CN211569170U - Novel disk feeder actuating mechanism - Google Patents

Abstract

The utility model discloses a novel disk feeder actuating mechanism relates to the machine-building trade field, including motor cabinet, driving motor, input shaft, reduction gear, output shaft, flange, horizontal fixed axle, horizontal slider, horizontal spout, horizontal telescopic shaft, spring holder, straining spring, the flexible post of direction, backup pad, gyro wheel, bearing, vertical fixed axle, drive bevel gear, passive bevel gear, vertical slider, vertical spout, vertical telescopic shaft, driving pulley, driving belt, belt gib block, gib block pivot, mounting panel, hydraulic pressure lift post, passive band pulley. The utility model relates to a scheme makes rotary table feeder pivot rotational speed realize real-time quick adjustment through the design of toper passive band pulley and hydraulic pressure over-and-under type belt guide strip, adjusts under the prerequisite that does not change driving motor load rotational speed, is favorable to protecting motor steady operation, ensures the belt through straining spring's design simultaneously and keeps the tensioning state and stable transmission under any adjustment condition.

Description

Novel disk feeder actuating mechanism

Technical Field

The utility model belongs to the technical field of the machine-building trade and specifically relates to a novel disk feeder actuating mechanism.

Background

At the present stage, the disc feeder is widely applied in the machinery manufacturing industry, but the disc of the disc feeder can not adjust the feeding speed in real time according to the working condition requirements at present, the real-time working condition that the feeding speed needs to be changed is difficult to deal with, and the work adaptability is poor.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides a novel disk feeder driving mechanism.

The utility model provides a technical scheme that its technical problem adopted is: a novel disk feeder driving mechanism comprises a motor base, a driving motor, an input shaft, a speed reducer, an output shaft, a connecting flange, a transverse fixed shaft, a transverse sliding block, a transverse sliding chute, a transverse telescopic shaft, a spring seat, a tensioning spring, a guiding telescopic column, a supporting plate, a roller, a bearing, a longitudinal fixed shaft, a driving bevel gear, a driven bevel gear, a longitudinal sliding block, a longitudinal sliding chute, a longitudinal telescopic shaft, a driving belt wheel, a driving belt, a belt guide strip, a guide strip rotating shaft, a mounting plate, a hydraulic lifting column, a driven belt wheel, a disk feeder rotating shaft and a supporting roller, wherein the driving motor is rigidly mounted on the motor base, the head end of the input shaft is rigidly connected to a power output shaft of the driving motor, the tail end of the input shaft is rigidly connected to a power input end of the speed reducer, the head, the horizontal sliding blocks are symmetrically and rigidly arranged on the side part of the tail end of the horizontal telescopic shaft in a whole in a split mode in 2 groups, the horizontal sliding grooves are arranged on the hollow inner wall of the horizontal fixed shaft in 2 groups, the horizontal sliding blocks are arranged in the horizontal sliding grooves in a matched mode, the horizontal telescopic shaft is arranged in the horizontal fixed shaft in a matched mode through the horizontal sliding blocks and the horizontal sliding grooves, the spring seat is rigidly arranged on the right side face of the shell of the speed reducer, the tensioning spring is arranged on the periphery of the guide telescopic column in a nested mode, the tensioning spring and the guide telescopic column are connected and arranged between the spring seat and the side face of the supporting plate, the roller wheel groups 2 are symmetrically arranged on the bottom face of the supporting plate through the wheel seat, the vertical fixed shaft is arranged on the horizontal, the driven bevel gear is rigidly arranged at the head end of the longitudinal fixed shaft and is meshed with the driving bevel gear, the longitudinal slide block group 2 is symmetrically and rigidly arranged at the tail end of the longitudinal telescopic shaft in an integrated way, the longitudinal sliding chute group 2 is symmetrically arranged on the hollow inner wall of the longitudinal fixed shaft, the longitudinal telescopic shaft is arranged in the longitudinal fixed shaft in a matching way through a longitudinal sliding block and a longitudinal sliding groove, the driving belt wheel is rigidly arranged at the head end of the longitudinal telescopic shaft, the transmission belt is connected and arranged between the driving belt wheel and the driven belt wheel, the belt guide strip is arranged on the upper end surface of the mounting plate in a matching way through a guide strip rotating shaft, the mounting plate is rigidly arranged on the hydraulic lifting column, the belt guide strip is arranged at the middle position of the driving belt wheel in a matching way, the driven belt wheel is rigidly arranged on the rotating shaft of the disk feeder, the supporting roller is installed in a guide groove formed in the upper end face of the belt guide strip through the matching of a roller shaft.

The novel disk feeder driving mechanism is characterized in that the belt guide strips are symmetrically arranged on the upper end face of the mounting plate in 2 groups.

According to the novel disk feeder driving mechanism, the supporting rollers are divided into 10-15 groups and are uniformly distributed along the central line of the belt guide strip and are arranged in the guide groove formed in the upper end surface of the belt guide strip through the matching of the roller shafts.

The beneficial effects of the utility model are that, the utility model provides a design through toper passive band pulley and hydraulic pressure over-and-under type belt guide strip makes rotary table feeder pivot rotational speed realize real-time quick adjustment, adjusts under the prerequisite that does not change driving motor load rotational speed, is favorable to protecting motor steady operation, ensures that the belt keeps the tensioning state and stable transmission under any adjustment condition through the design of taut spring 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 top view of the belt guide strip mounting structure of the present invention.

In the figure, 1, a motor base, 2, a driving motor, 3, an input shaft, 4, a speed reducer, 5, an output shaft, 6, a connecting flange, 7, a transverse fixed shaft, 8, a transverse sliding block, 9, a transverse sliding chute, 10, a transverse telescopic shaft, 11, a spring seat, 12, a tension spring, 13, a guide telescopic column, 14, a supporting plate, 15, a roller, 16, a bearing, 17, a longitudinal fixed shaft, 18, a driving bevel gear, 19, a driven bevel gear, 20, a longitudinal sliding block, 21, a longitudinal sliding chute, 22, a longitudinal telescopic shaft, 23, a driving belt wheel, 24, a transmission belt, 25, a belt guide strip, 26, a guide strip rotating shaft, 27, a mounting plate, 28, a hydraulic lifting column, 29, a driven belt wheel, 30, a disk feeder rotating shaft and 31, a supporting roller 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 novel disk feeder driving mechanism comprises a motor base 1, a driving motor 2, an input shaft 3, a speed reducer 4, an output shaft 5, a connecting flange 6, a transverse fixing shaft 7, a transverse sliding block 8, a transverse sliding groove 9, a transverse telescopic shaft 10, a spring seat 11, a tension spring 12, a guide telescopic column 13, a supporting plate 14, a roller 15, a bearing 16, a longitudinal fixing shaft 17, a driving bevel gear 18, a driven bevel gear 19, a longitudinal sliding block 20, a longitudinal sliding groove 21, a longitudinal telescopic shaft 22, a driving belt wheel 23, a transmission belt 24, a belt guide strip 25, a guide strip rotating shaft 26, a mounting plate 27, a hydraulic lifting column 28, a driven belt wheel 29, a disk feeder rotating shaft 30 and a supporting roller 31, wherein the driving motor 2 is rigidly mounted on the motor base 1, the head end of the input shaft 3 is rigidly connected to a power output shaft of the driving motor 2, the tail end of, the head end of the output shaft 5 is rigidly connected with the power output end of the speed reducer 4, the transverse fixed shaft 7 is rigidly mounted at the tail end of the output shaft 5 through a connecting flange 6, the transverse sliding blocks 8 are symmetrically and rigidly mounted at the lateral part of the tail end of the transverse telescopic shaft 10 in groups of 2, the transverse sliding chutes 9 are arranged at the hollow inner wall of the transverse fixed shaft 7 in groups of 2, the transverse sliding blocks 8 are mounted at the transverse sliding chutes 9 in a matching way, the transverse telescopic shaft 10 is mounted inside the transverse fixed shaft 7 in a matching way through the transverse sliding blocks 8 and the transverse sliding chutes 9, the spring seat 11 is rigidly mounted at the right side surface of the shell of the speed reducer 4, the tensioning spring 12 is nested and mounted at the periphery of the guide telescopic column 13, the tensioning spring 12 and the guide telescopic column 13 are connected and, the longitudinal fixed shaft 17 is fittingly installed at the transverse part of the supporting plate 14 through a bearing 16, the transverse telescopic shaft 10 is fittingly installed at the longitudinal part of the supporting plate 14 through the bearing 16, the driving bevel gear 18 is rigidly installed at the head end of the transverse telescopic shaft 10, the driven bevel gear 19 is rigidly installed at the head end of the longitudinal fixed shaft 17, the driven bevel gear 19 is engaged with the driving bevel gear 18, the longitudinal sliding blocks 20 are symmetrically and rigidly installed at the tail end of the longitudinal telescopic shaft 22 in groups of 2, the longitudinal sliding grooves 21 are symmetrically installed at the hollow inner wall of the longitudinal fixed shaft 17 in groups of 2, the longitudinal telescopic shaft 22 is fittingly installed inside the longitudinal fixed shaft 17 through the longitudinal sliding blocks 20 and the longitudinal sliding grooves 21, the driving pulley 23 is rigidly installed at the head end of the longitudinal telescopic shaft 22, the driving belt 24 is connected and installed between the driving pulley 23 and the driven pulley 29, the mounting panel 27 rigid mounting is in hydraulic pressure lift post 28, belt gib block 25 cooperation is installed in driving pulley 23 middle part position, driven pulley 29 rigid mounting is in disk feeder pivot 30, backing roll 31 passes through the roller cooperation and installs in the guide way that the up end set up of belt gib block 25.

In detail, the belt gib 25 divides 2 groups to symmetrically install in the up end of mounting panel 27, 31 minutes 11 groups of backing rolls are installed in the guide way that the up end of belt gib 25 set up through the roller cooperation along belt gib 25 central line equipartition.

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 (3)

1. A novel disk feeder driving mechanism comprises a motor base (1), a driving motor (2), an input shaft (3), a speed reducer (4), an output shaft (5), a connecting flange (6), a transverse fixing shaft (7), a transverse sliding block (8), a transverse sliding groove (9), a transverse telescopic shaft (10), a spring seat (11), a tensioning spring (12), a guide telescopic column (13), a supporting plate (14), a roller (15), a bearing (16), a longitudinal fixing shaft (17), a driving bevel gear (18), a driven bevel gear (19), a longitudinal sliding block (20), a longitudinal sliding groove (21), a longitudinal telescopic shaft (22), a driving belt wheel (23), a driving belt (24), a belt guide strip (25), a guide strip rotating shaft (26), a mounting plate (27), a hydraulic lifting column (28), a driven belt wheel (29), a disk feeder rotating shaft (30), A support roller (31), characterized in that: the driving motor (2) is rigidly mounted on the motor base (1), the head end of the input shaft (3) is rigidly connected to a power output shaft of the driving motor (2), the tail end of the input shaft (3) is rigidly connected to a power input end of the speed reducer (4), the head end of the output shaft (5) is rigidly connected to a power output end of the speed reducer (4), the transverse fixing shaft (7) is rigidly mounted at the tail end of the output shaft (5) through a connecting flange (6), the transverse sliding blocks (8) are divided into 2 groups and symmetrically and rigidly mounted on the side part of the tail end of the transverse telescopic shaft (10), the transverse sliding grooves (9) are arranged on the hollow inner wall of the transverse fixing shaft (7) in 2 groups, the transverse sliding blocks (8) are mounted on the transverse sliding grooves (9) in a matched mode, and the transverse telescopic shaft (10) is mounted inside the transverse, the spring seat (11) is rigidly mounted on the right side surface of a shell of the speed reducer (4), the tensioning spring (12) is mounted on the periphery of the guide telescopic column (13) in a nested manner, the tensioning spring (12) and the guide telescopic column (13) are connected and mounted between the spring seat (11) and the side surface of the supporting plate (14), the rollers (15) are symmetrically mounted on the bottom surface of the supporting plate (14) in groups of 2 through roller seats, the longitudinal fixed shaft (17) is mounted on the transverse part of the supporting plate (14) through a bearing (16) in a matched manner, the transverse telescopic shaft (10) is mounted on the longitudinal part of the supporting plate (14) through a bearing (16) in a matched manner, the driving bevel gear (18) is rigidly mounted at the head end of the transverse telescopic shaft (10), the driven bevel gear (19) is rigidly mounted at the head end of the longitudinal fixed shaft (, the longitudinal sliding blocks (20) are symmetrically and rigidly installed at the tail end of a longitudinal telescopic shaft (22) in a symmetrical mode in groups of 2, the longitudinal sliding grooves (21) are symmetrically arranged on the hollow inner wall of the longitudinal fixed shaft (17) in groups of 2, the longitudinal telescopic shaft (22) is installed inside the longitudinal fixed shaft (17) in a matched mode through the longitudinal sliding blocks (20) and the longitudinal sliding grooves (21), the driving belt wheel (23) is rigidly installed at the head end of the longitudinal telescopic shaft (22), the transmission belt (24) is installed between the driving belt wheel (23) and the driven belt wheel (29) in a connected mode, the belt guide strip (25) is installed on the upper end face of the installation plate (27) in a matched mode through the guide strip rotating shaft (26), the installation plate (27) is rigidly installed on the hydraulic lifting column (28), the belt guide strip (25) is installed at the middle position of the driving belt wheel (23) in a matched, the supporting rollers (31) are installed in guide grooves formed in the upper end face of the belt guide strip (25) through the matching of roller shafts.

2. A novel disk feeder driving mechanism according to claim 1, characterized in that the belt guide strips (25) are symmetrically arranged on the upper end surface of the mounting plate (27) in 2 groups.

3. A novel disk feeder driving mechanism according to claim 1, characterized in that the supporting rollers (31) are uniformly distributed in 10-15 groups along the center line of the belt guide strip (25) and are arranged in guide grooves arranged on the upper end surface of the belt guide strip (25) in a matched mode through roller shafts.

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