CN211277232U - Screw production dental lamina prosthetic devices - Google Patents

Abstract

The utility model discloses a screw production dental lamina prosthetic devices relates to the machine-building trade field, including the mount pad, the screw thread slider, the screw rod seat, the mounting disc, the screw rod, a slide rail, the reduction gear, including a motor, an end cap, a controller, and a cover plate, the supporter, the integrated installation body, the motor groove, driving motor, the drive reduction gear, the spout, front and back feed screw thread slider, front and back screw rod seat, the fixed column, the mounting groove, lift driving motor, lift drive reduction gear, lift screw thread slider, lift driving screw, the lift post, the screw rod groove, the slider, the lift spout, the installing support, the rotation driving motor seat, rotation driving motor, the bearing, the profile modeling is beaten the roller, the profile modeling cutting roller, the lift hydraulic. The utility model relates to a scheme makes the restoration process of thread rolling machine dental lamina concentrate the completion through the integrated form design of profile modeling grinding roller, profile modeling cutting roller and extrusion forming roller, has promoted dental lamina repair efficiency by a wide margin, is favorable to reducing thread rolling manufacturing cost.

Description

Screw production dental lamina prosthetic devices

Technical Field

The utility model belongs to the technical field of the machine-building trade and specifically relates to a screw production dental lamina prosthetic devices.

Background

At present, a thread rolling machine is generally used in screw production, a thread plate is widely applied as an important accessory of the thread rolling machine, the thread rolling thread plate belongs to an easily-consumed part, and the thread plate of the thread rolling machine is generally scrapped after being worn to a certain degree at present, so that the saving of production cost is not facilitated.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides a screw production dental lamina prosthetic devices.

The utility model provides a technical scheme that its technical problem adopted is: a screw production tooth plate repairing device comprises a mounting base, a threaded sliding block, a screw base, a mounting disc, a screw, a sliding rail, a speed reducer, a motor, a supporting body, an integrated mounting body, a motor groove, a driving motor, a driving speed reducer, a sliding groove, a front feeding screw, a rear feeding screw, a front feeding threaded sliding block, a rear feeding screw, a front screw base, a rear screw base, a fixed column, a mounting groove, a lifting driving motor, a lifting driving speed reducer, a lifting threaded sliding block, a lifting driving screw, a lifting column, a screw groove, a sliding block, a lifting sliding groove, a mounting bracket, a rotary driving motor base, a rotary driving motor, a bearing, a profiling grinding roller, a roller shaft, a profiling cutting roller, a lifting hydraulic rod, an extrusion lifting column and an extrusion forming roller, wherein the sliding rail is rigidly mounted on the upper end face of the mounting base, the threaded sliding block is, the mounting disc is rigidly mounted on the upper end surface of the threaded sliding block, the head end of the screw is rigidly mounted on the power output end of the speed reducer, the tail end of the screw is mounted on the screw seat, the speed reducer is fixedly mounted on the motor shell through a speed reducer support, the power input end of the speed reducer is rigidly connected to the power output shaft of the motor, the motor is rigidly mounted on the side surface of the front end of the sliding rail through the motor seat, the support body is rigidly and integrally mounted on the mounting seat, the integrated mounting body is rigidly and integrally mounted on the support body, the motor groove and the sliding groove are divided into 3 groups which are transversely and uniformly distributed in the hollow part in the integrated mounting body, the driving motor is divided into 3 groups which are rigidly mounted in the motor groove, the driving speed reducer is divided into 3 groups which are mounted, the tail ends of the front and rear feeding screws are installed on the front and rear screw seats, the front and rear screw seats are rigidly installed on the bottom surface of the sliding groove, the front and rear feeding threaded sliders are installed inside the sliding groove in a matched mode, the front and rear feeding threaded sliders are installed on the front and rear feeding screws in a matched mode, the fixing columns are installed on the front and rear feeding threaded sliders in groups in 3, the installation groove is formed in the hollow part of the inner portion of the fixing column, the lifting driving motor is installed on the bottom surfaces of installation grooves formed in the left side and the middle of the fixing column in 2, the lifting driving speed reducer is fixedly installed on a lifting driving motor shell through a speed reducer support, the lifting threaded slider is rigidly installed on the inner wall of the bottom of the screw groove in a matched mode, the, The lifting sliding groove is arranged in the fixed column in a matching way, the screw groove is arranged in the hollow part in the lifting column, the mounting bracket is rigidly mounted at the bottom ends of the lifting column and the extrusion lifting column, the rotary driving motor is mounted on the right side surface of the mounting bracket through a rotary driving motor base, the profiling grinding roller is arranged on the left side part of the mounting bracket through a roller shaft and a bearing in a matching way, the roller shaft is connected and arranged on a power output shaft of the rotary driving motor, the profile cutting roller is arranged at the middle part of the mounting bracket through a roller shaft and a bearing in a matching way, the lifting hydraulic rod is rigidly arranged on the bottom surface of a mounting groove arranged in the right side fixing column, the extrusion lifting column is installed inside the right fixing column in a matched mode, the top end of the extrusion lifting column is rigidly connected to the lifting hydraulic rod, and the extrusion forming roller is installed on the right portion of the installation support in a matched mode through a roller shaft and a bearing.

In detail, a tooth plate clamping tool is arranged on the upper end face of the mounting disc.

The beneficial effects of the utility model are that, the utility model provides a scheme makes the restoration process of thread rolling machine dental lamina concentrate the completion through the integrated form design of profile modeling grinding roller, profile modeling cutting roller and extrusion forming roller, has promoted dental lamina repair efficiency by a wide margin, is favorable to reducing thread rolling manufacturing cost.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the support body of the present invention;

FIG. 3 is a schematic view of the installation structure of the profiling grinding roller of the present invention;

FIG. 4 is a schematic view of the installation structure of the profiling cutting roll of the present invention;

fig. 5 is a schematic view of the installation structure of the extrusion molding roller of the present invention.

In the figure, 1, a mounting base, 2, a threaded slide block, 3, a screw rod base, 4, a mounting disc, 5, a screw rod, 6, a slide rail, 7, a speed reducer, 8, a motor, 9, a support body, 10, an integrated mounting body, 11, a motor groove, 12, a driving motor, 13, a driving speed reducer, 14, a sliding groove, 15, a front and back feeding screw rod, 16, a front and back feeding threaded slide block, 17, a front and back screw rod base, 18, a fixed column, 19, a mounting groove, 20, a lifting driving motor, 21, a lifting driving speed reducer, 22, a lifting threaded slide block, 23, a lifting driving screw rod, 24, a lifting column, 25, a screw rod groove, 26, a slide block, 27, a lifting sliding groove, 28, a mounting bracket, 29, a rotary driving motor base, 30, a rotary driving motor, 31, a bearing, 32, a profiling grinding roller, 33, a roller shaft, 34, a profiling cutting roller, 35, 37 extrusion roll.

Detailed Description

In order to more clearly illustrate the technical solution of the present invention, the following provides a further description of the present invention with reference to the accompanying drawings, and obviously, the following described drawings are only one embodiment of the present invention, and for those skilled in the art, other embodiments can be obtained according to the drawings and the embodiment without any creative work, and all belong to the protection scope of the present invention.

A screw production dental lamina prosthetic devices, including mount pad 1, the thread slide block 2, the screw rod seat 3, the mounting disc 4, the screw rod 5, the slide rail 6, the decelerator 7, the electrical machinery 8, the supporter 9, the integrated mount 10, the electrical machinery trough 11, the driving electrical machinery 12, the driving decelerator 13, the concrete chute 14, the front and back feed screw 15, the front and back feed screw slide block 16, the front and back screw rod seat 17, the fixed column 18, the mounting groove 19, the lifting driving electrical machinery 20, the lifting driving decelerator 21, the lifting thread slide block 22, the lifting driving screw 23, the lifting column 24, the screw groove 25, the slide block 26, the lifting chute 27, the mounting bracket 28, the rotary driving electrical machinery seat 29, the rotary driving electrical machinery 30, the bearing 31, the profile modeling polishing roller 32, the roll shaft 33, the profile cutting roller 34, the lifting hydraulic stem 35, the extrusion lifting column 36, the extrusion shaping roller 37, the slide rail, the screw slider 2 is installed on the slide rail 6 in a matching way, the screw slider 2 is installed on the screw rod 5 in a matching way, the screw seat 3 is rigidly installed on the side surface of the front end of the slide rail 6, the mounting disc 4 is rigidly installed on the upper end surface of the screw slider 20, the head end of the screw rod 5 is rigidly installed on the power output end of the speed reducer 7, the tail end of the screw rod 5 is installed on the screw seat 3, the speed reducer 7 is fixedly installed on the shell of the motor 8 through a speed reducer bracket, the power input end of the speed reducer 7 is rigidly connected to the power output shaft of the motor 8, the motor 8 is rigidly installed on the side surface of the front end of the slide rail 6 through the motor seat, the supporting body 9 is rigidly and integrally installed on the mounting seat 1, the integrated mounting body 10 is rigidly and integrally installed on the supporting body 9, the motor, the driving reducer 13 is divided into 3 groups and is mounted on the shell of the driving motor 12 through a reducer support, the power input end of the driving reducer 13 is rigidly connected with the power output shaft of the driving motor 12, the head ends of the front and rear feeding screws 15 are mounted on the power output end of the driving reducer 13, the tail ends of the front and rear feeding screws 15 are mounted on the front and rear screw seats 17, the front and rear screw seats 17 are rigidly mounted on the bottom surface of the sliding chute 14, the front and rear feeding screw sliders 16 are mounted inside the sliding chute 14 in a matching manner, the front and rear feeding screw sliders 16 are mounted on the front and rear feeding screws 15 in a matching manner, the fixing columns 18 are divided into 3 groups and mounted on the front and rear feeding screw sliders 16, the mounting grooves 19 are arranged in the hollow parts of the fixing columns 18, the lifting driving reducer 20 is divided into 2 groups, the lifting threaded slider 22 is rigidly mounted on the inner wall of the bottom of the screw groove 25, the lifting threaded slider 22 is fittingly mounted on the lifting driving screw 23, the lifting driving screw 23 is rigidly mounted on the power output end of the lifting driving reducer 21, the lifting column 24 is fittingly mounted inside the fixed column 18 through the slider 26 and the lifting sliding groove 27, the screw groove 25 is disposed in the hollow part of the lifting column 24, the mounting bracket 28 is rigidly mounted on the bottom ends of the lifting column 24 and the extrusion lifting column 36, the rotary driving motor 30 is mounted on the right side surface of the mounting bracket 28 through the rotary driving motor base 29, the profiling grinding roller 32 is fittingly mounted on the left side part of the mounting bracket 28 through the roller shaft 33 and the bearing 31, the roller shaft 33 is connected to the power output shaft of the rotary driving motor 30, and the profiling cutting roller 34 is fittingly mounted on the middle, the lifting hydraulic rod 35 is rigidly mounted on the bottom surface of the mounting groove 19 arranged inside the right side fixing column 18, the extrusion lifting column 36 is mounted inside the right side fixing column 18 in a matching manner, the top end of the extrusion lifting column 36 is rigidly connected to the lifting hydraulic rod 35, and the extrusion forming roller 37 is mounted on the right side part of the mounting bracket 28 in a matching manner through the roller shaft 33 and the bearing 31.

In detail, a tooth plate clamping tool is arranged on the upper end face of the mounting disc 4.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention can be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.

Claims (2)

1. The screw production tooth plate repairing device comprises a mounting seat (1), a threaded sliding block (2), a screw seat (3), a mounting disc (4), a screw (5), a sliding rail (6), a speed reducer (7), a motor (8), a supporting body (9), an integrated mounting body (10), a motor groove (11), a driving motor (12), a driving speed reducer (13), a sliding groove (14), a front and back feeding screw (15), a front and back feeding threaded sliding block (16), a front and back screw seat (17), a fixing column (18), a mounting groove (19), a lifting driving motor (20), a lifting driving speed reducer (21), a lifting threaded sliding block (22), a lifting driving screw (23), a lifting column (24), a screw groove (25), a sliding block (26), a lifting sliding groove (27), a mounting bracket (28), a rotary driving motor seat (29), a rotary driving motor (30), Bearing (31), profile modeling grinding roller (32), roller (33), profile modeling cutting roller (34), lift hydraulic stem (35), extrusion lift post (36), extrusion shaping roller (37), its characterized in that: the screw thread sliding block (2) is arranged on the sliding rail (6) in a matched mode, the screw thread sliding block (2) is arranged on the screw rod (5) in a matched mode, the screw rod seat (3) is arranged on the side face of the front end of the sliding rail (6) in a rigid mode, the mounting disc (4) is arranged on the upper end face of the screw thread sliding block (2) in a rigid mode, the head end of the screw rod (5) is arranged on the power output end of the speed reducer (7) in a rigid mode, the tail end of the screw rod (5) is arranged on the screw rod seat (3), the speed reducer (7) is fixedly arranged on the shell of the motor (8) through the speed reducer support, the power input end of the speed reducer (7) is connected to the power output, the integrated installation body (10) is rigidly and integrally installed on the supporting body (9), the motor groove (11) and the sliding groove (14) are transversely and uniformly distributed in the hollow part in the integrated installation body (10) in groups, the driving motor (12) is rigidly installed in the motor groove (11) in groups of 3, the driving reducer (13) is installed on the shell of the driving motor (12) in groups of 3 through a reducer support, the power input end of the driving reducer (13) is rigidly connected to the power output shaft of the driving motor (12), the head ends of the front and rear feeding screws (15) are installed at the power output end of the driving reducer (13), the tail ends of the front and rear feeding screws (15) are installed on a front and rear screw seat (17), the front and rear screw seats (17) are rigidly installed on the bottom surface of the sliding groove (14), and the front and rear feeding screw sliders (16, the front and rear feeding threaded sliding blocks (16) are installed on front and rear feeding screw rods (15) in a matched mode, the fixed columns (18) are installed on the front and rear feeding threaded sliding blocks (16) in groups of 3, the installation grooves (19) are formed in the hollow positions in the fixed columns (18), the lifting driving motors (20) are installed on the bottom surfaces of the installation grooves (19) formed in the left side and the middle fixed columns (18) in groups of 2, the lifting driving speed reducer (21) is fixedly installed on a shell of the lifting driving motor (20) through a speed reducer support, the lifting threaded sliding blocks (22) are rigidly installed on the inner wall of the bottom of the screw rod groove (25), the lifting threaded sliding blocks (22) are installed on the lifting driving screw rods (23) in a matched mode, the lifting driving screw rods (23) are rigidly installed on the power output end of the lifting driving speed reducer (, The lifting chute (27) is installed inside the fixed column (18) in a matching manner, the screw groove (25) is arranged in the hollow part in the lifting column (24), the mounting bracket (28) is rigidly installed at the bottom ends of the lifting column (24) and the extrusion lifting column (36), the rotary driving motor (30) is installed on the right side surface of the mounting bracket (28) through a rotary driving motor seat (29), the profiling grinding roller (32) is installed on the left side part of the mounting bracket (28) through a roller shaft (33) and a bearing (31) in a matching manner, the roller shaft (33) is connected and installed on a power output shaft of the rotary driving motor (30), the profiling cutting roller (34) is installed on the middle part of the mounting bracket (28) through the roller shaft (33) and the bearing (31) in a matching manner, the lifting hydraulic rod (35) is rigidly installed on the bottom surface of the mounting groove (19) arranged inside the right fixed, the extrusion lifting column (36) is installed inside the right side fixing column (18) in a matched mode, the top end of the extrusion lifting column (36) is rigidly connected to the lifting hydraulic rod (35), and the extrusion forming roller (37) is installed on the right side portion of the installation support (28) through a roller shaft (33) and a bearing (31) in a matched mode.

2. The screw production dental plate repair device according to claim 1, wherein a dental plate clamping tool is installed on the upper end face of the installation disc (4).

Images