CN115415891A

CN115415891A - False tooth manufacturing equipment and manufacturing process thereof

Info

Publication number: CN115415891A
Application number: CN202211052679.XA
Authority: CN
Inventors: 杨眉; 刘芳
Original assignee: Shaoxing Keheng Medical Technology Co ltd
Current assignee: Shaoxing Keheng Medical Technology Co ltd
Priority date: 2022-08-31
Filing date: 2022-08-31
Publication date: 2022-12-02
Anticipated expiration: 2042-08-31
Also published as: CN115415891B

Abstract

The invention relates to the technical field of false teeth and discloses false tooth manufacturing equipment and a manufacturing process thereof. According to the artificial tooth grinding block, the plurality of groups of grinding block main bodies which can bear the artificial tooth grinding block main bodies and are distributed in an annular mode are arranged on the inner side of the supporting main table, the appearance and the grinding function of each group of grinding block main bodies can be freely disassembled and replaced through the bolts, the grinding block main bodies with different appearance structures can be rotated to positions to be ground by utilizing the driving of the servo motor, and compared with a grinding mode of a single grinding piece of a comparison file, the artificial tooth grinding block can be used for grinding artificial teeth in different degrees and different modes.

Description

False tooth manufacturing equipment and manufacturing process thereof

Technical Field

The invention relates to the technical field of false teeth, in particular to false tooth manufacturing equipment and a manufacturing process thereof.

Background

The false tooth is an artificial tooth for replacing lost natural teeth, also called false tooth, severe periodontal disease, decayed tooth and trauma, which can cause partial or even complete loss of dentition, and the loss of teeth can affect the face, pronunciation and chewing functions, increase the gastrointestinal burden, and if the teeth are not repaired in time, the adjacent teeth can be inclined and displaced, and the jaw teeth can be elongated, so that the occlusion is disordered.

Found through patent search, publication no: CN112496959B is a denture manufacturing process and its manufacturing equipment, it will wait to cut the dental model to place on the dental model clamping component, clamping part laminating area is great, there is certain shielding influence in the grinding process of denture, the piece of polishing does not have ability faster, the denture generally its appearance imitates the artificial tooth, and the tooth surface of artificial tooth generally has the sunken structure of some positions, the area of sunken can not be polished accurately to the great piece of polishing, and the less piece of polishing its efficiency of polishing to whole denture is lower.

Disclosure of Invention

Technical problem to be solved

In view of the above-mentioned disadvantages of the prior art, the present invention provides a denture manufacturing apparatus and a manufacturing process thereof, which can effectively solve the problems of the prior art.

(II) technical scheme

In order to realize the purpose, the invention is realized by the following technical scheme:

the invention discloses denture manufacturing equipment and a manufacturing process thereof, and the denture manufacturing equipment comprises a supporting main platform, a polishing block main body which is arranged below the supporting main platform and used for polishing dentures, a rotating platform which is arranged at the upper end of the polishing block main body in a reinforcing way through bolts, a transmission block which is arranged above the supporting main platform and can be connected with the top of the rotating platform, and a driving motor which is arranged at the upper end part of the transmission block and used for driving the transmission block to rotate, wherein a top upright post which is used for supporting the supporting main platform is arranged at one side of the supporting main platform, a height adjusting mechanism which can drive the driving motor to longitudinally move is arranged at one side of the top upright post close to the supporting main platform, a rotating adjusting mechanism which can support a plurality of groups of polishing block main bodies which do not need to be in shape and size is arranged at the inner side of the supporting main platform, and a tooth block slot which allows the transmission block to be inserted is arranged at the upper end of the rotating platform.

Furthermore, the upper half part of the tooth block slot is in an outward arc shape, and the lower half part of the tooth block slot is consistent with the shape of the transmission block and is matched with the transmission block in size.

Furthermore, the height adjusting mechanism comprises a screw rod connecting plate fixedly connected with the driving motor base and a ball longitudinal screw rod which is arranged in a groove on one side of the top upright post close to the supporting main platform and is connected with one end of the moving part far away from the supporting main platform and the screw rod connecting plate.

Furthermore, the rotation adjusting mechanism comprises a support inner platform, a main platform convex ring, a main platform groove, an inner platform convex ring and an inner platform groove, the main platform convex ring is arranged on the inner side wall of the support main platform, the support inner platform is arranged on the annular inner side of the support main platform, the main platform groove is fixed on the annular outer wall of the support inner platform, the main platform groove is connected with the main platform convex ring in a sliding mode, the inner platform convex ring is fixed on the outer side wall of the rotating platform, the inner platform groove is arranged on the inner side wall of the inner platform hole, and the inner platform convex ring is connected with the inner platform groove in a sliding mode.

Furthermore, an electric driving mechanism is arranged below the supporting main table, the electric driving mechanism comprises a servo motor fixed at the bottom of the supporting main table and a fluted disc fixed on the outer wall of the supporting inner table and positioned below the convex ring of the main table, and the output end of the servo motor is meshed and connected with the fluted disc distributed annularly.

Further, a bottom pillar is fixed to the bottom of the top pillar, and a supporting base plate of a plate structure is fixed to the bottom of the bottom pillar.

Furthermore, an electric push rod is arranged below the grinding block main body, a vertical plate seat is fixed on a base of the electric push rod through bolts, vertical plate side seats are fixed on two sides of the vertical plate seat, a supporting plate body is fixed on the top of each vertical plate side seat, an automatic clamping mechanism used for clamping false teeth is arranged at the output end of the electric push rod, the automatic clamping mechanism comprises a push rod connecting rod, a push rod auxiliary rod and a clamping rod, one end of the push rod connecting rod is movably connected with the output end of the electric push rod, a jack is formed in the surface of the supporting plate body, the clamping rod is inserted into the jack of the supporting plate body in a sliding mode, the push rod auxiliary rod is connected to one end, far away from the electric push rod, of the push rod connecting rod, the contact point of the push rod auxiliary rod and the push rod connecting rod is movably connected with the surface of the supporting plate body through a rotating shaft, and a ball transverse screw rod driving the vertical plate side seats to transversely move is arranged on the side wall of the supporting base plate.

Furthermore, the side block body is fixed on the side wall of the front end of the clamping rod, a clamping rod is fixed on one side wall of the side block body far away from the clamping rod, a clamping sleeve rod is sleeved at one end of the clamping rod far away from the side block body, the inner wall of the clamping sleeve rod is provided with a spring body connected with the clamping rod, a vertical plate seat is connected to one side wall of the clamping sleeve rod far away from the side block body through a rotating shaft, and a roller body motor capable of driving the clamping roller to rotate is arranged on the other side wall of the clamping sleeve rod.

Furthermore, a groove is formed in the front end of the clamping rod, a clamping push rod is fixed in the groove, and the output end of the clamping push rod is connected with a tooth block clamping block body through a bolt.

A denture manufacturing process is applied to denture manufacturing equipment and comprises the following steps:

s1, placing the false tooth to be processed at the upper position of an electric push rod, starting the electric push rod simultaneously, enabling two groups of clamping rods at the top of the electric push rod to be close to the false tooth, finally attaching the surfaces of the false tooth through clamping rollers at two sides, and then driving a tooth block body to be attached to the surfaces of the clamping rollers by utilizing the clamping push rod;

s2, enabling a ball longitudinal screw rod on one side of the top upright post to be far away through screw rod transmission to enable a screw rod connecting plate to move downwards, enabling a polishing block main body with polishing capacity to move downwards to enable a transmission block to be clamped into a tooth block slot, then enabling the bottom upright post to pull the top upright post to move downwards to enable the polishing block main body to be attached to a false tooth to be polished, and then starting a driving motor to drive the transmission block and the polishing block main body to rotate to polish;

s3, lifting the screw rod connecting plate and simultaneously lifting the bottom upright post to the top upright post after one group of grinding block main bodies are ground, starting a servo motor, driving a fluted disc in meshed connection by the servo motor to enable a supporting inner table to rotate on the inner side of a supporting main table, and enabling the other group of grinding block main bodies with different shapes and sizes to move to the upper side of the false tooth to realize subsequent grinding work;

s4, along with the polishing of the polishing block main body, the horizontal screw rod of the ball is far away from the upper horizontal movement which can enable the vertical plate side seat to move above the push rod auxiliary rod through screw rod transmission, the polishing block main body is enabled to act on the position, close to the side edge, of the surface of the false tooth, then the electric push rod drives the clamping rod to move reversely for a certain distance and keeps the clamping roller not to be separated from the surface of the false tooth, the clamping push rod retracts the tooth block clamping block body and simultaneously starts a roller motor, the clamping roller can roll along the overflowing surface after rotating, and the polishing position of the false tooth is adjusted.

(III) advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

1. the grinding block main bodies which can bear multiple groups and are distributed annularly are arranged on the inner side of the supporting main table, the appearance and the grinding function of each group of grinding block main bodies can be freely disassembled and replaced through bolts, the grinding block main bodies with different appearance structures can be driven by the servo motor to rotate to positions to be ground, automatic replacement is achieved, compared with a grinding mode of a single grinding piece of a comparison file, grinding processing of different degrees and modes can be conducted on the false tooth, grinding of smaller areas of the false tooth can be conducted more accurately, and grinding of larger surface areas of the false tooth can be conducted more quickly.

2. The clamping rollers on the two sides are used for clamping the denture in the middle, and the clamping rollers are arranged in a roller manner, can be used for rotating the clamped denture by using a roller motor and are matched with the screw rod transmission of the ball transverse screw rod, so that the denture can be clamped and polished in multiple ranges by a smaller structure.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a bottom view of the support main table of the present invention;

FIG. 4 is a structural diagram of a fluted disc according to the present invention;

FIG. 5 is a schematic view of a rotary table according to the present invention;

FIG. 6 is an internal view of the tooth block slot of the present invention;

FIG. 7 is a schematic view of the structure of the pinch roll of the present invention;

FIG. 8 is an internal view of the clamping sleeve of the present invention;

the reference numerals in the drawings denote: 1. supporting a main table; 2. supporting the inner platform; 3. a main platform convex ring; 4. a main platform groove; 5. a fluted disc; 6. a servo motor; 7. an inner platform hole; 8. a rotating table; 9. an inner boss convex ring; 10. an inner platform groove; 11. a top upright post; 12. a longitudinal ball screw; 13. a screw rod connecting plate; 14. a transmission block; 15. an active motor; 16. a tooth block slot; 17. a bottom pillar; 18. erecting a plate body; 19. a vertical plate seat; 20. a side seat of the vertical plate; 21. a ball cross screw; 22. an electric push rod; 23. a push rod connecting rod; 242. a push rod sub-rod; 25. a clamping rod; 26. a side block body; 27. a clamping rod; 28. clamping the sleeve rod; 29. a chucking roller; 30. a roller body motor; 31. clamping the push rod; 32. a tooth block clamping block body; 33. a spring body; 34. a support bed plate; 35. the sanding block main body.

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. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all 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 present invention will be further described with reference to the following examples.

Examples

The denture manufacturing equipment and the manufacturing process thereof comprise a supporting main platform 1, a polishing block main body 35 which is arranged below the supporting main platform 1 and used for polishing the denture, a rotating platform 8 which is arranged at the upper end of the polishing block main body 35 in a reinforcing way through a bolt, the rotating platform 8 is used for being connected with the polishing block main body 35, the upper part of the polishing block main body 35 is provided with a jack which corresponds to the lower half part of the rotating platform 8, the polishing block main body 35 is inserted at the bottom end of the rotating platform 8, then the polishing block main body 35 and the rotating platform 8 can be combined by connecting an insertion rod with two groups of jacks, a transmission block 14 which is in a cross shape and is arranged above the supporting main platform 1 and can be connected with the top of the rotating platform 8, and an active motor 15 which is used for driving the transmission block 14 to rotate, one side of the supporting main platform 1 is provided with a top upright post 11 which is used for supporting the supporting main platform 1, and one side of the top upright post 11 close to the supporting main table 1 is provided with a height adjusting mechanism which can drive the driving motor 15 to longitudinally move, the height adjusting mechanism comprises a screw rod connecting plate 13 fixedly connected with the base of the driving motor 15 and a ball longitudinal screw rod 12 which is arranged in a groove on one side of the top upright post 11 close to the supporting main table 1 and has a moving part connected with one end of the screw rod connecting plate 13 far away from the supporting main table 1, the screw rod connecting plate 13 can longitudinally move along the lateral position of the top upright post 11 through the screw rod transmission of the ball longitudinal screw rod 12, when the screw rod connecting plate 13 moves downwards, the driving motor 15 can be driven to downwards move, otherwise, the driving motor 15 can move upwards, when the driving motor 15 moves downwards, the driving block 14 can be inserted above the rotating table 8, so that the driving motor 15 can drive the rotating table 8 to rotate to drive the main body 35 of the polishing block to polish, the upper end of revolving stage 8 is provided with permits the inserted tooth piece slot 16 of driving block 14, the first half of tooth piece slot 16 adopts outside arc form, the latter half of tooth piece slot 16 is unanimous with the appearance of driving block 14 and the size is identical with driving block 14, because the special shape of tooth piece slot 16, first half has great area to turning up, when criss-cross driving block 14 moves down, the front end of driving block 14 can be more easily from the inside of the arc turn-ups slip-in to tooth piece slot 16 of tooth piece slot 16, thereby the inaccurate condition that causes driving block 14 and tooth piece slot 16 to combine of very big reduction location takes place.

The inner side of the supporting main platform 1 is provided with a rotation adjusting mechanism which can support a plurality of groups of polishing block main bodies 35 without the shapes and the sizes, the rotation adjusting mechanism comprises a supporting inner platform 2, a main platform convex ring 3, a main platform groove 4, an inner platform convex ring 9 and an inner platform groove 10, the main platform convex ring 3 is arranged on the inner side wall of the supporting main platform 1, the supporting inner platform 2 is arranged on the annular inner side of the supporting main platform 1, the main platform groove 4 is fixed on the annular outer wall of the supporting inner platform 2, the main platform groove 4 is in sliding connection with the main platform convex ring 3, the inner platform convex ring 9 is fixed on the outer side wall of the rotating platform 8, the inner platform groove 10 is arranged on the inner side wall of the inner platform hole 7, the inner platform convex ring 9 is in sliding connection with the inner platform groove 10, the supporting inner platform 2 is clamped into the main platform groove 4 through the main platform convex ring 3 and can rotate relative to the supporting main platform 1, the rotating platform 8 is clamped into the inner platform groove 10 through the inner platform convex ring 9 so that the rotating platform 8 and the inner platform hole 7 can keep relative rotation, the rotation through revolving stage 8 and interior platform hole 7 provides the condition for the rotation of transmission piece 14, the rotation that utilizes support interior platform 2 and support main station 1 provides the condition for changing different polishing piece main part 35 to the top of revolving stage 8, the below that supports main station 1 is provided with electric drive mechanism, electric drive mechanism is including fixing servo motor 6 in supporting main station 1 bottom and fixing in supporting 2 outer walls of platform and being located the fluted disc 5 of main station bulge loop 3 below, servo motor 6's output and the meshing of fluted disc 5 of annular distribution are connected, the drive through servo motor 6 can drive the rotation of fluted disc 5, fluted disc 5 is attached to and supports main station 1 surface, can utilize servo motor 6 to rotate arbitrary required polishing piece main part 35 to the artificial tooth directly over convenient follow-up processing of polishing just so can.

A bottom upright post 17 is fixed at the bottom of the top upright post 11, a supporting base plate 34 with a plate-shaped structure is fixed at the bottom of the bottom upright post 17, the height of the top upright post 11 can be adjusted through the bottom upright post 17, so that the front end of a grinding block main body 35 can longitudinally move the grinding block main body 35 to move downwards and contact with a false tooth to grind the surface of the false tooth, an electric push rod 22 is arranged below the grinding block main body 35, a vertical plate seat 19 is fixed at the base of the electric push rod 22 through bolts, vertical plate side seats 20 are fixed at two sides of the vertical plate seat 19, an upright plate body 18 is fixed at the top of the vertical plate side seat 20, an automatic clamping mechanism for clamping the false tooth is arranged at the output end of the electric push rod 22, the automatic clamping mechanism comprises a push rod connecting rod 23, a push rod auxiliary rod 24 and a clamping rod 25, one end of the push rod connecting rod 23 is movably connected to the output end of the electric push rod 22, and a jack is arranged on the surface of the upright plate body 18, the clamping rod 25 is inserted in the jack of the support plate 18 in a sliding manner, the push rod sub-rod 24 is connected to one end of the push rod connecting rod 23 far away from the electric push rod 22, the contact point of the push rod sub-rod 24 and the push rod connecting rod 23 is movably connected with the surface of the support plate 18 through a rotating shaft, the side wall of the support base plate 34 is provided with a ball cross screw 21 for driving the vertical plate side seat 20 to transversely move, the contact point of the push rod connecting rod 23 and the push rod sub-rod 24 is concentrated on the side wall of the support plate 18 and keeps rotating, the push rod sub-rod 24 and the push rod connecting rod 23 have telescopic capability, when the electric push rod 22 drives the bottom end of the push rod connecting rod 23 upwards, the push rod connecting rod 23 and the push rod sub-rod 24 rotate along the contact point of the support plate 18 in a V shape, so that the clamping rod 25 transversely moves at the inner opening of the support plate 18, the side wall of the front end of the clamping rod 25 is fixed with the side block 26, and a clamping rod 27 is fixed on one side wall of the side block 26 far away from the clamping rod 25, the clamping rod 27 is sleeved with the clamping sleeve rod 28 at one end far away from the side block 26, the inner wall of the clamping sleeve rod 28 is provided with a spring body 33 connected with the clamping rod 27, one side wall of the clamping sleeve rod 28 far away from the side block 26 is connected with the vertical plate seat 19 through a rotating shaft, the other side wall of the clamping sleeve rod 28 is provided with a roller motor 30 capable of driving the clamping roller 29 to rotate, along with the fact that the clamping rod 25 is close to the denture, the roller-shaped clamping roller 29 is tightly attached to the surface of the denture, certain buffering is provided by the aid of a spring existing between the clamping rod 27 and the clamping sleeve rod 28, the roller motor 30 is started while the denture is pre-pressed by the clamping roller 29, the clamping roller 29 is made to rotate, the denture in a clamping state can be made to rotate, a groove is formed in the front end of the clamping rod 25, a clamping push rod 31 is fixed in the groove, the output end of the clamping push rod 31 is connected with the tooth block 32 through a bolt, and when the denture needs to be polished, the denture can be clamped, and at the denture can be tightly attached to the denture clamping rod 31 and can be kept stable.

Placing the false teeth to be processed at the upper position of the electric push rod 22 and starting the electric push rod 22 at the same time, enabling two groups of clamping rods 25 at the top of the electric push rod 22 to approach to the false teeth and finally attach to the surface of the false teeth through clamping rollers 29 at two sides, then driving a tooth block body 32 to be attached to the surface of the clamping rollers 29 by utilizing a clamping push rod 31, enabling a ball longitudinal screw 12 at one side of the top upright post 11 to be far away from the screw rod connecting plate 13 through screw rod transmission so as to enable the screw rod connecting plate 13 to move downwards, enabling a polishing block main body 35 with polishing capacity to move downwards and then enabling a transmission block 14 to be clamped into a tooth block slot 16, then pulling the top upright post 11 to move downwards by a bottom upright post 17 so as to enable the polishing block main body 35 to attach to the false teeth to be polished, then starting a driving motor 15 to drive the transmission block 14 and the polishing block main body 35 to rotate for polishing, lifting the screw rod connecting plate 13 and lifting the bottom upright post 17 to lift the top upright post 11 after polishing block main body 35 is polished, the servo motor 6 is started, the servo motor 6 drives the fluted disc 5 in meshed connection to enable the supporting inner table 2 to rotate on the inner side of the supporting main table 1, the other polishing block main body 35 with different shapes and sizes is moved to the position above the false tooth to achieve subsequent polishing work, along with polishing of the polishing block main body 35, the ball transverse screw 21 is far away through screw transmission, the vertical plate side seat 20 can be enabled to horizontally move above the push rod auxiliary rod 24, the polishing block main body 35 acts on the position, close to the side edge, of the surface of the false tooth, then the electric push rod 22 drives the clamping rod 25 to move in the reverse direction for a certain distance and keeps the clamping roller 29 not to be separated from the surface of the false tooth, the clamping push rod 31 retracts the tooth block 32 and simultaneously starts the roller motor 30, the clamping roller 29 can roll along the overflowing surface after rotating, and the polishing position of the false tooth is adjusted.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides an artificial tooth manufacture equipment and manufacturing process thereof, is used for driving the rotatory driving motor (15) of transmission piece (14) including supporting main stand (1), the sanding block main part (35) that is used for polishing the artificial tooth that support main stand (1) below set up, revolving stage (8) that sanding block main part (35) upper end set up through the bolt reinforcement, the setting of support main stand (1) top can be connected with revolving stage (8) top and the upper end of transmission piece (14), its characterized in that: one side of supporting main platform (1) is provided with top stand column (11) that is used for supporting main platform (1), and one side that top stand column (11) is close to supporting main platform (1) is provided with the high adjustment mechanism that can drive driving motor (15) longitudinal movement, the inboard of supporting main platform (1) is provided with the rotation adjustment mechanism that can support the multiunit and need not polish a main part (35) of appearance and size of a dimension, the upper end of revolving stage (8) is provided with permits driving block (14) male tooth piece slot (16).

2. The denture manufacturing apparatus and process according to claim 1, wherein: the upper half part of the tooth block slot (16) adopts an outward arc shape, and the lower half part of the tooth block slot (16) is consistent with the shape of the transmission block (14) and the size of the tooth block slot is matched with that of the transmission block (14).

3. The denture manufacturing apparatus and process according to claim 1, wherein: the height adjusting mechanism comprises a screw rod connecting plate (13) fixedly connected with a base of a driving motor (15) and a ball longitudinal screw rod (12) which is arranged in a groove on one side of the top upright post (11) close to the supporting main platform (1) and is connected with one end of the screw rod connecting plate (13) far away from the supporting main platform (1).

4. The denture manufacturing apparatus and process according to claim 1, wherein: rotation adjustment mechanism sets up in the annular of supporting main station (1) inboard including supporting inner platform (2), main station bulge loop (3), main station recess (4), inner platform bulge loop (9) and inner platform groove (10), the inside wall of supporting main station (1) is seted up in main station bulge loop (3), support inner platform (2), main station recess (4) are fixed in support the annular outer wall of inner platform (2), and main station recess (4) and main station bulge loop (3) sliding connection, inner platform bulge loop (9) are fixed in the lateral wall of revolving stage (8), inner platform groove (10) are seted up in the inside wall of inner platform hole (7), and inner platform bulge loop (9) and inner platform groove (10) sliding connection.

5. The denture manufacturing apparatus and process according to claim 1, wherein: the lower part of the supporting main platform (1) is provided with an electric drive mechanism, the electric drive mechanism comprises a servo motor (6) fixed at the bottom of the supporting main platform (1) and a fluted disc (5) fixed on the outer wall of the supporting inner platform (2) and positioned below the convex ring (3) of the main platform, and the output end of the servo motor (6) is meshed with the fluted disc (5) distributed in an annular mode and connected with the fluted disc (5).

6. The denture manufacturing apparatus and process according to claim 5, wherein: the bottom of the top upright column (11) is fixed with a bottom upright column (17), and the bottom of the bottom upright column (17) is fixed with a supporting base plate (34) with a plate-shaped structure.

7. The denture manufacturing apparatus and process according to claim 1, wherein: an electric push rod (22) is arranged below the grinding block main body (35), a vertical plate seat (19) is fixed on a base of the electric push rod (22) through bolts, vertical plate side seats (20) are fixed on two sides of the vertical plate seat (19), a supporting plate body (18) is fixed on the top of each vertical plate side seat (20), an automatic clamping mechanism used for clamping false teeth is arranged at the output end of the electric push rod (22), the automatic clamping mechanism comprises a push rod connecting rod (23), a push rod auxiliary rod (24) and a clamping rod (25), one end of the push rod connecting rod (23) is movably connected with the output end of the electric push rod (22), a jack is formed in the surface of the supporting plate body (18), the clamping rod (25) is slidably inserted into the jack of the supporting plate body (18), the push rod auxiliary rod (24) is connected to one end, far away from the electric push rod (22), of the push rod connecting rod (23) is movably connected with the surface of the supporting plate body (18) through a rotating shaft, and a ball screw rod (21) is arranged on the side wall of the supporting base plate (34) and drives the ball screw rod to move transversely.

8. The denture manufacturing apparatus and process according to claim 7, wherein: the front end lateral wall of supporting rod (25) is fixed with side block body (26), and a lateral wall that supporting rod (25) were kept away from in side block body (26) is fixed with chucking pole (27), chucking loop bar (28) have been cup jointed to the one end that side block body (26) were kept away from in chucking pole (27), the inner wall of chucking loop bar (28) is provided with spring body (33) of being connected with chucking pole (27), a lateral wall that side block body (26) were kept away from in chucking loop bar (28) is connected with riser seat (19) through the pivot, and another lateral wall of chucking loop bar (28) is provided with can drive rotatory roll body motor (30) of chucking roller (29).

9. The denture manufacturing apparatus and process according to claim 8, wherein: the front end of the clamping rod (25) is provided with a groove, a clamping push rod (31) is fixed in the groove, and the output end of the clamping push rod (31) is connected with a tooth block body (32) through a bolt.

10. A denture manufacturing process is applied to denture manufacturing equipment and comprises the following steps:

s1, placing a false tooth to be processed at the upper position of an electric push rod (22) and starting the electric push rod (22) at the same time, enabling two groups of clamping rods (25) at the top of the electric push rod (22) to approach to the false tooth, and finally attaching the surfaces of the false tooth through clamping rollers (29) on two sides, and then driving a tooth block body (32) to cling to the surfaces of the clamping rollers (29) by utilizing a clamping push rod (31);

s2, a longitudinal ball screw (12) on one side of a top upright post (11) is far away from a screw rod connecting plate (13) to move downwards through screw rod transmission, a polishing block main body (35) with polishing capacity moves downwards, a transmission block (14) is clamped into a tooth block slot (16), a bottom upright post (17) pulls the top upright post (11) to move downwards to enable the polishing block main body (35) to be attached to a false tooth to be polished, and then a driving motor (15) is started to drive the transmission block (14) and the polishing block main body (35) to rotate to polish;

s3, after the group of grinding block main bodies (35) are ground, the screw rod connecting plate (13) is lifted, the bottom upright post (17) is lifted to the top upright post (11), the servo motor (6) is started, the servo motor (6) drives the toothed disc (5) which is meshed and connected to enable the supporting inner table (2) to rotate on the inner side of the supporting main table (1), and the other group of grinding block main bodies (35) with different shapes and sizes are moved to the upper side of the false tooth to achieve subsequent grinding work;

s4, along with the polishing of the polishing block main body (35), the ball transverse screw (21) is far away from the position, which can enable the vertical plate side seat (20) to horizontally move above the push rod auxiliary rod (24) through screw transmission, so that the polishing block main body (35) acts on the position, which is closer to the side edge, of the surface of the denture, then the electric push rod (22) drives the clamping rod (25) to reversely move for a certain distance and keeps the clamping roller (29) not to be separated from the surface of the denture, the clamping push rod (31) withdraws the tooth block body (32) and simultaneously starts the roller body motor (30), so that the clamping roller (29) can roll along the overflowing surface after rotating, and the polishing position of the denture is adjusted.