FR2950987A1 - AUTONOMOUS DENTAL FINGER SCANNING PROCESSING SYSTEM - Google Patents

Abstract

The subject of the invention is a dental impression scanning system (M), comprising a scanning optical module (12), at least one support station (14) of said dental impressions (M) comprising at least one face of support (16, 16 ') of said dental impressions (M) in a so-called storage position, and a robotic arm (18) for moving each of said dental impressions (M) between said storage position of each impression (M) and a scanning position of each imprint (M) by said scanning optical module (12).

Description

AUTONOMOUS DENTAL FINGER SCANNING PROCESSING SYSTEM

The present invention relates to a system for digitizing dental impressions. By dental impression is meant a reproduction, plaster, which has been prepared from an impression, in the form of a silicone mold, jaw 5 of a patient, performed in the mouth by a dentist. A known digitization system generally comprises a box containing a scanning module, optical type or mechanical probe, and in which an operator inserts a dental impression. The dental impression is then scanned by the scanning module, which provides a digital image of the patient's jaw. The digital image thus obtained subsequently makes it possible to produce a dental prosthesis through dedicated CAD software, especially of the joint prosthesis type, that is to say, sealed in the mouth, or adjoined, that is to say removable, as well as the combined cases. Such a digitization system allows a high quality of work of the prosthetist, so that the dental prosthesis obtained is perfectly adapted to the patient's jawbone. However, this system has the disadvantage that the productivity is limited on the one hand by the reduced capacity of the digitization box, and on the other hand because of the introduction of each dental impression, one after the other, by an operator, limiting the operating time of the system to the hours of operation of the operator. In addition, one of the major flaws of this system is human errors in positioning fingerprints, since they have to be scanned again, which further reduces the productivity of the system. It can thus be estimated that 20% of the working time of an operator is devoted to a second digitization, which makes it impossible to move towards a larger production or sustained rate, and confines this type of system to a "small-scale" production. ". The object of the present invention is to overcome these disadvantages. To this end, the invention relates to a system for digitizing dental impressions, comprising a scanning optical module, at least one support station of said dental impressions comprising at least one support surface of said dental impressions in a so-called storage position, and a robotic arm for moving each of said dental impressions between said storage position of each fingerprint and a scanning position of each fingerprint by said scanning optical module. The invention will now be described in more detail with reference to the appended figures given solely by way of example and in which: FIG. 1 is a perspective view of the dental impression scanning system according to the present invention in storage position; FIG. 2 is a perspective view of the digitizing system of FIG. 1 in the digitization position of a dental impression; FIG. 3 is a perspective view of a support station of the digitizing system of FIG. 1; FIG. 4A is a perspective view of a housing of the support station of FIG. 3A, FIG. 4B is a perspective view of the housing of FIG. 4A, storing a dental impression, and FIG. is a perspective view of an articulated arm of the system of FIG.

Figures 1 and 2, there is shown in 10 a scanning system of dental impressions, in particular for the realization of a dental prosthesis. By dental impression is meant a reproduction, in plaster, which has been prepared from an impression, in the form of a silicone mold, of a patient's jaw, made in the mouth by a dentist, ie the mold in silicone directly. The dental impressions are referenced in M in the figures, and the two jaws in ni. As can be seen in FIGS. 1 and 2, the scanning system 10 comprises a scanning optical module 12, at least one support station 14 of the dental impressions M comprising at least one support face 16, 16 'of the impressions M in a position called storage, and a robotic arm 18 for moving each of the fingerprints M between the storage position and a scanning position of each fingerprint by the scanning optical module 12, in which each fingerprint M is arranged near the scanning optical module. , that is to say at a pre-established distance allowing optimal scanning of each print M. The storage position is otherwise called palletizing position. The digitization system 10 ensures, in particular thanks to the robotic arm 18, a digitization of a plurality of dental impressions M independently, without external constraint. Advantageously, the at least one support face 16, 16 'is removably mounted, which allows the loading and unloading of dental impressions M. According to the preferred embodiment, illustrated in FIGS. 1 to 3, the system 10 comprises a support station 14 provided with two faces 16 and 16 '. The double-sided storage support station 14 makes it possible to process a large number of dental impressions M in the same work cycle of the robot, a cycle corresponding to a first digitization of all the impressions stored in the two faces 16 and 16 'of the support station 14.

As can be seen in FIGS. 1 and 2, the scanning system 10 is advantageously integrated in a glazed cell 20. The scanning optical module 12 comprises at least one camera, a laser transmitter making it possible to point the front line of scanning of the camera , and a device for transmitting the scanned data to a remote unit, such as a computer. The remote unit comprises a screen on which the scanned image of the imprint M is displayed. The module 12 is not further described because known to those skilled in the art. As more particularly visible in Figure 3, the support station 14 is formed from rails 22 directed substantially parallel to each other along a horizontal direction denoted X, and are mounted superimposed one below the other. Each rail 22 is provided with spacers 24. Each spacer 24 is directed along a horizontal Y direction and orthogonal to the X direction, and protrudes on either side of the rail 22 into two segments of equal length. , 26 '. The rails 22 provided with their spacers 24 are held by feet 28 directed vertically along a direction Z. Thus, the feet 28 and the rails 22 define a plane which delimits two spaces, E and E ', respectively comprising the segments 26 and 26 'and each forming one of the two support faces 16, 16' of the support station 14.

According to another characteristic of the invention, the support station 14 is pivotally mounted between two positions of presentation of each of the faces 16, 16 'facing the robotic arm 18. Thus, the robotic arm 18 is disposed in each of the two positions of presentation facing one of the support faces 16, 16 'of the support station 14.

According to another characteristic of the invention, each support face 16, 16 'comprises a plurality of housings 30, each housing 30 being intended to receive a single dental impression M. Each housing 30 is delimited by the space between two segments 26, 26 'consecutive, two consecutive feet 28 and two rails 22 consecutive. Each housing 30 is provided with a first 32 and a second 34 trays for receiving a dental impression M, the first tray 32 being intended to receive the dental impression M before scanning and after digitization without detected error, as it will be detailed below, and the second plate 34 is intended to receive the dental impression M after scanning in case of digitization error detected, as will also be detailed later. As shown in Figures 4A and 4B, the first plate 32 of a given housing 30 constitutes the lower level of this housing 30, while the second plate 32 of the same housing 30 is the upper level. The robotic arm 18 can reproduce the complex movements of a human arm, and is controlled by a software unit not shown. We are talking about a poly articulated arm. The arm 18 comprises at one of its ends a base 36 fixed while the other of its ends is formed of a base 38 for gripping each tooth impression M. As more particularly visible in Figure 5, the base 38 comprises a flat parallelepipedal bar 40 traversed orthogonally from a bar 42, so that the bar 40 and the cross member 42 form a cross grip 44 of each dental impression M, each jaw m resting on this cross grip 44.

According to another characteristic of the invention, the motorized arm 18 comprises means 46 for holding each dental impression M on the base 38. These holding means comprise at least one venturi air suction duct 48, and preferably, each end of the crosspiece 42 is provided with a venturi air duct. Thus, when a dental impression is placed on the base 38, each jaw ni is disposed on one of the suction ducts 48, so that it is held in position by the venturi effect.

As can be seen in FIGS. 4A and 4B, each plate 32, 34 of the same housing 30 comprises a recess 50 capable of receiving a dental impression M, this recess 50 being hollowed with an indentation 51 of the base 38 of the motorized arm 18 , so that the cross 44 forming the end of the base 38 can be inserted in the cavity 51, under an impression M disposed in the cavity 50, and thus grasp this impression M. As can be seen in FIGS. 1 and 2, the digitization system 10 comprises means 52 for correcting the position of each dental impression M on the base 38 of the robotic arm 18. These correction means 52, otherwise called packer, are arranged above the support station 14, and comprise a central recess 54 provided at the front with two fingers 56, the cross 44 being intended to fit into the packer 52 extending between the two fingers 56, in the recess 54 and on both sides of the this recess 54. Thus, the motorized arm 18 ayan t gripped on its base 38 an impression M is placed under the packer 52, each jaw neither on either side of the recess 54, which restores the position of the imprint M on the base 38 in case of position not adequate. It is noted that the packer 52 advantageously has elastic properties, the elasticity being chosen so that it allows to cash the adequate replacement force of the imprint M while avoiding the arm 18 to disjunct because of a too much effort. According to another characteristic of the invention, the robotic arm 18 comprises reading means, not shown, for example of the optical or RFID type, a barcode or RFID affixed to each imprint M which details the nature of the work to be performed. (In particular, joint prosthesis, joint, combined case) and means for transferring this information concerning the nature of the work to the scanning optical module. This barcode or RFID is an identification code of the order made by a dentist. Thus, the nature of the work to be performed is known from the motorized arm 18 and the scanning optical module 12, and, depending on the work to be performed, the optical module 12 controls which movements must perform the robotic arm 18, which determines in particular the number of passages of the cavity in front of the optical module 12 for scanning. In the figures, only the preferred embodiment is illustrated, but it is understood that the scope of the invention is not limited to this embodiment. Thus, it can be provided several support stations, including two support stations disposed opposite one another, the robotic arm being disposed between the two stations, preferably at equal distances. In addition, the support station as illustrated is pivotally mounted, but it is also possible to snap the station so as to present the face 16, then remove the station and snap it so as to present the other face 16 '. The invention also relates to a method of using the scanning system 10 for scanning a dental impression M, and which comprises the following steps: - a step of entering the dental impression M on the basis of the robotic arm, a step of moving the impression M from its storage position in a housing on the first plate 32 to its scanning position, the dental impression M being placed near the cameras of the optical module in order to be scanned, - at least one step of scanning the dental impression M, and if no error has been detected, a step of repositioning the dental impression on the first plate 32 of the same housing 30, or if an error has has been detected, a step of positioning the dental impression M on the second plate 34 of the same housing 30. Advantageously, the error detection is automatic and comprises a detection of total or partial presence of a dental impression M to be scanned, presence detection of the identification code of the order, verification of conformity of the impression M with the nature of the work to be performed. At the end of this process, the dental impression M has been digitized and returned to the storage position on one or the other of the trays 32, 34 of its initial housing 30, and the robotic arm 18 continues its work. grasping the imprint M disposed in the housing 30 adjacent to the first housing 30. Thus, each imprint M is digitized, the scanning system 10 ensuring complete autonomy of operation.

When all the fingerprints M of the face 16 facing the robotic arm 18 have been digitized, the support station 14 pivots on itself in order to present the face 16 'to the robotic arm 18 which can continue the scanning cycle. The digitizing system 10 makes it possible to use an autonomously optimized digitization, since an error detected during digitization, for example because the imprint M is not well presented to the camera of the optical module 12, has not been detected. no major consequence on the process: the other imprints M are scanned, before during a second cycle of the robotic arm 18, the imprints arranged M at the end of the first cycle on the upper levels 34 of the housings 30 are re - digitized or manually taken back. Advantageously, the method comprises an additional step immediately after the capture step, during which the robot places the impression M on the packer 52 in order to correct the position of this impression M on the base 38 of the robotic arm 18, as already explained.

In addition, the method may also comprise a step of reading the bar code of each imprint M, which determines in particular the number of passages of the imprint in front of the optical module for scanning. As a result, a high image quality obtained by digitization is ensured. The number of scanning steps is therefore a function of the nature of the work to be performed, and the method of use comprises either a single scanning step or, on the contrary, a plurality of scanning steps. It is noted that, advantageously, the dental impressions M are loaded manually or automatically on a face 16 during the previously described method of use made on the other face 16 ', which ensures a significant time saving. Advantageously, the method comprises a preliminary step of adapting the scanning strategy according to the work to be performed, which makes it possible on the one hand to anticipate the working time of the robotic arm 18 and on the other hand to make sure that the measurements made during the digitization actually correspond to the order made by the dentist. The scanning system 10 digitizes a plurality of dental impressions M autonomously, which allows to support a high work rate and a high productivity, while controlling a high quality of the image obtained, and by consequently, of the final prosthesis. The digitization system 10 also makes it possible to digitize in a single measurement the upper and lower arches, that is to say the two jaws or, so that in one work is performed the occlusion, while it requires two jobs and an additional correlation for the systems of the state of the art. In other words, the occlusion is made by optical measurement directly on the fingerprints, avoiding the use of manual systems type "bitten". Thus, any inaccuracy related to a manual operation is avoided.

Claims (12)

REVENDICATIONS1. Dental impression scanning system (M), comprising: - a scanning optical module (12), - at least one support station (14) of said dental impressions (M) comprising at least one support face (16, 16 ') ) said dental impressions (M) in a so-called storage position, and - a robotic arm (18) for moving each of said dental impressions (M) between said storage position of each impression (M) and a digitizing position of each imprint (M) by said scanning optical module (12). 10 The dental impression scanning system according to claim 1, wherein the at least one support face (16, 16 ') is removably mounted. The dental impression scanning system according to claim 1, wherein the at least one support station (14) comprises two support faces (16, 16 '). 4. Dental impression scanning system according to the preceding claim, wherein the at least one support station (14) is pivotally mounted between two presentation positions of each of the faces (16, 16 ') facing the robotic arm. 20 The dental impression scanning system according to one of claims 1 to 4, wherein each support surface (16, 16 ') comprises a plurality of housings (30) of a dental impression (M), each housing (30) being provided with a first (32) and a second (34) receiving tray of said one dental impression (M), the first tray (32) being adapted to receive a forward dental impression (M) digitizing and after digitization without error detected, the second plate (34) being intended to receive the dental impression (M) after digitization in case of digitization error detected. A dental impression scanning system according to any one of the preceding claims, wherein the robotic arm (18) comprises a base (38) for lifting each dental impression (M), said base (38) being provided with holding means (46) of the dental impression (M) on said base (38). 7. Dental impression scanning system according to the preceding claim, wherein the means (46) for holding the dental impression (M) on the base (38) of the robotic arm (18) comprise at least one duct (48). ) suction air venturi effect. A dental impression scanning system according to any one of the preceding claims, comprising means (52) for correcting the position of the dental impression (M) on the base (38) of the articulated arm (18). Dental impression scanning system according to one of Claims 5 to 8, in which each plate (32, 34) comprises an impression (50) of a dental impression (M) hollowed out with an impression (51). the base (38) of the motorized arm (18). 10. dental impression scanning system according to one of the preceding claims, comprising means for reading an identification code affixed to each imprint (M), so that the nature of the work to be performed is known arm motorized motor (18) and the scanning optical module (12). 11. A method of using the dental impression scanning system according to any one of claims 1 to 10, comprising the following steps: a step of entering the dental impression (M) on the base (38) of the robotic arm (18), - a step of moving the cavity (M) from its storage position in a housing (30) on the first plate (32) to its scanning position, -at least one step of scanning the dental impression (M), and if no error has been detected, a step of repositioning the dental impression (M) on the first plate (32) of the same housing (30), or if a error has been detected, a step of positioning the dental impression (M) on the second plate (34) of the same housing (30). 12. A method of use according to the preceding claim, comprising a number of scanning steps depending on the nature of the work to be performed.