RU217602U1 - Orthopedic Device with Integrated Tension Screw for Dental Implant - Google Patents

Abstract

The utility model relates to dental implant suprastructures. The device contains an orthopedic component with a captive pinch screw. The working threaded part of the screw is welded to the screw shaft and is additionally connected to the screw shaft by means of an internal threaded connection or is seated on the screw shaft under tension. Strengthening of the welded joint is provided. Increased strength of the orthopedic component. The possibility of releasing the jammed conical connection of the orthopedic component with the base of the dental implant is provided. As a result, the reliability of the orthopedic device is increased. Easier removal of the prosthetic device from the dental implant base. 9 w.p. f-ly, 4 ill.

Description

The utility model relates to dental implant systems, namely to dental implant suprastructures. The scope of the device is orthopedic dentistry.

In preparation for dental prosthetics on implants, an orthopedic component of the implant system, in particular an abutment, is fixed at the base of a dental implant or a corresponding laboratory analogue. The orthopedic component is fixed with a tightening screw, which is used to tighten the orthopedic component with the base of the implant or its analogue, thus forming their detachable connection, which is usually characterized by a tapered shape to ensure the tightness of the pairing of parts.

From patent document US 5674072 A dated 10/07/1997, a dental implant is known, containing a base and an orthopedic component, which is an abutment with a captive straining screw integrated into its body, the thick threaded part of which is welded to the thin shaft of this screw by laser welding. The design of the known device makes it possible to make a strong abutment with a neck of small outer diameter, which increases the likelihood of engraftment of the implant. However, due to the small diameter of the pinch screw rod, the area of the weld is very limited, which does not allow for sufficient strength of the welded joint, which experiences significant mechanical loads when fixing the orthopedic component in the base of the dental implant, as well as when separating their jammed conical connection, due to there is a risk of the threaded part of the captive pinch screw breaking off. The possibility of pushing the abutment by unscrewing the pinch screw in the known device is not provided, which complicates the work of the doctor.

The technical problem addressed by the present utility model is to increase the reliability of a dental implant prosthetic device and to facilitate the removal of a stuck prosthetic device from a dental implant base.

The technical result provided by the utility model consists in strengthening the welded joint in the captive clamping screw of the orthopedic device for the dental implant, as well as in increasing the strength of the orthopedic component, and in expanding the functionality of the device associated with providing the possibility of detaching the conical connection of the orthopedic component with the base of the dental implant.

The technical result is achieved due to the fact that the orthopedic device for a dental implant contains an orthopedic component with a captive pinching screw, the working threaded part of which is welded to the screw shaft, and between the threaded part of the screw and the screw shaft, a friction connection is additionally formed between the inner surface of the threaded part of the screw and the outer the surface of its rod.

In a particular case of the implementation of the utility model, the additional connection is an internal threaded connection.

In another particular case, the threaded connection is made in the form of a micro-threaded pair with a fine pitch.

Also in a particular case, the device is characterized by a pre-tightening of the threaded connection.

In a particular case, the device is characterized by the connection of the parts of the screw on a tight thread.

In a particular case, the device is characterized by the difference in the thread pitch of the screw parts, selected from the preload condition between two turns over the length of the screw connection.

In a particular case, the additional connection is made with an interference fit of the screw parts.

In a particular case, the inner surface of the threaded part of the screw and the outer surface of its shaft are made with longitudinal notches.

Also, in a particular case, the inner surface of the threaded part of the screw and the outer surface of its rod are made with mutually corresponding longitudinal groove and protrusion.

In another particular case, the cross section of the threaded part of the screw and its rod are autumnally symmetrical.

The essence of the utility model is illustrated by the following drawings, which, as an example, show the implementation of the preferred design of the device.

Fig. 1 - orthopedic device for a dental implant.

Fig. 2 - the clamping screw of the device with a threaded connection (on an enlarged scale relative to the rest of the drawings).

Fig. 3 - the conical connection of the orthopedic component in the cavity of the dental implant is fixed with a clamping screw.

Fig. 4 - pushing out the prosthetic component with the pinch screw for the cone connector.

The prosthetic device for a dental implant shown in the drawings consists of a prosthetic component 1 and a prefabricated captive pinch screw 2 (FIG. 1).

The orthopedic component 1 is one of the support or auxiliary installation elements of the dental implant system, or a hybrid of these elements. Support elements include, in particular, standard or individual abutments for dental prostheses, straight or angled multi-unit abutments for bridge structures. Auxiliary elements include, among other things, technological premill blanks for individual abutments, transfers or scanbody for the manufacture of such abutments. The orthopedic component 1 is made of metal, such as titanium alloy, ceramic or polymeric material. The outer surface of the lower part of the prosthetic component 1 is characterized by a neck with a conical portion suitable for the mating cavity of the dental implant. The outer diameter of the neck of the orthopedic component 1 in the region of the larger base of the cone is 2.5 mm. In the central part of the body of the orthopedic component 1, a hole is made in the form of a through longitudinal channel of a cylindrical shape. This channel is characterized by expansion from the apical part of the orthopedic component 1.

The captive pinch screw 2 contains a rod 3, a head 4 and a bushing 5 (Fig. 2), which are made of a titanium alloy. The length of the rod 3 exceeds the length of the narrow part of the canal in the orthopedic component 1, and the diameter of this rod corresponds to the inner diameter of the said part of the canal. The outer diameter of the sleeve 5 exceeds the diameter of the rod 3. The sleeve 5 is made with an external thread along its entire length, which forms the working threaded part of the screw 2. The head 4 and the rod 3 are rigidly connected, in particular by being made in the form of one piece. The rod 3 and the bushing 5 are made from the condition of the possibility of formation between them of a mechanical connection on the external friction.

The preferred option for connecting the parts of the screw 2 on external friction is a threaded connection, characterized by the presence of external friction in the threaded pair. For this purpose, a screw thread is made on the end part of the rod 3, preferably a fine-pitch microthread, and the sleeve 5 is made with an internal thread along its entire length. The internal thread of the sleeve 5 corresponds to the thread on the end of the rod 3, preferably from the condition of the possibility of an interference fit on the average diameter of the thread to form a tight threaded connection. It is also preferable to perform the rod 3 and the sleeve 5 with a difference in the pitch of their threads to ensure an interference fit between the two turns along the length of the make-up. The sleeve 5 is rigidly fixed to the end part of the rod 3 by means of a threaded connection.

A dental implant orthopedic device with a thread-welded connection of the screw parts 2 is assembled as follows. First, the rod 3 is inserted into the canal of the orthopedic component 1 from the side of its apical part, and pushed down until the head 4 stops against the constriction of the canal. In this case, the end part of the threaded rod 3 comes out of the neck of the orthopedic component 1. Then, the sleeve 5 is screwed onto the free end part of the rod 3, aligned with the end of the rod 3, from the condition of free movement of the screw 2 along the channel of the orthopedic component 1 within limits limited by head 4 on one side and sleeve 5 on the other side, preventing the movable screw 2 from falling out of the orthopedic component 1. The threaded pair is preferably tightened with such a torque to ensure pre-tightening of the internal connection, including when the sleeve 5 is placed on a tight thread, in in particular, until the formation of a locking interference between two turns along the length of the make-up. After that, the sleeve 5 is welded to the rod 3 in the area of the butt end by spot laser welding. The weld is mainly formed on the border between the sleeve 5 and the rod 3, at least at one point, and preferably along the entire length of the mating circumference, with giving the weld an annular shape or, for example, such a powerful pulse of laser radiation is applied to the center of the end of the rod 3, to ensure that the metal is melted along the edge of the rod 3 and the sleeve 5. Thus, the captive pinch screw 2 is integrated into the body of the prosthetic component 1, with all parts of the device interconnected by assembly operations, ensuring structural unity and implementation of a device of general functional purpose.

During the treatment of the patient, the orthopedic device is installed in the cavity of the dental implant 6 (Fig. 3) or its laboratory counterpart. The working threaded part of the screw 2 integrated into the body of the orthopedic component 1 is screwed into the mating thread of the implant 6 with an assembly tool and the cone of the orthopedic component 1 is pulled together with the implant 6, with the formation of a sealed self-locked connection between them. To remove the orthopedic device, for example, if it is necessary to replace the suprastructure, screw 2 is unscrewed with tool 7 (Fig. 4). After the free play of the screw 2 is selected, the sleeve 5 rests against the bottom of the prosthesis component 1. by converting the rotation of the screw 2 into translational movement of the prosthetic component 1 in an upward direction, due to which the doctor does not experience difficulty in separating the wedged connection and in extracting the prosthetic component 1 from the implant 6.

When screwing the working threaded part of the screw 2 into the implant 6, as well as when removing the orthopedic component 1 from the implant 6, the junction of the sleeve 5 with the rod 3 experiences mechanical loads of a dynamic nature that are significant for the dimensions of the device parts. In a threaded joint, the axial load on the bushing 5 is mainly distributed on the friction surface of the internal threads, which effectively works against the shift of the bushing 5 along the axis of the rod 3 and thereby relieves the load on the weld to a large extent, which strengthens the welded joint and prevents its destruction. Due to the presence of the thread helix angle, the axial load causes the appearance of an unscrewing moment, however, due to the presence of external friction forces in the threaded pair, the value of this moment is insufficient to break the welded joint. To reduce the amount of unscrewing torque, the internal connection is preferably made in the form of a micro-threaded pair, characterized by a fine pitch and, accordingly, a smaller angle of helix of the threads compared to the external thread of the sleeve 5. Pre-tightening of the internal threaded connection also reduces the load on the weld caused by the torque, due to increased force of external friction in the threaded pair. An even greater increase in the friction torque along the thread is achieved in the case of the formation of a tight internal threaded connection, which is preferably achieved by using threads with interference for setting the sleeve 5, in particular, with a difference in the thread pitch of the screw elements 2, selected from the interference condition between two turns on the length of the screwing of the internal thread connection, which gives this connection a high friction.

In an alternative variant of connecting the parts of the screw 2 on external friction, the sleeve 5 is made only with an external thread, and the inner diameter of this sleeve is selected from the condition of fitting the sleeve 5 to the rod 3 with an interference fit. Such a connection works in the same way as a threaded pair reinforces a welded joint, except that the axial load on the sleeve 5 and the torque are perceived, in addition to the weld itself, not by threads, but by the cylindrical surface of the frictional pressing of the sleeve 5 to the rod 3. A high degree strengthening is achieved, in particular, if the entire inner surface of the threaded part of the screw is pressed against the surface of the rod and / or when the mating surfaces are made with longitudinal notches, due to which the microrelief of the surfaces is characterized by roughness, and preferably longitudinal waviness. The maximum degree of reinforcement in this case is achieved due to the execution of the mating surfaces of the sleeve 5 and the rod 3 with at least one pair of longitudinal mutually corresponding grooves and protrusions, and / or if the cross-sectional shape of the threaded part of the screw and its rod do not have rotational symmetry properties, which, for example, are made with cross-sections of the screw parts of rectangular, in particular square, triangular, elliptical or star-shaped, which excludes the possibility of turning the threaded part of the screw relative to its shaft and thereby protects the weld from breaking, breaking or other destruction.

Supplementing the welded connection of the working part of the clamping screw of the orthopedic device, made with an external thread, with the screw shaft by their connection on the external friction between the inner surface of the threaded part of the screw and the outer surface of its shaft strengthens the welded connection, and therefore increases the reliability of this orthopedic device. The larger areas of said surfaces of the threaded part and the rod are in conjugation, the higher the strength of this connection, and therefore the more strengthened the welded joint.

In addition, the strengthening of the specified welded joint allows, without a critical decrease in the strength of the tightening screw, to reduce the size of the weld, and hence the diameter of the neck of the captive screw, due to which the wall thickness of the orthopedic component is correspondingly increased, and as a result, the strength of this component, which is also positive. affects the reliability of the orthopedic device as a whole. The optimal size ratio of the pinch screw and the prosthetic component provides a compromise between the strength of the structure and the size of the device, which increases the chances of implant healing due to the narrowing of the neck of the prosthetic component.

Reinforcement of the welded connection gives the present device the ability to detach the conical connection of the prosthetic component with the base of the dental implant by pushing out the prosthetic component due to the reverse rotation of the straining screw without the risk of its destruction, which requires the clinician to apply less force to the device than with the direct impact of the instrument on the prosthetic component.

In addition to the above, the joint operation of welded and threaded joints can improve the manufacturability of the device for a dental implant by reducing the requirements, firstly, to the accuracy of fitting the mating inner surface of the working threaded part of the captive tie screw and the end part of its shaft, and secondly, to laser calibration of the welding unit, the reduction of which is covered by a 2-3-fold increase in the strength of the combined connection of the parts of this screw in welding and in external friction.

Claims (10)

1. An orthopedic device for a dental implant, containing an orthopedic component with a captive pinching screw, the working threaded part of which is welded to the screw shaft, characterized in that a friction connection is additionally formed between the threaded part of the screw and the screw shaft between the inner surface of the threaded part of the screw and the outer surface his rod. 2. The device according to claim 1, characterized in that the additional connection is an internal threaded connection. 3. The device according to claim 2, characterized in that the threaded connection is made in the form of a micro-threaded pair with a fine pitch. 4. The device according to claim 2, characterized by pre-tightening of the threaded connection. 5. The device according to claim 2, characterized by the connection of the parts of the screw on a tight thread. 6. The device according to claim 5, characterized by the difference in the thread pitch of the screw parts, selected from the preload condition between two turns over the length of the screw connection. 7. The device according to claim 1, characterized in that the additional connection is made with an interference fit of the screw parts. 8. The device according to claim 7, characterized in that the inner surface of the threaded part of the screw and the outer surface of its shaft are made with longitudinal notches. 9. The device according to claim 7, characterized in that the inner surface of the threaded part of the screw and the outer surface of its shaft are made with mutually corresponding longitudinal groove and protrusion. 10. The device according to claim 7, characterized in that the cross section of the threaded part of the screw and its rod are autumnally symmetrical.

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