WO2004072492A2 - Device for fastening objects intended to be measured or worked with accuracy - Google Patents

Abstract

A blocking device for items to be subjected to precision measurement or machining operations comprises at least one plate with a generally parallelepiped shape and equipped with a series of housings consisting of cylindrical through holes (12) arranged in accurately predetermined positions; at least one connecting element (20) presenting at least one portion that can be inserted in one of the cylindrical holes (12) in the plate (10). Each connecting element (20) consists of a central body (21) on which a collar (22) is present and a pair of opposite wings (23) fixed at one end to the central body, the other end of each wing designed to cooperate with the angularly divergent portion in the cylindrical hole in the plate; and finally the device also comprises releasable blocking means (30) cooperating with the plate to rigidly attach the plate to the connecting element.

Description

DEVICE FOR FASTENING OBJECTS INTENDED TO BE MEASURED OR WORKED WITH ACCURACY

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TECHNICAL FIELD

This invention concerns a blocking device designed to maintain a manufactured product firmly fixed in a predetermined position and on which operations are carried out that require precision, such as for example measurements and dimensional checks.

More specifically, this invention refers to a blocking device suitable to act as a temporary fixing structure, working with three-dimensional measuring machines, designed to support in a stable and repeatable way objects to be measured, for example mechanical parts.

This invention also refers to a blocking device suitable to act as temporary fixing structure for items that have to undergo precision mechanical machining operations. The main application of this invention is the metrology field, while it can also be applied in the mechanical machining sector.

BACKGROUND ART It is known that three-dimensional measuring machines (CMM — Coordinate Measuring Machines) normally have a rigid support surface — generally in granite — equipped with threaded holes for the fixing of items on which measurements must be made. The items to be measured are generally fixed to the support surface by means of blocking devices consisting of special plates fixed to the threaded holes and equipped in turn with holes whose position is predetermined with absolute precision; joints, also rigidly connected to the items to be measured, are fixed inside the holes in the support plates.

This system forms support structures for the items, allowing them to be firmly and repeatedly fixed to the work surface of the measuring machines.

The blocking devices known to background art, positioned between the threaded holes in the work surface of measuring machines and the items to be measured, have a complicated structure and are laborious to set up; their use is relatively costly from the production point of view and often involves a considerable loss of time for fixing the objects to be measured.

DESCRIPTION OF THE INVENTION

This invention proposes to provide a blocking device designed to allow fast and reliable fixing of items to be measured to the work table of a coordinate measuring machine, that can eliminate or significantly reduce the disadvantages described above.

This invention also proposes to provide a blocking device that can be fitted to the bed or support of any machine tool or of any precision machining unit.

This is achieved by means of a blocking device with the features described in the main claim.

The dependent claims describe advantageous embodiments of the invention. The blocking device for carrying . out precision measurements or machining operations according to the invention comprises : at least one plate with a generally parallelepiped shape and equipped with a series of housings consisting of cylindrical through holes arranged in accurately predetermined positions; at least one connecting element presenting at least one portion that can be inserted in one of the cylindrical holes in the plate; three-dimensional blocking means of the connecting . element to a respective housing, the blocking device being characterised in that each cylindrical hole comprises a depression or striker cooperating with a respective collar on the connecting element with the aim of limiting the insertion movement of the connecting element in the cylindrical hole; each cylindrical hole also comprises an angularly divergent portion on the opposite side with respect to the depression or striker; each connecting element consists of a central body on which the collar is present and a pair of opposite wings fixed at one end to the central body, the other end of each wing having an angularly divergent profile designed to cooperate with the angularly divergent portion in the cylindrical hole in the plate; and in that the device also comprises releasable blocking means cooperating with the plate and with the connecting element in order to rigidly attach the plate to the connecting element.

According to a particularly advantageous embodiment of the invention, the releasable blocking means comprise a threaded grub screw that can be screwed into a nut screw present in one of the wings of the connecting element, the grub screw being equipped with a stud passing through a hole in the opposite wing of the connecting element, a radial contact RS type retaining ring being present between the end portion of the stud and the cavity in the opposite wing of the connecting element.

According to an alternative embodiment, the releasable blocking means consist of a threaded grub screw that can be screwed into a nut screw present in one of the wings of the connecting element, the grub screw being equipped with a stud passing through a hole in the opposite wing of the connecting element, a washer being present between the two opposite wings and a blocking element cooperating with the end of the through stud by means of a pair of opposite connecting pins between the blocking element and the end of the through stud.

Turning the stud causes the reciprocal opening of the ends of the wings, the angularly divergent portions of which are thus forced to penetrate inside the corresponding angularly divergent portion of the cylindrical hole in the support plate and to thus establish a friction contact between the outer walls of the wings and the inner walls of the cylindrical hole.

The expansion of the ends of the wings and the forcing inside the cylindrical hole of the plate generates a right- angle reaction force to the surfaces in contact. Due to the slope of the latter with respect to the axis of the connecting element, the reaction force presents an axial component and a radial component again with respect to the axis of the connecting element.

The axial component of the reaction force acts on the inside of the plate and ensures adequate bedding along the axis of the connecting element inside its housing, while the radial component ensures correct positioning of the connecting element with reference to the respective opening. The connecting element is therefore fixed in the plate with a high degree of precision and considerable resistance to external stress.

DESCRIPTION OF THE DRAWINGS Other features and advantages of the invention will become, evident on reading the description below of one embodiment of the invention given as a non-binding example, with the help of the attached drawings in which: figure 1 shows a perspective view, slightly from above, of a plate of the device according to the invention; figure.2 is a plan view of the plate in figure 1; figure 3 represents a front elevation cross-section of . the plate in figure 1; figure 4 is an enlarged scale detail taken from figure 3; figure 5 shows a perspective view, slightly from above, of a possible connecting element of the device according to the invention; figure 6 shows a front elevation of the element in figure 5; figure 7 shows a perspective view, slightly from above, of a possible blocking means of the device according to the invention; figure 8 shows a front elevation, on an enlarged scale, of the blocking means in figure 7; figure 9 shows a perspective view, similar to figure 5, of an alternative embodiment; figure 10 shows a front elevation, similar to figure 6, of an alternative embodiment; figure 11 shows a front elevation, similar to figure 8, of an alternative embodiment; figure 12 shows a front elevation, similar to figure 7, of an alternative embodiment; figure 13 shows a perspective view of a blocking element cooperating with the stud as per figures 11 and 12; and figure 14 shows a plan cross-section of the blocking element as per figure 13.

DESCRIPTION OF SOME EMBODIMENTS In figure 1, the reference number 10 indicates in general a plate module relative to a blocking device, in the case in question a blocking device for items on which precision measurements are made on the work surface of a three-dimensional measuring machine. With reference to figure 1, it can be seen that the plate module 10, having for example a parallelepiped configuration, presents at least one opening 12 on each side.

The module 10, shown in the figure, is just one of the numerous possible embodiments of the support plate, the dimensions and the shape of which can vary considerably, as can the materials from which it is made which can for example be synthetic, metallic (iron, steel, aluminium) or others . In the particular case shown in figure 1, the plate 10 presents each longitudinal side 13 with two openings 12 and each transverse side 14 with - only one opening 12. These openings 12 are circular in shape and define cylindrical cavities in the body of the plate 10 passing from one side to the other. As can be clearly seen in figures 2 and 3, each opening 12 presents, on its respective side 13 or 14, a depression 15 which is greater in diameter than the opening 12 itself thus forming a striker 16.

Each opening 12, which opens onto the hollow portion 17 of the plate 10, generates a respective cylindrical surface 18.

With reference to figure 4, it can be seen that each opening 12 presents, towards the inside of the plate 10 and in the section adjacent to the depression 15, a groove 19 with a housing that is angularly divergent with respect to the cylindrical wall of the cavity.

As can be seen from figures 5 and 6, the blocking device 10 also comprises a connecting element 20 consisting of a central body 21 surmounted by a protruding collar 22. The connecting element 20 shown in the figures consists of a double element, in which the base of the lower portion forms a single body with the base of the upper element, which is inverted with respect to the lower portion.

This is obviously just one of the numerous possible embodiments of the connecting element 20 which, in its simplest form, consists of just one of the upper or lower portions shown in figures 5 and 6.

Each upper and lower portion of the connecting element 20 comprises a respective pair of wings 23, which extend on the opposite sides of the collar, being integral with the central body 21. Between each wing 23 and the one in front and opposite to it is a _. narrow space 24 with a substantially circular enlargement 25 close to the central body 21.

The presence of the substantially circular enlargement 25 ensures a certain elasticity for the opening of the wings 23 as will be explained in greater detail below.

At the protruding end of each wing 23 is a portion 26 which is angularly divergent towards the exterior.

Close to this portion 26, each wing 23 has a transverse through hole 27 equipped with a nut screw 28 in one wing 23 and an outlet 29 on the outer surface of the adjacent wing 23.

The blocking device 10 comprises another part consisting of a blocking means 30 (figures 7 and 8) which can be inserted in the transverse hole ^'27 passing through the wings 23.

The blocking means 30 consists of a grub screw 31 with external thread and connected, by means of a stud 32, to a tail 33 with an annular groove 34. The openings 12 in the plate are designed to accommodate a pair of wings 23 which are inserted inside the hollow portion 17 of the plate until the collar 22 is housed in the respective depression 15 forming a striker. At the same time, the angularly divergent portions 26 of the wings 23 are positioned in correspondence with the groove 19 with angularly divergent surfaces of the plate 10.

The blocking means 30, previously inserted in the transverse hole 27, presents its grub screw 31 screwed into the nut screw 28 and its tail 33, fitted with a radial contact RS type retaining ring (not shown in the drawings) housed in the annular groove 34, inserted in the respective outlet 29.

Turning the grub screw 31 causes a thrust designed to open the wings 23 housed in the hollow portion 17 until the angularly divergent portions 26 of the wings 23 are inserted in the respective groove 19 of the plate 10 ensuring a stable and precise clamping of the connecting element 20 to the plate 10.

Each connecting element 20, inserted in the plate, presents a pair of wings 23 with angularly divergent ends for connection with the respective connecting surfaces of other adjacent plates or for fixing specific equipment for blocking items to be measured in position .

In figures 9 to 12, which correspond respectively to the previous figures 5 to 8, a preferred alternative embodiment is shown.

In figures 9 to 12, identical or similar elements to those shown in figures 5 to 8 are identified with the same reference numbers , plus a prime ( ' ) .

In figure 11 it can be seen that the annular groove 34' at the end of the stud 32', is semicircular in shape.

In this case, a blocking cap 35 (see also figures 13 and 14), equipped with a pair of parallel through holes 36,

37 in its side, is placed on the end of the stud 30', after inserting an appropriate washer 40 (see fig. 10) between the wings 23' of the connecting element 20'.

A first and second pin 38, 39 are then inserted in the holes 36, 37, and into the groove 34' of the element 30', thus fixing the blocking cap 35 on the element 30'.

This solution appears to be advantageous, with respect to the one shown in figures 5 to 9, since the coupling of the elements 35 and 30' is less subject to mechanical breakage during the clamping action made by turning the element 30' .

The invention is described above with reference to a preferred embodiment. It is nevertheless clear that the invention is susceptible to numerous variations within the framework of technical equivalents .

Claims

1. A blocking device for items to be subjected to precision measurement or machining operations, comprising: - at least one plate with a generally parallelepiped shape and equipped with a series of housings consisting of cylindrical through holes arranged in accurately predetermined positions; at least one connecting element presenting at least one portion that can be inserted in one of the cylindrical holes in the plate; - three-dimensional blocking means of the connecting element to a respective housing, the blocking device being characterised in that - each cylindrical hole comprises a depression or striker cooperating with a respective collar on the connecting element with the aim of iimiting the insertion movement of the connecting element in the cylindrical hole; - each cylindrical hole also comprises an angularly divergent portion on the opposite side with respect to the depression or striker; each connecting element consists of a central body on which the collar is present and a pair of opposite wings fixed at one end to the central body, the other end of each wing having an angularly divergent profile designed to cooperate with the angularly divergent portion in the cylindrical hole in the plate; and in that the device also comprises releasable blocking means cooperating with the plate and with the connecting element in order to open the wings, causing a friction contact of the respective angularly divergent profiles of the wings and the plate, and thus to rigidly attach the plate to the connecting element.

2. A device according to claim 1, characterised in that the pair of wings have a transverse through hole close to their free end, equipped with a nut screw on one wing and an outlet on the outer surface of the opposite wing.

3. A device according to claim 2, characterised in that the blocking means consist of a grub screw with external thread and connected, by means of a stud, to a tail with an annular groove, which can be inserted in the transverse hole.

4. A device according to claim 3, characterised in that the annular groove accommodates a radial contact RS type retaining ring, cooperating with the outer surface of the outlet.

5. A device according to claim 3, characterised in that it also comprises a washer inserted on the stud and positioned between the wings of the connecting element.

6. A device according to claim 5, characterised in that it also comprises a blocking cap which can be placed on the end of the stud and equipped with a pair of pins to connect the cap to the stud, the pins being inserted in a respective pair of holes in the side of the cap, and being accommodated in the annular groove.