CN112124918A

CN112124918A - Automatic turnover device for making head-shaking buckle face upwards

Info

Publication number: CN112124918A
Application number: CN202011075551.6A
Authority: CN
Inventors: 施国忠
Original assignee: Changzhou Suzoom Technology Co ltd
Current assignee: Changzhou Suzoom Technology Co ltd
Priority date: 2020-10-10
Filing date: 2020-10-10
Publication date: 2020-12-25

Abstract

An automatic turnover device enabling button faces of oscillating buttons and the like to face upwards comprises a vibration feeding disc and a discharging turnover assembly, wherein a discharging hole is formed in the upper portion of the vibration feeding disc, the discharging turnover assembly comprises a sea horse seat and a sea horse assembly, and the sea horse assembly at least comprises a first sea horse piece, a second sea horse piece and a third sea horse piece; a C-shaped first channel for an oscillating buckle handle to pass through is formed by a slit between the first sea horse piece and the second sea horse piece, and a C-shaped second channel for an oscillating buckle surface to pass through is formed by a gap between the inner edges of the first sea horse piece and the second sea horse piece and the outer edge of the third sea horse piece; the first channel and the second channel form a turnover slideway for enabling the mushroom button surface to face upwards; the automatic turnover device with the upward button surfaces of the mushroom buttons can continuously output a large number of mushroom buttons with the upward button surfaces, has the advantages of simple structure, good stability, high production efficiency, low failure rate and good application prospect, and is a necessary automatic turnover device for improving the efficiency of an automatic feeding device of the oscillating button.

Description

Automatic turnover device for making head-shaking buckle face upwards

Technical Field

The invention belongs to the technical field of garment machinery, and particularly relates to an automatic turnover device enabling a button face of a shaking button to face upwards.

Background

A large number of buttons are needed in garment processing, the button feeding machine and the button sewing machine realize high-efficiency automation of button sewing in garment processing, the oscillating button is a common button type, and certain trouble exists in automatic button sewing; the oscillating button usually comprises a male button and a female button, the male button penetrates through clothes firstly when the button is nailed, and then the female button is nailed.

In view of the above, it is desirable to provide an automatic turnover device that can make the button face of the oscillating button face upward.

Disclosure of Invention

The invention aims to provide an automatic feeding device which can enable a button face of a swinging buckle to face upwards for outputting and feeding.

In order to solve the technical problem, the invention discloses an automatic turnover device enabling a button face of a shaking button to be upward, which is used for automatically turning over the shaking button, a vertical button, a handle button or other buttons with button handles and button face characteristics, and comprises a vibration feeding disc and a discharging turnover assembly, wherein a discharging port is formed in the upper part of the vibration feeding disc, the vibration feeding disc is used for screening the shaking button into a state of being orderly arranged and enabling the button face to be downward, and the shaking button is enabled to be sequentially arranged and advanced towards the discharging turnover assembly; the discharging turnover assembly is arranged at the discharging opening;

the discharging overturning assembly comprises a hippocampus seat and a hippocampus assembly which is arranged on the hippocampus seat and comprises a plurality of C-shaped accessories, wherein the hippocampus assembly at least comprises a first hippocampus piece, a second hippocampus piece arranged opposite to the first hippocampus piece and a third hippocampus piece arranged on the inner side of the first hippocampus piece and the inner side of the second hippocampus piece; the first sea horse piece, the second sea horse piece and the third sea horse piece are arranged in parallel, a slit between the first sea horse piece and the second sea horse piece forms a C-shaped first channel for the oscillating buckle handle to pass through, and a slit between the inner edges of the first sea horse piece and the second sea horse piece and the outer edge of the third sea horse piece forms a C-shaped second channel for the oscillating buckle surface to pass through; first passageway and second passageway are constituteed and are used for making to shake the head and detain the upset slide up of face, upset slide upper portion and discharge gate are linked together, and upset slide lower part is for shaking the head and detain the delivery outlet after the upset.

Preferably, the sea horse seat is arranged at a discharge port of the vibration feeding plate, a notch for the shaking buckle to pass through is processed in the middle or at the lower part of the sea horse seat, and the notch is communicated with the discharge port and the turnover slideway.

Preferably, the first hippocampus piece is arranged on one side of the hippocampus seat far away from the center of the vibration feeding plate, and the second hippocampus piece is arranged between the first hippocampus piece and the hippocampus seat.

Preferably, an extension part for guiding the oscillating button to enter the gap is arranged at one end of the first sea horse component close to the discharge hole.

Preferably, a material screening toothed plate used for eliminating oscillating buttons with non-button surfaces facing downwards is arranged at a position, close to the discharge port, of the vibration feeding plate.

Furthermore, a waist groove used for adjusting the length of the material sieving toothed plate extending into the vibration feeding plate is arranged on the material sieving toothed plate.

Preferably, the first and second hippocampus have auxiliary fixing parts with mounting holes at their outer edges.

Preferably, the third hippocampal element is located at the median plane between the first and second hippocampal elements.

The automatic turnover device for enabling the button surfaces of the oscillating buttons to face upwards can continuously output the oscillating buttons with the button surfaces facing upwards in a large quantity, is simple in structure and good in stability, and has high production efficiency, low input cost and low failure rate compared with the conventional manual button nailing or mechanical arm grabbing and turnover button nailing, and has good application prospect.

Drawings

FIG. 1 is a schematic structural view of an automatic turnover device with a button face of a rocking buckle facing upwards;

FIG. 2 is a schematic structural view of the automatic turnover device of FIG. 1 with the button face of the oscillating button facing upwards at another angle;

FIG. 3 is a schematic structural view of a discharging and turning assembly in the automatic turning device of FIG. 1 with the button face of the oscillating buckle facing upward;

FIG. 4 is a front view of the discharging and turning assembly of the automatic turning device of FIG. 3 with the button of the oscillating head facing upwards;

FIG. 5 is a schematic view of the discharging and flipping module of FIG. 3 after the moving button is inserted; wherein the arrow shows the direction of movement of the oscillating button.

FIG. 6 is a schematic structural view of the hippocampus seat of the automatic turning device in FIG. 1 with the button face of the oscillating button facing upwards;

the reference numbers in the figures are: a-shaking head buckle, 1-vibration feeding plate, 2-material discharging and overturning component, 3-material discharging port, 4-hippocampus seat, 5-first hippocampus, 6-second hippocampus, 7-third hippocampus, 8-step-shaped mounting surface, 9-notch, 10-clamping groove, 11-extending part, 12-material sieving toothed plate, 13-waist groove, 14-auxiliary fixing part, 100-first channel, 200-second channel and 300-overturning slideway.

Detailed Description

The present invention is further described in detail below with reference to examples so that those skilled in the art can practice the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," when used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1-6, an automatic turnover device for making a button face of a shaking button face upward is used for automatic turnover of a shaking button A, and comprises a vibration feeding tray 1 and a material discharge turnover assembly 2, wherein a material discharge port 3 is arranged at the upper part of the vibration feeding tray, the vibration feeding tray is used for screening the shaking buttons into a state of ordered arrangement and downward button face, and the shaking buttons are sequentially arranged and advance towards the direction of the material discharge turnover assembly; the discharging turnover assembly is arranged at the discharging opening; when the vibrating tray works, the shaking head buckle is attached to the inner wall of the vibrating feeding tray under vibration to spirally move upwards, and the vibrating feeding tray sends the shaking head buckle into a state that the buckling surface faces downwards, wherein the discharging port is used for feeding the materials into the discharging and overturning assembly.

The discharging overturning assembly comprises a hippocampus seat 4 and a hippocampus assembly which is arranged on the hippocampus seat and comprises a plurality of C-shaped accessories, wherein the hippocampus assembly at least comprises a first hippocampus piece 5, a second hippocampus piece 6 arranged opposite to the first hippocampus piece, and a third hippocampus piece 7 arranged at the inner side of the first hippocampus piece and the second hippocampus piece (more C-shaped accessories can be arranged to form an overturning slideway with better limiting effect, for example, the third hippocampus piece is arranged as a double plate); the first sea horse piece, the second sea horse piece and the third sea horse piece are arranged in parallel, a slit between the first sea horse piece and the second sea horse piece forms a C-shaped first channel 100 for the oscillating buckle handle to pass through, and a slit between the inner edges of the first sea horse piece and the second sea horse piece and the outer edge of the third sea horse piece forms a C-shaped second channel 200 for the oscillating buckle handle to pass through; first passageway and second passageway are constituteed and are used for making to shake the head and detain face up upset slide 300, upset slide upper portion and discharge gate are linked together, and upset slide lower part is for shaking the head and detain the delivery outlet after the upset.

In this embodiment, the first, second and third hippocampal members are fixed to the hippocampus seat by screw fasteners. One side of the sea horse seat far away from the center of the vibration feeding plate is processed into a step-shaped mounting surface 8, so that the first sea horse piece and the second sea horse piece can be mounted on the step-shaped mounting surface in parallel.

The sea horse seat is installed at the discharge gate department of vibration pay-off dish, and sea horse seat middle part processing has the breach 9 that can supply to shake the head and detain the passing through, breach intercommunication discharge gate and upset slide. In the embodiment, a clamping groove 10 is horizontally processed at the lower part of the sea horse seat, and the sea horse seat is fixed at the discharge port of the vibration feeding plate through the clamping groove and a screw fastener. The notch can be processed into an open step shape, so that the oscillating button can only pass through the oscillating button with the button surface facing downwards, and the notch can also be in other shapes which can be passed through by the oscillating button.

The first sea horse piece is arranged on one side, away from the center of the vibration feeding plate, of the sea horse seat, and the second sea horse piece is arranged between the first sea horse piece and the sea horse seat.

An extension part 11 for guiding the shaking buckle to enter the gap is arranged at one end of the first sea horse piece close to the discharge hole. The tail end of the extension part can be abutted against the inner side wall of the vibration feeding plate, and the oscillating fastener is attached to the extension part to move along with the vibration of the vibration feeding plate, so that the oscillating fastener smoothly enters the notch.

And a material screening toothed plate 12 for eliminating non-buckle face-down shaking buckles is arranged at a position, close to the discharge port, of the vibration feeding plate. The oscillating buckle with the non-buckled surface facing downwards has small contact area with the toothed plate, and can lack support when the toothed plate moves upwards to fall into the bottom of the vibration feeding plate again.

And a waist groove 13 for adjusting the length of the material sieving toothed plate extending into the vibration feeding plate is arranged on the material sieving toothed plate. Stretch into vibration feed table length through adjusting sieve material pinion rack, adapt to the screening that not equidimension was shaken the head and is buckled.

The outer edges of the first and second hippocampus parts are provided with auxiliary fixing parts 14 with mounting holes.

The third hippocampus is arranged on the median plane between the first and second hippocampus. This makes the button of shaking the head difficult skew when the slide glides overturns.

The device can also be used for automatic turning (with the button face upwards) of other buttons of similar types.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable to various fields of endeavor for which the invention may be embodied with additional modifications as would be readily apparent to those skilled in the art, and the invention is therefore not limited to the details given herein and to the embodiments shown and described without departing from the generic concept as defined by the claims and their equivalents.

Claims

1. An automatic turnover device enabling a button face of a shaking button to be upward is used for automatic turnover of the shaking button, a vertical button, a handle button or other buttons with button handles and button face characteristics, and is characterized by comprising a vibration feeding disc and a discharging turnover assembly, wherein a discharging port is arranged at the upper part of the vibration feeding disc, the vibration feeding disc is used for screening the shaking button into a state of being orderly arranged and the button face is downward, and the shaking button is enabled to be orderly arranged and advance towards the discharging turnover assembly; the discharging turnover assembly is arranged at the discharging opening;

the discharging overturning assembly comprises a hippocampus seat and a hippocampus assembly which is arranged on the hippocampus seat and comprises a plurality of C-shaped accessories, wherein the hippocampus assembly at least comprises a first hippocampus piece, a second hippocampus piece arranged opposite to the first hippocampus piece and a third hippocampus piece arranged on the inner side of the first hippocampus piece and the inner side of the second hippocampus piece; the first sea horse piece, the second sea horse piece and the third sea horse piece are arranged in parallel, a slit between the first sea horse piece and the second sea horse piece forms a C-shaped first channel for the oscillating buckle handle to pass through, and a gap between the inner edges of the first sea horse piece and the second sea horse piece and the outer edge of the third sea horse piece forms a C-shaped second channel for the oscillating buckle handle to pass through; first passageway and second passageway are constituteed and are used for making to shake the head and detain the upset slide up of face, upset slide upper portion and discharge gate are linked together, and upset slide lower part is for shaking the head and detain the delivery outlet after the upset.

2. The automatic turnover device for the button face of the shaking buckle to face upwards as claimed in claim 1, wherein the hippocampus base is installed at the discharge port of the vibration feeding tray, a notch for the shaking buckle to pass through is processed at the middle part or the lower part of the hippocampus base, and the notch is communicated with the discharge port and the turnover slideway.

3. The automatic turnover device for a button of a moving head buckle to face upward as claimed in claim 2, wherein said first hippocampus is located at a side of said seat far from the center of said vibration feeding tray, and said second hippocampus is located between said first hippocampus and said seat.

4. The automatic turnover device for the button of the headshaking buckle to face upward as claimed in claim 3, wherein the first hippocampus has an extension part near the discharge port for guiding the headshaking buckle to enter the gap.

5. The automatic turnover device for the oscillating buckle with the upward buckle face according to claim 1, wherein a material sieving toothed plate for eliminating the oscillating buckle with the non-buckle face facing downward is arranged at a position close to the discharge port of the oscillating feed tray.

6. The automatic turnover device enabling the oscillating buckle to face upwards according to claim 5, wherein the material sieving toothed plate is provided with a waist groove for adjusting the length of the material sieving toothed plate extending into the vibration feeding tray.

7. The automatic turnover device for the oscillating button to face upwards as claimed in claim 1, wherein the first and second hippocampus have auxiliary fixing parts with mounting holes at their outer edges.

8. The automatic turnover device for a button with a button head facing upwards as claimed in claim 1, wherein said third hippocampus is located at the median plane between the first and second hippocampus.