The present invention relates to a fan screw for the expansion of the upper jaw.
More particularly, a screw in accordance with the present invention is of the type usable for forming expanders capable of exerting expanding forces in the front area of the dental arch of the upper jaw for the treatment of the front transverse deficiency also associated with second-class or skeletal malocclusions. EP 846 446 discloses a fan screw of the type mentioned above, comprising two symmetrical bodies provided with arms on which can be welded orthodontic bands to allow the anchoring thereof to a predetermined number of upper teeth. Said bodies are hinged with each other by a hinge and between them there is an expansion screw, so that the bodies can be made to rotate about the axis of said hinge by acting on a driving portion of the expansion screw, thus causing the angular spreading apart of the two bodies that therefore, through the arms anchored to the teeth, provoke the required expansion.
The main purpose of the present invention is to allow easier use of fan screws for the expansion of the upper jaw.
This result is achieved, according to the present invention, by providing a fan screw having the features indicated in claim 1. Other features of the invention are the subject of the dependent claims.
Thanks to the present invention, the operation of the expansion screw is easier, which results in benefits for both the patient and the physician in the execution phase of the treatment. Furthermore, a screw in accordance with the present invention is relatively simple and economical to manufacture in relation to the advantages offered.
These and other advantages and characteristics of the invention will be best understood by anyone skilled in the art thanks to the following description and to the attached drawings, provided by way of example but not to be considered in a limitative sense, wherein:
FIG. 1 is a schematic side view of a fan expansion screw in accordance with the present invention;
FIG. 2 is a schematic perspective view of the lingual side of a fan expansion screw in accordance with the present invention;
FIGS. 3a-3C are schematic side views of a fan expansion screw in accordance with the present invention in the use configuration;
FIGS. 4 and 5 represent a schematic plan view of the lingual side of the screw shown in FIGS. 3A-3C in two different use conditions;
FIGS. 6-10 represent a further embodiment of a fan expansion screw in accordance with the present invention.
Reduced to its essential structure and with reference to FIGS. 1-5 of the accompanying drawings, a fan screw in accordance with the present invention comprises two flat bodies (1, 2) each of which is provided with two side arms (10, 11; 20, 21). The bodies (1, 2) are connected with each other by a rear hinge (3) and are symmetrical with respect to a sagittal plane (x-x) in which lies the axis (y-y) of the hinge (3). The side arms (10, 11; 20, 21) are oriented with a predetermined angle with respect to the sagittal plane (x-x) and form a pair of front arms (10, 20) and a pair of rear arms (11, 21). The distal end of each arm (10, 11, 20, 21) is welded to an orthodontic band (100, 110, 200, 210) to allow the anchoring thereof to selected teeth of the dental arch under treatment. While the rear parts of the bodies (1, 2) are connected by the hinge (3), the front parts of the same bodies (1, 2) are connected by a driving screw (4) which has a central driving portion (40) with radial holes (41) to allow the insertion of a suitable tool by means of which the screw (4) is rotated about its own axis (v-v) which is orthogonal to the sagittal plane (x-x). The screw (4) has two opposing threaded stems, each of which is engaged in a corresponding thread nut provided by a respective bush (51; 52). Each of the two bushings (51, 52) is fixed to the front part of a corresponding body (1, 2) by means of “C”-shaped brackets (61, 62) projecting from the front part of bodies (1) and (2). By rotating the driving screw (4) about its axis (v-v), the bodies (1, 2) rotate around the axis of the hinge (3) and, as a consequence, the divarication the bodies (1, 2) is adjusted as decided by the doctor.
Advantageously, the axis (v-v) of the screw (4) is spaced by a predetermined value (h) from the lingual side (L1, L2) of the bodies (1, 2), the value (h) being measured in a lingual direction (L) parallel to the aforementioned sagittal plane (x-x), i.e. parallel to the axis (y-y) of the hinge (3). In practice, by spacing the axis (v-v) of the driving screw (4) from the lingual side of bodies (1) and (2), the maneuvering portion (40) of the driving screw (4) is in a more easily accessible position that facilitates the activation of the device. In other words, the axis (v-v) of the driving screw (4) is lowered compared to conventional devices, ie, without modifying the position of the bodies (1, 2) with respect to the palate, the driving screw (4) is more spaced from the palate and its driving portion (40) is in a more easily accessible location allowing an easier use of a tool (C) of the type normally used for rotating the screw, as shown in FIG. 3C. Yet in other words, said axis (v-v) is located below the lingual sides (L1, L2) of bodies (1, 2) when the expansion fan screw according to the present invention is in the use position. As shown in the drawings, in the use position, the present expansion fan screw has an upper or palatal side turned towards the patient's palate and a lower or lingual side turned towards the patient's tongue. Similarly, said bodies (1, 2) have an upper or palatal side and an opposite lingual side (L1, L2) turned towards the patient's tongue when the expansion fan screw is in use. The distance between the axis (v-v) of the driving screw (4) and the upper sides of bodies (1, 2) is greater than the distance between the upper and the lower sides of bodies (1, 2). This result can be obtained, for example, by making the brackets (61, 62) in such a manner that a wing (610, 620) of each bracket (61, 62), which is bound to a base portion of the respective bush (51, 52), is spaced from the lingual side (L1, L2) of the respective body (1, 2). Said wing (610, 620) is connected to the lingual (L1, L2) of the respective body (1, 2) by means of a suitably bend (611, 621) rear extension. Preferably, said wing (610, 620) is inclined in a lingual direction by a predetermined angle (w), for example by 10°, relative to the lingual side (L1, L2) of the respective body (1, 2). The angle (w) is represented in FIG. 1 where one wing (610) only is visible because this is a side view. In practice, said wings (610, 620) form support surfaces for the driving screw (4) inclined with respect to the lingual sides of bodies (1, 2) so as to further facilitating the use of the tool (C). For example, the value (h) is between 1 and 2 mm and preferably between 1.5 and 1.6 mm.
With reference to the example shown in FIGS. 6-10, the aforementioned hinge (3) is replaced by a second driving screw (7), such that the bodies (1, 2) are joined by two driving screws (4, 7) on both their front and rear sides. The second driving screw (7) is also provided with a central maneuvering part (70) with radial holes (71) similar to those exhibited by the first driving screw (4). The screws (4) and (7) are parallel to one another, i.e. oriented with the respective axes (v-v, k-k) perpendicular to said plane (x-x). This allows to adjust the opening of the device on the front side and the rear separately as illustrated, in particular, in FIGS. 8-10. Similarly to the previous case, the longitudinal axes (v-v, k-k) of screws (4, 7) are spaced by a predetermined value (h) from the lingual side of bodies (1, 2). And, as previously described, the screws (4, 7) are inserted with the respective threaded parts in threadened bushes (51,52; 53, 54) fixed to the bodies (1, 2) by means of shaped brackets that hold the screws (4, 7) spaced from the lingual side of the bodies (1, 2). Preferably, as previously described, said driving screws (4, 7) are supported by surfaces inclined by a predetermined angle (w) with respect to the lingual sides of bodies (1, 2).
From the foregoing description it is apparent that a fan screw for the expansion of the upper jaw in accordance with the invention, in practice, comprises two bodies (1, 2) interconnected by at least one driving screw (4; 7) and placed on opposite sides with respect to a sagittal plane (x-x), the longitudinal axis (v-v; k-k) of said at least one driving screw (4; 7) being orthogonal to said plane (x-x), each of said bodies (1, 2) exhibiting a lingual side (L1, L2) and an opposite upper side, the longitudinal axis (v-v; k-k) of said at least one driving screw (4; 7) being at a predetermined distance (h) from the lingual sides (L1, L2) of said bodies (1, 2), said distance (h) being measured in a lingual direction (L) parallel to said plane (x-x) such that the distance between the axis (v-v) of the at least one driving screw (4; 7) and the upper sides of bodies (1, 2) is greater than the distance between the upper and the lower sides of bodies (1, 2).
The components of the screw in accordance with the present invention can be made with biocompatible materials of the type normally used for the production of intraoral devices.
In practice the details of execution may vary in any equivalent way as for what concerns the individual elements described and illustrated without thereby departing from the scope of the adopted solution and thus remaining within the limits of the protection conferred by the present patent.