CS270110B1 - CHUCK - Google Patents

Abstract

The solution relates to a chuck, where the mutual engagement of its spiral and jaw is solved. The essence of the solution lies in the fact that the teeth of the jaw are formed from a system of elastic laae arranged in the axis of movement of the jaw above each other and are placed in at least one recess converted in the rear flat jaw transversely to its axis of movement. The chuck improves the uniform distribution of the load on the individual engaging elements of the spiral and jaws, their automatic mutual adaptation when the curvature of the spiral is determined depending on the radial position of the jaw in the chuck body. At the same time, the service life, accuracy and achievable clamping force are increased.

Description

The subject of the invention is a chuck where the mutual engagement of its spiral and jaws is solved.

In the case of current chucks with a frontal spiral due to the remelting of the jaws in the radial guides of the body, the jaw engages the frontal spiral or curvature because the teeth of the jaws engage and the front spiral are rigid and form a single unit. it is machined with the radius of least curvature and the inner radius of maximum curvature of the spiral. As a result, on the one hand, the cross section of the jaw tooth is reduced and thus the achievable clamping force, which is moreover limited by the deactivation area of the jaw tooth and the spiral at the point of their contact and is essentially tangential. the high specific pressures at the points of contact of these bearing surfaces cause a reduction in the service life of the chuck as well as an overall low achievable accuracy and stiffness of these chucks. In addition, the width of the jaws of these chucks is narrow, which does not allow a large circumference of the workpiece during machining. The small width of the jaws must reduce their weight, thus limiting the additional tightening of the already narrow teeth of the jaws from their centrifugal forces during rotation.

These disadvantages are alleviated by the chuck, the essence of which is that the jaw teeth are formed by a system of resilient lamellae arranged in the direction of the axis of motion and the jaw one above the other and are mounted in at least one recess converted in the rear flat jaw transversely to its axis of motion. '

The chuck according to the invention is also possible in the case of enlarging the jaw width, i. also of their teeth, surface contact of the teeth of the jaws with spiral threads in the whole range of adjustment of the jaws. This allows the transmission of higher clamping forces with unchanged jaw widths as well as a more even distribution of the load on the individual teeth of the helical threads. As a result of the increased surface contact of the jaw teeth and the helical threads, their wear is reduced and their service life is increased without increasing the production costs. As the thickness of the jaw teeth is the same across the width of the jaw, their effective cross-section increases, allowing higher radial retractions to be transmitted.

The accompanying drawing shows examples of a chuck according to the invention, in which FIG. 1 is a partial axial section of the chuck. In FIG. 2 shows a partial axial section of a chuck in another embodiment according to the invention. In FIG. 3 is a side view of a jaw in a Salish example of an arrangement according to the invention. In FIG. 4 is a schematic illustration of a front helical thread.

in the rear flat known jaw 120 of the chuck 100 is transverse to the e) axis of movement of the formed recess 124 according to FIG. from one according to FIG. 1 viao. A set of resilient lamellae 121a, arranged one above the other in the direction of the axis of movement, is inserted from this recess, their cross-section essentially forming the profile of the known front helical thread 11 of the disc 110 and fitting into it.

the radius of curvature r of the lamellae 121a in the unladen state is chosen between the smallest r min and the welding r max of the radius of curvature of the front helical thread m of the disc 110, preferably of their arithmetic diameter. As a result, when the disk 110 and the jaw 20 are rotated angularly relative to each other, the set of resilient lamellae 121a easily conforms to the change in the radius of curvature of the front helical thread 111. this adjustment will be made more effective.

To prevent the lamellae 121a from sliding out of the jaw 120 laterally, for example, the known guide jaw 120 in the body 130 can prevent the chuck 100. Preferably, the inner end 124a or the outer end 124b of the recess 124 of the resilient lamella system places a press component 125 as plastic. Teflon, possibly with the addition of metal powder, so that even in this mixture full surface contact of the lamellae 121 and 8 with the jaw 120 is achieved by mutual adjustment. It is advantageous if the lamellae 121a are provided with a set of interconnected pores 6 realized as, for example, small drilled holes d,

ČS 270110 B1 which are filled before the assembly of the lamella 121a, for example with a lubricating paste. Molyka, thus maintaining the efficiency of the chuck at the same level in longer time intervals between yard maintenance, in case the lamella system 121a engages with the multi-turn spiral thread 111 of the disc 110, their radius of curvature ru in all jaws 120 may be the same, it may increase. force stroke of the jaws and created conditions for force control with one of the known methods, for example a rotary rectilinear hydraulic motor. In addition, the application of the lamellae 121a will allow the incorporation into various sizes of chucks without changing their dimensions, while easily adapting them to the required sizes of their clamping forces.

Claims (5)

2 which are filled before the laminate composition 12a is, for example, a lubricating paste. Molaka, whereby the efficiency of the chuck at the same level in longer time intervals can be maintained between court maintenance, in the event that the baffle 121a is in engagement with the multi-stage spiral coil 111 of the wheel 110a and the radius of curvature r in the other jaws 120 of the can is the same. The jaw stroke has created a power inspection with some of the known methods, for example, a rotary straight hydraulic motor. In addition, the IELA lamellae will allow the build-up of various large-size silicas without changing the lightweight dimensions, with the lightness of the clamping range of the force clamps being easily adjusted. SUMMARY OF THE INVENTION 1. A chuck consisting of a base body in which is rotatably mounted a rotary knob and a helical helical thread which engages with the associated teeth of the radially extending in the body, characterized in that the teeth (121) of the jaw (120) formed of a plurality of resilient lamellae (121a) arranged one above the other in the movement direction (o) of the jaw (120) and positioned in at least one recess (124) transverse to the rear flat jaw (120) transversely to its movement axis (o) . 2. Chuck according to claim 1, characterized in that, at a radial distance in the direction of the movement axis (o) between the set of lamellae (121a) and the inner end (124a) and the outer end (124b), the jaw recess (120) is received a pressing component (125), for example a plastics material with a metal powder additive. 3. Chuck according to claim 1 or 2, characterized in that the assembly of lamellae (121a) is covered by a set of interconnected pores (p). 4. chuck according to claims 1 to 3, characterized in that between the lamellae (121a) and the associated pore system (p) is a medium (e.g., lubricating grease). A chuck according to any one of claims 1 to 4, characterized in that the assembly of lamellae (121a) is engaged by a plurality of spiral threads (111) of the disc (110). chucks according to items 1 to β, characterized in that the radius of curvature (r) of the lamellae (121 «) is (r min) menli nel (r) and it is mania than (r max) where (r min) is least (r max) There is a radius of curvature of the mutual engagement of the spiral coils (110) and lamellae (121a). 1 drawing