MICRO-GRIPPER WITH ONE-PIECE STRUCTURE

Abstract

The micro-gripper includes a support (301) to which are articulated fingers (304) and an actuating diaphragm (305), adjusting the spacing of the fingers (304). The support being circular, the fingers (304) may be arranged in any number around it, and the diaphragm (305) delimits a chamber with the support (301) assembled to an equipment (18) for distributing fluids, the pressure of which elastically deforms the diaphragm (305) and controls a simultaneous movement of variations in spacings of the fingers (304).

If the diaphragm is conical and the fingers link up all around, an independence of the movements of the fingers remains, which is invaluable for correctly gripping objects and avoiding excessive efforts.

Application to the gripping of objects, which can be very small and fragile, with a determined and moderate force.

Claims

1) Micro-gripper with one-piece structure including at least two gripping fingers (4, 104, 204, 304) with variable spacing, a support (1, 301) to which the fingers are joined by flexible couplings (16) and an actuator connected to the fingers and deformable to adjust the spacing of the fingers, characterised in that the actuator is a flexible diaphragm (5, 305), and the support comprises a continuous sleeve (2) that can be coupled in a leak tight manner to an equipment (18) for supplying pressurised fluid and in which the diaphragm (5, 305) is mounted by a continuous contour (10, 312).

2) Micro-gripper according to claim 1, characterised in that the support is annular and the diaphragm is axisymmetric.

3) Micro-gripper according to claim 2, characterised in that the diaphragm includes undulations (11) and/or ribs (13).

4) Micro-gripper according to claim 1, characterised in that the diaphragm (5) is on the whole flat in a free state.

5) Micro-gripper according to claim 1, characterised in that the diaphragm (305) is on the whole conical in a free state and extends between the fingers (304) from the contour (312) mounted on the support (301).

6) Micro-gripper according to claim 5, characterised in that the diaphragm (305) extends between said contour (312) mounted on the support and an opposite continuous contour (312), mounted on a pedestal (311) including a surface for setting down (310) an object to be gripped by the fingers.

7) Micro-gripper according to claim 1, characterised in that the diaphragm is connected to the fingers by links (15, 315) joined to the fingers and to the diaphragm by flexible couplings (16, 17).

8) Micro-gripper according to claim 7, characterised in that the flexible couplings joining the links to the diaphragm end up in a rigid washer (14) fixed to a centre (12) of the diaphragm, the links having a conical arrangement converging towards the washer.

9) Micro-gripper according to claim 1, characterised in that the fingers are at least three, spread out around the support.

10) Micro-gripper according to claim 1, characterised in that the fingers each include an end with two gripping tips (209, 309), the gripping tips of the fingers forming a discontinuous circle.

11) Micro-gripper according to claim 1, characterised in that the fingers are at a minimum spacing when the diaphragm is in a free state, and at greater spacings when the diaphragm is in a state deformed by the fluid.

12) Micro-gripper according to claim 1, characterised in that it is produced by a manufacturing technique by addition of material by a numerical control machine.

Description

[0015] The different aspects, characteristics and advantages of the invention mentioned above, as well as others, will now become clearer from the commentary of the follow figures of certain embodiments thereof, non-exclusive of others:

[0016] FIG. 1 represents an axial section of a first embodiment of micro-gripper;

[0017] FIGS. 2 and 3, external views in oblique perspective of the front and the rear of the micro-gripper;

[0018] FIG. 4, an axial section of a second embodiment;

[0019] FIG. 5, an external view in oblique perspective of the front of this latter embodiment of micro-gripper;

[0020] FIG. 6, the detail of the end of the fingers;

[0021] FIG. 7, an axial section of a third embodiment;

[0022] FIG. 8, an external view in oblique perspective of the front of this third embodiment;

[0023] FIG. 9, an axial section of a fourth embodiment of the micro-gripper;

[0024] FIG. 10, a perspective side view of this fourth embodiment;

[0025] FIG. 11, a perspective view of the end of the fingers;

[0026] and FIG. 12, a view of the front of the micro-gripper.

[0027] A first embodiment of micro-gripper, described by means of the first FIGS. 1 to 3, includes a support 1 of circular structure, including a cylindrical sleeve 2 prolonged towards the front by a flat base plate 3, then fingers 4 for gripping an object, five in number in this embodiment, and a flexible diaphragm 5 for actuating the micro-gripper. The support 1 is a revolving part around which the fingers 4 are uniformly spread out, while being connected to the front face of the base plate 3 by flexible couplings 6. In this description, the front of the micro-gripper corresponds to the direction towards the ends of the fingers 4 and the place where the object is gripped, and flexible will designate constituents of the micro-gripper which are capable of deforming much more than the other constituents, such as the fingers 4 and the support 1 which could be considered as rigid, when a mechanical load is applied to them. In other words, the deformations will be localised almost exclusively on these so-called flexible constituents. The fingers 4 have a conical arrangement and their front ends, opposite to the flexible couplings 6, form jaws 7 for grasping an object. The jaws 7 each include a flat surface 8 directed forwards and an inner surface 9 in an arc of circle, which allow the object to be gripped while being set down thereon and held tightly there between.

[0028] The diaphragm 5 is housed in the support 1 and more precisely in the sleeve 2, while having an outer circular contour 10 joined without discontinuity to the inner face thereof. It is essentially flat in the free or rest state, that is to say that it extends in a median plane situated perpendicular to the X axis of the micro-gripper. It is however not flat, but composed of concentric undulations 11 at its centre 12, and it further includes, on the face directed towards the rear of the micro-gripper, ribs 13 also circular and concentric at the centre 12. The structure composed of the support 1 and the diaphragm 5 is thus axisymmetrical to the X axis.

[0029] The centre 12 bears a rigid washer 14 connected to each of the fingers 4 by a transmission link 15, provided at its linking ends to the washer 14 and at the finger 4 with flexible couplings 16 and 17.

[0030] The micro-gripper is designed so that its support 1 is coupled in a leak tight manner to a tube 18 or analogous equipment which is capable of forming a closed and leak tight chamber with the support 1 and the diaphragm 5, into which a pressurised fluid may be introduced. The pressure of the fluid deforms the diaphragm 5 while making it bulge forwards, with the effect of pushing on the transmission links 15 and tilting the fingers 4 around the flexible couplings 6, moving them away from each other, notably at the location of the jaws 7. By moving apart the jaws 7, it is possible to grip an object or to let go of an object gripped beforehand. By relieving the pressure of the fluid, the micro-gripper, subjected beforehand to elastic loads, returns to the free state in which the fingers 4 are at their minimum spacing, or, if an object has been gripped, it is held tight with a determined and moderate effort. Conversely, the diaphragm 5 may be loaded by a low pressure to directly close the fingers 4. The deformations of the diaphragm 5 are in principle axisymmetric, which the undulations 11 and the ribs 13 favour, but the structure of the micro-gripper is however sufficiently flexible overall to enable a slight independence in the movements of the fingers 4, adapting to potential shape irregularities of the gripped objects.

[0031] An alternative embodiment is described by means of FIGS. 4, 5 and 6. It can be distinguished from the preceding mainly in that the fingers, now 104, are only two in number and opposite to each other, and in that their jaws, now 107, include concave surfaces 108 at their inner grasping faces, which are facing each other. This arrangement makes it possible to grip and firmly retain beads 109 between the concave surfaces 108. The remainder of the micro-gripper is unchanged. More generally, the jaws may be designed to have grasping faces having shapes complementary to the shapes of the objects that it is provided to grip. The jaws could thus, for example, have inner faces with cylindrical concavities for gripping cylindrical objects. Two opposite fingers are then perfectly sufficient to retain the gripped object in a secure and stable manner.

[0032] Another exemplary embodiment is that of FIGS. 7 and 8, which describe an embodiment that may be distinguished from the preceding in that the fingers, now 204, and still two in number and opposite to each other, include forked jaws 207, each including an outer end curved in an arc 208 with two pointed ends 209 directed towards the other of the jaws 207. Furthermore, the jaws 207 have a flat lower surface 210, for setting down the gripped object. These jaws 207 make it possible to grip easily cylindrical objects, by resting their lower face on the flat surfaces 210 and by holding tight their peripheral surface between the arcs 208, or instead between the tips 209, which are situated approximately in a discontinuous circle while facing each other in pairs, each of the tips 209 facing a tip 209 of the other of the fingers 204.

[0033] Another embodiment is described by means of FIGS. 9, 10, 11 and 12. The fingers, now 304, may be analogous to those of the immediately preceding embodiment in that they comprise forked jaws 307, each provided at their ends with two grasping tips 309 which form a circle around the object to be gripped. When the fingers 304 are brought together, pairs of tips 309, situated on the two fingers 307 and facing each other, approach each other to achieve the clamping. The embodiment includes a surface for setting down the object, now 310, which is not placed on the jaws 307, but at the top of an upper pedestal 311 situated between the fingers 304 and separated therefrom. The diaphragm 305 of this embodiment is different and of conical shape, extending along the X axis of the micro-gripper, between a first circular contour, now 312, joined to the support 301 (now at the upper face of its base plate 303), and another contour 313, opposite to the previous contour, joined to the upper pedestal 311. The operation of the device is identical to that of the previous devices, the chamber in which the pressure of the actuating fluid may be established being delimited by the tube 18, the support 301, the diaphragm 305, and now also by the upper pedestal 311, which is here hollowed out, but obstructed by a plug 314. As previously, transmission links, now 315, are used to connect the diaphragm 305 to the fingers 304, but their arrangement is here different, since they are here just about perpendicular to the fingers 304, with an arrangement just about perpendicular to the X axis, and that they do not converge towards each other, but are situated all around the diaphragm 305. The deformation of the latter is thus exerted by a swelling between the contours 312 and 313 in the direction perpendicular to the X axis, with the same effect of moving apart the fingers 304 by tilting them on the support 301 through their flexible link 306 thereto. As previously, the diaphragm 305 is made more rigid by circular undulations concentric to the X axis, which are however superimposed in the axial direction X instead of belonging to a same flat region. The conical shape of the diaphragm 305 and the spacing of the coupling points of the transmission links 315 to the diaphragm 305 enable a certain irregularity of deformation and movement of the fingers 304, beneficial for good gripping of objects since all the fingers 304 can participate in the clamping of objects even of irregular shape, especially if the fingers 304 are numerous, and without excessive efforts being applied.

[0034] The micro-gripper of the invention, notably in the embodiments described, will be preferably built using a so-called material addition technique, by a three-dimensional printing machine, the manufacture being facilitated by the simple and largely axisymmetric shape of these constituents. The manufacturing material must be able to undergo repeated elastic deformations in order to switch between its two main states, but no other condition is imposed.