operated by production workers, the risk of damage is greater than when specially trained personnel under laboratory conditions uses such chuck.

The present invention has for its object to provide a chuck, in particular a chuck of a measuring device, which avoids the aforementioned disadvantages and with the over-tightening can be avoided.

This object is achieved by a chuck with the features of independent claim 1. Advantageous developments of the invention are specified in the subclaims.

The object is achieved in that in a chuck for receiving a workpiece, in particular chuck of a measuring device, with a plurality, preferably three, clamping jaws, which are arranged radially displaceable in a chuck housing and on its underside via a toothing through a toothing engaging, rotatable spiral thread disc can be moved, the spiral thread disc can be driven by a coaxial with the spiral thread disc drive plate, wherein in the direction of the spiral thread disc at least one provided with a biasing force, fixed to the drive plate driver element engages in a recess of the spiral thread disc such that when exceeded one Threshold of the torque or the corresponding lateral force the driver element slides against the bias of the depression and the adhesion is released.

The driver element and / or the recess in this case have such a shape that during the transmission of a transverse force, which is related to the torque during clamping of the chuck in a ratio, over oblique surfaces of the biasing force counteracting force arises. If a threshold value of the lateral force corresponding to the torque is exceeded, the driver element slides against the biasing force from the recess.

Advantageously, the chuck can not be tightened with too much force. At a torque threshold, the frictional connection is interrupted and the drive plate rotates in relation to the spiral thread disc. It can no longer come to damage the chuck and also not to damage the workpiece by excessive forces, regardless of the care of the staff used for this purpose.

In an advantageous embodiment, the driver element is a ball and the depression is a V-groove.

By the inclined surfaces of the V-groove, the ball is pressed against the biasing force on reaching the threshold of this. High-precision manufactured balls are available at low cost, for example, from the ball bearing production. As a result, the invention can be implemented inexpensively.

The ball can be acted upon by a spring with a biasing force.

In a favorable development of the invention, the spring is supported on an adjusting screw, via which the bias can be adjusted.

For example, the ball may be inserted with the spring in a bore at one end of the spring is supported on a threaded nut in the form of a kind of grub screw. The maximum permissible torque value or the maximum permissible clamping force can thereby be easily adjusted. For example, it is possible to use a measuring device of the clamping force and adjust by experiments, the biasing force of the spring.

It can be arranged over the circumference of a plurality of driver elements and / or a plurality of wells.

As a result, the power transmission between the drive plate and the spiral thread disc can be distributed symmetrically over the circumference. It can not lead to bending and jamming due to unilateral force application. Also, a larger force can be transmitted by a plurality of driver elements and depressions in small size. In this case, a larger number of recesses may be provided, as driving elements are present. As a result, the drive plate can be quickly rotated back into a working position in the engagement of the driver elements.

The spiral thread disc can be made in two parts and the recesses can be arranged in an intermediate disc, which is connected to the spiral thread disc.

This makes it possible in particular to retrofit existing chucks by replacing all the components below the spiral thread disc and the intermediate disc is mounted on the spiral thread disc. Also, the washer can be made easier from a correspondingly harder and more precisely machined material, such as a steel alloy, without significantly increasing the overall weight of the chuck, if this is made of light metal.

The drive plate may be provided for manual operation, in particular having a corrugation.

Chucks of a measuring device do not have to apply very high clamping forces. Here, the chuck can be tightened very quickly by a direct rotation of the drive plate or via this spiral thread disc. This is advantageous for a fast work in the production.

In a favorable embodiment of the invention, a driving pin projecting beyond this is advantageously arranged in the driving disk in a guide which can be moved inwards in order to engage in a corresponding receptacle of the spiral threaded disk in order to produce a frictional connection therewith.

Since the static friction is greater than the accompanying friction when reaching the threshold value, it may be necessary to apply a greater force to release the chuck than the driver element or the driver elements can transmit due to the prestressing. Therefore, a frictional connection can be made by the driving pin with which the chuck can be solved again.

The driving pin can be pressed by a bias in an outer position without positive connection, in particular by a spring.

As a result, the driving pin must be pressed during the operation for releasing the chuck and can not accidentally remain in the frictional position during the tightening of the chuck. Also unintentional damage and the exercise to high clamping forces are avoided.

Advantageously, the chuck consists partly or entirely of light metal, in particular aluminum alloys, and / or plastics.

This results in a low weight, as is desired for the chuck of a measuring device.

• 1 das erfindungsgemäße Spannfutter in Aufsicht,
• 2 den Schnitt I des erfindungsgemäßen Spannfutters der 1 und
• 3 schematisch von unten eine Zwischenscheibe.

Further advantages and details of the invention will be explained in more detail with reference to the embodiments illustrated in the schematic figures. This shows

• 1 the chuck according to the invention in supervision,
• 2 the section I of the chuck of the invention 1 and
• 3 schematically from below an intermediate disc.

The 1 shows the chuck according to the invention 1 in supervision. In a chuck housing 2 are three symmetrically distributed over the circumference of the jaws 3 arranged, which are constructed in several parts and screws 4 attached clamping elements 5 for the respective application. The jaws 3 can move radially to clamp a workpiece, not shown here from inside or on the outer circumference.

The 2 shows the section I of the chuck according to the invention 1 of the 1 , In the chuck housing 2 are the jaws 3 with the screws 4 screwed clamping elements 5 guided. At the bottom of the jaw 3 is a gearing 6 which engages with a spiral thread 7 a spiral thread disc 8th rotatable in the chuck housing 2 is stored. The spiral thread disc 8th is constructed in two parts and has on its underside an intermediate disc 9 on, in the V-grooves 10 as wells 11 are arranged. Concentric with the spiral thread disc 8th is a driver disk 12 in the chuck housing 2 stored. roll 13 as a driver element 14 grab in the V-grooves 10 one. The balls 13 be via an intermediate element by a spring 15 biased. The preload force of the spring 15 is adjustable via an adjusting screw 16 ,

A driving pin 17 is in the drive plate 12 stored and stands beyond this. If the driving pin is pressed radially inwards and the driving disc 12 twisted into an associated position, the driving pin can 17 inside into a corresponding receptacle of the spiral thread disc 8th be pressed.

If the drive disc 12 for tensioning the chuck 1 is rotated, the balls transmit 13 along with the V-grooves 10 the torque on the spiral thread washer 8th that about the teeth 6 the jaws 3 emotional. If the clamping force rises above a threshold value, the torque also increases correspondingly during the transmission of power between the drive plate 12 and spiral thread disc 8th and the balls 13 be against the biasing force of the springs 15 from the V-grooves 10 pressed. The chuck 1 can not be further dressed.

To loosen the chuck is the driving pin 17 pressed inwards and the drive plate 12 moved so long until the driving pin 17 in a corresponding recess of the spiral thread disc 8th engages and creates a connection with which the chuck can be solved.

The 3 shows schematically from below the washer 9 , There are only three example V-grooves 10 and a ball 13 shown. For example, if the drive plate 12 is rotated counterclockwise and the threshold is reached, the ball slides 13 , as shown by the arrow, from the V-groove 10 ,

It can be distributed over the circumference a plurality of balls 13 are arranged, preferably at equal angular intervals. Accordingly and at the same intervals must be grooved 10 be arranged. In addition, if still in the intermediate distances of the angle the same number of V-grooves 10 is provided again, it can be achieved with a shorter adjustment a snap.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 1810722 C3 [0004]

Claims (10)

Chuck for holding a workpiece, in particular chuck (1) of a measuring device, with a plurality, preferably three, clamping jaws (3) which are arranged radially displaceably in a chuck housing (2) and on its underside via a toothing (6) by a in the toothing (6) engaging, rotatable spiral thread disc (8) can be moved, characterized in that the spiral thread disc (8) by a coaxial with the spiral thread disc (8) arranged drive plate (12) can be driven, wherein in the direction of the spiral thread disc (8 ) at least one provided with a biasing force, on the drive plate (12) fixed driver element (14) engages in a recess (11) of the spiral thread disc (8) such that when a threshold value of the torque or the corresponding transverse force is exceeded, the driver element (14) slides against the bias of the recess (11) and the adhesion is released. Chuck after Claim 1 , characterized in that the driver element (14) is a ball (13) and the recess (11) has a wedge groove (10). Chuck after Claim 2 , characterized in that the ball (13) via a spring (15) is acted upon with a biasing force. Chuck after Claim 3 , characterized in that the spring (15) on an adjusting screw (16) is supported, via which the bias voltage can be adjusted. Chuck according to one of the preceding claims, characterized in that over the circumference of a plurality of driver elements (14) are arranged and / or a plurality of recesses (11). Chuck according to one of the preceding claims, characterized in that the spiral thread disc (8) is made in two parts and the recesses (11) in an intermediate disc (9) are arranged, which is connected to the spiral thread disc (8). Chuck according to one of the preceding claims, characterized in that the driver disc (12) is provided for manual operation, in particular having a corrugation. Chuck according to one of the preceding claims, characterized in that in the driver disk (12) a driving pin (17) projecting beyond it is arranged in a guide which can be moved inwards in order to engage in a corresponding receptacle of the spiral threaded disk (8), to make a positive connection with this. Chuck after Claim 8 , characterized in that the driving pin (17) is pressed by a bias in an outer position without positive connection, in particular by a spring. Chuck according to one of the preceding claims, characterized in that the chuck (1) consists partly or entirely of light metal, in particular aluminum alloys, and / or plastics.

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