DEVICE FOR THE CONTROLLED STABILIZATION OF TOOL HOLDER SHANKS

Abstract

A device for the controlled stabilization of tool holder shanks on the respective ring nut, the tool holder shanks, motorized or non-motorized, being predisposed for ER or other type fixing. The device comprises a ring nut and a tool holder shank of a truncated conical shape provided externally with a groove in which means connecting the ring nut to the tool holder are arranged inside the ring nut. The connecting means consist of an annular body formed of at least two shaped half-rings that define opposite protrusions projecting outwardly and centrally to form a shaped prominence having an arched-convex outer profile; on each of the shaped prominences a recess is made predisposed to house respective elastic pins, by means of which the shaped half-rings are firmly connected inside the ring nut blind holes.

Claims

1. A device for the controlled stabilization of tool holder shanks on the respective ring nut, said tool holder shanks, motorized or non-motorized, being predisposed for ER or other type fixing, comprising a ring nut (12) and a tool holder shank (10) of a truncated conical shape provided externally with a groove (18) in which means connecting said ring nut (12) to said tool holder (10) are arranged inside said ring nut, characterised in that said connecting means consist of an annular body formed of at least two, shaped, half-rings (14, 16) that define opposite protrusions projecting outwardly and centrally to form a shaped prominence (20) having an arched-convex outer profile.

2. The device according to claim 1, characterized in that on the prominences (20) of each of the shaped half-rings (14, 16) a recess (22) is made extending in the direction of the thickness of said half-rings suitable to accommodate an elastic pin (24), said half-rings defining a rectangular cross section.

3. The device according to claim 2, characterized in that the recesses (22) are made centrally on the shaped half-rings (14, 16).

4. The device according to claim 1, characterized in that the ring nut (12) internally defines an integral discontinuous circular crown, formed by opposite portions (26) alternating with lowered areas (26) through which the shaped prominences (20) of the shaped half-rings (14, 1.6) arranged in the groove (18) of the shank (10) are inserted to make with said ring nut a bayonet coupling after angular rotation of said shank.

5. The device according to claim 4, characterized in that respective through holes (28) are made on the portions (26) for the passage of the elastic pins (24) which firmly connect the half-rings (14, 16) and the shank (10) with the ring nut (12).

6. The device according to claim 5, characterized in that the ring nut (12) defines internally a circular crown (30), formed rearwards of the portions (26), provided with blind holes (32) facing and aligned with the through holes (28) of said portions (26), the front ends of the elastic pins (24) abutting in the blind holes (32).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] The construction and functional characteristics of the device of the present invention will be more clearly comprehensible from the detailed description below in which reference is made to the appended drawings/diagrams which show a preferred and non-limiting embodiment and wherein:

[0015] FIG. 1 represents schematically, an exploded view of the device according to the invention, suitable to fix a tool holder shank to the respective ring nut;

[0016] FIG. 2 shows schematically, in exploded view, the same device to highlight the means provided on the tool holder shank for the connection to the respective ring nut;

[0017] FIG. 3 shows schematically, in exploded view, the same device in which said means of connection are provided with elastic pins suitable to engage with the ring nut;

[0018] FIG. 4 shows schematically, in exploded view, the same device and the additional element consisting of the head of the threaded shaft;

[0019] FIG. 5 shows, schematically, a longitudinal cross-section of the components in FIG. 4.

DETAILED DESCRIPTION

[0020] With initial reference to FIG. 1, the device for the controlled stabilisation of tool holder shanks of the present invention comprises a tool holder shank 10, a ring nut 12 and an annular body formed of at least two shaped half rings 14 and 16. The tool holder shank 10 conventionally defines a truncated cone shape and is provided on the outside with a groove 18, e.g. with a rectangular profile, made along its outer lateral surface to accommodate the shaped half-rings 14 and 16; it is understood that the latter may be made in a number of complementary parts greater than two.

[0021] According to the invention, each of the said half-rings defines a substantially semi-circular extension, with a protuberance protruding in a central position and externally to form a shaped prominence 20; said prominence 20 has an external curved-convex profile, compatible with that of the seat, described below, made in the ring nut 12. On the prominence 20 of each of the shaped half-rings 14 and 16 a recess 22 is made, preferably in the central position, extending in the direction of the thickness of said half-rings, which have, for example, a rectangular cross-section. The recesses 22 are predisposed to house respective elastic pins 24, by means of which the shaped half-rings 14 and 16 are firmly connected inside the ring nut 12. Said ring nut internally defines an integral discontinuous circular crown, formed of opposite portions 26 (only one of which is visible in FIGS. 2, 3 and 4) in which the opposite lowered areas 26 allow the passage of the shaped prominences 20 of the shaped half-rings 14 and 16 arranged in the groove 18 of the shank 10; the shaped prominences 20 pass beyond the circular crown to create a so-called bayonet type coupling with it. Along the two opposite portions 26 of the circular crown, respective through holes 28 are made for the passage of the elastic pins 24, which firmly connect the half-rings 14, 16 and thus the shank 10 with the ring nut 12. An additional circular crown 30, made on the ring nut 12 rearwards of the portions 26, is provided with other blind holes 32, facing and aligned with the through holes 28 of the portions 26. The shank 10, with the shaped half-rings 14, 16 arranged in the groove 18 and held there by the grease they are previously coated with, is inserted in the ring nut 12 and stabilized in it, after rotation of about 90, by means of the aforementioned bayonet coupling; this operation allows the elastic pins 24 to be aligned with the holes 28 of the portions and forced into them to obtain the definitive fixing of the shank 10 to the ring nut. The elastic pins 24 are thus permanently engaged in the holes 28 of the portions 26 and protrude from them to fit further into the blind holes 32 made on the circular crown 30, for an additional guarantee of fastening and protected from any possibility of movement.

[0022] The assembly consisting of the shank 10 with the shaped half-rings 14, 16 mounted on it, the ring nut 12 with the elastic pins inserted in the through-holes 28 and blind holes 32, is subsequently mounted in the seat made inside the rotating shaft 38, as shown in FIG. 5; assembly is carried out by manual clockwise rotation of the ring nut 12, which is screwed onto the front or threaded head 40 thereof. By rotating the ring nut 12 anti-clockwise the assembly is unlocked and can be removed.

[0023] As may be seen from the above, the advantages which the invention achieves are evident.

[0024] The device for the controlled stabilization of tool holder shanks of the present invention does not involve the use of dowels radially inserted in the ring nut 12 to stabilise the tool holder shank 10 and allow them to rotate without being detached. This stabilization, carried out inside the ring nut 12 with the elastic pins 24, is extremely effective and avoids the danger of the prior art that accidentally the dowels themselves can loosen and be expelled with violence from the ring nut with serious danger both for the safety of people and for the integrity and operational continuity of the machine tool.

[0025] In addition, the device of the invention ensures that the tool holder shank remains permanently in the operating position, with no possibility of axial displacement.

[0026] Despite the invention having been described above with particular reference to one of its embodiments, given solely by way of a non-limiting example, numerous modifications and variants will appear evident to a person skilled in the art in the light of the above description. The present invention therefore sets out to embrace all the modifications and variants which fall within the sphere and scope of the following claims.