Tooth orthodontic auxiliary device
阅读说明:本技术 一种牙齿正畸辅助装置 (Tooth orthodontic auxiliary device ) 是由 胡跃华 赵磊 马文辉 管建军 辛金星 刘娟 于 2020-08-19 设计创作,主要内容包括:一种牙齿正畸辅助装置,涉及牙齿正畸技术领域,牙齿正畸辅助装置包括咬合机构、控制机构、振动驱动机构和光学驱动机构,咬合机构能够放置于口腔内,咬合机构安装有光发生器;咬合机构与振动驱动机构连接,光发生器与光学驱动机构连接;振动驱动机构和光学驱动机构分别与控制机构电连接;控制机构用于控制振动驱动机构带动咬合机构产生振动,和控制光学驱动机构驱动光发生器产生光。光发生器在光驱动机构的控制下,可产生特定波段的光。所述牙齿正畸辅助装置通过振动与光照提高牙齿的移动速度和降低牙齿的痛感,以加快牙齿正畸的周期和提高舒适度。(A tooth orthodontic auxiliary device relates to the technical field of tooth orthodontics, and comprises an occlusion mechanism, a control mechanism, a vibration driving mechanism and an optical driving mechanism, wherein the occlusion mechanism can be placed in an oral cavity and is provided with an optical generator; the occlusion mechanism is connected with the vibration driving mechanism, and the optical generator is connected with the optical driving mechanism; the vibration driving mechanism and the optical driving mechanism are respectively electrically connected with the control mechanism; the control mechanism is used for controlling the vibration driving mechanism to drive the occlusion mechanism to generate vibration and controlling the optical driving mechanism to drive the optical generator to generate light. The light generator can generate light with a specific wave band under the control of the light driving mechanism. The tooth orthodontic auxiliary device improves the moving speed of teeth and reduces the pain of the teeth through vibration and illumination, so that the tooth orthodontic period is accelerated, and the comfort level is improved.)
1. A tooth orthodontic auxiliary device is characterized by comprising an occlusion mechanism, a control mechanism, a vibration driving mechanism and an optical driving mechanism, wherein the occlusion mechanism is configured to be placed in an oral cavity, and the occlusion mechanism is provided with a light generator corresponding to the position of periodontal tissues in the oral cavity; the occlusion mechanism is connected with the vibration driving mechanism, and an optical generator of the occlusion mechanism is connected with the optical driving mechanism; the vibration driving mechanism and the optical driving mechanism are respectively electrically connected with the control mechanism; the control mechanism is used for controlling the vibration driving mechanism to drive the meshing mechanism to generate vibration; the control mechanism is used for controlling the optical driving mechanism to drive the light generator to generate light.
2. The orthodontic auxiliary device of claim 1, further comprising a main housing, wherein the control mechanism and the vibration driving mechanism are both mounted on the main housing, and the vibration driving mechanism and the occlusion mechanism are connected through a vibration conducting piece.
3. The orthodontic auxiliary device according to claim 2, wherein the biting mechanism is provided with a receiving cavity in which a partial structure of the vibration conduction piece is embedded.
4. The orthodontic auxiliary device according to claim 1, further comprising a power supply mechanism connected to the control mechanism, the vibration driving mechanism and the optical driving mechanism, respectively;
the power supply mechanism comprises a battery pack, and a voltage stabilizing circuit and a power supply adjusting circuit which are electrically connected with the battery pack.
5. The orthodontic auxiliary device of claim 1, wherein the bite mechanism comprises a base plate and a bite plate, wherein a first side of the base plate is configured to fit with a periodontal shape in the oral cavity, and corners of the base plate and the bite plate are each provided with a chamfer, wherein the chamfer is a round chamfer or a gradual chamfer consisting of a plurality of planes; the occlusion plate is connected with the base plate at a set angle, and the light generator and the occlusion plate are both arranged on the first side surface of the base plate;
the two opposite side edges of the substrate are respectively provided with a V-shaped notch which is sunken from outside to inside, and the two V-shaped notches are respectively positioned on two sides of the occlusal plate.
6. The orthodontic auxiliary device of claim 5, wherein the bite plate divides the base plate into an upper region configured to oppose upper periodontal tissue and a lower region configured to oppose lower periodontal tissue; the light generator comprises a plurality of light emitting pieces, and the upper layer area and the lower layer area are respectively provided with a plurality of light emitting pieces.
7. The orthodontic auxiliary device according to claim 6, wherein an auxiliary lighting plate is further connected to the bite plate, and the auxiliary lighting plate is also provided with the luminous member, and the luminous member of the auxiliary lighting plate is used to irradiate the periodontal region toward the side within the oral cavity.
8. The orthodontic auxiliary device as claimed in claim 6 or 7, wherein a plurality of the luminous members are formed into a plurality of luminous matrices, and the plurality of the luminous members are respectively connected to the optical driving mechanism; the optical driving mechanism can independently control each light-emitting piece or each light-emitting matrix formed by the light-emitting pieces.
9. The orthodontic auxiliary device of claim 1, further comprising a wireless transmission module, wherein the wireless transmission module is electrically connected with the control mechanism, the wireless transmission module is used for being in signal connection with a mobile terminal, and the mobile terminal is at least used for inputting a control command to control the control mechanism and recording and displaying relevant data information of vibration time, vibration frequency, illumination time, light intensity, treated time, residual treatment time and historical treatment process of the orthodontic auxiliary device.
10. The orthodontic auxiliary device of claim 1, wherein the control mechanism is provided with a control switch for switching the operation modes by the control mechanism, wherein the operation modes at least comprise a vibration mode, an illumination mode and a vibration illumination combination mode;
the control mechanism is also connected with an indicator light.
Technical Field
The invention relates to the field of tooth orthodontics, in particular to a tooth orthodontics auxiliary device.
Background
Orthodontics (Orthodontics) is the correction of teeth, relief of malposition and deformity. The orthodontic treatment can achieve the effect of beautifying teeth.
The length of the orthodontic time varies according to the orthodontic degree of teeth, but the time is at least more than 6 months even for relatively light deformity correction children, and the adult orthodontic treatment usually needs 2-3 years. The fundamental reason is that the existing orthodontic method uses the mechanical means of the aligner, and the mechanical structure of the aligner is adjusted at intervals, so that the teeth are orderly and beautifully arranged. Also, after mechanical adjustment of the aligner, the teeth may experience significant pain.
In conclusion, the existing orthodontic treatment needs a long time and the process is painful.
Disclosure of Invention
The invention aims to provide an orthodontic auxiliary device which can irradiate light and vibrate teeth so as to shorten orthodontic period and reduce tooth pain.
The invention is realized by the following steps:
a dental orthodontic auxiliary device comprises an occlusion mechanism, a control mechanism, a vibration driving mechanism and an optical driving mechanism, wherein the occlusion mechanism is configured to be placed in an oral cavity, and the occlusion mechanism is provided with an optical generator corresponding to the position of periodontal tissues in the oral cavity; the occlusion mechanism is connected with the vibration driving mechanism, and an optical generator of the occlusion mechanism is connected with the optical driving mechanism; the vibration driving mechanism and the optical driving mechanism are respectively electrically connected with the control mechanism; the control mechanism is used for controlling the vibration driving mechanism to drive the meshing mechanism to generate vibration; the control mechanism is used for controlling the optical driving mechanism to drive the light generator to generate light.
Further, the control mechanism is used for controlling the vibration driving mechanism to drive the meshing mechanism to generate vibration with amplitude, frequency and time variation; the control mechanism is used for controlling the optical driving mechanism to drive the light generator to generate light with amplitude, frequency and time variation; the control mechanism can generate a vibration signal and an optical signal which are in interactive fit with each other so as to control the work of the vibration driving mechanism and the work of the optical driving mechanism respectively.
Further, the vibration driving signal generated by the control mechanism can generate vibration interval prompting information at a certain time interval.
Further, the light generator emits light of a predetermined wavelength to increase the secretion of Adenosine Triphosphate (ATP) enzyme in the periodontal tissue cells, thereby promoting ATP production and accelerating the growth of the periodontal tissue cells. The light generator emits light with a set wavelength to promote the growth of the new capillary blood vessels around the periodontal tissue and provide more nutrients for the growth of the periodontal tissue cells. The vibration stimulation can promote the growth of periodontal ligament. The light and vibration stimulation with set wavelength can inhibit the secretion of inflammatory cytokines such as cyclooxygenase-2 and interleukin-1, thereby playing the roles of diminishing inflammation and easing pain.
Preferably, the wavelength of the light generated by the light generator is 650nm to 950 nm.
In a possible embodiment, the orthodontic auxiliary device further comprises a main machine housing, the control mechanism and the vibration driving mechanism are both installed in the main machine housing, and the vibration driving mechanism and the occlusion mechanism are connected through a vibration conduction piece.
In one possible embodiment, the main housing comprises a first half-shell and a second half-shell, the edge region of the first half-shell being snap-connected to the edge region of the second half-shell.
Furthermore, a clamping groove is formed in the side face of the first half shell, a clamping block is arranged on the side face of the second half shell, and the clamping block can stretch into the clamping groove.
In a possible embodiment, the engagement mechanism is provided with a receiving cavity, into which a partial structure of the vibration conduction sheet is embedded. So set up for vibration conduction piece is bigger with the area of contact of interlock mechanism, and vibration transmission is more even.
In one possible embodiment, the orthodontic auxiliary device further comprises a power supply mechanism, and the power supply mechanism is respectively connected with the control mechanism, the vibration driving mechanism and the optical driving mechanism. The power supply mechanism comprises a battery pack, a voltage stabilizing circuit and a power supply adjusting circuit, wherein the battery pack is electrically connected with the voltage stabilizing circuit and the power supply adjusting circuit respectively, and the power supply mechanism is used for providing electric energy for the control mechanism, the vibration driving mechanism and the light generator and providing protection of undervoltage, overcurrent, overvoltage and the like.
In a possible embodiment, the bite mechanism comprises a base plate and a bite plate, the first side of the base plate is configured to fit with the periodontal shape in the oral cavity, and corners of the base plate and the bite plate are both provided with chamfers, and the chamfers are round chamfers or gradual chamfers consisting of a plurality of planes; the occlusion plate and the base plate are connected at a set angle, and the light generator and the occlusion plate are both arranged on the first side surface of the base plate. The base plate and the bite plate have certain flexibility and can be adapted to oral cavities with different shapes and sizes.
Furthermore, the two opposite side edges of the substrate are respectively provided with a V-shaped notch which is sunken from outside to inside, and the two V-shaped notches are respectively positioned at two sides of the bite plate.
Further, two V-shaped indentations are symmetrically arranged with respect to the bite plate. The bending part of the V-shaped notch is in arc transition.
In one possible embodiment, the bite plate divides the base plate into an upper region configured to cover all of the upper periodontal tissue and a lower region configured to cover all of the lower periodontal tissue; the light generator includes a plurality of light-emitting members, the upper region with the lower floor region all is provided with a plurality of light-emitting members.
In a possible embodiment, an auxiliary lighting plate is further connected to the bite plate, and the auxiliary lighting plate is also provided with the luminous member, and the luminous member of the auxiliary lighting plate is used for irradiating the periodontal area toward one side in the oral cavity. Thereby realizing irradiation of tissues in the oral cavity from multiple angles.
The plurality of light-emitting pieces form a plurality of light-emitting matrixes and are respectively connected with the optical driving mechanism; the optical driving mechanism can independently control the amplitude, frequency and time of the light emitted by each light-emitting piece or each light-emitting matrix.
The arrangement is such that, in the using process, the optical driving mechanism can independently control one or more light-emitting elements or light-emitting matrixes, or the optical driving mechanism synchronously controls a plurality of light-emitting elements in one or more light-emitting matrixes. Thereby realizing the irradiation aiming at different tissue parts of the oral cavity respectively.
In a possible implementation, the engaging mechanism is provided with a first inserting portion, the host casing is provided with a second inserting portion, the second inserting portion is inserted into the jack of the first inserting portion, the second inserting portion has an inner cavity, and the vibration driving mechanism is installed in the inner cavity. With the arrangement, the distance between the vibration driving mechanism and the meshing mechanism is shorter, so that the length of the vibration conduction piece can be set to be shorter, and the energy loss in the vibration transmission process is reduced.
In a possible embodiment, the orthodontic auxiliary device further comprises a wireless transmission module, the wireless transmission module is electrically connected with the control mechanism, the wireless transmission module is used for being in signal connection with a mobile terminal, and the mobile terminal is at least used for inputting a control command to control the control mechanism and recording and displaying the related state information of the amplitude, the frequency, the time period and the like of the vibration driving mechanism and the optical driving mechanism.
Preferably, the wireless transmission module comprises a bluetooth module, a WiFi module, a cellular mobile communication module or other wireless transmission modules.
Further, when the control mechanism comprises a circuit board, the bluetooth module, the WiFi module, the cellular mobile communication module or other wireless transmission modules are integrated on the circuit board.
In a possible embodiment, the control mechanism is provided with a control switch for switching the working modes by the control mechanism, and the working modes at least include a vibration mode, an illumination mode and a vibration illumination combination mode.
Further, the control mechanism is also connected with an indicator light.
The indicating lamp is used for indicating the state, and the control mechanism can send a control signal to the indicating lamp, so that the indicating lamp can indicate the states of a vibration state, an illumination and vibration combined state, a standby state, an undervoltage state, time interval prompt information and the like through the change of the color and the flicker of light.
The indicator light can be arranged on the first shell surface and the second shell surface;
alternatively, the indicator light may be mounted to the control mechanism, i.e. the indicator light is located inside the main housing, and the light of the indicator light may penetrate through the main housing. Specifically, the main body case may be made of a transparent material, a light shielding layer is coated on an inner side of the main body case, and a region opposite to the indicator lamp is not coated with the light shielding layer, so that only the indicator lamp can be seen on an outer side of the main body case, and other structures cannot be seen. Or, set up the through-hole on the host computer casing, the light of pilot lamp can follow the through-hole and spill out. Or, a pressing part is arranged on the area of the host shell opposite to the control switch, specifically, an arc-shaped through hole is formed in the host shell, the area surrounded by the arc-shaped through hole is the pressing part, part of the pressing part is connected with other parts of the host shell, and part of the pressing part is a free end, so that the pressing part can be pressed inwards to press the control switch positioned on the inner side of the host shell. The indicator light can be arranged around the control switch, so that the light of the indicator light is emitted out through the arc-shaped through hole.
Further, the vibration mode further includes a plurality of vibration levels, and different vibration levels correspond to different vibration frequencies, or different vibration levels correspond to different amplitudes. The illumination mode further comprises a plurality of illumination levels, wherein different illumination levels correspond to different illumination areas, or different illumination levels correspond to light rays with different wavelengths.
The beneficial effects of the invention at least comprise:
in use, the articulating mechanism is placed into the mouth and the teeth are used to bite the articulating mechanism. In the use process, the controller controls the light generator to emit light through the light driving mechanism, and the light irradiates tissues in the oral cavity, so that CCO (cytochrome C oxidase) stimulating the tissues in the oral cavity (particularly periodontal tissues right opposite to the light generator) enhances absorption of photons, proton pumping and ATP (adenosine triphosphate) generation, and the increase of cell energy leads cells to have higher metabolic activity. The illumination can promote the generation of nitric oxide, accelerate the growth of new capillary vessels, provide more nutrient supply for periodontal tissues, improve the metabolic activity of cells, accelerate the osteogenesis process and the osteoclastic process of alveolar bones, and thus, teeth can move faster under the action of external force. The controller can control the vibration driving mechanism to drive the occlusion mechanism to move, so that the teeth are driven to vibrate, the growth and metabolism of periodontal ligament are improved, and the moving speed of the teeth is improved.
The irradiation of light to gingival tissue and the vibration of high frequency can inhibit the secretion of inflammatory cytokines such as cyclooxygenase-2 and interleukin-1, thereby playing the role of diminishing inflammation and relieving pain.
In conclusion, use the orthodontic auxiliary device that this application provided at the in-process of carrying out just abnormal, can choose independent vibration mode, illumination mode or vibration illumination mode of combining according to the demand, improve the removal speed of tooth to accelerate just abnormal speed, reduce the tooth pain.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.
Fig. 1 is a first structural view of an orthodontic auxiliary device according to a first embodiment of the invention;
fig. 2 is a second structural view of the orthodontic auxiliary device according to the first embodiment of the invention;
fig. 3 is a third schematic structural view of the orthodontic auxiliary device according to the first embodiment of the invention;
fig. 4 is a fourth structural view of the orthodontic auxiliary device according to the first embodiment of the invention;
fig. 5 is a fifth structural view of the orthodontic auxiliary device according to the first embodiment of the invention;
FIG. 6 is a first schematic diagram illustrating a relative position relationship between a vibration conducting sheet and a light generator according to a first embodiment of the present invention;
FIG. 7 is a second schematic diagram illustrating a relative position relationship between a vibration conducting piece and a light generator according to a first embodiment of the present invention;
fig. 8 is a schematic diagram showing the relative positions of the second half shell, the control mechanism, the power supply mechanism and the engagement mechanism according to the first embodiment of the present invention;
fig. 9 is a schematic diagram showing the relative positions of the control mechanism, the power supply mechanism and the engagement mechanism according to the first embodiment of the present invention;
fig. 10 is a schematic structural view of a control mechanism according to a first embodiment of the present invention;
FIG. 11 is a first half-shell according to a first embodiment of the present invention;
fig. 12 is a second schematic structural view of the first half-shell according to the first embodiment of the present invention;
fig. 13 is a first schematic view illustrating a relative position relationship between the second housing half and the engaging mechanism according to the first embodiment of the present invention;
fig. 14 is a second schematic view illustrating a relative position relationship between the second half-shell and the engagement mechanism according to the first embodiment of the present invention;
FIG. 15 is a schematic diagram illustrating a group control of a light generator according to a first embodiment of the present invention;
fig. 16 is a first structural view of an orthodontic auxiliary device according to a second embodiment of the invention;
fig. 17 is a second structural view of an orthodontic auxiliary device according to a second embodiment of the invention;
fig. 18 is a third schematic structural view of an orthodontic auxiliary device according to a second embodiment of the invention;
fig. 19 is a fourth structural view of the orthodontic auxiliary device according to the second embodiment of the invention;
fig. 20 is a fifth structural view of an orthodontic auxiliary device according to a second embodiment of the present invention.
In the figure: 100-an engagement mechanism; 110-a substrate; 111-a first side; 112-a second side; a 113-V notch; 114-chamfering; 120-bite plates; 121-a limiting bulge; 130-a first mating portion; 131-a first insertion end; 132-a second mating end; 140-auxiliary lighting board; 200-a main machine shell; 210-a first half-shell; 211-a pressing part; 212-bumps; 213-card slot; 214-a stop collar; 215-limit insert; 216-a restraining post; 220-a second half-shell; 221-a first positioning column; 222-second positioning column; 223-through holes; 224-a cartridge; 225-limit slot; 230-a second mating portion; 310-a PCB; 311-first positioning hole; 312-a limit opening; 320-a wireless transmission module; 330-board to board connector; 340-a control switch; 350-indicator light; 360-probe; 400-a light generator; 410-a first light emitting element; 420-a second glowing member; 430-flexible circuit board; 440-a third glowing member; 450-an optical drive mechanism; 510-a vibration drive mechanism; 511-a third positioning hole; 520-a vibration conducting sheet; 521-first section; 522-a second section; 523-second positioning hole; 600-power supply mechanism.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.
In the description of the present invention, it should be noted that the terms "first", "second", "third", and the like are used only for distinguishing the description, and are not intended to indicate or imply relative importance. Furthermore, the terms "horizontal", "vertical" and the like do not imply that the components are required to be absolutely horizontal or pendant, but rather may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.
In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Some embodiments of the invention are described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.
First embodiment
Referring to fig. 1 to 7, the present embodiment provides an orthodontic auxiliary device, which includes an
Further, the control mechanism may control any one or more of the amplitude, frequency, and time of the vibration generated by the vibration driving mechanism 510 to change, and may change the amplitude, frequency, and time of the light generated by the light generator 400. The control mechanism is capable of generating a vibration signal and an optical signal that are interfitted to control the operation of the vibration drive mechanism 510 and the optical drive mechanism 450, respectively.
Specifically, the orthodontic auxiliary device provided by the application at least comprises three working modes, namely: vibration mode, illumination mode, and combination of vibration and illumination mode.
When the orthodontic auxiliary device is in the vibration mode, the vibration driving mechanism 510 is activated and drives the biting
When the orthodontic auxiliary device is in the light mode, the light generator 400 emits a set light. At this time, the vibration driving mechanism 510 is in a closed state.
When the orthodontic auxiliary device is in the vibration and illumination combined mode, the vibration driving mechanism 510 is activated, and at the same time, the light generator 400 emits the setting light.
The principle of the adjuvant therapy in which the light generator 400 emits light to irradiate the oral cavity is that the light generator 400 emits light of a predetermined wavelength to irradiate the tissues inside the oral cavity, thereby stimulating CCO (cytochrome C oxidase) of the tissues inside the oral cavity (particularly, periodontal tissues directly opposite to the light generator 400) to enhance absorption of photons, proton pumping, and increase ATP generation, and the increase of cell energy causes cells to have higher metabolic activity. The illumination can promote the generation of nitric oxide, accelerate the growth of new capillary vessels, provide more nutrient supply for periodontal tissues, improve the metabolic activity of cells, accelerate the osteogenesis process and the osteoclastic process of alveolar bones, and thus, teeth can move faster under the action of external force.
In the vibration and illumination combined mode, the vibration driving mechanism 510 generates a mechanical signal with fixed frequency and acceleration to act on the teeth, and the mechanical signal is combined with the light emitted by the light generator 400 to act on the teeth together, so as to accelerate the moving speed of the teeth.
In a preferred embodiment of this embodiment, the light generator 400 emits light having a wavelength of 650nm to 950 nm.
In a preferred embodiment of this embodiment, the vibration drive mechanism 510 comprises a motor, preferably a high frequency micro-vibration motor.
In one possible embodiment, in order to facilitate the installation of the control mechanism and the vibration driving mechanism 510, the orthodontic auxiliary device further includes a
The
Preferably, the
As shown in fig. 8 and 9, in one possible embodiment, the orthodontic auxiliary device further includes a
The
In another embodiment, the
As shown in fig. 1-4, in one possible embodiment, the
In use, the
As shown in fig. 1, the
As shown in fig. 4, the plate surface of the
For example, in fig. 4, the middle region of the upper edge of the
Preferably, the
Of course, in another arrangement, the limiting protrusion 121 is disposed on the bottom edge of the
In a preferred embodiment,
Further, the upper region is configured to cover the entire upper periodontal tissue and the lower region is configured to cover the entire lower periodontal tissue.
The plurality of light emitting elements may form one or more light emitting matrices, and one light emitting matrix includes one or more light emitting elements.
The light emitting elements are connected to the optical driving mechanism 450, the optical driving mechanism 450 can control the light emitting elements independently, and the optical driving mechanism 450 can control the light emitting matrices to control the light emitting elements in the light emitting matrices synchronously.
For example, as shown in fig. 7, all the light emitting elements on the
So configured, when the illumination mode is used, only the first
Further, in a possible embodiment, the plurality of first
For example, as shown in fig. 7, the first
Or, in the using process, the optical driving mechanism 450 may drive the single first light-emitting
Of course, the light emitting matrix may not be divided into the upper layer region and the lower layer region, and the same light emitting element may be included in different light emitting matrices. For example, as shown in fig. 15, the upper three rows are first
In the light emitting matrixes of the four regions A1, A2, B1 and B2, part of the light emitting elements in the light emitting matrix of the region A1 belong to the light emitting matrix of the region B1, and part of the light emitting elements in the light emitting matrix of the region B2; part of the luminescent elements in the luminescent matrix of region a2 belong to the luminescent matrix of region B1 and part to the luminescent matrix of region B2.
The number and range of the light emitting matrices of the light generator 400 may be divided into various settings before shipment, and one of the settings may be selected by a user during use. Alternatively, each first light-emitting
In one possible embodiment, the
As shown in fig. 6, in a preferred embodiment, the
In one possible embodiment, as shown in fig. 1 and 14, the engaging
Specifically, the
In one embodiment, the control mechanism includes a circuit board, preferably a PCB (printed circuit board) 310, and a control module integrated with the
As shown in fig. 6 and 7, preferably, the light generator 400 is mounted to a
In this embodiment, the engaging
In one possible embodiment, the orthodontic auxiliary device further comprises a wireless transmission module 320, the wireless transmission module 320 is electrically connected with the control mechanism, the wireless transmission module 320 is used for being in signal connection with a mobile terminal, and the mobile terminal is used for inputting a control command to control the control mechanism.
So configured, the mobile terminal can control the control mechanism and record and display the use time and use state of the vibration driving mechanism 510 and the optical driving mechanism 450. For example, the mobile terminal is provided with application software matched with the orthodontic auxiliary device, the switching of the working mode can be carried out by inputting information in the application software, the functional mode can be customized, for example, whether the functional mode is used for illumination or not can be set, if the functional mode is used for illumination, any one or more light-emitting members for emitting light rays or any one or more light-emitting matrixes can be further selected, and a user can also customize certain light-emitting members to belong to the same light-emitting matrix. The illumination time may also be selected, the wavelength of the emitted light selected, continuous illumination, intermittent illumination or alternating illumination between several light emitting matrices. Whether or not to perform vibration may be selected, and if the vibration is performed, the vibration frequency, the vibration amplitude, the vibration duration, and continuous vibration or intermittent vibration may be further selected. Further, data information such as vibration time, vibration frequency, illumination time, light intensity, treatment time, remaining treatment time, historical treatment process and the like can be recorded and displayed through the mobile terminal.
The wireless transmission module 320 may include one or more of a bluetooth module, a WiFi module, a cellular mobile communication module, or other wireless transmission modules. Preferably, as shown in fig. 8 to 10, the wireless transmission module includes a bluetooth module. Further, when the control mechanism includes the PCB310, the bluetooth module is integrated with the
Further, the PCB310 is connected with a
With continued reference to fig. 8-10, in a possible embodiment, the control mechanism is provided with a
Further, the vibration mode further includes a plurality of vibration levels, and different vibration levels correspond to different vibration frequencies, or different vibration levels correspond to different amplitudes. The illumination mode further comprises a plurality of illumination levels, wherein different illumination levels correspond to different illumination areas, or different illumination levels correspond to light rays with different light intensities.
By the arrangement, the on-off and mode selection of the orthodontic auxiliary device can be controlled by the
The
Further, as shown in fig. 11 and 12, a
As shown in fig. 1 and 11, the
Further, as shown in fig. 8 and 10, an indicator lamp 350 is connected to the control mechanism.
The indicator 350 is used for indicating the status, and the control mechanism can send a control signal to the indicator 350 to make the indicator 350 indicate the status of vibration, illumination, combination of illumination and vibration, standby status, under-voltage status, time interval prompt message, etc. through the change of light color and flicker.
The indicator light 350 may be mounted to the first housing surface or the second housing surface; alternatively, the indicator lamp 350 may be installed in the control mechanism, that is, the indicator lamp 350 is located inside the
For example, in one embodiment, the indicator light 350 is integrated on the circuit board, and the indicator light 350 may be an LED light bead. The indicator 350 is located beside the
Further, a limiting
In one possible embodiment, as shown in fig. 11 to 14, the
Further, a locking
As shown in fig. 11 and 12, the
The first half-
As shown in fig. 1 and 6, a
In one embodiment, the second housing half 220 is provided with a first positioning post 221, the first positioning post 221 is provided with a first positioning hole 311 on the board surface of the circuit board, and the first positioning post 221 passes through the first positioning hole 311. A position-limiting
Further, as shown in fig. 8 and 9, the
Further, a second positioning post 222 is disposed on the second half-shell 220, a second positioning hole 523 is disposed on the
Alternatively, in another specific embodiment, the first positioning column 221 and the second positioning column 222 may be hollow structures, an opening of the hollow cavity of the first positioning column 221 is opposite to the first positioning hole 311, and an opening of the hollow cavity of the second positioning column 222 is opposite to the second positioning hole 523. The hollow first positioning column 221 and the second positioning column 222 are used for passing screws through, so as to connect the second half-shell 220 with the circuit board by the screws, and connect the second half-shell 220, the vibration driving mechanism 510 and the
The orthodontic auxiliary device (hereinafter referred to as the device) at least comprises the following working processes in the using process:
the
The
After the working mode is selected, the indicator light 350 flashes once every 1S, the device enters the selected working mode for working after 5S, in the working process, every 60S, the vibration driving mechanism 510 drives the engagement mechanism to vibrate and remind once (if the working mode is the vibration mode, the vibration frequency or the vibration amplitude is greater than that in the vibration mode when the vibration reminding is performed, so that a user can distinguish the time as the reminding), and the indicator light 350 flashes once to remind the user of the progress of the working mode. After 5 minutes, the device automatically stops working, enters a standby state, and the indicator lamp 350 is turned off.
Second embodiment
The present embodiment provides a dental orthodontic auxiliary device, which is a further improvement on the first embodiment, the technical solution described in the first embodiment also belongs to the second embodiment, and the technical solution described in the first embodiment is not described again.
As shown in fig. 15 to 20, in the orthodontic auxiliary device according to the present embodiment, the auxiliary
One or more third
In one possible embodiment, the
As shown in fig. 16 to 18, the auxiliary
In a preferred embodiment, the plate surface of the
Further, the number of the third
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
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