阅读说明：本技术 用于义齿上瓷的振动瓷粉笔及其上瓷方法 (Vibration porcelain powder pen for porcelain application on false tooth and porcelain application method ) 是由 郑全江 文洪达 涂浩 于 2021-07-23 设计创作，主要内容包括：本发明公开的用于义齿上瓷的振动瓷粉笔及其上瓷方法,包括：毛头组件,用于义齿模型堆砌及修饰瓷粉泥的过程中蘸取瓷粉泥、并对义齿模型表面粉刷瓷粉泥；笔杆体,一中空的便于手持的筒体、且前端设置有用于毛头组件插接固定的安装孔；笔杆体的中空腔体内安装有电池、控制板和偏心轮电机；笔杆体的外壁上或中空腔体内设置有与控制板电连接、用于控制偏心轮电机启停及按一定频率振动工作的开关组件；笔杆体调转180°后通过开关组件启动偏心轮电机,振动的笔杆体中后部触接用于夹持义齿模型的钳子来均匀振实或\和振落义齿模型上虚上的瓷粉泥；采用瓷粉蘸取和瓷粉振落一体化设计,振动频率和振动力度可控,有效提高瓷粉上瓷的厚薄均匀性和粘合密实性。(The invention discloses a vibrating porcelain powder pen for porcelain application on a false tooth and a porcelain application method thereof, wherein the vibrating porcelain powder pen comprises the following steps: the burr component is used for dipping the porcelain powder mud in the process of piling and modifying the denture model and brushing the porcelain powder mud on the surface of the denture model; the pen holder body is a hollow cylinder body convenient to hold by hand, and the front end of the pen holder body is provided with a mounting hole for splicing and fixing the hair head component; a battery, a control panel and an eccentric wheel motor are arranged in a hollow cavity of the pen holder body; a switch component which is electrically connected with the control board and is used for controlling the starting and stopping of the eccentric wheel motor and vibrating according to a certain frequency is arranged on the outer wall of the pen holder body or in the hollow cavity; after the penholder body is turned for 180 degrees, the eccentric wheel motor is started through the switch assembly, and the middle rear part of the vibrating penholder body is in contact with a pliers for clamping the denture model to uniformly tap or/and shake off the porcelain powder mud on the upper virtual part of the denture model; adopt the porcelain powder to dip in and get and the porcelain powder integration design that shakes, vibration frequency and vibration dynamics are controllable, effectively improve the thickness homogeneity and the bonding closely knit nature of porcelain on the porcelain powder.)

1. A vibration porcelain chalk for porcelain on artificial tooth, its characterized in that includes:

the burr component is used for dipping the porcelain powder mud in the process of piling and modifying the denture model and brushing the porcelain powder mud on the surface of the denture model;

the pen holder body is a hollow cylinder body convenient to hold by hand, and the front end of the pen holder body is provided with a mounting hole for fixing a hair component plug bush;

a battery, a control panel and an eccentric wheel motor are arranged in a hollow cavity of the pen holder body, and the battery, the control panel and the eccentric wheel motor are electrically connected through wires;

a switch assembly which is electrically connected with the control board and is used for controlling the starting and stopping of the eccentric wheel motor and vibrating to work according to a certain frequency is arranged on the outer wall of the pen holder body or in the middle cavity body;

after the penholder body is turned for 180 degrees, the eccentric wheel motor is started through the switch assembly, the penholder body is transmitted to continuously and synchronously vibrate according to a certain frequency, and the middle rear part of the vibrating penholder body is in contact with a clamp for clamping the false tooth model to uniformly compact or/and shake off the porcelain powder mud on the upper virtual part of the false tooth model.

2. The vibrating porcelain chalk for porcelain on dentures according to claim 1, characterized in that: the eccentric wheel motor, the control panel and the battery are sequentially fixedly arranged from the rear part to the front part of the hollow cavity of the pen holder body.

3. The vibrating porcelain chalk for porcelain on dentures according to claim 1, characterized in that: the pen holder body comprises a pen tail holder barrel and a holding holder barrel, a sealing ring is sleeved between the pen tail holder barrel and the holding holder barrel, and a capillary component is fixed at the front end of the holding holder barrel through an inserting sleeve.

4. The vibrating porcelain chalk for porcelain on dentures according to claim 3, characterized in that: and a magnetic charging interface or a plug-type charging interface which is connected with an external charging connector and used for charging a battery is arranged on the bottom end or the side wall surface of the pen tail rod barrel of the pen rod body.

5. The vibrating porcelain chalk for porcelain on dentures according to claim 1, characterized in that: the burr head assembly is a plurality of upper porcelain pencil points which can be detachably replaced with upper porcelain pencil points of different specifications according to requirements of different stages of the porcelain powder mud piled up and modified according to the false tooth model.

6. The vibrating porcelain chalk for porcelain on dentures according to claim 1, characterized in that: the switch assembly is a gravity sensing switch arranged on a control board in a hollow cavity of the pen holder body, and the gravity sensing switch vibrates according to a certain frequency through the control board and automatically controls the eccentric wheel motor after the pen holder body is turned for 180 degrees.

7. The vibrating porcelain chalk for porcelain on dentures according to claim 1, characterized in that: the switch component is a sliding switch key which is connected to the outer wall of the pen holder body in a sliding mode, controls the eccentric wheel motor to start and stop and controls the eccentric wheel motor to switch gears from low frequency intermediate frequency to high frequency, and the sliding switch key is electrically connected with the control panel.

8. The vibrating porcelain chalk for porcelain on dentures according to claim 1, characterized in that: the switch assembly is a wireless radio frequency controller arranged in a hollow cavity of the pen holder body, the wireless radio frequency controller is electrically connected with the control panel, and the corresponding outside of the pen holder body is provided with a remote controller which is in wireless communication with the wireless radio frequency controller and controls the starting, stopping and controlling of the eccentric wheel motor.

9. The vibrating porcelain chalk for porcelain on dentures according to claim 1, characterized in that: the eccentric wheel motor is a direct current driving motor.

10. The porcelain applying method of the vibration porcelain chalk for applying porcelain on the false tooth is characterized by comprising the following steps of:

step one, a pen holder body of the vibration porcelain chalk is held by a hand, and porcelain powder mud is dipped after the brush head assembly at the front end is used for wetting clear water:

secondly, stacking and modifying porcelain powder mud on the surface of the denture model clamped by the pliers;

thirdly, turning the pen holder body by 180 degrees, starting an eccentric wheel motor through a switch assembly, and transmitting the continuous and synchronous vibration of the pen holder body according to a certain frequency;

step four, the middle rear part of the vibrating penholder body is contacted with a pliers for clamping the denture model, and under the control of an operator, the porcelain powder mud on the upper virtual part of the denture model is uniformly compacted or/and vibrated;

and step five, continuously repeating the steps, and continuously stacking and modifying porcelain powder on the upper surface of the denture model to form a porcelain surface layer which has consistent thickness uniformity and is tightly bonded on the same plane.

11. The method of claim 10, further comprising the step of:

the switch assembly is a gravity sensing switch arranged on a control board in a hollow cavity of the pen holder body, and the gravity sensing switch vibrates according to a certain frequency through the control board and automatically controls the eccentric wheel motor after the pen holder body is turned for 180 degrees.

12. The method of claim 10, further comprising the step of:

the switch component is connected to the outer wall of the pen holder body in a sliding mode and is provided with a sliding switch key which controls the eccentric wheel motor to start and stop and works according to different frequencies, at least three gears which control the eccentric wheel motor and are switched from low frequency to medium frequency to high frequency are arranged on the sliding switch key, and an operator adjusts the vibration frequency of the pen holder body according to specific conditions during porcelain application.

[ technical field ] A method for producing a semiconductor device

The invention relates to a false tooth processing technology, in particular to a vibrating porcelain powder pen for porcelain application on a false tooth and a porcelain application method.

[ background of the invention ]

In clinical medicine, after a person's teeth fall off due to age or diseases, a method of installing dentures is required for treatment, the dentures are used to replace the teeth, and the processing of the dentures is very delicate and requires attention to not only the aesthetic degree of the dentures but also the safety quality of the dentures.

The existing false tooth manufacturing process generally comprises the steps of manually or automatically manufacturing a wax pattern, casting, manually applying porcelain, turning the porcelain, and finally finishing the processing of the false tooth; porcelain application to the false tooth is a more important step in false tooth processing, and porcelain application is to form an initial-stage porcelain tooth by using porcelain powder to stack the porcelain tooth and sintering the porcelain tooth in a porcelain oven; when porcelain is applied, firstly the false tooth model is cleaned, then porcelain powder is weighed, adhesive is mixed to adjust the dryness of porcelain clay, then holding the pliers and the porcelain applying pen with two hands respectively, using the pliers to clamp the false tooth model with one hand, holding the porcelain applying pen tightly with the other hand, dipping porcelain powder mud with certain dryness by using a hairy pen point at the front end of the porcelain applying pen, continuously stacking the porcelain powder mud on the false tooth model fixed by the pliers, in the process of piling and decorating the porcelain powder mud, the rod body needs to be continuously hit by a porcelain applying pen held by hand or other vibration, control the dynamics according to experience through last porcelain personnel and strike another hand pliers of holding between the fingers, shake through suitable vibration dynamics and frequency and fall the porcelain powder mud on the denture model upper virtual, guarantee that the porcelain powder mud of piling up on the denture model has the thickness degree of consistency on suitable bonding compactedness and the coplanar, reach and paint the porcelain powder on denture model surface and form the even and closely knit porcelain facing layer of one deck thickness.

The existing manual method for porcelain application on the false tooth has the disadvantages of complex process and poor preparation due to manual multi-station combined operation, low efficiency, waste of a large amount of porcelain powder, insufficient strength of the false tooth product, poor finished product and product quality reduction because the false tooth cannot be comprehensively collected and applied, and the attractiveness and practicability of the false tooth are reduced because the porcelain application is combined and applied in a multi-station manner, and the false tooth cannot be accurately and uniformly applied; moreover, the accuracy of artificial porcelain application depends too much on the proficiency and experience judgment of operators, so that the phenomenon that the thickness of the same plane of the same denture is uneven or the adhered porcelain powder is easy to fall off can occur, the reject ratio in the production process of artificial porcelain application is increased, and a large amount of manpower and material resources are wasted.

[ summary of the invention ]

The invention provides a vibrating porcelain powder pen for porcelain on false teeth and a porcelain applying method thereof, wherein the vibrating powder pen is designed to integrate porcelain powder dipping and porcelain powder shaking, the vibration frequency and the vibration force are controllable, and the thickness uniformity and the bonding compactness of porcelain on porcelain powder are effectively improved.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a vibrating porcelain chalk for porcelain on a denture, comprising:

the burr component is used for dipping the porcelain powder mud in the process of piling and modifying the denture model and brushing the porcelain powder mud on the surface of the denture model;

the pen holder body is a hollow cylinder body convenient to hold by hand, and the front end of the pen holder body is provided with a mounting hole for fixing a hair component plug bush;

a battery, a control panel and an eccentric wheel motor are arranged in a hollow cavity of the pen holder body, and the battery, the control panel and the eccentric wheel motor are electrically connected through wires;

a switch assembly which is electrically connected with the control board and is used for controlling the starting and stopping of the eccentric wheel motor and vibrating to work according to a certain frequency is arranged on the outer wall of the pen holder body or in the middle cavity body;

after the penholder body is turned for 180 degrees, the eccentric wheel motor is started through the switch assembly, the penholder body is transmitted to continuously and synchronously vibrate according to a certain frequency, and the middle rear part of the vibrating penholder body is in contact with a clamp for clamping the false tooth model to uniformly compact or/and shake off the porcelain powder mud on the upper virtual part of the false tooth model.

Furthermore, the eccentric wheel motor, the control panel and the battery are sequentially fixedly arranged from the rear part to the front part of the hollow cavity of the pen holder body.

Furthermore, the penholder body comprises a pentail holder barrel and a holder barrel, a sealing ring is sleeved between the pentail holder barrel and the holder barrel, and a capillary component is fixed on the front end plug bush of the holder barrel.

Furthermore, a magnetic charging interface or a plug-type charging interface which is connected with an external charging connector and used for charging a battery is arranged on the bottom end or the side wall surface of the pen tail rod barrel of the pen rod body.

Furthermore, the burr subassembly is a plurality of according to the needs of the artificial tooth model pile up and decorate the different stages of porcelain powder mud, the upper porcelain nib of porcelain nib on the different specifications of the detachable replacement of the body of pen front end.

Furthermore, the switch assembly is a gravity sensing switch arranged on a control board in a hollow cavity of the pen holder body, and the gravity sensing switch vibrates according to a certain frequency through the control board and automatically controls the eccentric wheel motor after the pen holder body is turned for 180 degrees.

Furthermore, the switch component is a sliding switch key which is connected to the outer wall of the pen holder body in a sliding mode, is used for controlling the eccentric wheel motor to start and stop and controlling the eccentric wheel motor to switch gears from low frequency to medium frequency, and at least three sliding switch keys are electrically connected with the control panel.

Further, the switch assembly is a wireless radio frequency controller arranged in the hollow cavity of the pen holder body, the wireless radio frequency controller is electrically connected with the control panel, and the corresponding outside of the pen holder body is provided with a remote controller which is in wireless communication with the wireless radio frequency controller and controls the starting, stopping and controlling of the eccentric wheel motor, and the eccentric wheel motor is switched from at least three gears from low frequency to medium frequency to high frequency.

Further, the eccentric wheel motor is a direct current driving motor.

The porcelain applying method of the vibration porcelain chalk for applying porcelain to the false tooth comprises the following steps:

step one, a penholder body of the vibrating porcelain chalk is held by a hand, and porcelain powder mud is dipped after clear water is wetted by a burr component at the front end;

secondly, stacking and modifying porcelain powder mud on the surface of the denture model clamped by the pliers;

thirdly, turning the pen holder body by 180 degrees, starting an eccentric wheel motor through a switch assembly, and transmitting the continuous and synchronous vibration of the pen holder body according to a certain frequency;

step four, the middle rear part of the vibrating penholder body is contacted with a pliers for clamping the denture model, and under the control of an operator, the porcelain powder mud on the upper virtual part of the denture model is uniformly compacted or/and vibrated;

and step five, continuously repeating the steps, and continuously stacking and modifying porcelain powder on the upper surface of the denture model to form a porcelain surface layer which has consistent thickness uniformity and is tightly bonded on the same plane.

Further, the third step further includes:

the switch assembly is a gravity sensing switch arranged on a control board in a hollow cavity of the pen holder body, and the gravity sensing switch vibrates according to a certain frequency through the control board and automatically controls the eccentric wheel motor after the pen holder body is turned for 180 degrees.

Further, the third step further includes:

the switch component is connected to the outer wall of the pen holder body in a sliding mode and is provided with a sliding switch key which controls the eccentric wheel motor to start and stop and works according to different frequencies, at least three gears which control the eccentric wheel motor and are switched from low frequency to medium frequency to high frequency are arranged on the sliding switch key, and an operator adjusts the vibration frequency of the pen holder body according to specific conditions during porcelain application.

The invention has the beneficial effects that:

through electric control's last porcelain pen, the rear portion touches the pliers that is used for centre gripping artificial tooth model in the body of a penholder of vibration, under operating personnel control, even tap and shake the porcelain powder mud on the artificial tooth model on the virtual, can guarantee that the porcelain on artificial tooth model surface evenly compacts, form the ceramic surface layer that the thickness degree of consistency on the one deck coplanar is unanimous and the bonding is closely knit, avoid artifical porcelain appearance error or too rely on operator's proficiency and experience to judge, the waste of porcelain powder has been avoided, a large amount of manpower and materials have been saved.

Moreover, the whole production process is simple, high in operability and good in consistency, the technical problem that the production quality of the traditional process is unstable is solved, the uniform thickness of the porcelain is ensured, the porcelain powder is strongly bonded with the denture model, the porcelain powder cannot easily fall off, and the quality of the product is effectively improved.

[ description of the drawings ]

FIG. 1 is a schematic illustration of an explosive structure according to the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic side view of the present invention;

fig. 5 is a partial sectional enlarged schematic view of another connection structure of the rear charging connector of the present invention.

[ detailed description ] embodiments

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

The vibration porcelain chalk for porcelain application on the false tooth comprises a hair assembly 1 and a pen holder body 2, wherein the hair assembly 1 is used for dipping porcelain powder mud in the process of stacking and modifying porcelain powder mud of the false tooth model and applying the porcelain powder mud on the surface of the false tooth model, the hair assembly 1 comprises five porcelain applying pen points which can detachably replace porcelain applying pen points with different specifications at the front end of the pen holder body 2 according to the requirements of different stages of stacking and modifying the porcelain powder mud of the false tooth model, and a sealing ring 3 is sleeved at the threaded connection part between the hair assembly 1 and the pen holder body 2; the penholder body 2 is a hollow cylinder body convenient to hold, and the front end of the penholder body 2 is provided with a mounting hole 4 for fixing the inserting sleeve of the burr component 1. A battery 5, a control board 6 and an eccentric wheel motor 7 are sequentially and fixedly arranged in a hollow cavity of the penholder body 2 from the rear part to the front part, the eccentric wheel motor 7 is a direct current driving motor with the rotating speed of 11000 +/-3000 rpm/min, the battery 5 is a 3.7V polymer lithium ion battery, a protection circuit for protecting the overcharge of the battery 5 is arranged on the control board 6, and the battery 5, the control board 6 and the eccentric wheel motor 7 are electrically connected through a lead; a switch component (not shown) electrically connected with the control board 6 and used for controlling the eccentric wheel motor 7 to start and stop and vibrate according to a certain frequency is arranged in the hollow cavity of the penholder body 2, in the embodiment, the switch component is a gravity sensing switch arranged on the control board 6 in the hollow cavity of the penholder body 2, and when the penholder body 2 is turned over for 180 degrees, the gravity sensing switch automatically controls the eccentric wheel motor 7 to vibrate according to a certain frequency after being started through the control board 6.

When the artificial tooth grinding machine is used, after the pen holder body 2 is turned for 180 degrees, the eccentric wheel motor 7 is started through the switch component, the eccentric wheel motor 7 and the pen holder body 2 vibrate continuously and synchronously according to a certain frequency, and the middle rear part of the vibrating pen holder body 2 is in contact connection with a pliers for clamping an artificial tooth model, so that the ceramic powder mud on the upper virtual part of the artificial tooth model is uniformly compacted and vibrated down. The whole production process is simple, high in operability and good in consistency, the technical problem that the production quality of the traditional process is unstable is solved, the thickness of the porcelain is uniform, the adhesion between the porcelain powder and the false tooth model is strong, the porcelain powder cannot fall off easily, and the quality of the product is effectively improved.

As shown in fig. 1 to fig. 3, the pen holder body 2 includes a pen tail holder barrel 20 and a holder barrel 21, a seal ring 3' is sleeved between the pen tail holder barrel 20 and the holder barrel 21, the pen tail holder barrel 20 and the holder barrel 21 are fixedly connected by a thread, the pen tail holder barrel 20 and the holder barrel 21 are both made of aluminum alloy metal barrels, and the burr component 1 is inserted and fixed in the mounting hole 4 at the front end of the holder barrel 21. As shown in fig. 4, a magnetic charging interface connected with an external charging connector for charging the battery 5 is further provided at the bottom end of the pen tail barrel 20; of course, as shown in fig. 5, a plug-type charging socket for charging the battery 5, which is connected to an external charging connector, may be further provided at the bottom end of the pen tail barrel 20 of the pen body 2. Or a magnetic charging interface or a plug-type charging interface which is connected with an external charging connector and charges the battery 5 is arranged on the side wall surface of the pen tail rod of the pen rod body 2.

In addition, different from the embodiment, the switch assembly adopts a sliding switch key which is connected on the outer wall of the pen holder body 2 in a sliding way and is provided with a function of controlling the eccentric wheel motor to start and stop and three functions of controlling the eccentric wheel motor to switch gears from low frequency, medium frequency to high frequency, and the sliding switch key is directly and electrically connected with the control panel through a lead. Or the switch component is a wireless radio frequency controller arranged in the hollow cavity of the pen holder body 2, the wireless radio frequency controller is electrically connected with the control board, and a remote controller which is in wireless communication with the wireless radio frequency controller, controls the start and stop of the eccentric wheel motor and controls the switching of the eccentric wheel motor from three gears of low frequency, medium frequency to high frequency is arranged outside the corresponding pen holder body 2.

The porcelain applying method of the vibration porcelain chalk for applying porcelain to the false tooth comprises the following steps:

step one, a penholder body 2 of the vibrating porcelain chalk is held by a hand, and porcelain powder mud is dipped after clear water is wetted by a burr component 1 at the front end;

secondly, stacking and modifying porcelain powder mud on the surface of the denture model clamped by the pliers;

thirdly, turning the penholder body 2 by 180 degrees, starting the eccentric wheel motor 7 through the switch assembly, and transmitting the continuous and synchronous vibration of the penholder body 2 according to a certain frequency; when the switch component is a gravity sensing switch arranged on a control plate 6 in the hollow cavity of the pen holder body 2, the gravity sensing switch is started and vibrates according to a certain frequency through the control plate 6 and an automatic control eccentric wheel motor 7 after the pen holder body is rotated by 2180 degrees;

step four, the middle rear part of the vibrating penholder body 2 is contacted with a pliers for clamping the false tooth model, and under the control of an operator, the porcelain powder mud on the upper virtual part of the false tooth model is uniformly compacted and vibrated down;

and step five, continuously repeating the steps, and continuously stacking and modifying porcelain powder on the upper surface of the denture model to form a porcelain surface layer which has consistent thickness uniformity and is tightly bonded on the same plane.

Of course, in step three, when the switch component is a sliding switch key connected to the outer wall of the pen holder body 2 in a sliding manner, an operator manually controls the sliding switch key to control the eccentric wheel motor to start and stop and to switch the gear frequency to work according to the low frequency, the medium frequency and the high frequency, and the vibration frequency of the pen holder body is adjusted according to the specific conditions during the porcelain applying process.

Through above process steps, adopt electric control's last porcelain pen, the pliers that the rear portion touched and was used for centre gripping artificial tooth model in the body of a penholder of vibration, under operating personnel control, even tap and shake the porcelain powder mud on the artificial tooth model of falling the virtual, can guarantee that the porcelain on artificial tooth model surface evenly compacts, the ceramic surface course that the thickness degree of consistency on the one deck coplanar is unanimous and the bonding is closely knit, avoid artifical porcelain appearance error or too rely on operator's proficiency and experience to judge, the waste of porcelain powder has been avoided, a large amount of manpower and materials have been saved.

In the description of the present invention, it should be noted that the terms "front", "back", "inside", "outside", and the like refer to the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship which the product of the present invention is conventionally placed in use, and are only for convenience of describing the present invention and simplifying the description, but do not refer to or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the invention, and all equivalent changes in shape, structure and principle of the invention should be covered by the protection scope of the present invention.