Patent Description:
When patients undergo invisible orthodontics treatment, they need to cooperate with auxiliary devices such as a traction device to achieve an orthodontic objective.

<CIT> discloses an attachable orthodontic hook system, the hook is designed for the reception of orthodontic elastics used to correct the patient's bite. The hook is comprised of a predestal back, a locking longitudinal shaft, and a single button hook or a button hook with accessory hooks. However, the hook system is difficult to cooperate with the traction device such as extra-maxillary device for orthodontic treatment.

An objective of some embodiments of the present disclosure is to provide an auxiliary orthodontic device for a shell-like dental appliance, which enables a shell-like dental appliance and the auxiliary device to be assembled together easily and stably, and a corresponding auxiliary device can be selected and used based on orthodontic requirements, thereby achieving a corresponding orthodontic function.

Technical solutions provided in some embodiments of the present disclosure are as follows.

Some embodiments of the present disclosure provide an auxiliary orthodontic device for a shell-like dental appliance, the auxiliary orthodontic device including:.

A corresponding auxiliary function of the auxiliary orthodontic device is achieved through the functional component, and the retaining component is connected to the functional component through the shell-like dental appliance, or the functional component passes through the shell-like dental appliance and is connected to the retaining component. Such a separated connection manner enables that cooperation between the auxiliary orthodontic device and the shell-like dental appliance is more stable, that is, the shell-like dental appliance is partially inserted into the auxiliary device, so that a connection between the two is stable.

Further, in some embodiments, the functional component is a traction member with a hooking function, a tongue crib for improving tongue habits, or a component for opening occlusion. The functional component can be correspondingly selected according to clinical requirements, to adapt to different orthodontic requirements.

Further, in some embodiments, when the functional component is the traction member with the hooking function, the traction member includes a traction rod, a limiting member and a base, the traction rod is disposed between the limiting member and the base, the base is disposed adjacent to a labial side of the shell-like dental appliance, an end portion of the traction rod connected to the base is perpendicular to a tooth surface of labial side, one end of the traction rod away from the base is a free end, and the limiting member is disposed at the free end of the traction rod, and forms a limiting slot with the traction rod. The traction member cooperates with an extramaxillary traction device or an intramaxillary traction device to achieve traction, the base is adjacent to the shell-like dental appliance, so that the base can provide support for the traction rod on the base. And the end portion of the traction rod is disposed perpendicular to the tooth surface of labial side, which is convenient to generate a corresponding traction force during traction, thereby avoiding an unexpected movement caused by a tilt of the traction force. The limiting member and the traction rod form a limiting slot, and the limiting slot is connected to an elastic member to generate a hooking force for connecting to the extramaxillary traction device or the intramaxillary traction device.

Further, in some embodiments, the traction rod is of a hook-like structure disposed at a specific angle, a connection end between the traction rod and the base is perpendicular to the tooth surface of labial side, and the free end of the traction rod is disposed at a specific angle with the tooth surface of labial side. The traction rod is of the hook-like structure disposed at a specific angle, the hook-like structure may generate a hooking force for connecting to an extramaxillary traction device or an intramaxillary traction device to implement traction.

With the auxiliary orthodontic device of the invention, a surface of the functional component adjacent to the labial side of the shell-like dental appliance is a curved surface consistent with a dental arch curve of the labial side. The surface of the functional component adjacent to the labial side of the shell-like dental appliance is closely attached to the dental arch curve of the labial side, so that wearing is more comfortable.

Further, in some embodiments, a first matching member connected to the retaining component is further disposed at a position of the functional component adjacent to the labial side of the shell-like dental appliance. The functional component is connected to the retaining component through the first matching member.

Further, in some embodiments, the retaining component includes a fixing member and a connecting member, one end of the connecting member is connected to the fixing member, and another end of the connecting member is provided with a second matching member connected to the first matching member. The fixing member retains the retaining component on one side of the shell-like dental appliance, and is connected to the functional component through engagement between the second matching member and the first matching member, so that the functional component is fixed on another side of the shell-like dental appliance.

Further, in some embodiments, the first matching member and the second matching member are connected in a manner of a male-female matching connection. The male-female matching connection has advantages of a simple structure and a reliable connection.

Further, in some embodiments, the male-female matching connection is a threaded connection, an insert connection, a tenon-and-mortise connection, a magnetic attraction connection or an adhesion connection.

Further, in some embodiments, when the functional component is a traction member with a hooking function, the component for opening occlusion is a jaw pad component or a flat guide component. The functional component is set as the jaw pad component or the flat guide component, and is configured for occlusal reconstruction of upper and lower jaws or a vertical movement of a lower jaw to open posterior tooth occlusion.

Further, in some embodiments, a cross section of the retaining component passing through the shell-like dental appliance is of a non-circular structure that prevents rotation relative to the shell-like dental appliance, and the cross section of the retaining component passing through the shell-like dental appliance is matched with an opening provided on the shell-like dental appliance. Alternatively, a cross section of the functional component passing through the shell-like dental appliance is a non-circular structure that prevents rotation relative to the shell-like dental appliance, and the cross section of the functional component passing through the shell-like dental appliance is matched with an opening provided on the shell-like dental appliance. When the auxiliary device is used for orthodontic treatment, there are orthodontic requirements for a direction of disposing the functional component disposed on the auxiliary device. Therefore, after cooperating with the shell-like dental appliance, the auxiliary device cannot generate a relative movement or rotation, thereby affecting an orthodontic effect. Therefore, a portion of the retaining component or the functional component passing through the shell-like dental appliance is a non-circular structure, and when the non-circular structure is engaged with the shell-like dental appliance, positions of the two are relatively stable and do not move or rotate.

Further, some embodiments of the present disclosure further provide a shell-like dental appliance, including: a shell-like dental appliance body and the auxiliary orthodontic device for a shell-like dental appliance described above.

Further, some embodiments of the present disclosure further provide a tooth orthodontic system, including: a plurality of orthodontic appliances, where at least one of the orthodontic appliances is the shell-like dental appliance described above.

Compared to existing technologies, the present disclosure at least has following advantages.

The auxiliary orthodontic device for a shell-like dental appliance provided by some embodiments of the present disclosure, which is provided with a functional component and a retaining component, here the functional component is set to have a corresponding auxiliary orthodontic function, and the retaining component is set to have an effect of fixing the auxiliary orthodontic device and the shell-like dental appliance. The retaining component passes through the shell-like dental appliance to be connected to the functional component, or the functional component passes through the shell-like dental appliance to be connected to the retaining component. Such a separated type connection manner enables that cooperation between the auxiliary orthodontic device and the shell-like dental appliance is more stable, that is, the shell-like dental appliance is partially inserted into the auxiliary device, so that a connection between the two is stable. When engaged with the shell-like dental appliance in use, the auxiliary orthodontic device can achieve the auxiliary orthodontic function more precisely without affecting an area of corresponding teeth wrapped by the shell-like dental appliance, thereby not affecting an overall orthodontic effect of the shell-like dental appliance. When being disposed on the shell-like dental appliance to achieve the corresponding auxiliary orthodontic function, the auxiliary orthodontic device performs orthodontic treatment by using an overall force of the overall shell-like dental appliance and the corresponding teeth, to achieve the orthodontic treatment of overall dentition, and it avoids that the auxiliary orthodontic device is disposed on a single tooth, resulting in an unexpected orthodontic effect on an action of the single tooth. The auxiliary orthodontic device may be prepared through pre-forming, and is applicable to large-scale production, and a corresponding auxiliary orthodontic function may be added based on orthodontic requirements, so as to avoid errors caused by a manual operation to affect the orthodontic effect. In addition, the auxiliary orthodontic device is made of a material that can be applied in a mouth, and is engaged with the shell-like dental appliance by physical connection. This cannot cause uncertainty in use by a change of a material characteristic due to reprocessing.

The foregoing characteristics, technical features, advantages and implementations are further described below in a clear and easy-to-understand manner by describing preferred implementations with reference to the accompanying drawings.

To describe some embodiments of the present disclosure or the technical solutions in the existing technologies more clearly, specific implementations of the present disclosure are described below with reference to the accompanying drawings. Obviously, the accompanying drawings in the following descriptions are merely some embodiments of the present disclosure, and a person of ordinary skill in the art may further obtain other accompanying drawings according to the accompanying drawings without creative efforts, and thereby obtaining other implementations. To better describe the present disclosure, some embodiments of the present disclosure are described in detail below with reference to the accompanying drawings.

Currently, a combination manner of an auxiliary device and an invisible appliance is mainly includes: the auxiliary device and the invisible appliance are integrally formed, or the auxiliary device and the invisible appliance are adhered together. However, the foregoing modes have a disadvantage that the connection between the auxiliary device and the invisible appliance is unstable. Taking the traction auxiliary device as an example, traction on the appliance is mainly performed in the following four manners in the existing technologies.

All the foregoing existing manners have technical disadvantages. Therefore, it is urgent to develop a device that can be engaged with the invisible appliance to complete auxiliary orthodontic treatment, which is safe and convenient to use, and is of great significance of assisting the invisible appliance in completing a corresponding orthodontic function.

Based on this, some embodiments of the present disclosure provide an auxiliary orthodontic device for a shell-like dental appliance. Referring to <FIG>, the auxiliary orthodontic device <NUM> includes a functional component <NUM> and a retaining component <NUM> provided separately from the functional component <NUM>, the retaining component <NUM> is connected to the functional component <NUM>. As shown in <FIG>, at least one of the functional component <NUM> and the retaining component <NUM> passes through a shell-like dental appliance <NUM>, the functional component <NUM> is retained on the shell-like dental appliance <NUM>, and the functional component <NUM> is provided on an outer surface of the shell-like dental appliance <NUM>. In some embodiments, the shell-like dental appliance <NUM> wraps teeth, a surface in contact with the teeth is defined as an inner surface, and another surface opposite to the inner surface is defined as an outer surface.

When the retaining component <NUM> passes through the shell-like dental appliance <NUM> to be connected to the functional component <NUM>, referring to <FIG>, specifically, a cross section of the retaining component <NUM> passing through the shell-like dental appliance <NUM> is of a non-circular structure that prevents rotation relative to the shell-like dental appliance <NUM>, and the cross section of the retaining component <NUM> passing through the shell-like dental appliance <NUM> is matched with an opening on the shell-like dental appliance <NUM>. For example, both are of a polygonal structure such as a rectangular structure or a triangular structure, or are of another structure for matching. When the auxiliary device is used for orthodontic treatment, there are orthodontic requirements for a direction of disposing the functional component <NUM> disposed on the auxiliary device. Therefore, after cooperating with the shell-like dental appliance <NUM>, the auxiliary device cannot generate a relative movement or rotation, thereby affecting an orthodontic effect. Therefore, a portion of the retaining component <NUM> passing through the shell-like dental appliance <NUM> is of a non-circular structure, and when the non-circular structure is engaged with the shell-like dental appliance <NUM>, positions of the two are relatively stable and do not move or rotate. In addition, a height of the retaining component <NUM> passing through the shell-like dental appliance <NUM> is basically the same as a thickness of the shell-like dental appliance <NUM>, which can play a role of auxiliary retaining.

When the functional component <NUM> passes through the shell-like dental appliance <NUM> to be connected to the retaining component <NUM>, referring to <FIG>, specifically, a cross section of the functional component <NUM> passing through the shell-like dental appliance <NUM> is of a non-circular structure that prevents rotation relative to the shell-like dental appliance <NUM>, and a cross section of the functional component <NUM> passing through the shell-like dental appliance <NUM> is matched with an opening on the shell-like dental appliance <NUM>. For example, both are of a polygonal structure such as a rectangular structure or a triangular structure, or are of another structure for matching. When the auxiliary device is used for orthodontic treatment, there are orthodontic requirements for a direction of disposing the functional component <NUM> disposed on the auxiliary device. Therefore, after cooperating with the shell-like dental appliance <NUM>, the auxiliary device cannot generate a relative movement or rotation, thereby affecting an orthodontic effect. Therefore, a portion of the functional component <NUM> passing through the shell-like dental appliance is of a non-circular structure, and when the non-circular structure is engaged with the shell-like dental appliance, positions of the two are relatively stable and do not move or rotate. In addition, a height of the functional component <NUM> passing through the shell-like dental appliance <NUM> is basically the same as a thickness of the shell-like dental appliance <NUM>, which can play a role of auxiliary retaining.

A morphology of the functional component <NUM> is related to clinical requirements, and a corresponding functional auxiliary orthodontic device may be selected according to clinical effects. In some embodiments, the functional component <NUM> is a functional portion with a traction function. The functional component <NUM> is disposed on a labial side surface of the shell-like dental appliance <NUM>, and may provide a hooking function for intramaxillary traction and intermaxillary traction. Although not shown in the figures, with the auxiliary orthodontic device of the invention, a surface of the functional component <NUM> adjacent to the labial side of the shell-like dental appliance <NUM> is set as a curved surface consistent with a dental arch curve of the labial side. The surface of the functional component <NUM> adjacent to the labial side of the shell-like dental appliance <NUM> is closely attached to the dental arch curve of the labial side, thereby increasing the stability of the connection between the functional component <NUM> and the shell-like dental appliance <NUM>. In addition, in some embodiments, the retaining component <NUM> has a fixing member <NUM> in contact with the teeth, and a surface <NUM> of the fixing member <NUM> in contact with the teeth is set as a curved surface matching a tooth surface. Referring to <FIG> and <FIG>, a direction of the surface <NUM> is the same as or different from that of a curved surface of the tooth surface. More specifically, as shown in <FIG> and <FIG>, surfaces 2011a and 2011c on a side of the fixing member <NUM> adjacent to the teeth are set as concave surfaces. Referring to <FIG>, a surface 2011b of the fixing member <NUM> on the side adjacent to the teeth is set as a convex surface. A surface of the fixing member <NUM> that is adjacent to a lingual side and is in contact with the teeth is set to be consistent with the curved surface of the tooth surface. Accordingly, the fixing member <NUM> is in close contact with the tooth surface, so that the shell-like dental appliance <NUM> wraps the teeth more closely to ensure the orthodontic effect and reduce the discomfort caused by wearing. A first matching member <NUM> connected to the retaining component <NUM> is further disposed at a position of the functional component <NUM> adjacent to the labial side of the shell-like dental appliance <NUM>. As shown in <FIG>, the functional component <NUM> is connected to the retaining component <NUM> through the first matching member <NUM>.

Referring to <FIG> still, the retaining component <NUM> includes a fixing member <NUM> and a connecting member <NUM>, one end of the connecting member <NUM> is connected to the fixing member <NUM>, and another end of the connecting member <NUM> is provided with a second matching member <NUM> connected to the first matching member <NUM>. The second matching member <NUM> is engaged with the first matching member <NUM> to implement a connection between the functional component <NUM> and the retaining component <NUM>, so that the functional component <NUM> is fixed on a labial side of the shell-like dental appliance <NUM>. The first matching member <NUM> and the second matching member <NUM> are connected in a manner of a male-female matching connection. The male-female matching connection has advantages of a simple structure and a reliable connection. More specifically, the male-female matching connection is a threaded connection, an insert connection, a tenon-and-mortise connection, a magnetic attraction connection or an adhesion connection. The fixing member <NUM> has a coverage area larger than an interface of the shell-like dental appliance through which the fixing member <NUM> passes, and can play a fixing role when it engaged with the functional component <NUM>.

As shown in <FIG>, the functional component <NUM> is the traction member <NUM> including: a traction rod <NUM>, a limiting member <NUM> and a base <NUM>. The traction rod <NUM> is disposed between the limiting member <NUM> and the base <NUM>, the base <NUM> is disposed adjacent to a labial side of the shell-like dental appliance <NUM>, an end portion of the traction rod <NUM> connected to the base <NUM> is perpendicular to a tooth surface of labial side, the limiting member <NUM> is disposed at a free end of the traction rod <NUM>, and the limiting member <NUM> forms a limiting slot <NUM> with the traction rod <NUM>. The traction member <NUM> is engaged with a traction device to implement traction, the base <NUM> is adjacent to the shell-like dental appliance <NUM>, so that the base <NUM> can provide support for the traction rod <NUM> on the base, and the end portion of the traction rod <NUM> is disposed perpendicular to the tooth surface of labial side, so that a traction force is perpendicular to the tooth surface of labial side, to avoid an unexpected movement caused by a tilt of the traction force. The limiting member <NUM> and the traction rod <NUM> form a limiting slot <NUM>, and the limiting slot <NUM> may generate a hooking force for connecting to the traction device. The traction rod <NUM> is of a hook-like structure disposed at a specific angle with a tooth surface of labial side, the hook-like structure is disposed at a free end of the traction rod <NUM>, and the limiting member <NUM> and the traction rod <NUM> form a limiting slot <NUM>. To further strengthen a limiting effect, a spherical protrusion may be disposed at a free end of the limiting member <NUM>, and a portion for connecting the traction rod <NUM> to the base <NUM> is set to be perpendicular to the tooth surface of labial side, and is configured to connect an intramaxillary traction device or an intermaxillary traction device, thereby generating a more stable hooking force. The traction rod <NUM> is of a hook-like structure disposed at a specific angle with the tooth surface of labial side, and when the traction rod is connected and fixed with the shell-like dental appliance <NUM>, a direction of disposing the traction rod <NUM> of the hook-like structure cannot rotate relative to the shell-like dental appliance, or otherwise there is a deviation from an expected orthodontic effect. Therefore, when at least one of the functional component <NUM> and the retaining component <NUM> passes through the shell-like dental appliance <NUM>, a cross section passing through the shell-like dental appliance <NUM> is of a non-circular structure that prevents rotation relative to the shell-like dental appliance <NUM>, to prevent orthodontic errors caused by the relative rotation.

In some other embodiments, referring to <FIG>, the traction rod <NUM> is a straight rod. That is, the traction rod is perpendicular to the tooth surface of labial side, and the limiting member <NUM> disposed on the traction rod may be a sphere with a diameter greater than a width of the free end of the traction rod <NUM>, or the limiting member <NUM> may be of another structure, only if the limiting member may form the limiting slot <NUM> with the traction rod <NUM> for hooking. The structure of the limiting member <NUM> is not limited herein.

In addition, in some embodiments, as shown in <FIG>, the first matching member <NUM> and the second matching member <NUM> are connected in a manner of a male-female matching connection. The male-female matching connection has advantages of a simple structure and a reliable connection. Specifically, the first matching member <NUM> and the second matching member <NUM> are of an insert structure.

In some embodiments, the first matching member <NUM> is of a concave structure, and the second matching member <NUM> is of a convex structure. During use, the second matching member <NUM> is inserted into the first matching member <NUM> to implement insert engagement.

In some other implementations, the first matching member <NUM> is of a concave structure, the second matching member <NUM> is of a convex structure, and a limiting insert structure engaged with an outer surface of the second matching member <NUM> is disposed on an inner surface of the first matching member <NUM>. Referring to <FIG>, for example, one or more vertically stacked trapezoid structures are disposed on the inner surface of the first matching member <NUM>, and a width of an upper base of the trapezoid structure is less than a width of a lower base thereof. During mutual engagement, the second matching member <NUM> interacts with the first matching member <NUM>, and a relative position does not change. That is, the second matching member <NUM> cannot slide out from inside of the first matching member <NUM>.

In some other implementations, the first matching member <NUM> is of a concave structure, the second matching member <NUM> is of a convex structure, and the first matching member <NUM> and the second matching member <NUM> are of a threaded connection. Referring to <FIG>, during actual use, the second matching member <NUM> is adapted, by using an external thread disposed on an outer surface of the second matching member, to an internal thread disposed inside the first matching member <NUM> to complete corresponding fixing. This connection manner is a detachable connection.

In some other implementations, the first matching member <NUM> is of a concave structure, the second matching member <NUM> is of a convex structure, and the first matching member <NUM> and the second matching member <NUM> are of a magnetic attraction. That is, a concave surface of the first matching member <NUM> and a convex surface of the second matching member <NUM> are of two magnetic pole structures with opposite magnetism. After the second matching member <NUM> is inserted into the first matching member <NUM>, the two are attracted and connected to each other. This connection manner is a detachable connection. Referring to <FIG>, the first matching member <NUM> is provided with a columnar trapezoidal concave structure, the second matching member <NUM> is provided with a columnar trapezoidal convex structure matching the columnar trapezoidal concave structure, and a length of an upper base of a trapezoid is less than a length of a lower base thereof. A concave surface of the first matching member <NUM> and a convex surface of the second matching member <NUM> are of two magnetic pole structures with opposite magnetism. After the second matching member <NUM> is inserted into the first matching member <NUM>, the two are attracted and connected to each other.

In some other implementations, the first matching member <NUM> is of a concave structure, the second matching member <NUM> is of a convex structure, and the first matching member <NUM> and the second matching member <NUM> are of a tenon-and-mortise connection. That is, a concave surface of the first matching member <NUM> and a convex surface of the second matching member <NUM> are of two structures that are concave-convex matched, and the two are engaged with each other to complete fixing, which is similar to the engagement manner in <FIG>.

In some other implementations, the first matching member <NUM> is of a concave structure, and the second matching member <NUM> is of a convex structure, which is not limited herein, and the two may be of other structures as long as such structures can be engaged with each other and thus fixed. Alternatively, the first matching member <NUM> is of a convex structure, and the second matching member <NUM> is of a concave structure, which is not limited herein, and the two may be of other structures as long as such structures can be engaged with each other and thus fixed.

"Posterior region" is defined according to a classification of teeth in the 2nd edition of "<NPL>, and includes premolars and molars, teeth <NUM> to <NUM> are shown by using a foreign direct investment (FDI) marking method, and teeth <NUM> to <NUM> are shown by using the FDI marking method in an anterior region. In some embodiments, the functional component <NUM> connected on the shell-like dental appliance <NUM> may be only disposed in a premolar region, or may be only disposed in a molar region, or may be partially disposed in a premolar region and a molar region, or may be disposed in a part region of a premolar region and a molar region, or may be both disposed in a premolar region and a molar region.

The foregoing auxiliary orthodontic device for a shell-like dental appliance <NUM> is provided with a functional component <NUM> and a retaining component <NUM>, here the functional component <NUM> is set to have a corresponding auxiliary orthodontic function, and the retaining component <NUM> is set to have an effect of retaining the auxiliary orthodontic device and the shell-like dental appliance <NUM>. The retaining component <NUM> passes through the shell-like dental appliance <NUM> to be connected to the functional component <NUM>, or the functional component <NUM> passes through the shell-like dental appliance <NUM> to be connected to the retaining component <NUM>. Such a separated connection manner enables that cooperation between the auxiliary orthodontic device and the shell-like dental appliance <NUM> is more stable, that is, the shell-like dental appliance <NUM> is partially inserted into the auxiliary device, so that a connection between the two is stable. When engaged with the shell-like dental appliance <NUM> in use, the auxiliary orthodontic device can achieve the auxiliary orthodontic function more precisely without affecting an area of corresponding tooth wrapped by the shell-like dental appliance <NUM>, and further affecting an overall orthodontic effect of the shell-like dental appliance <NUM>. When being disposed on the shell-like dental appliance <NUM> to achieve the corresponding auxiliary orthodontic function, the auxiliary orthodontic device performs orthodontic treatment by using an overall force of the overall shell-like dental appliance <NUM> and the corresponding tooth, to implement the orthodontic treatment of overall dentition, and it avoids that the auxiliary orthodontic device is disposed on a single teeth, resulting in an unexpected orthodontic effect on an action of the single teeth. The auxiliary orthodontic device may be prepared through pre-forming, and is applicable to large-scale production, and a corresponding auxiliary orthodontic function is added according to orthodontic requirements, to avoid errors caused by a manual operation to affect the orthodontic effect. In addition, the auxiliary orthodontic device is made of a material that can be applied in a mouth, and is engaged with the shell-like dental appliance <NUM> by physical connection. This cannot cause uncertainty in use by a change of a material characteristic due to reprocessing.

In addition, in some embodiments, referring to <FIG>, in an alternative manner, the functional component <NUM> may alternatively be a tongue crib <NUM> for improving tongue habits. When the functional component <NUM> is the tongue crib <NUM> for improving tongue habits, the functional component <NUM> is disposed on a lingual side surface of the shell-like dental appliance <NUM>; and remaining structures may be the same as the structures described in any implementation described above.

In addition, in some embodiments, in an alternative manner, the functional component <NUM> may alternatively be a component for opening occlusion. Specifically, as shown in <FIG>, the functional component may be a jaw pad component <NUM> for opening occlusion or a flat guide component for opening occlusion, which may be disposed in the posterior region or the anterior region of the shell-like dental appliance <NUM>. In some embodiments, the jaw pad component <NUM> is disposed in the posterior region of the shell-like dental appliance <NUM>, and remaining structures may be the same as the structures described in any implementation described above. For a specific manner of cooperating the jaw pad component <NUM> with the shell-like dental appliance body, refer to <FIG>.

In addition, some embodiments of the present disclosure further provide a shell-like dental appliance, including: a shell-like dental appliance body and the auxiliary orthodontic device for a shell-like dental appliance <NUM> in any of the foregoing embodiments. The auxiliary orthodontic device includes a functional component <NUM> and a retaining component <NUM> provided separately from the functional component, here the retaining component <NUM> is connected to the functional component <NUM>, at least one of the functional component <NUM> and the retaining component <NUM> passes through a shell-like dental appliance <NUM>, the functional component <NUM> is retained on the shell-like dental appliance <NUM>, and the functional component <NUM> is disposed on an outer surface of the shell-like dental appliance <NUM>. During tooth orthodontic treatment, the auxiliary orthodontic device for a shell-like dental appliance is disposed on a labial surface or a lingual surface of the shell-like dental appliance <NUM> to achieve a corresponding auxiliary orthodontic function. For example, a traction member with a hooking function, a tongue crib for improving tongue habits or a component for opening occlusion completes the corresponding auxiliary orthodontic function. Specifically, when being the traction member <NUM>, as shown in <FIG>, the auxiliary orthodontic device may perform intramaxillary traction or intermaxillary traction; when being the tongue crib <NUM>, as shown in <FIG>, the auxiliary orthodontic device may improve patient's tongue habits to prevent a tongue from licking a disposition position; and when being a component for opening occlusion, and being specifically a jaw pad component <NUM> or a flat guide component, as shown in <FIG>, the auxiliary orthodontic device may open relative occlusion of patient's upper and lower jaws to perform occlusal reconstruction of the upper and lower jaws.

In addition, in some implementations, referring to <FIG>, the auxiliary orthodontic device has both the traction member <NUM> and the jaw pad component <NUM>, and may open occlusion and perform both intramaxillary traction or intermaxillary traction.

Some embodiments of the present disclosure further provide a tooth orthodontic system, including: a plurality of orthodontic appliances, here at least one of the orthodontic appliances is the shell-like dental appliance <NUM> described above. As the orthodontic process progresses, the auxiliary orthodontic device disposed on the shell-like dental appliance <NUM> gradually changes from an initial position to an orthodontic target position, and the auxiliary orthodontic device may be transformed in shape, size and position according to actual orthodontic requirements, or may be replaced with different auxiliary orthodontic devices according to actual orthodontic requirements, to achieve the expected orthodontic effect.

Claim 1:
An auxiliary orthodontic device for a shell-like dental appliance, comprising:
a functional component (<NUM>), and
a retaining component (<NUM>) provided separately from the functional component (<NUM>);
the retaining component (<NUM>) is connectable to the functional component (<NUM>);
wherein when the auxiliary orthodontic device is engaged with said shell-like dental appliance, at least one of the functional component (<NUM>) and the retaining component (<NUM>) passes through the shell-like dental appliance (<NUM>), the functional component (<NUM>) is retained on the shell-like dental appliance (<NUM>), and the functional component (<NUM>) is provided on an outer surface of the shell-like dental appliance (<NUM>),
wherein the functional component (<NUM>) is a traction member (<NUM>) with a hooking function,
characterized in that,
a surface of the functional component (<NUM>), adjacent to a labial side of the shell-like dental appliance (<NUM>) when assembled, is a curved surface consistent with a dental arch curve of the labial side of the shell-like dental appliance (<NUM>).