CN213350507U - Continuous transmission structure for linking machine - Google Patents

Continuous transmission structure for linking machine Download PDF

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Publication number
CN213350507U
CN213350507U CN202022058968.3U CN202022058968U CN213350507U CN 213350507 U CN213350507 U CN 213350507U CN 202022058968 U CN202022058968 U CN 202022058968U CN 213350507 U CN213350507 U CN 213350507U
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China
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motor
conveying
hoist
sliding
mount
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CN202022058968.3U
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Chinese (zh)
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王伟超
龙建光
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Qingdao Xinhui Purification Equipment Co ltd
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Qingdao Xinhui Purification Equipment Co ltd
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Abstract

The utility model discloses a linking machine is with continuous transmission structure relates to the machine-building trade field, including transport mechanism, positioning mechanism and hoisting machine structure. The utility model relates to a scheme passes through transport mechanism, the design of positioning mechanism and hoisting machine structure makes the tuber pipe advance the seam and fixes a position through positioning mechanism after transport mechanism conveys to linking machine support frame mechanism, then compress tightly and carry out the seam closure by linking machine support frame hydraulic pressure closing device, after the seam closure is accomplished, hoist through hoisting machine structure and unload the back and hoist the tuber pipe hoist and mount that the seam closure was accomplished to another group transport mechanism and export, whole material loading transmission course need not operating personnel and participates in, the human cost has been saved, the efficiency of unloading on the linking machine has been improved simultaneously.

Description

Continuous transmission structure for linking machine
Technical Field
The utility model belongs to the technical field of the machine-building trade and specifically relates to a linking machine is with continuous transmission structure.
Background
At the present stage, the common-plate flange air pipes are widely applied in various fields, joint closing needs to be carried out on the common-plate flange air pipes through a joint closing machine after bending processing is completed, at present, feeding, alignment and discharging need to be carried out on the air pipes through operators when the joint closing is carried out on the air pipes, the overall rigidity of the air pipes before the joint closing is poor, the operation convenience of the feeding process is poor for the operators, the discharging needs to be carried out manually, and the overall process working efficiency is low.
SUMMERY OF THE UTILITY MODEL
In order to overcome the above-mentioned defect that exists among the prior art, the utility model provides a linking machine is with continuous transmission structure.
The utility model provides a technical scheme that its technical problem adopted is: a continuous transmission structure for a seaming machine comprises a transmission mechanism, a positioning mechanism and a hoisting mechanism, wherein the transmission mechanism comprises a support frame, a drive shaft, a transmission reducer, a transmission motor, a transmission roller shaft, a transmission roller and a transmission belt, the positioning mechanism comprises a fixing frame, a fixing plate, a movable positioning plate, a supporting spring, a trigger switch, a mounting plate, a telescopic column, a fixed supporting column, a telescopic cylinder, a guide rail, a threaded slider, a screw seat, a guide chute, a screw, a sliding drive reducer, a sliding drive motor and a motor mounting groove, the hoisting mechanism comprises a hoisting slide rail, a rack, a gear shaft, a sliding reducer, a sliding motor, a lifting cylinder, an electromagnetic suction block and a hoisting slide seat, the support frame is symmetrically mounted in groups of 2, the head end of the drive shaft is rigidly mounted at the power output end of the transmission reducer, the, the conveying motor is rigidly mounted on the right end face of the right side part of the supporting frame through a motor support, the conveying reducer is fixed on a conveying motor shell through a reducer support, the power input end of the conveying reducer is rigidly connected to the power output shaft of the conveying motor, the conveying rollers are divided into 2 groups and are symmetrically mounted on the supporting frame in a front-back mode through a conveying roller shaft and a bearing in a matching mode, the conveying belt is tensioned and connected and mounted between the 2 groups of conveying rollers, the fixing frame is rigidly mounted at the rear position between the 2 groups of conveying mechanisms which are symmetrically mounted in a left-right mode, the fixing plate is rigidly mounted on the fixing frame, the supporting springs are divided into 4 groups and respectively connected and mounted at four corners between the movable positioning plate and the mounting plate, the movable, the telescopic column is arranged in the hollow part in the head end of the fixed support column in a matching way, the tail end of the fixed support column is rigidly arranged on the upper end surface of the threaded slide block, the telescopic cylinder is rigidly arranged on the outer wall of the upper end of the fixed support column, the telescopic end of the telescopic cylinder is connected and arranged on the mounting plate, the screw seat is rigidly arranged on the bottom surface of the tail end of the guide chute arranged in the hollow part in the guide rail, the head end of the screw is rigidly arranged on the power output end of the sliding drive reducer, the tail end of the screw is arranged on the screw seat in a matching way, the sliding drive reducer is fixed on the power output shaft of the sliding drive motor through the reducer bracket, the power input end of the sliding drive reducer is rigidly connected to the power output shaft of the sliding, gear rigid mounting is at the gear shaft end, gear shaft head end rigid mounting is in slip reduction gear power take off end, the gear shaft passes through the bearing cooperation to be installed in hoist and mount slide, sliding motor passes through motor support rigid mounting in hoist and mount slide front end side, the slip reduction gear is fixed in slip motor casing through the reduction gear support, slip reduction gear power take off end rigid connection in sliding motor power output shaft, terminal surface under hoist and mount slide is installed to lift cylinder rigid mounting, electromagnetism absorption rigid mounting is in the flexible end of lift cylinder, hoist and mount slide cooperation is installed in hoist and mount slide rail.
The continuous transmission structure for the seaming machine is characterized in that the conveying mechanism is divided into 2 groups and is arranged in a bilateral symmetry mode, and the hoisting slide rails are hoisted and arranged on a top beam of a workshop.
The beneficial effects of the utility model are that, the utility model provides a design through transport mechanism, positioning mechanism and hoisting machine constructs makes the tuber pipe advance the seam and fix a position through positioning mechanism after the seam-joining machine support frame mechanism is conveyed to by transport mechanism, then compress tightly and carry out the seam-joining by seam-joining machine support frame hydraulic pressure closing device, after accomplishing the seam-joining, hoist the tuber pipe hoist and mount to another group transport mechanism that accomplish the seam-joining after unloading through hoisting machine structure and export, whole material loading transmission process need not operating personnel and participates in, the human cost has been saved, the efficiency of unloading on the seam-joining machine has been improved simultaneously.
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 overall installation structure of the mobile positioning frame of the present invention;
fig. 3 is a schematic view of the overall structure of the conveying mechanism of the present invention;
FIG. 4 is a front view of the whole structure of the hoisting mechanism of the present invention;
FIG. 5 is a side view of the whole structure of the hoisting mechanism of the present invention;
fig. 6 is a top view of the overall structure of the guide rail of the present invention.
In the figure, 1, a support frame, 2, a driving shaft, 3, a transmission reducer, 4, a transmission motor, 5, a transmission roller shaft, 6, a transmission roller, 7, a transmission belt, 8, a fixed frame, 9, a fixed plate, 10, a movable positioning plate, 11, a supporting spring, 12, a trigger switch, 13, a mounting plate, 14, a telescopic column, 15, a fixed supporting column, 16, a telescopic cylinder, 17, a guide rail, 18, a threaded slider, 19, a screw seat, 20, a guide sliding chute, 21, a screw, 22, a sliding driving reducer, 23, a sliding driving motor, 24, a motor mounting groove, 25, a hoisting slide rail, 26, a rack, 27, a gear, 28, a gear shaft, 29, a sliding reducer, 30, a sliding motor, 31, a lifting cylinder, 32, an electromagnetic absorption block and 33, the hoisting slide seat are.
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 continuous transmission structure for a seaming machine comprises a transmission mechanism, a positioning mechanism and a hoisting mechanism, wherein the transmission mechanism comprises a support frame 1, a drive shaft 2, a transmission reducer 3, a transmission motor 4, a transmission roller shaft 5, a transmission roller 6 and a transmission belt 7, the positioning mechanism comprises a fixed frame 8, a fixed plate 9, a movable positioning plate 10, a support spring 11, a trigger switch 12, a mounting plate 13, a telescopic column 14, a fixed support column 15, a telescopic cylinder 16, a guide rail 17, a threaded slider 18, a screw seat 19, a guide chute 20, a screw 21, a sliding drive reducer 22, a sliding drive motor 23 and a motor mounting groove 24, the hoisting mechanism comprises a hoisting slide rail 25, a rack 26, a gear 27, a gear shaft 28, a sliding reducer 29, a sliding motor 30, a lifting cylinder 31, an electromagnetic suction block 32 and a hoisting slide seat 33, the support frame is installed in a left-right, the head end of the driving shaft 2 is rigidly mounted at the power output end of the conveying reducer 3, the tail end of the driving shaft 2 is rigidly connected and mounted at the right end of the front end part of the conveying roller shaft 5, the conveying motor 4 is rigidly mounted at the right end face of the right end part of the supporting frame 1 through a motor support, the conveying reducer 3 is fixed at the shell of the conveying motor 4 through a reducer support, the power input end of the conveying reducer 3 is rigidly connected with the power output shaft of the conveying motor 4, the conveying rollers 6 are divided into 2 groups and are symmetrically mounted at the supporting frame 1 through the conveying roller shaft 5 and a bearing in a matching way, the conveying belts 7 are tensioned and connected and mounted between the conveying rollers 6 of the 2 groups, the fixing frames 8 are rigidly mounted at the rear positions among the conveying mechanisms symmetrically mounted at the left and the right sides of the, the axes of the movable positioning plate 10 and the fixed plate 9 coincide, the trigger switch 12 is rigidly mounted at the central position of the right end face of the mounting plate 13, the mounting plate 13 is rigidly mounted on the telescopic column 14, the telescopic column 14 is mounted in the hollow part of the inside of the head end of the fixed support column 15 in a matching manner, the tail end of the fixed support column 15 is rigidly mounted on the upper end face of the threaded slider 18, the telescopic cylinder 16 is rigidly mounted on the outer wall of the upper end of the fixed support column 15, the telescopic end of the telescopic cylinder 16 is connected and mounted on the mounting plate 13, the screw seat 19 is rigidly mounted on the bottom surface of the tail end of the guide chute 20 arranged in the hollow part of the guide rail 17, the head end of the screw 21 is rigidly mounted on the power output end of the sliding drive reducer 22, the tail end of the screw 21 is mounted on the screw seat 19 in, the sliding driving motor 23 is rigidly mounted on the bottom surface of a motor mounting groove 24 arranged at the head end of the guide rail 17, the rack 26 is rigidly arranged on the upper end surface of the hoisting slide rail 25, the gear 27 is meshed with the rack 26, the gear 27 is rigidly arranged at the tail end of a gear shaft 28, the head end of the gear shaft 28 is rigidly arranged at the power output end of a sliding speed reducer 29, the gear shaft 28 is arranged on the hoisting slide seat 33 through a bearing in a matching way, the sliding motor 30 is rigidly arranged on the side surface of the front end of the hoisting slide seat 33 through a motor bracket, the sliding speed reducer 29 is fixed on the shell of the sliding motor 30 through a speed reducer bracket, the power input end of the sliding speed reducer 29 is rigidly connected with the power output shaft of the sliding motor 30, the lifting cylinder 31 is rigidly mounted on the lower end face of the lifting slide seat 33, the electromagnetic attraction block 32 is rigidly mounted on the telescopic end of the lifting cylinder 31, and the lifting slide seat 33 is mounted on the lifting slide rail 25 in a matching manner.
In detail, the conveying mechanisms are symmetrically arranged in a left-right mode in groups of 2, and the hoisting slide rails 25 are hoisted and arranged on a top beam of a workshop.
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 a linking machine is with continuous transmission structure, includes transport mechanism, positioning mechanism and hoisting machine structure, its characterized in that: transport mechanism includes support frame (1), drive shaft (2), conveying reduction gear (3), conveying motor (4), conveying roller axle (5), conveying roller (6), conveyer belt (7), positioning mechanism includes mount (8), fixed plate (9), removal locating plate (10), supporting spring (11), trigger switch (12), mounting panel (13), flexible post (14), fixed stay post (15), telescopic cylinder (16), guide rail (17), screw slider (18), screw rod seat (19), direction spout (20), screw rod (21), slip drive reduction gear (22), slip driving motor (23), motor mounting groove (24), hoist and mount mechanism is including hoist and mount slide rail (25), rack (26), gear (27), gear shaft (28), slip reduction gear (29), slip motor (30), lift cylinder (31), Electromagnetic attraction blocks (32) and a hoisting slide seat (33), the support frame (1) is installed in a way of dividing into 2 groups and left-right symmetry, the head end of the drive shaft (2) is rigidly installed at the power output end of the conveying speed reducer (3), the tail end of the drive shaft (2) is rigidly connected and installed at the right end of the front end part of the conveying roller shaft (5), the conveying motor (4) is rigidly installed at the right end face of the right side part of the support frame (1) through a motor support, the conveying speed reducer (3) is fixed on a shell of the conveying motor (4) through a speed reducer support, the power input end of the conveying speed reducer (3) is rigidly connected to a power output shaft of the conveying motor (4), the conveying roller (6) is installed at the support frame (1) in a way of matching with the conveying roller shaft (5), the utility model discloses a quick-witted, including mount (8), supporting spring (11), movable positioning board (10) and fixed plate (9), trigger switch (12), actuating cylinder (16), telescopic cylinder (16), fixed frame (8) rigid mounting is in rear portion position between the transport mechanism of 2 groups bilateral symmetry installations, fixed plate (9) rigid mounting in mount (8), supporting spring (11) divide 4 to connect respectively and install four corners position between movable positioning board (10) and mounting panel (13), movable positioning board (10) and fixed plate (9) axis coincidence, trigger switch (12) rigid mounting is in mounting panel (13) right side terminal surface central point position, mounting panel (13) rigid mounting is in telescopic column (14), telescopic column (14) cooperation is installed in fixed support column (15) head end cavity department, fixed support column (15) terminal rigid mounting is in thread slider (18) up end, telescopic cylinder (16) rigid mounting is in fixed support column (15) upper end outer wall, the screw rod seat (19) is rigidly mounted on the bottom surface of the tail end of a guide sliding groove (20) arranged in the hollow part inside the guide rail (17), the head end of the screw rod (21) is rigidly mounted on the power output end of a sliding drive reducer (22), the tail end of the screw rod (21) is mounted on the screw rod seat (19) in a matched mode, the sliding drive reducer (22) is fixed on a shell of a sliding drive motor (23) through a reducer support, the power input end of the sliding drive reducer (22) is rigidly connected to the power output shaft of the sliding drive motor (23), the sliding drive motor (23) is rigidly mounted on the bottom surface of a motor mounting groove (24) arranged at the head end of the guide rail (17), a rack (26) is rigidly mounted on the upper end surface of a hoisting slide rail (25), a gear (27) is meshed with the rack (, gear shaft (28) head end rigid mounting is in slip reduction gear (29) power take off end, gear shaft (28) are installed in hoist and mount slide (33) through the bearing cooperation, sliding motor (30) are installed in hoist and mount slide (33) front end side through motor support rigid mounting, slip reduction gear (29) are fixed in sliding motor (30) casing through the reduction gear support, slip reduction gear (29) power take off end rigid connection is in sliding motor (30) power take off shaft, terminal surface under hoist and mount slide (33) is installed in lift cylinder (31) rigid mounting, electromagnetism piece (32) rigid mounting is in lift cylinder (31) flexible end, hoist and mount slide (33) cooperation is installed in hoist and mount slide rail (25).
2. The continuous conveying structure for the sewing machine according to claim 1, wherein the conveying mechanisms are symmetrically arranged in 2 groups, and the hoisting slide rails (25) are hoisted and arranged on a top beam of a workshop.
CN202022058968.3U 2020-09-18 2020-09-18 Continuous transmission structure for linking machine Active CN213350507U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022058968.3U CN213350507U (en) 2020-09-18 2020-09-18 Continuous transmission structure for linking machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022058968.3U CN213350507U (en) 2020-09-18 2020-09-18 Continuous transmission structure for linking machine

Publications (1)

Publication Number Publication Date
CN213350507U true CN213350507U (en) 2021-06-04

Family

ID=76153879

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022058968.3U Active CN213350507U (en) 2020-09-18 2020-09-18 Continuous transmission structure for linking machine

Country Status (1)

Country Link
CN (1) CN213350507U (en)

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