CN214016203U - Automatic feeding device for servo button assembling machine and button sewing machine - Google Patents

Abstract

An automatic feeding device for a servo button assembling machine and a button sewing machine adopts a vibration disc feeding mode and comprises a vibration disc assembly, a button channel assembly, a button feeding assembly and a button sewing lower die assembly, wherein the vibration disc assembly is communicated with the button feeding assembly through the button channel assembly; the button channel assembly comprises a wing plate group forming a button channel, a channel bottom plate fixed below the wing plate group and a fixed seat used for fixing the channel bottom plate and the wing plate group; the disc opening channel slide assembly comprises a drainage double wing, a channel slide and a disc lower fixing seat for fixing the channel slide, and the drainage wing plate forms a drainage channel; the drainage channel is connected with the button channel through a channel sliding sheet; the utility model discloses can be used to the repacking of manual servo button assembling machine or button sewing machine, become semi-automatic button sewing device, improve button sewing efficiency greatly, it is small, with low costs, adaptable multiple model equipment.

Description

Automatic feeding device for servo button assembling machine and button sewing machine

Technical Field

The utility model belongs to the technical field of garment machinery, concretely relates to automatic feeding for servo button sewing machine and button sewing machine.

Background

A large number of buttons are needed in processing of products such as clothes, a servo button installing machine is needed for binding a plurality of buttons, the servo button installing machine is standard equipment, and is actually a simple small punch press or a small punch press, and a female button (an upper button) and a male button (a bottom button) are pressed together. The button upper die (which can be understood as a clamping device of a female button or a male button) is generally sold by a merchant for selling buttons, and needs an adaptive lower die, a processor installs the female button in the upper die during button sewing, installs the male button in the lower die, puts clothes and the like between the upper die and the lower die, steps on a starting pedal, and presses the female button and the male button on the clothes by a servo button installing machine. In the pressing process, the female buckle is arranged in the upper die, the male buckle is arranged in the lower die and the like, and the operation is manual, so that the button nailing efficiency is greatly reduced.

If an automatic device can be provided, the operator can avoid the loading of the male buckle in the lower die, half of the button loading time can be reduced, and the whole button nailing efficiency is greatly improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an autoloading device that is used for servo button assembling machine and button sewing machine's semi-automatization to reform transform.

The utility model aims at providing a small, efficient, simple to operate's semi-automatization automatic feeding.

In order to solve the technical problem, the utility model discloses an automatic feeding device for a servo button assembling machine and a button sewing machine, which adopts a vibration disc feeding mode and comprises a vibration disc component, a button channel component, a button feeding component and a button sewing lower die component, wherein the vibration disc component is communicated with the button feeding component through the button channel component;

the button channel assembly comprises a wing plate group forming a button channel, a channel bottom plate fixed below the wing plate group and a fixed seat used for fixing the channel bottom plate and the wing plate group;

the vibrating disk assembly comprises a vibrating disk with an adjustable toothed plate, and a discharge port of the vibrating disk is communicated with the button channel;

the tray opening channel slide assembly comprises a drainage double wing, a channel slide and a tray lower fixing seat for fixing the channel slide, the drainage double wing comprises a pair of drainage wing plates fixed on the discharge hole, and the drainage wing plates form a drainage channel;

passageway gleitbretter one end parallel and level is fixed in drainage channel's exit, and the other end extends to send and detains subassembly department, drainage channel and button passageway are connected through the passageway gleitbretter.

Preferably, the channel sliding sheet is arranged by being attached to the channel bottom plate, the channel sliding sheet is arranged by being inclined downwards from one side of the discharge port, and the inclination angle is 2-10 degrees, so that the height of the discharge port is larger than the outlet height of the button channel.

Preferably, the button feeding assembly comprises a driving device and an axe-shaped button feeding claw horizontally arranged on the driving device, and the axe-shaped button feeding claw is driven by the driving device to rotate and feed the buttons to the button sewing lower die assembly from the button channel.

Preferably, the axe-shaped button feeding claw comprises a connecting handle and an axe head, and the axe head is arranged at an outlet close to the button channel; one end of the axe head part close to the lower nail button module is provided with a button feeding notch for accommodating a handle part of the button, and the button in the button channel slides into the button feeding notch under the action of a vibrating channel sliding sheet; an extension part for preventing the button from sliding out of the button feeding notch is arranged on one side wall of the button feeding notch, which is far away from the button channel.

Preferably, the inner angle of the button sending notch at the side close to the button channel is 65-80 degrees.

Preferably, one side surface of the axe part close to the button channel is an arc surface concentric with the moving track of the axe part.

Preferably, the lower nail button die assembly comprises a cylindrical lower nail button die and a movable sleeve sleeved on the lower nail button die, a nail button table is vertically arranged in the middle of the lower nail button die, the upper end of the nail button table is inserted into the movable sleeve, and the upper end face of the nail button table is exposed out of the middle of the movable sleeve; the lower nail button die is internally provided with a spring, and the movable sleeve is elastically connected with the lower nail button die in a vertical sliding manner through the spring.

Preferably, a U-shaped groove is formed in one side, close to the axe-shaped button feeding claw, of the upper portion of the movable sleeve, and buttons fed out of the axe-shaped button feeding claw enter the upper end face of the button sewing table through the U-shaped groove.

Preferably, the outer wall of the lower nail button die is vertically provided with a limit waist hole, and the movable sleeve is connected with the lower nail button die through a fixed pin inserted into the waist hole.

Preferably, an elastic pin for preventing the button from sliding out of the button feeding notch is fixed on the channel bottom plate or the fixed seat near the button channel outlet.

Preferably, the fixing seat comprises an inner fixing seat for fixing the channel bottom plate and an outer fixing seat for fixing the wing plate group, and the side wall of the outer fixing seat is provided with a height adjusting hole, so that the outer fixing seat can be sleeved outside the inner fixing seat in a vertically moving mode.

The utility model discloses an automatic feeding for servo button-assembling machine and button-sewing machine has following advantage at least:

1) the semi-automatic button sewing machine can be used for refitting a manual servo button sewing machine or a button sewing machine to form a semi-automatic button sewing device, so that the button sewing efficiency is greatly improved;

2) the size is small, the cost is low, the device can adapt to various types of equipment, and the installation and the transformation can be easily realized through lossless installation;

3) the axe-shaped button feeding claw is adopted, so that the button feeding is stable, the continuity is good, and the failure rate is low;

4) the channel sliding sheet is arranged, so that the vibration of the vibration disc is guided to the button channel, the button can smoothly move on the channel sliding sheet, the button conveying stability is effectively guaranteed, and the phenomenon that the button conveying assembly conveys empty buttons (the buttons cannot be conveyed due to button conveying action) is reduced;

5) the distance between the wing plate group and the channel bottom plate can be adjusted by adjusting the height of the outer fixing seat so as to adapt to buttons with different button surface thicknesses.

Drawings

Fig. 1 is a schematic view of the overall structure of an automatic feeding device for servo button-fitting machines and button-sewing machines, mounted on the servo button-fitting machine;

FIG. 2 is a schematic view of the magazine for servo button-setting and button-sewing machines of FIG. 1 with the base removed;

FIG. 3 is a schematic view of the magazine for servo button donners and button tackers of FIG. 2 with the servo button donning machine removed;

FIG. 4 is a schematic structural view of a button channel assembly, a button feed assembly and a disc mouth channel slide assembly of the autoloading apparatus for servo button attaching and button attaching machines of FIG. 3;

FIG. 5 is a schematic view of a disk port channel slide assembly of the autoloading device for the servo button attaching machine and the button attaching machine of FIG. 4;

FIG. 6 is a schematic structural view of the hatchet-shaped buckle-feeding claw of FIG. 4;

FIG. 7 is a schematic view of the lower button attaching die assembly of FIG. 4;

FIG. 8 is a schematic structural view of the lower button attaching die of FIG. 7;

fig. 9 is a schematic view of a mounting bracket (only a portion of the wing plate assembly is shown for clarity).

The reference numbers in the figures are: 1-a vibrating disk component, 110-a vibrating disk, 120-an adjustable toothed plate, 2-a button channel component, 210-a wing plate group, 220-a channel bottom plate, 230-a fixed seat, 231-an inner fixed seat, 232-an outer fixed seat, 233-a height adjusting hole, 3-a button sending component, 310-a driving device, 320-a hatchet-shaped button sending claw, 321-a connecting handle, 322-a hatchet part, 323-a button sending notch, 324-an extending part, 325-an inner angle near one side of the button channel, 326-a side near the button channel of the hatchet part, 4-a lower button nailing component, 410-a lower button nailing component, 411-a limiting waist hole, 420-a movable sleeve, 421-a U-shaped groove, 430-a button sewing platform, 431-an upper end surface, 5-a dish opening channel sliding component, 510-drainage double-wing, 520-channel sliding sheet, 530-lower disk fixing seat, 6-servo button installing machine, 7-base, 8-finger protection component, A-button channel, B-drainage channel and C-button.

Detailed Description

The present invention is further described in detail below with reference to examples so that those skilled in the art can implement 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. 1-8, an automatic feeding device for servo button assembling machine and button sewing machine adopts a vibration disk feeding mode, and comprises a vibration disk component 1, a button channel component 2, a button feeding component 3 and a button sewing lower die component 4, wherein the vibration disk component and the button feeding component are communicated through the button channel component;

the button channel assembly comprises a wing plate group 210 forming a button channel A, a channel bottom plate 220 fixed below the wing plate group and a fixed seat 230 for fixing the channel bottom plate and the wing plate group;

the vibrating disk assembly comprises a vibrating disk 110 with an adjustable toothed plate 120, and a discharge hole of the vibrating disk is communicated with a button channel;

the plate opening channel slide assembly comprises a drainage double wing 510, a channel slide 520 and a lower plate fixing seat 530 for fixing the channel slide, the drainage double wing comprises a pair of drainage wing plates fixed on the discharge hole, and the drainage wing plates form a drainage channel B; through setting up the passageway gleitbretter, on the vibration guide button passageway with the vibration dish, make ordinary button machine of sending rely on gravity gliding to become at gravity and vibrations initiative gliding down, button C is more smooth and easy on the passageway gleitbretter of marcing, has effectively ensured to send the stability of detaining.

Passageway gleitbretter one end parallel and level is fixed in drainage channel's exit, and the other end extends to send and detains subassembly department, drainage channel and button passageway are connected through the passageway gleitbretter. In this embodiment, the channel gleitbretter is close drainage channel one end and is fixed in drainage double wing downside through the installation of gleitbretter fixing base.

The channel sliding sheet is arranged by being attached to the channel bottom plate, the channel sliding sheet is arranged in a downward inclined mode from one side of the discharge hole, the inclination angle is 2-10 degrees, the height of the discharge hole is larger than that of the outlet of the button channel, and the button can partially slide downwards by means of gravity; the inclination of passageway gleitbretter should not be too big, otherwise can lead to the utility model discloses automatic feeding's whole high too big, the volume increases, and installation adaptability worsens.

The button feeding assembly comprises a driving device 310 and an axe-shaped button feeding claw 320 horizontally arranged on the driving device, and the axe-shaped button feeding claw is driven by the driving device to rotate and feed the buttons to the button sewing lower die assembly from the button channel. In this embodiment, the driving device includes a stepping motor and a speed reducer.

The axe-shaped button feeding claw comprises a connecting handle 321 and an axe part 322, and the axe part is arranged at an outlet close to the button channel; a button feeding notch 323 for accommodating a handle part of the button is formed in one end of the axe head part close to the lower button sewing module, and the button in the button channel slides into the button feeding notch under the action of a vibrating channel sliding sheet; an extension part 324 for preventing the button from sliding out of the button feeding notch is arranged on one side wall of the button feeding notch far away from the button channel. In this embodiment, the inner side surface of the extension part is an arc surface, so that the button can be better limited from sliding.

The inner angle 325 at one side of the button sending notch close to the button channel is 65-80 degrees. The inner angle of one side of the button channel close to the button feeding notch is a part which is clamped when the button is fed (the button is fed into the button sewing lower die assembly) and is contacted with the button handle, and in practice, the stable button feeding effect is found when the inner angle of one side of the button channel close to the button feeding notch is 65-80 degrees and the diameter of the button handle is 2.5-4mm (in practical application, most of the buttons are in the diameter range of the button handle).

One side 326 of the hatchet near the button channel is an arc surface concentric with the moving track of the hatchet. When the axe-shaped button feeding claw rotates, the buttons to enter the button feeding gap in the next button channel cannot be pressed.

The lower nail button die assembly comprises a cylindrical lower nail button die 410 and a movable sleeve 420 sleeved on the lower nail button die, a nail button table 430 is vertically arranged in the middle of the lower nail button die, the upper end of the nail button table is inserted into the movable sleeve, and an upper end face 431 of the nail button table is exposed out of the middle of the movable sleeve; the lower nail button die is internally provided with a spring, and the movable sleeve is elastically connected with the lower nail button die in a vertical sliding manner through the spring. In this embodiment, a finger guard assembly 8 is further provided near the lower nail button module.

A U-shaped groove 421 is processed on one side of the upper part of the movable sleeve close to the axe-shaped button feeding claw, and buttons fed out by the axe-shaped button feeding claw enter the upper end face of the button sewing table through the U-shaped groove.

A limiting waist hole 411 is vertically processed on the outer wall of the lower button sewing die, and the movable sleeve is connected with the lower button sewing die through a fixed pin (not shown) inserted into the waist hole. The movable sleeve is connected with the lower button sewing die in a vertically sliding elastic and limiting mode through a spring in various modes, but in order to prevent the movable sleeve from rotating, the opening direction of the U-shaped groove is not changed when the button sewing is carried out, and therefore the movable sleeve is realized by a method of limiting a waist hole and fixing a pin.

An elastic pin (not shown in the figure) for preventing the button from sliding out of the button feeding notch is fixed on the channel bottom plate or the fixed seat near the button channel outlet. The free end of the elastic blocking needle is used for blocking the button from sliding out of the button feeding notch, but the button sliding into the button feeding notch is not influenced; when the axe-shaped button feeding claw feeds the button, the button is driven to break through the limitation of the elastic retaining needle, and the button is fed into the upper end face of the button sewing platform in the U-shaped groove.

When in use, the automatic feeding device for the servo button assembling machine and the button sewing machine is arranged on the servo button assembling machine 6 with a base 7, buttons (the buttons refer to the parts with button handles of the buttons to be bound) enter a drainage channel along a vibration disc, then enter a button channel and move on a channel slide, are arranged at an outlet of the button channel for standby, the initial positions of the axe-shaped button feeding claws are arranged at the outlet of the button channel, the button feeding notches are opposite to the outlet of the button channel, the buttons slide into the button feeding notches under the driving of vibration and gravity, are limited in the button feeding notches under the blocking of the elastic blocking needles and the extending parts, are arranged between an upper die and a lower die of the servo button assembling machine, a starting pedal of the servo button assembling machine is stepped down, a driving device drives the axe-shaped button feeding claws to rotate, and feed one button into the upper end face of a button sewing table in a U-shaped groove to reset, and then the upper die provided with the female button is driven by a servo button installing machine to be pressed against the button sewing table, the button and the female button are pressed on the clothes, the upper die and the movable sleeve are reset, and one-time button sewing is finished.

Example 2

As shown in fig. 9, similar to embodiment 1, the difference is that the fixing seat includes an inner fixing seat 231 for fixing the channel bottom plate and an outer fixing seat 232 for fixing the vane group, two vanes of the vane group are horizontally fixed on the upper end surface of the outer fixing seat, and the opening degree of the button channel can be adjusted by adjusting the distance between the two vanes in the vane group.

The side wall of the outer fixing seat is provided with a height adjusting hole 233, so that the outer fixing seat can be sleeved and fixed on the outer side of the inner fixing seat in a vertically movable mode, the distance between the wing plate group and the channel bottom plate can be adjusted by adjusting the height of the outer fixing seat, buttons with different button surface thicknesses can be adapted, and the button channel of the device can adapt to buttons of various models.

While the embodiments of the invention have been disclosed above, it is not limited to the applications listed in the description and the embodiments, which are fully applicable in all kinds of fields suitable for the invention, and further modifications may be readily made by those skilled in the art, and the invention is therefore not limited to the specific details and embodiments shown and described herein, without departing from the general concept defined by the claims and their equivalents.

Claims (10)

1. An automatic feeding device for a servo button assembling machine and a button sewing machine adopts a vibration disc feeding mode and is characterized by comprising a vibration disc assembly, a button channel assembly, a button feeding assembly and a button sewing lower die assembly, wherein the vibration disc assembly is communicated with the button feeding assembly through the button channel assembly;

the button channel assembly comprises a wing plate group forming a button channel, a channel bottom plate fixed below the wing plate group and a fixed seat used for fixing the channel bottom plate and the wing plate group;

the vibrating disk assembly comprises a vibrating disk with an adjustable toothed plate, and a discharge port of the vibrating disk is communicated with the button channel;

the tray opening channel slide assembly comprises a drainage double wing, a channel slide and a tray lower fixing seat for fixing the channel slide, the drainage double wing comprises a pair of drainage wing plates fixed on the discharge hole, and the drainage wing plates form a drainage channel;

passageway gleitbretter one end parallel and level is fixed in drainage channel's exit, and the other end extends to send and detains subassembly department, drainage channel and button passageway are connected through the passageway gleitbretter.

2. The autoloading device for servo button attaching machines and button attaching machines as claimed in claim 1, wherein the channel slide is disposed adjacent to the channel bottom plate, and the channel slide is disposed to be inclined downward from the side of the discharging hole by an angle of 2 to 10 degrees so that the height of the discharging hole is greater than the height of the outlet of the button channel.

3. The automatic feeding device for the servo button-assembling machine and the button-sewing machine as claimed in claim 1, wherein said button-feeding assembly comprises a driving device and an axe-shaped button-feeding claw horizontally mounted on the driving device, the axe-shaped button-feeding claw is rotated by the driving device and feeds the button from the button channel to the lower button-sewing assembly.

4. The automatic feeding device for the servo button assembling machine and the button sewing machine as claimed in claim 3, characterized in that said axe-shaped button feeding claw comprises a connecting handle and an axe head, the axe head is arranged at the outlet of the button channel; one end of the axe head part close to the lower nail button module is provided with a button feeding notch for accommodating a handle part of the button, and the button in the button channel slides into the button feeding notch under the action of a vibrating channel sliding sheet; an extension part for preventing the button from sliding out of the button feeding notch is arranged on one side wall of the button feeding notch, which is far away from the button channel.

5. The autoloading device for servo button lockers and button tackers as recited in claim 4, wherein an inside angle of said button feed notch on a side thereof adjacent to the button channel is 65 to 80 degrees.

6. The automatic feeding device for the servo button-assembling machine and button-sewing machine as claimed in claim 4, wherein a side of said axe portion near the button passage is an arc concentric with the moving trajectory of the axe portion.

7. The automatic feeding device for servo button assembling machine and button sewing machine according to claim 1, wherein said lower button sewing die assembly comprises a cylindrical lower button sewing die and a movable sleeve sleeved on the lower button sewing die, a button sewing table is vertically provided at the middle of the lower button sewing die, the upper end of the button sewing table is inserted into the movable sleeve and the upper end surface of the button sewing table is exposed from the middle of the movable sleeve; the lower nail button die is internally provided with a spring, and the movable sleeve is elastically connected with the lower nail button die in a vertical sliding manner through the spring.

8. The automatic feeding device for the servo button-assembling machine and button-sewing machine as claimed in claim 7, wherein a U-shaped groove is formed on the upper portion of the movable sleeve on a side close to the axe-shaped button-feeding claw, and the button fed out from the axe-shaped button-feeding claw enters the upper end face of the button-sewing table through the U-shaped groove.

9. The automatic feeding device for servo button-assembling machine and button-sewing machine as claimed in claim 7, wherein a limit waist hole is vertically processed on the outer wall of said lower button-sewing die, said movable sleeve is connected with the lower button-sewing die by a fixing pin inserted into the waist hole.

10. The automatic feeding device for the servo button assembling machine and the button attaching machine according to claim 1, wherein the fixing seats comprise an inner fixing seat for fixing the channel bottom plate and an outer fixing seat for fixing the wing plate group, and a height adjusting hole is formed in a side wall of the outer fixing seat so that the outer fixing seat can be sleeved outside the inner fixing seat in an up-and-down moving manner.

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