CN118067007B - False tooth overall dimension detecting system - Google Patents

Abstract

The invention relates to the technical field of denture size detection, and discloses a denture overall size detection system. The invention can pertinently adjust the observation angle of the false teeth according to the needs, automatically complete the appearance dimension detection process of a plurality of groups of false teeth, improve the production detection efficiency of the false teeth, and prolong the service life of the transmission part.

Description

False tooth overall dimension detecting system

Technical Field

The invention relates to the technical field of denture size detection, in particular to a denture overall dimension detection system.

Background

The false tooth is an artificially manufactured tooth, and the false tooth has the main function of replacing the missing teeth of a patient, so that the problems of inconvenient chewing, poor appearance and the like caused by the missing teeth are solved. The size of the denture has a great influence on the installation and use processes thereof, so that the denture needs to be observed and detected for its external size before leaving the factory, so as to ensure the quality of the product. In order to improve the efficiency of size detection, the staff can detect the sizes of the multiple groups of false teeth simultaneously, and when the multiple groups of false teeth are detected in size simultaneously, the false teeth are required to be fixedly arranged by corresponding false tooth detection equipment, so that the detection work can be conveniently observed.

Traditional denture detection equipment usually comprises installation piece and the bracing piece that has certain limit function, need be fixed its bracing piece with check out test set when carrying out the size detection to multiunit denture, need carry out the multi-angle to denture and observe the detection in addition at the in-process of carrying out the size observation detection to multiunit denture, but current denture detection equipment is not provided with angle adjustment mechanism, this just leads to needs the manual work to adjust the angle of denture one by one in actual work, serious influence detection efficiency.

In order to solve the above technical problems, a patent of denture detection setting device is disclosed, the publication number of which is: CN218035083U; according to the technical scheme, the worm is rotated to drive the worm wheel and the corresponding rotating shaft to rotate, one group of rotating shafts are driven to rotate while the belt pulley group is matched with the worm wheel, so that the support rod and the rubber block are driven to rotate, the adjustment of the observation angles of multiple groups of false teeth is realized, the time required for adjusting the angles of the false teeth is reduced, and convenience is brought to the observation and detection of the appearance and the size of the false teeth; in addition, this patent still utilizes the inside of spring promotion joint post card income joint groove when joint post and joint groove align, fixes installation piece and protective housing together to shelter from the protection to bracing piece and rubber piece, guarantee that equipment can not receive external factor's influence.

However, although the above patent realizes the technical effect of adjusting the observation angles of multiple groups of false teeth, the requirements of observation and detection on the external dimensions of the false teeth can be basically met, but in the above patent, each time the adjustment of the observation angles of the false teeth needs multiple false teeth to be linked at the same time, the transmission chain of the linked adjustment mode is longer, the transmission error is larger, the rotation angle of the worm cannot effectively correspond to the rotation angle of the false teeth, thereby affecting the accuracy of the adjustment of the observation angles and the accuracy of the detection of the external dimensions of the false teeth; in addition, the staff need rotate together with other dentures when adjusting the angle of each denture, and this increases the loss degree of part, and long-time use can cause the batch damage of part, increases the cost of denture production detection.

Disclosure of Invention

The invention aims to solve the problems, and designs a false tooth overall dimension detection system.

The technical scheme includes that the false tooth outline dimension detection system comprises a base, wherein the upper surface of the base is provided with a shell, the upper surface of the shell is provided with a through hole, a plug is arranged at the through hole, a power interface, a video interface and a control interface are arranged on the side surface of the base, a long groove is arranged on the upper surface of the base, the long groove is located in a range covered by the shell, an electric screw rod and a transverse plate are arranged in the long groove, the length direction of the transverse plate and the length direction of the electric screw rod are parallel to the length direction of the long groove, a movement detection unit is arranged on the electric screw rod, the movement detection unit can move along the length direction of the electric screw rod under the drive of the electric screw rod, a plurality of false tooth placement units are arranged on the transverse plate, the upper ends of the false tooth placement units can extend to the upper side of the shell through the through hole, the upper ends of the false tooth placement units can be placed, the lower ends of the movement detection units can be connected with the lower detection units through the rotating magnetic field, and the lower detection units can be connected with the lower detection units one another through the lower detection units to form an image acquisition unit.

The denture placement units are distributed on the transverse plate at equal intervals, the distance value between two adjacent denture placement units is a standard distance value, and the distance value moved by the electric screw rod driving the movement detection unit is equal to integer times of the standard distance value.

The mobile detection unit comprises a mobile seat, the mobile seat is a plate with an L-shaped shape, the left side face of the vertical part of the mobile seat is close to the electric screw rod, the left side face of the vertical part of the mobile seat is fixedly connected with a nut on the electric screw rod, a camera is installed on the vertical part of the mobile seat and is close to the top end of the vertical part of the mobile seat, when the denture placement unit descends, the camera can collect images of dentures and amplify the collected denture images to be displayed on a display, the horizontal part of the mobile seat extends to the lower part of the transverse plate, the position of the horizontal part of the mobile seat is lower than the position of the denture placement unit, when the electric screw rod drives the mobile seat to move, the horizontal part of the mobile seat can pass through the lower part of the denture placement unit one by one, a connecting rotating assembly is arranged on the horizontal part of the mobile seat, a magnetic field is generated after the connecting rotating assembly is electrified, the magnetic field attracts the denture placement unit to descend and form a connecting rotating assembly to be attached to the connecting rotating assembly, and the denture placement unit can rotate along with the connecting rotating assembly.

The connecting rotating assembly comprises a motor, a transmission belt and a fixed rod, wherein the motor is arranged on the horizontal part of the movable seat, a rotating shaft of the motor is positioned above the horizontal part of the movable seat, a driving wheel is arranged on the rotating shaft of the motor, the fixed rod is arranged on the horizontal part of the movable seat, the length direction of the fixed rod is parallel to the length direction of the rotating shaft of the motor, the position of the fixed rod is matched with the position of the false tooth placing unit, an electromagnet is embedded on the upper end face of the fixed rod, a bearing is sleeved on the fixed rod, a driven wheel is sleeved on the bearing, the position of the driven wheel is matched with the position of the driving wheel, the driven wheel is connected with the driving wheel through the transmission belt to form a transmission structure, the position of the upper surface of the driven wheel is matched with the position of the upper end face of the fixed rod, and the upper surface of the driven wheel is provided with concave-convex patterns for increasing friction force.

The electromagnet generates the magnetic field after being electrified and attracts the denture placing unit to descend, the denture placing unit is attached to the upper surface of the driven wheel under the action of the magnetic field, and the driven wheel can drive the denture placing unit to rotate through friction force.

The artificial tooth placing unit comprises a lifting rod and a connecting plate, wherein the lifting rod penetrates through the transverse plate, the lifting rod can conduct lifting action on the transverse plate, an upper limiting plate and a lower limiting plate are arranged on the lifting rod, the upper limiting plate is located above the transverse plate, the lower limiting plate is located below the transverse plate, a spring is sleeved on the lifting rod, the spring is located between the upper limiting plate and the transverse plate, the spring is kept in a compressed state, the upper end of the spring abuts against the lower surface of the upper limiting plate, the lower end of the spring abuts against the upper surface of the transverse plate, the connecting plate is parallel to the upper end face of the fixing rod, an armature is inlaid in the central area of the lower surface of the connecting plate, the position of the armature corresponds to that of the electromagnet, concave-convex patterns for increasing friction force are also arranged on the lower surface of the connecting plate, the concave-convex patterns on the lower surface of the connecting plate are arranged around the armature, the concave-convex patterns on the lower surface of the connecting plate are matched with the concave-convex patterns on the upper surface of the driven wheel, the upper end face of the connecting plate is connected with the upper end face of the connecting plate, and the rubber bearing block is used for mounting the artificial tooth.

The size of the rubber block is matched with the size of the through hole, the rubber block can extend to the upper side of the shell through the through hole, the distance value between the rubber block and the upper surface of the shell is smaller than the distance value between the lower surface of the connecting plate and the upper surface of the driven wheel, and the distance value between the lower surface of the connecting plate and the upper surface of the driven wheel is not more than five centimeters.

The connecting plate and the driven wheel are made of alloy materials, polyethylene materials or resin materials, and when the lower surface of the connecting plate is tightly attached to the upper surface of the driven wheel, the concave-convex patterns on the lower surface of the connecting plate are matched with the concave-convex patterns on the upper surface of the driven wheel, and the connecting plate is guaranteed to rotate along with the driven wheel.

Compared with the prior art, the invention has the following beneficial effects:

1. According to the invention, the electric screw rod is adopted to drive the camera and the connecting rotating assembly to reciprocate one by one to connect and drive the false teeth to rotate and collect false tooth images in a rotating state, the camera outputs the collected false tooth images to the display through the host machine to be amplified and displayed, and the false tooth images are amplified on the display according to proportion, so that the measurement of the overall dimension by workers is facilitated, the technical problem of large dimension measurement difficulty caused by too small dimension of the false teeth is effectively solved, the problem existing in the linkage adjustment process of the observation angle is avoided, and the requirement of the detection of the size of the false teeth can be better met;

2. According to the invention, the lifting rod is attracted by the magnetic force of the electromagnet to complete the descending action, so that the false tooth automatically retracts into the inner cavity of the shell to provide conditions for image acquisition of the camera, and meanwhile, the driven wheel drives the connecting plate to rotate by the cooperation of the magnetic force and the friction force, so that the effect of driving the lifting rod and the false tooth to rotate is realized, the efficiency of connection transmission is greatly improved, and the requirements of detecting the sizes of multiple groups of false teeth can be better met;

3. according to the invention, the shielding and protecting effects of the whole device are realized by adopting a mode that the shell, the through hole and the plug are mutually matched, after the detection work is finished, a worker utilizes the plug to uniformly press the upper ends of the rubber blocks and the lifting rod into the inner cavity of the shell, and meanwhile, the whole through hole is plugged, so that moisture and sundries are prevented from entering the inner cavity of the shell.

Drawings

FIG. 1 is a schematic diagram of a denture form factor detection system according to the present invention;

FIG. 2 is a schematic view of an exploded construction of the base and housing of the present invention;

FIG. 3 is a schematic cross-sectional view of the plane B-B of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the structure of FIG. 3 when the electromagnet is energized in accordance with the present invention;

FIG. 5 is a schematic view of a partial enlarged structure of the portion A in FIG. 3 according to the present invention;

FIG. 6 is a schematic view of a partial enlarged structure of the portion C in FIG. 4 according to the present invention;

In the figure, 1, a base; 2. a housing; 3. a through hole; 4. a plug; 5. a power interface; 6. a video interface; 7. a control interface; 8. a long groove; 9. an electric screw rod; 10. a cross plate; 11. a movable seat; 12. a camera; 13. a motor; 14. a transmission belt; 15. a fixed rod; 16. a driving wheel; 17. an electromagnet; 18. a bearing; 19. driven wheel; 20. a lifting rod; 21. a connecting plate; 22. an upper limit plate; 23. a lower limit plate; 24. a spring; 25. an armature; 26. rubber blocks.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, as shown in fig. 1 to 6;

The false tooth overall dimension detection system comprises a base 1, wherein the base 1 is of a rectangular block structure, the upper surface of the base 1 is provided with a shell 2, the shell 2 is a rectangular shell with an opening at the lower end, the size of the shell 2 is matched with that of the upper surface of the base 1, the shell 2 can cover the upper surface of the base 1, the opening at the lower end of the shell 2 is detachably connected with the upper surface of the base 1, the shell 2 is a shell made of transparent materials, the upper surface of the shell 2 is provided with a through hole 3, the through hole 3 is used for communicating the upper surface of the shell 2 with the inner cavity of the shell 2, the through hole 3 is a strip-shaped hole, the through hole 3 is arranged on the upper surface of the shell 2 in a left-to-right mode, a plug 4 is arranged at the through hole 3, the shape and the size of the plug 4 are matched with those of the through hole 3, the plug 4 can plug the through hole 3 and prevent moisture and sundries from entering the inner cavity of the shell 2 through the through hole 3, the front surface of the base 1 is provided with a power interface 5, a video interface 6 and a control interface 7, the power interface 5 is connected with the mains supply through a power line, the video interface 6 is connected with a host through a video line, the host presents video content output by the video interface 6 on a display, the control interface 7 is connected with the host through a control bus, the host receives a feedback signal or sends a control signal through the control bus and the control interface 7, the host is a computer host or an industrial personal computer, the upper surface of the base 1 is provided with a long groove 8, the long groove 8 is a rectangular groove, the long groove 8 is positioned in the range covered by the shell 2, the length direction of the long groove 8 is parallel to the length direction of the through hole 3, an electric screw rod 9 and a transverse plate 10 are arranged in the long groove 8, the electric screw rod 9 is close to the front surface of the long groove 8, the transverse plate 10 is close to the rear surface of the long groove 8, the transverse plate 10 is a strip-shaped plate, the length direction of the transverse plate 10 and the length direction of the electric screw rod 9 are both parallel to the length direction of the long groove 8, a movement detection unit is arranged on the electric screw rod 9 and can move along the length direction of the electric screw rod 9 under the driving of the electric screw rod 9, the position of the transverse plate 10 corresponds to the position of the through hole 3, the transverse plate 10 is positioned under the through hole 3, the transverse plate 10 is provided with a plurality of denture placement units, the denture placement units are arranged along the length direction of the transverse plate 10, the denture placement units can perform lifting action on the transverse plate 10, the positions of the denture placement units are matched with the positions of the through hole 3, when the through hole 3 is not plugged by the plug 4, the upper ends of the denture placement units can extend upwards to the upper part of the shell 2 through the through hole 3, the upper ends of the denture placement units can be used for placing dentures, the electric lead screw 9 and the movement detection units are connected with the mains supply through the power interface 5, the electric lead screw 9 and the movement detection units are connected with the host through the control interface 7, the plurality of movement detection units are connected with the host computer through the video interface 6, the electric screw rod 9 can drive the movement detection units to move left and right under the control of the host computer, the lower ends of the movement detection units can pass through the lower parts of the plurality of denture placement units one by one when moving, when the lower ends of the movement detection units move to the lower parts of one denture placement unit, the host computer can control the lower ends of the movement detection units to electrify and generate a magnetic field, the lower ends of the movement detection units attract one denture placement unit to descend through the magnetic field, the upper ends of one denture placement unit can retract into the inner cavity of the shell 2 with the dentures, the lower ends of the one denture placement unit and the lower ends of the movement detection units form a connecting structure, the lower end of the movable detection unit can drive a denture placement unit to rotate under the control of the host machine, the position of the denture is matched with the position of the movable detection unit, when the denture follows the denture placement unit to rotate, the movable detection unit can collect images of the denture under the control of the host machine and display the collected denture images on the display in an amplified mode, workers can directly observe and detect the outline dimensions of the denture on the display, the detection difficulty of the denture dimensions is effectively reduced, after the movable detection unit completes the image collection work of the denture, the lower end of the movable detection unit is powered off, the denture placement unit is lifted upwards, the upper end of the denture placement unit returns to the upper part of the shell 2 again, the movement detection unit moves to the next denture placement unit. Wherein, a plurality of denture placement units are equidistantly distributed on the transverse plate 10, the distance value between two adjacent denture placement units is a standard distance value, and the distance value moved by the electric screw 9 driving the movement detection unit is equal to the sum of a plurality of standard distance values.

In the technical scheme of the application, the mobile detection unit comprises a mobile seat 11, the mobile seat 11 is a plate with an L-shaped shape, the vertical part of the mobile seat 11 is vertical to the upper surface of the base 1, the vertical part of the mobile seat 11 is positioned between an electric screw rod 9 and a transverse plate 10, the left side surface of the vertical part of the mobile seat 11 is close to the electric screw rod 9, the left side surface of the vertical part of the mobile seat 11 is fixedly connected with a nut on the electric screw rod 9, the right side surface of the vertical part of the mobile seat 11 faces the transverse plate 10, a camera 12 is arranged on the right side surface of the vertical part of the mobile seat 11, the camera 12 is close to the top end of the vertical part of the mobile seat 11, when the denture placement unit descends, the camera 12 can acquire images of the dentures and transmit the images to a host, the power end of the camera 12 is connected with the mains through a power interface 5, the control end of the camera 12 is connected with the host through a control interface 7, the video signal output of camera 12 is connected with the host computer through video interface 6, the horizontal part of removal seat 11 is parallel with the upper surface of base 1, the horizontal part of removal seat 11 extends to the below of diaphragm 10, the position of removal seat 11 horizontal part is about to be less than the denture and places the position of unit, when electronic lead screw 9 drive removal seat 11 removes, the horizontal part of removal seat 11 can pass through the below of denture and place the unit one by one, be equipped with on the horizontal part of removal seat 11 and connect rotating assembly, connect rotating assembly and connect the commercial power through power interface 5, connect rotating assembly and be connected with the host computer through control interface 7, connect rotating assembly and switch on under the control of host computer and descend through magnetic attraction denture and form connection structure, connecting rotating assembly can take the denture to place the unit rotatory under the control of host computer.

It should be noted that, the connection rotating assembly includes the electrical machinery 13, the driving belt 14 and the fixed rod 15, the electrical machinery 13 is set up on the horizontal part of the movable seat, the electrical machinery 13 is close to the vertical part of the movable seat, the spindle of the electrical machinery 13 is located above the horizontal part of the movable seat, the spindle of the electrical machinery 13 is perpendicular to the horizontal part of the movable seat, install the driving wheel 16 on the spindle of the electrical machinery 13, the fixed rod 15 is a round rod, the fixed rod 15 is fixedly installed on the horizontal part of the movable seat, the length direction of the fixed rod 15 is perpendicular to the horizontal part of the movable seat, the position of the fixed rod 15 matches with the position of the false tooth placing unit, when the electric lead screw 9 drives the movable seat to move, the fixed rod 15 can pass through the lower part of the false tooth placing unit one by one, the fixed rod 15 can be aligned with the false tooth moving unit up and down and is located on the same vertical straight line, the upper end face of the fixed rod 15 has electromagnets 17, the upper end face of the fixed rod 15 is sleeved with bearings 18, the driven wheel 19 is sleeved with the driven wheel 16, the driven wheel 19 is matched with the position of the driving wheel 16, the driven wheel 19 is connected with the driving wheel 16 through the driving wheel 14 and 16 to form a transmission structure, the upper face is connected with the upper face of the bearing 19, the upper face of the fixed face 19 is adjacent to the upper face of the bearing 15, or the upper face of the fixed face of the driven wheel 19 is connected with the bearing 19 is fixed with the upper face of the bearing 15 by the bearing 19, the upper face of the fixed face of the bearing 19, which is fixed face is fixed, the upper face is fixed, and the surface is fixed; the power end of the motor 13 is connected with the power interface 5, the electromagnet 17 is connected with the power interface 5 through the relay, the control end of the motor 13 is connected with the host through the control interface 7, the relay is connected with the host through the control interface 7, the motor 13 and the electromagnet 17 work under the control of the host, the motor 13 drives the driving wheel 16 to rotate forward or reversely under the control of the host, the electromagnet 17 is electrified or powered off under the control of the host, when the electromagnet 17 is electrified, the electromagnet 17 can attract the denture placement unit to descend, the denture placement unit is attached to the upper surface of the driven wheel 19 under the attraction of the electromagnet 17, and the driven wheel 19 drives the denture placement unit to rotate through friction.

In the technical scheme of the application, the denture placement unit comprises a lifting rod 20 and a connecting plate 21, wherein the lifting rod 20 is a round rod, the lifting rod 20 penetrates through the transverse plate 10, the length direction of the lifting rod 20 is vertical to the upper surface of the base 1, the lifting rod 20 can implement lifting action on the transverse plate, an upper limit plate 22 and a lower limit plate 23 are arranged on the lifting rod 20, the upper limit plate 22 is positioned above the transverse plate 10, the lower limit plate 23 is positioned below the transverse plate 10, a spring 24 is sleeved on the lifting rod 20, the spring 24 is positioned between the upper limit plate 22 and the transverse plate 10, the spring 24 is kept in a compressed state, the upper end of the spring 24 props against the lower surface of the upper limit plate 22, the lower end of the spring 24 props against the upper surface of the transverse plate 10, the connecting plate 21 is parallel to the upper surface of the base 1, an armature 25 is embedded in the central area of the lower surface of the connecting plate 21, the armature 25 corresponds to the position of the electromagnet 17, the lower surface of the connecting plate 21 is provided with a concave-convex pattern for increasing friction force, the armature 25 is arranged on the lower surface of the connecting plate 21, the driven wheel pattern is matched with the size of the driven wheel 19, the upper end face of the connecting plate is matched with the size of the driven wheel 19, the upper end face of the connecting plate 19 is matched with the upper end face of the bearing block 26 of the upper surface of the connecting plate 20, and the bearing block 20 is used for bearing the rubber; it should be noted that the size of the rubber block 26 is matched with the size of the through hole 3, when the electromagnet 17 is not electrified, the upper limit plate 22 is pushed to be close to the through hole 3 by the elastic force of the spring 24, the upper end of the lifting rod 20 and the rubber block 26 extend to the upper side of the shell 2 through the through hole 3, the lower limit plate 23 is attached to the lower surface of the transverse plate 10, the lower surface of the connecting plate 21 is separated from the upper surface of the driven wheel 19, the distance between the rubber block 26 and the upper surface of the shell 2 is smaller than the distance between the lower surface of the connecting plate 21 and the upper surface of the driven wheel 19, the distance between the lower surface of the connecting plate 21 and the upper surface of the driven wheel 19 is not more than five centimeters, when the electromagnet 17 is electrified, the armature 25 is attracted by the magnetic force of the electromagnet 17, the lifting rod 20 drives the upper limit plate 22 to compress the spring 24 to perform the descending motion, and the lifting rod 20 stops the descending motion after the lower surface of the connecting plate 21 is tightly attached to the upper surface of the driven wheel 19.

It should be noted that, the connection plate 21 and the driven wheel 19 are made of alloy materials, polyethylene materials or resin materials, and when the lower surface of the connection plate 21 is tightly attached to the upper surface of the driven wheel 19, the concave-convex pattern on the lower surface of the connection plate 21 is matched with the concave-convex pattern on the upper surface of the driven wheel 19, so that the connection plate 21 can rotate along with the driven wheel 19.

The electronic devices adopted by the technical scheme are all existing products, and the technical scheme of the application has no special requirements and changes on the structure of the electronic devices;

In the implementation process of the technical scheme, the person skilled in the art needs to connect all the electric components in the scheme with the power supply matched with the electric components through wires, and proper controllers are selected according to actual conditions so as to meet control requirements. The specific connection and control sequence should refer to the working principle of the technical scheme and the sequence of the working among the electric parts, and the detailed connection means are known in the art. The technical scheme mainly introduces the working principle and the process, and no description is given to the electrical control.

When the external dimensions of a plurality of groups of false teeth are detected, firstly, the plugs 4 are removed, at the moment, a plurality of rubber blocks 26 rise to the upper part of the shell 2 through the through holes 3 under the action of the elastic force of the springs 24, a worker aligns grooves at the root parts of the false teeth with the rubber blocks 26 one by one, then presses the false teeth downwards to fix the false teeth with the corresponding rubber blocks 26 together, then starts the electric screw 9, the electric screw 9 drives the movable seat 11 to be close to the false teeth to be observed, when the horizontal part of the movable seat 11 reaches the lower part of the corresponding false tooth placing unit, the electromagnet 17 is electrified and adsorbs the armature 25, the armature 25 carries the connecting plate 21, the lifting rod 20, the rubber blocks 26 and the lower surface of the connecting plate 21 are synchronously lowered until the lower surface of the upper limiting plate 22 is attached to the upper surface of the driven wheel 19, at the moment, the upper limiting plate 22 compresses the springs 24 downwards, the lower limiting plate 23 is separated from the lower surface of the transverse plate 10, the lens of the camera 12 faces the false teeth, then the motor 13 is started, the driving wheel 16 carries the driven wheel 19 to rotate, the connecting plate 21, the lifting rod 20, the upper limiting plate 22, the lower limiting plate 26 and the false teeth 19 rotate, the driven wheel 19 are all the driven wheel, the image is acquired, the image is displayed, the size is displayed, and the image is displayed, and the size is displayed and the image is effectively enlarged, and the image is displayed on the image is displayed after the image is displayed and the image is displayed on the detector; after the observation and detection of the external dimension of the denture is completed, the electric screw rod 9 drives the movable seat 11 to move towards the denture placing unit where the next denture is located and repeats the above process until the observation and detection of a plurality of groups of dentures are completed, finally, the electric screw rod 9 drives the movable seat 11 to reset, the staff takes down all dentures and plugs the through holes 3 with plugs 4, all denture placing units are placed in the inner cavity of the shell 2, and the whole automatic detection process is finished.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The term "comprising" an element defined by the term "comprising" does not exclude the presence of other identical elements in a process, method, article or apparatus that comprises the element.

The above technical solution only represents the preferred technical solution of the present invention, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present invention, and the technical solution falls within the scope of the present invention.

Claims (7)

1. The utility model provides a denture overall dimension detecting system, includes base (1), the upper surface of base (1) is equipped with shell (2), the upper surface of shell (2) is equipped with through-hole (3), through-hole (3) department disposes end cap (4), be equipped with power source (5), video interface (6) and control interface (7) on the side surface of base (1), the upper surface of base (1) is equipped with elongated slot (8), elongated slot (8) are located the within range that shell (2) covers, characterized in that, be equipped with electric lead screw (9) and diaphragm (10) in elongated slot (8), the length direction of diaphragm (10) with the length direction of electric lead screw (9) is all parallel with the length direction of elongated slot (8), install the removal detecting element on electric lead screw (9), the removal detecting element can be along the length direction of electric lead screw (9), be equipped with a plurality of denture placing element on diaphragm (10), a plurality of denture placing element all can place the unit and place the denture placing element can place the denture on the side of the end of unit (3 when the end can place the denture placing on the side of the diaphragm (2) one by one the side the end of the side of the unit can place when the unit is placed to the end of denture placing (3), the utility model discloses a false tooth device, including movable detection unit, shell (2) and electric lead screw (9), the lower extreme of movable detection unit circular telegram back can attract one the false tooth is placed the unit and descends, one the upper end of false tooth is placed the unit can take the false tooth to retract in the inner chamber of shell (2), one the lower extreme of false tooth is placed the unit with the lower extreme laminating of movable detection unit forms connection structure, the lower extreme of movable detection unit can drive one the false tooth is placed the unit and is rotatory, movable detection unit can gather the image of false tooth when rotatory and utilize the image to measure the overall dimension of false tooth, a plurality of the false tooth is placed the unit and is in equidistance distributes on diaphragm (10), and the distance value between the adjacent two the false tooth is placed the distance value of standard distance value, electric lead screw (9) drive the distance value that movable detection unit equals the integer multiple of standard distance value.

2. The denture physical dimension detection system according to claim 1, wherein the movement detection unit comprises a movement seat (11), the movement seat (11) is a plate with an L-shaped shape, the left side surface of the vertical part of the movement seat (11) is close to the electric screw rod (9), the left side surface of the vertical part of the movement seat (11) is fixedly connected with a nut on the electric screw rod (9), a camera (12) is installed on the vertical part of the movement seat (11), the camera (12) is close to the top end of the vertical part of the movement seat (11), when the denture placement unit descends, the camera (12) can collect images of dentures and enlarge the collected denture images on a display, the horizontal part of the movement seat (11) extends to the lower side of the transverse plate (10), the horizontal part of the movement seat (11) is lower than the position of the denture placement unit, when the electric screw rod (9) drives the movement seat (11) to move, the horizontal part of the movement seat (11) can be connected with the rotating assembly through the rotating assembly one by one, and the rotating assembly is connected with the rotating assembly.

3. The denture physical dimension detection system according to claim 2, wherein the connecting and rotating assembly comprises a motor (13), a transmission belt (14) and a fixed rod (15), the motor (13) is arranged on the horizontal part of the movable seat, a rotating shaft of the motor (13) is positioned above the horizontal part of the movable seat, a driving wheel (16) is arranged on the rotating shaft of the motor (13), the fixed rod (15) is arranged on the horizontal part of the movable seat, the length direction of the fixed rod (15) is parallel to the length direction of the rotating shaft of the motor (13), the position of the fixed rod (15) is matched with the position of the denture placement unit, an electromagnet (17) is embedded on the upper end face of the fixed rod (15), a bearing (18) is sleeved on the fixed rod (15), a driven wheel (19) is sleeved on the bearing (18), the position of the driven wheel (19) is matched with the position of the driving wheel (16), the driven wheel (19) is connected with the driving wheel (16) through the transmission belt (14), and the surface of the driven wheel (19) is provided with an increased friction force on the surface of the driven wheel (19).

4. A denture form factor detection system according to claim 3, wherein said electromagnet (17) generates said magnetic field upon energization and attracts the denture placement unit to descend, said denture placement unit being attached to the upper surface of said driven wheel (19) by the action of said magnetic field, said driven wheel (19) being capable of rotating said denture placement unit by friction.

5. The denture form factor detection system according to claim 4, wherein the denture placement unit comprises a lifting rod (20) and a connecting plate (21), wherein the lifting rod (20) penetrates through the transverse plate (10), the lifting rod (20) can perform lifting action on the transverse plate, an upper limit plate (22) and a lower limit plate (23) are arranged on the lifting rod (20), the upper limit plate (22) is positioned above the transverse plate (10), the lower limit plate (23) is positioned below the transverse plate (10), a spring (24) is sleeved on the lifting rod (20), the spring (24) is positioned between the upper limit plate (22) and the transverse plate (10), the spring (24) is kept in a compressed state, the upper end of the spring (24) props against the lower surface of the upper limit plate (22), the lower end of the spring (24) abuts against the upper surface of the transverse plate (10), the connecting plate (21) is positioned below the transverse plate (10), the connecting plate (21) is also provided with a pattern corresponding to the center of the connecting plate (25) of the electromagnet (21), the friction area (25) is embedded on the surface of the connecting plate (25), the concave-convex patterns on the lower surface of the connecting plate (21) are arranged around the armature (25), the concave-convex patterns on the lower surface of the connecting plate (21) are matched with the concave-convex patterns on the upper surface of the driven wheel (19), the upper surface of the connecting plate (21) is connected with the lower end surface of the lifting rod (20), and a rubber block (26) is arranged on the upper end surface of the lifting rod (20).

6. Denture form factor detection system according to claim 5, characterized in that the size of the rubber block (26) is matched with the size of the through hole (3), the rubber block (26) can extend to the upper side of the shell (2) through the through hole (3), and the distance between the rubber block (26) and the upper surface of the shell (2) is smaller than the distance between the lower surface of the connecting plate (21) and the upper surface of the driven wheel (19).

7. The denture physical dimension detecting system according to claim 6, wherein the connecting plate (21) and the driven wheel (19) are made of alloy material, polyethylene material or resin material, and when the lower surface of the connecting plate (21) and the upper surface of the driven wheel (19) are tightly attached, the concave-convex pattern of the lower surface of the connecting plate (21) and the concave-convex pattern of the upper surface of the driven wheel (19) are matched and ensure that the connecting plate (21) can rotate along with the driven wheel (19).