CN210276135U - Disk indexing mechanism of cold-sticking sole press for shoes - Google Patents

Abstract

A cold-sticking sole press machine disc indexing mechanism for shoes comprises a disc assembly, a hydraulic motor assembly, an indexing assembly and a limiting assembly which are matched with each other; the disc assembly comprises discs matched with each other, a supporting seat and a first bearing; the hydraulic motor assembly comprises a hydraulic motor and a speed reducer which are matched with each other; the transposition assembly comprises a grooved wheel driving wheel, a roller pin shaft, a wear-resistant roller driven grooved wheel and a bearing II which are matched with each other; the limiting assembly comprises a bidirectional adjusting tug support; the hydraulic oil motor drives the speed reducer, the speed reducer drives the grooved pulley driving wheel, the wear-resistant roller on the movable grooved pulley driving wheel pushes the driven grooved pulley to drive the disc to rotate circumferentially through the supporting seat, the structure is simpler, parts are easy to process, the precision is guaranteed, and the installation is simple and easy to operate.

Description

Disk indexing mechanism of cold-sticking sole press for shoes

Technical Field

The utility model relates to a disc indexing mechanism, it is concrete with a shoes are with cold sticking end press disc indexing mechanism is relevant.

Background

The traditional cold-sticking sole press is characterized in that a fixed sole press is arranged in a sole pressing link in the early shoe making process of a conveyor belt assembly line to a recent disc type gear transmission transposition form. The recent cold-bonding shoemaking process is a manual operation machine, has low requirement on the precision of the disc after transposition and righting, and cannot be used in the full-automatic cold-bonding sole-pressing shoemaking process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel cold glue end press disc indexing mechanism for shoes solves among traditional indexing mechanism that the transposition precision is not high and consume artifical scheduling problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a cold-sticking sole press machine disc indexing mechanism for shoes comprises a disc assembly, a hydraulic motor assembly, an indexing assembly and a limiting assembly which are matched with each other; the disc assembly comprises discs matched with each other, a supporting seat and a first bearing; wherein, the supporting seat is fixedly connected on the corresponding position of the base, and the disc is sleeved on the supporting seat through a bearing; the hydraulic motor assembly comprises a hydraulic motor and a speed reducer which are matched with each other; the transposition assembly comprises a grooved wheel driving wheel, a roller pin shaft, a wear-resistant roller driven grooved wheel and a bearing II which are matched with each other; the sheave driving wheel is fixedly connected to a speed reducer driven wheel and driven by a hydraulic motor to rotate, a roller pin shaft is fixedly connected to the corresponding position of the sheave driving wheel to rotate integrally with the sheave driving wheel, a wear-resistant roller is in rolling fit with the roller pin shaft and rotates integrally with the sheave driving wheel and the roller pin shaft, a driven sheave is sleeved on a support seat through a bearing and is positioned below a disc and fixed with the disc, a group of arc grooves are formed in the outer edge of the driven sheave, guide grooves are formed in two sides of each arc groove, the sheave driving wheel rotates to roll the wear-resistant roller into the rolling-out guide grooves to drive the sheave driven wheel to rotate for one station, an arc-shaped locking arc is additionally arranged on the sheave driving wheel, and when the wear-resistant roller rotates from one guide groove to enter the next guide; the limiting assembly comprises a bidirectional adjusting tug wheel support, the bidirectional adjusting tug wheel support is fixed on the corresponding position of the base and matched with the disc, the bidirectional adjusting tug wheel support comprises a longitudinal supporting wheel and a transverse supporting wheel which are adjusted by an adjusting mechanism, the longitudinal supporting wheel clings to the bottom surface of the disc to adjust the axial gap of the disc, and the transverse supporting wheel clings to the side surface of the disc to adjust the radial gap of the disc.

Furthermore, the first bearing is a conical roller ball bearing I, and the second bearing is a conical roller ball bearing II; a bearing pressing sleeve is arranged between the disc and the first conical roller ball bearing; the inner ring of the conical roller ball bearing II is arranged at the bearing position at the lower end of the supporting seat; the positioning spigot of the driven sheave is matched with the positioning hole at the lower end of the disc and then fixedly connected together, the fixedly connected disc and the driven sheave are arranged on the supporting seat in the downward direction of the driven sheave and are matched with the outer ring of the tapered roller ball bearing, the bearing pressing sleeve is matched with the positioning hole at the upper end of the disc and then fixedly connected together, the inner ring of the tapered roller ball bearing is arranged at the bearing position at the upper end of the supporting seat, and the outer ring of the tapered roller ball bearing is arranged at the bearing position of the bearing pressing sleeve.

And further, a locking nut is arranged above the supporting seat, is arranged on a corresponding thread of the supporting seat, and is continuously screwed, so that the lower end of the locking nut downwards presses an inner ring of the conical roller ball bearing until the disc can freely rotate and the swing clearance is small, and then the locking nut is fixed on the adjusted position through a locking washer.

Furthermore, the upper end of the roller pin shaft is fixed by a limiting block to prevent the abrasion-resistant roller from axially moving.

Furthermore, a brake magnet assembly is fixed on the machine base to be matched with the lower surface of the driven sheave, and the auxiliary sheave is positioned after being turned in place.

Adopt above-mentioned technical scheme, the utility model discloses compare traditional disc type gear drive indexing mechanism, provide a novel cold bonding presses end machine disc indexing mechanism for shoes, solve among traditional indexing mechanism transposition precision not high and consume artifical scheduling problem. The mechanism is simpler in structure, parts are easy to machine and guarantee precision, the installation is simple and easy to operate, accurate positioning is achieved through a grooved wheel locking arc in the mechanism during transposition, the problem that transposition precision is not high is solved, the cold-bonding bottom disc transposition mechanism is accurate in transposition, the mechanism is better used for full-automatic cold-bonding shoemaking process operation, safety is improved, and manpower is saved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic front view of the present invention;

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

FIG. 3 is a first schematic view of the present invention;

FIG. 4 is a second schematic diagram of the operation of the present invention;

fig. 5 is a third schematic view of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are preferred embodiments of the invention and should not be considered as excluding other embodiments. Based on the embodiment of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention.

In the claims, the specification and the drawings, unless otherwise expressly limited, the terms "first," "second," or "third," etc. are used for distinguishing between different elements and not for describing a particular sequence.

In the claims, the specification and the drawings, unless otherwise expressly limited, all directional or positional relationships, such as those using the terms "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," "counterclockwise," and the like, are based on the directional or positional relationships illustrated in the drawings and are for the purpose of convenience in describing the invention and simplifying the description, but do not indicate or imply that the device or element so referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore are not to be construed as limiting the scope of the invention.

In the claims, the description and the drawings of the present application, unless otherwise expressly limited, the term "fixedly connected" or "fixedly connected" is used, which is to be understood broadly, that is, any connection mode without displacement relation or relative rotation relation between the two, that is, including non-detachably fixed connection, integrated connection and fixed connection through other devices or elements.

In the claims, the specification and the drawings, the terms "including", "comprising" and variations thereof, if used, are intended to be inclusive and not limiting.

Referring to fig. 1-5, a disk indexing mechanism of a cold-gluing sole press for shoes, which is a specific embodiment of the present invention, comprises a disk assembly 1, a hydraulic motor assembly 2, an indexing assembly 3 and a limiting assembly 4 which are matched with each other; the disc assembly 1 comprises a disc 11, a supporting seat 12 and a bearing 13 which are matched with each other; wherein, the supporting seat 12 is fixedly connected on the corresponding position of the base 5, and the disc 11 is sleeved on the supporting seat 12 through the bearing I13; the hydraulic motor assembly 2 comprises a hydraulic motor 21 and a speed reducer 22 which are matched with each other; the indexing assembly 3 comprises a grooved pulley driving wheel 31, a roller pin shaft 32, a wear-resistant roller 33, a driven grooved pulley 34 and a bearing II 35 which are matched with each other; wherein, the grooved pulley driving wheel 31 is fixedly connected on the driven wheel of the speed reducer 22 and driven by the hydraulic motor 21 to rotate, the roller pin shaft 32 is fixedly connected on the corresponding position of the grooved pulley driving wheel 31 to rotate integrally with the grooved pulley driving wheel 31, the wear-resistant roller 33 is matched with the roller pin shaft 32 in a rolling way and rotates integrally with the grooved pulley driving wheel 31 and the roller pin shaft 32, the driven grooved pulley 34 is sleeved on the supporting seat 12 through a bearing II 35 and is positioned below the disc 11 to be fixed with the disc 11, the outer edge of the driven grooved pulley 34 is provided with a group of arc grooves 341, two sides, the sheave driving wheel 31 rotates the wear-resistant roller 33 to roll into the rolling-out guide groove 342 to drive the sheave driven wheel 34 to rotate for a station, the sheave driving wheel 31 is additionally provided with a circular arc-shaped locking arc 311, and when the sheave driving wheel 31 rotates, the wear-resistant roller 33 rotates out of one guide groove and enters the next guide groove, the locking arc 311 is matched with the circular arc groove 341 to ensure that the sheave driven wheel 34 does not rotate to stabilize the station; the limiting assembly comprises a bidirectional adjusting tug support 4, the bidirectional adjusting tug support 4 is fixed on the corresponding position of the machine base 5 and matched with the disc 11, the bidirectional adjusting tug support comprises a longitudinal support wheel 41 and a transverse support wheel 42, the longitudinal support wheel 41 is tightly attached to the bottom surface of the disc 11 to adjust the axial gap of the disc, and the transverse support wheel 42 is tightly attached to the side surface of the disc 11 to adjust the radial gap of the disc.

In a more optimized design, the first bearing 13 is a tapered roller ball bearing I, and the second bearing 35 is a tapered roller ball bearing II; a bearing pressing sleeve 6 is arranged between the disc 11 and the first conical roller ball bearing; the inner ring of the tapered roller ball bearing is arranged at the bearing position at the lower end of the supporting seat 12; the positioning spigot of the driven sheave 34 is matched with the positioning hole at the lower end of the disc 11 and then fixedly connected together, the fixedly connected disc 11 and the driven sheave 34 are arranged on the supporting seat 12 in the downward direction of the driven sheave and are matched with the two outer rings of the tapered roller ball bearing, the bearing pressing sleeve 6 is matched with the positioning hole at the upper end of the disc 11 and then fixedly connected together, the inner ring of the tapered roller ball bearing is arranged at the bearing position at the upper end of the supporting seat 12, and the outer ring of the tapered roller ball bearing is arranged at the bearing position of the bearing pressing sleeve 6.

And a locking nut 7 is also arranged above the supporting seat 12, the locking nut 7 is arranged on the corresponding thread of the supporting seat 12, and the locking nut 7 is continuously screwed so that the lower end of the locking nut presses an inner ring of the tapered roller ball bearing downwards until the disc 11 can freely rotate and the swinging clearance is small, and then the locking nut is fixed on the adjusted position through a locking washer.

Furthermore, the upper end of the roller pin shaft 32 is fixed by a limiting block to prevent the abrasion-resistant roller from moving axially, and a brake magnet assembly 8 is additionally fixed on the machine base 5 to be matched with the lower surface of the driven grooved wheel 34.

The utility model discloses an erection joint mode does: a support seat and a bidirectional adjusting tug are supported and fixedly connected on corresponding positions of a machine base, a tapered roller ball bearing (two inner rings are arranged on a bearing position at the lower end of the support seat, a positioning spigot of a driven sheave is matched with a positioning hole at the lower end of a disc and then fixedly connected together, the fixedly connected disc and the driven sheave are arranged on the support seat in the direction downwards from the driven sheave and are matched with two outer rings of the tapered roller ball bearing, a bearing pressing sleeve is matched with a positioning hole at the upper end of the disc and then fixedly connected together, an inner ring of the tapered roller ball bearing is arranged on the bearing position at the upper end of the support seat, an outer ring of the tapered roller ball bearing is arranged on the bearing position of the bearing pressing sleeve, a locking nut is arranged on corresponding threads of the support seat, the locking nut is continuously screwed, the tapered roller ball bearing is pressed downwards by the lower end until the disc can freely rotate and the swinging clearance is not large, the locking nut is fixed, radial and axial clearances of the disc in the transposition process are adjusted; the hydraulic oil motor is fixedly connected to a driving shaft of the speed reducer, the sheave driving wheel is fixedly connected to a driven wheel of the speed reducer, the roller pin shaft is fixedly connected to the corresponding position of the sheave driving wheel, the wear-resistant roller is in rolling fit with the roller pin shaft, and the upper end of the roller pin shaft is fixed by a limiting block to prevent the wear-resistant roller from axially moving; the brake magnet assembly is fixedly connected to the corresponding position of the machine base. A hydraulic oil motor is used for driving a speed reducer, the speed reducer drives a grooved pulley driving wheel, and a wear-resistant roller on the grooved pulley driving wheel drives a driven grooved pulley to drive a disc to rotate circumferentially through a supporting seat.

The utility model provides a transposition precision is not high and consume artifical scheduling problem among the traditional indexing mechanism. The mechanism is simpler in structure, parts are easy to machine and guarantee precision, the installation is simple and easy to operate, accurate positioning is achieved through a grooved wheel locking arc in the mechanism during transposition, the problem that transposition precision is not high is solved, the cold-bonding bottom disc transposition mechanism is accurate in transposition, the mechanism is better used for full-automatic cold-bonding shoemaking process operation, safety is improved, and manpower is saved.

The description of the above specification and examples is intended to illustrate the scope of the invention, but should not be construed as limiting the scope of the invention. Modifications, equivalents and other improvements which may be made to the embodiments of the invention or to some of the technical features thereof by a person of ordinary skill in the art through logical analysis, reasoning or limited experimentation in light of the above teachings of the invention or the above embodiments are intended to be included within the scope of the invention.

Claims (5)

1. A cold-sticking sole press machine disc indexing mechanism for shoes is characterized by comprising a disc assembly, a hydraulic motor assembly, an indexing assembly and a limiting assembly which are matched with each other; the disc assembly comprises discs matched with each other, a supporting seat and a first bearing; wherein, the supporting seat is fixedly connected on the corresponding position of the base, and the disc is sleeved on the supporting seat through a bearing; the hydraulic motor assembly comprises a hydraulic motor and a speed reducer which are matched with each other; the transposition assembly comprises a grooved wheel driving wheel, a roller pin shaft, a wear-resistant roller driven grooved wheel and a bearing II which are matched with each other; the sheave driving wheel is fixedly connected to a speed reducer driven wheel and driven by a hydraulic motor to rotate, a roller pin shaft is fixedly connected to the corresponding position of the sheave driving wheel to rotate integrally with the sheave driving wheel, a wear-resistant roller is in rolling fit with the roller pin shaft and rotates integrally with the sheave driving wheel and the roller pin shaft, a driven sheave is sleeved on a support seat through a bearing and is positioned below a disc and fixed with the disc, a group of arc grooves are formed in the outer edge of the driven sheave, guide grooves are formed in two sides of each arc groove, the sheave driving wheel rotates to roll the wear-resistant roller into the rolling-out guide grooves to drive the sheave driven wheel to rotate for one station, an arc-shaped locking arc is additionally arranged on the sheave driving wheel, and when the wear-resistant roller rotates from one guide groove to enter the next guide; the limiting assembly comprises a bidirectional adjusting tug wheel support, the bidirectional adjusting tug wheel support is fixed on the corresponding position of the base and matched with the disc, the bidirectional adjusting tug wheel support comprises a longitudinal supporting wheel and a transverse supporting wheel which are adjusted by an adjusting mechanism, the longitudinal supporting wheel clings to the bottom surface of the disc to adjust the axial gap of the disc, and the transverse supporting wheel clings to the side surface of the disc to adjust the radial gap of the disc.

2. The cold-stick sole press disc indexing mechanism for shoes as claimed in claim 1, wherein the first bearing is a first conical roller ball bearing, and the second bearing is a second conical roller ball bearing; a bearing pressing sleeve is arranged between the disc and the first conical roller ball bearing; the inner ring of the conical roller ball bearing II is arranged at the bearing position at the lower end of the supporting seat; the positioning spigot of the driven sheave is matched with the positioning hole at the lower end of the disc and then fixedly connected together, the fixedly connected disc and the driven sheave are arranged on the supporting seat in the downward direction of the driven sheave and are matched with the outer ring of the tapered roller ball bearing, the bearing pressing sleeve is matched with the positioning hole at the upper end of the disc and then fixedly connected together, the inner ring of the tapered roller ball bearing is arranged at the bearing position at the upper end of the supporting seat, and the outer ring of the tapered roller ball bearing is arranged at the bearing position of the bearing pressing sleeve.

3. The disk indexing mechanism for a cold stick press for shoes as claimed in claim 1, wherein a lock nut is provided above the support base, the lock nut is mounted on a corresponding thread of the support base, and the lock nut is continuously tightened so that its lower end presses the tapered roller ball bearing downward until the disk can freely rotate and the swing gap is small, and then the lock nut is fixed in the adjusted position by a lock washer.

4. The cold-gluing sole press disc indexing mechanism for shoes as claimed in claim 3, wherein the upper end of the roller pin shaft is fixed by a limiting block to prevent the wear-resistant roller from moving axially.

5. The cold-gluing sole press disc indexing mechanism for shoes as claimed in claim 1, 2, 3 or 4, wherein a brake magnet assembly is further fixed on the base to engage with the lower surface of the driven sheave to assist in positioning after the sheave is indexed in place.

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