CN214817319U - Edging mechanism of glass edging machine - Google Patents

Abstract

The utility model discloses an edging mechanism of glass edging machine relates to glass edging equipment technical field, including first mount table, electronic lift post, the board is placed to the cutter, the standing groove, the handle of a knife, the emery wheel, the assembly blade holder, the cavity pivot, the pinhole, reset spring, the locating pin, the oil duct, the installation piece, rotary joint, flexible hexagonal post, the fixed column, the screw rod groove, the screw rod, flexible reduction gear, flexible motor, the second mount table, driving motor, drive reduction gear, driving pulley, the hold-in range, driven pulley, the transposition post, the fixing base, the flange axle, the transposition motor, the slide rail, the rack, the gear shaft, the slip reduction gear, sliding motor. The utility model relates to a design that board and assembly blade holder were placed through liftable formula cutter to the design has realized the automatic transposition and the tool changing of glass edging mechanism, the effectual inefficiency that has solved special-shaped glass edging and has brought in the branch process processing and the problem that cost of production is high.

Description

Edging mechanism of glass edging machine

Technical Field

The utility model belongs to the technical field of glass edging equipment technique and specifically relates to an edging mechanism of glass edging machine.

Background

At the present stage, the glass edge grinding machine is widely applied in the field of glass processing, and the existing glass edge grinding machine needs to select a small-diameter grinding wheel according to the narrow concave shape of the special-shaped glass besides the traditional grinding disc in the edge grinding process of the special-shaped glass, so that multiple groups of edge grinding machines are needed to be used for processing in multiple processes when the edge grinding of the special-shaped glass is processed, the efficiency is low, and the production cost is high.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect that exists among the prior art, the utility model provides an edging mechanism of glass edging machine.

The utility model provides a technical scheme that its technical problem adopted is: an edge grinding mechanism of a glass edge grinding machine comprises a first mounting table, an electric lifting column, a cutter placing plate, a placing groove, a cutter handle, a grinding wheel, an assembling cutter holder, a hollow rotating shaft, a pin hole, a reset spring, a positioning pin, an oil duct, a mounting block, a rotary joint, a telescopic hexagonal column, a fixing column, a screw rod groove, a screw rod, a telescopic reducer, a telescopic motor, a second mounting table, a driving motor, a driving reducer, a driving belt wheel, a synchronous belt, a driven belt wheel, a shifting column, a fixing seat, a flange shaft, a shifting reducer, a shifting motor, a sliding seat, a sliding rail, a rack, a gear shaft, a sliding reducer and a sliding motor, wherein the electric lifting column is divided into 2 groups and symmetrically arranged at the right side part of the first mounting table in a front-back mode, the cutter placing plate is rigidly arranged at the lifting end of the electric lifting column, the placing grooves are arranged at the cutter placing plate in groups in a front-back mode, the grinding wheel is rigidly installed at the lower part of the tool handle, the tool handle is installed at the assembling tool apron in a matching way under the working state, the assembling tool apron is arranged at the lower end of the hollow rotating shaft, the pin holes are uniformly distributed at the side wall of the tool handle in groups of 4 degrees in an annular array, the reset spring is rigidly installed at the bottom surface of the pin hole, the positioning pin is installed in the pin hole in a matching way under the working state, the positioning pin is installed at the tail end of the oil duct in a sealing and matching way, the oil duct is uniformly distributed at the hollow part in the assembling tool apron in groups of 4 degrees in an annular array, the head end of the oil duct is communicated with the cavity in the hollow rotating shaft, the installing block is rigidly installed at the head end of the telescopic hexagonal column, the hollow rotating shaft is installed at the upper end of the hollow rotating shaft in a matching way through a bearing, the telescopic hexagonal column is installed at the hollow part in the fixed column in a matching way, and the screw groove is arranged at the hollow part in the telescopic hexagonal column, the screw rod is installed in a screw rod groove in a matched mode, the screw rod is rigidly installed on a power output shaft of a telescopic speed reducer, the telescopic speed reducer is fixed on a telescopic motor shell through a speed reducer support, the telescopic motor is rigidly installed at the tail end of a fixed column through a motor support, a second installation platform is arranged on the outer wall of the upper end of the fixed column, the driving motor is rigidly installed on the upper end face of the second installation platform through the motor support, the driving speed reducer is fixed on a driving motor shell through the speed reducer support, a driving belt wheel is rigidly installed on the power output shaft of the driving speed reducer, a synchronous belt is installed between the driving belt wheel and a driven belt wheel in a tensioning and connecting mode, the driven belt wheel is rigidly installed on a hollow rotating shaft, the fixed column is rigidly installed on the upper end of a transposition column through a supporting rib plate, the transposition column is installed on a fixed seat in a matched mode through a bearing, and the fixed seat is rigidly installed on the upper end face of a sliding seat, the flange shaft rigid connection is installed under the transposition post between terminal surface and transposition reduction gear power take off, the transposition reduction gear is fixed in transposition motor casing through the reduction gear support, transposition motor rigid mounting is in the inside cavity department bottom surface of fixing base, the slide cooperation is installed in the slide rail, slide rail rigid mounting is in first mount table up end, the rack sets up in the slide rail up end, wheel and rack meshing, gear rigid mounting is in the gear shaft, the gear shaft passes through the bearing cooperation and installs in the slide, gear shaft rigid mounting is in slip reduction gear power take off, the slip reduction gear is fixed in the slip motor through the reduction gear support, the slip motor passes through motor support rigid mounting in the slide lateral part.

The edging mechanism of foretell glass edging machine, first mount table left side position sets up installation glass clamping rotary mechanism, rotary joint passes through oil pipe connection hydraulic control device.

The beneficial effects of the utility model are that, the utility model provides a design that board and assembly blade holder were placed through liftable formula cutter to the design has realized the automatic transposition and the tool changing of glass edging mechanism, the effectual inefficiency that has solved the special-shaped glass edging and has divided the process processing and bring and the problem that manufacturing cost is high.

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 top view of the overall structure of the cutter placing plate of the present invention;

FIG. 3 is a schematic view of the internal mounting structure of the fixing column of the present invention;

FIG. 4 is a schematic view of the internal installation structure of the assembled knife holder of the present invention;

fig. 5 is a schematic view of the internal mounting structure of the fixing base of the present invention.

In the drawing, 1, a first mounting table, 2, an electric lifting column, 3, a cutter placing plate, 4, a placing groove, 5, a cutter handle, 6, a grinding wheel, 7, an assembling cutter holder, 8, a hollow rotating shaft, 9, a pin hole, 10, a reset spring, 11, a positioning pin, 12, an oil duct, 13, a mounting block, 14, a rotating joint, 15, a telescopic hexagonal column, 16, a fixing column, 17, a screw groove, 18, a screw rod, 19, a telescopic reducer, 20, a telescopic motor, 21, a second mounting table, 22, a driving motor, 23, a driving reducer, 24, a driving belt wheel, 25, a synchronous belt, 26, a driven belt wheel, 27, a rotating column, 28, a fixing seat, 29, a flange shaft, 30, a rotating reducer, 31, a rotating motor, 32, a sliding seat, 33, a sliding rail, 34, a rack, 35, a gear, 36, a gear shaft, 37, a sliding reducer and 38, a sliding motor are arranged.

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.

An edging mechanism of a glass edging machine comprises a first mounting table 1, an electric lifting column 2, a cutter placing plate 3, a placing groove 4, a tool holder 5, a grinding wheel 6, an assembling tool apron 7, a hollow rotating shaft 8, a pin hole 9, a return spring 10, a positioning pin 11, an oil duct 12, a mounting block 13, a rotary joint 14, a telescopic hexagonal column 15, a fixing column 16, a screw groove 17, a screw 18, a telescopic reducer 19, a telescopic motor 20, a second mounting table 21, a driving motor 22, a driving reducer 23, a driving belt wheel 24, a synchronous belt 25, a driven belt wheel 26, a transposition column 27, a fixing seat 28, a flange shaft 29, a transposition reducer 30, a transposition motor 31, a sliding seat 32, a sliding rail 33, a rack 34, a gear 35, a gear shaft 36, a sliding reducer 37 and a sliding motor 38, wherein the electric lifting column 2 is symmetrically arranged at the right side position of the first mounting table 1 in groups in a front-back-to-back manner, the cutter placing plate 3 is rigidly mounted at the lifting end of the electric lifting column 2, the placing grooves 4 are distributed in the cutter placing plate 3 in groups in a front-back manner, the grinding wheels 6 are rigidly mounted at the lower part of the cutter handle 5, the cutter handle 5 is mounted on the assembling cutter seat 7 in a matching manner in a working state, the assembling cutter seat 7 is arranged at the lower end of the hollow rotating shaft 8, the pin holes 9 are distributed uniformly in 360-degree annular arrays in groups and on the side wall of the cutter handle 5, the reset springs 10 are rigidly mounted at the bottom surfaces of the pin holes 9, the positioning pins 11 are mounted in the pin holes 9 in a matching manner in a working state, the positioning pins 11 are mounted at the tail end positions of the oil ducts 12 in a sealing and matching manner, the oil ducts 12 are distributed uniformly in 360-degree annular arrays in the hollow parts of the assembling cutter seat 7, the head ends of the oil ducts 12 are communicated with the inner cavity of the hollow rotating shaft 8, the mounting blocks 13 are rigidly mounted at the head ends of the telescopic hexagonal columns 15, and the hollow rotating shaft 8 is mounted on the mounting blocks 13 in a matching manner through bearings, the rotary joint 14 is rigidly mounted at the upper end of the hollow rotating shaft 8, the telescopic hexagonal column 15 is mounted in the hollow part of the fixed column 16 in a matching way, the screw groove 17 is arranged in the hollow part of the telescopic hexagonal column 15, the screw 18 is mounted in the screw groove 17 in a matching way, the screw 18 is rigidly mounted on the power output shaft of the telescopic reducer 19, the telescopic reducer 19 is fixed on the shell of the telescopic motor 20 through a reducer bracket, the telescopic motor 20 is rigidly mounted at the tail end of the fixed column 16 through a motor bracket, the second mounting table 21 is arranged on the outer wall of the upper end of the fixed column 16, the driving motor 22 is rigidly mounted on the upper end surface of the second mounting table 21 through a motor bracket, the driving reducer 23 is fixed on the shell of the driving motor 22 through a reducer bracket, the driving pulley 24 is rigidly mounted on the power output shaft of the driving reducer 23, and the synchronous belt 25 is mounted between the driving pulley 24 and the driven pulley 26 in a tensioning way, the driven belt wheel 26 is rigidly mounted on the hollow rotating shaft 8, the fixed column 16 is rigidly mounted on the upper end of the indexing column 27 through a support rib plate, the indexing column 27 is fittingly mounted on the fixed seat 28 through a bearing, the fixed seat 28 is rigidly mounted on the upper end surface of the sliding seat 32, the flange shaft 29 is rigidly connected and mounted between the lower end surface of the indexing column 27 and the power output end of the indexing speed reducer 30, the indexing speed reducer 30 is fixed on the shell of the indexing motor 31 through a speed reducer bracket, the indexing motor 31 is rigidly mounted on the bottom surface of the hollow part in the fixed seat 28, the sliding seat 32 is fittingly mounted on the sliding rail 33, the sliding rail 33 is rigidly mounted on the upper end surface of the first mounting table 1, the rack 34 is arranged on the upper end surface of the sliding rail 33, the gear 35 is meshed with the rack 34, the gear 35 is rigidly mounted on the gear shaft 36, and the gear shaft 36 is fittingly mounted on the sliding seat 32 through a bearing, the gear shaft 36 is rigidly mounted on the power output end of the sliding reducer 37, the sliding reducer 37 is fixed on the sliding motor 38 through a reducer bracket, and the sliding motor 38 is rigidly mounted on the side of the sliding seat 32 through a motor bracket.

In detail, a glass mounting and clamping rotating mechanism is arranged at the left side of the first mounting platform 1, and the rotating joint 14 is connected with a hydraulic control device through an oil pipe.

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 utility model provides an edging mechanism of glass edging machine, including first mount table (1), electronic lift post (2), board (3) is placed to the cutter, standing groove (4), handle of a knife (5), emery wheel (6), assembly blade holder (7), cavity pivot (8), pinhole (9), reset spring (10), locating pin (11), oil duct (12), installation piece (13), rotary joint (14), flexible hexagonal post (15), fixed column (16), screw rod groove (17), screw rod (18), flexible reduction gear (19), flexible motor (20), second mount table (21), driving motor (22), drive reduction gear (23), driving pulley (24), hold-in range (25), driven pulley (26), transposition post (27), fixing base (28), flange axle (29), transposition reduction gear (30), transposition motor (31), slide (32), Slide rail (33), rack (34), gear (35), gear shaft (36), slip reduction gear (37), slip motor (38), its characterized in that: the electric lifting column (2) is symmetrically arranged at the right side position of the first mounting table (1) in a front-back mode according to 2 groups, the cutter placing plate (3) is rigidly arranged at the lifting end of the electric lifting column (2), the placing grooves (4) are arranged on the cutter placing plate (3) in a front-back mode according to a plurality of groups, the grinding wheels (6) are rigidly arranged at the lower part of the cutter handle (5), the cutter handle (5) is arranged on the assembling cutter holder (7) in a matched mode in a working state, the assembling cutter holder (7) is arranged at the lower end of the hollow rotating shaft (8), the pin holes (9) are uniformly distributed on the side wall of the cutter handle (5) in a 360-degree annular array according to 4 groups, the reset springs (10) are rigidly arranged on the bottom surface of the pin holes (9), the positioning pins (11) are arranged in the pin holes (9) in a matched mode in a working state, and the positioning pins (11) are arranged at the tail end position of the oil duct (12) in a sealed and matched mode, the oil duct (12) is divided into 4 groups and is uniformly distributed in a 360-degree annular array in the hollow part of the assembly tool apron (7), the head end of the oil duct (12) is connected and communicated with the inner cavity of the hollow rotating shaft (8), the mounting block (13) is rigidly mounted at the head end of the telescopic hexagonal column (15), the hollow rotating shaft (8) is mounted in the mounting block (13) through a bearing in a matching way, the rotary joint (14) is rigidly mounted at the upper end of the hollow rotating shaft (8), the telescopic hexagonal column (15) is mounted in the hollow part of the inner part of the fixed column (16) in a matching way, the screw groove (17) is arranged in the hollow part of the inner part of the telescopic hexagonal column (15), the screw (18) is mounted in the screw groove (17) in a matching way, the screw (18) is rigidly mounted in the power output shaft of the telescopic speed reducer (19), and the telescopic speed reducer (19) is fixed on the shell of the telescopic motor (20) through a speed reducer support, the telescopic motor (20) is rigidly mounted at the tail end of the fixed column (16) through a motor support, the second mounting table (21) is arranged on the outer wall of the upper end of the fixed column (16), the driving motor (22) is rigidly mounted on the upper end face of the second mounting table (21) through a motor support, the driving speed reducer (23) is fixed on a shell of the driving motor (22) through a speed reducer support, the driving belt wheel (24) is rigidly mounted on a power output shaft of the driving speed reducer (23), the synchronous belt (25) is installed between the driving belt wheel (24) and the driven belt wheel (26) in a tensioning connection mode, the driven belt wheel (26) is rigidly mounted on the hollow rotating shaft (8), the fixed column (16) is rigidly mounted at the upper end of the steering column (27) through a support rib plate, the steering column (27) is mounted on the fixed seat (28) in a matching mode through a bearing, and the fixed seat (28) is rigidly mounted on the upper end face of the sliding seat (32), the flange shaft (29) is rigidly connected and installed between the lower end face of the indexing column (27) and the power output end of the indexing speed reducer (30), the indexing speed reducer (30) is fixed on a shell of the indexing motor (31) through a speed reducer support, the indexing motor (31) is rigidly installed on the bottom face of a hollow part in the fixed seat (28), the sliding seat (32) is installed on the sliding rail (33) in a matched mode, the sliding rail (33) is rigidly installed on the upper end face of the first installation table (1), the rack (34) is arranged on the upper end face of the sliding rail (33), the gear (35) is meshed with the rack (34), the gear (35) is rigidly installed on the gear shaft (36), the gear shaft (36) is installed on the sliding seat (32) in a matched mode through a bearing, the gear shaft (36) is rigidly installed on the power output end of the sliding speed reducer (37), and the sliding speed reducer (37) is fixed on the sliding motor (38) through a speed reducer support, the sliding motor (38) is rigidly arranged at the side part of the sliding seat (32) through a motor bracket.

2. The edging mechanism of a glass edging machine according to claim 1, characterized in that a glass mounting and clamping rotating mechanism is arranged at the left side of the first mounting table (1), and the rotary joint (14) is connected with a hydraulic control device through an oil pipe.

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