CN211546896U

CN211546896U - Bead feeding device for embroidery machine

Info

Publication number: CN211546896U
Application number: CN201922309450.XU
Authority: CN
Inventors: 陈亚平
Original assignee: Suzhou Aoyu Textile Embroidery Co ltd
Current assignee: Suzhou Aoyu Textile Embroidery Co ltd
Priority date: 2019-12-20
Filing date: 2019-12-20
Publication date: 2020-09-22
Anticipated expiration: 2029-12-20

Abstract

The utility model discloses a bead feeding device for an embroidery machine, which comprises a material box, wherein the material box is divided into four material storage spaces by partition plates, the bottom of each material storage space is communicated with one end of a bead feeding pipe, the other end of the bead feeding pipe is arranged above a material collecting plate, the bottom of the material collecting plate is communicated with one end of a guide pipe, and the discharging end of the guide pipe is arranged above a bead discharging structure; the utility model discloses an in putting into different storage spaces with the pearl, through unloading in proper order, make the pearl collect and cluster in proper order on the pjncture needle in leaking material hole and pipe, make the pearl can get into the subsequent handling in order, the accuracy that the pearl distributes when having guaranteed the embroidery, in addition the utility model discloses at the during operation, can guarantee every pearl along pipe whereabouts to spout in, its perforation is equal vertical to be set up, need not the manual work and arranges in order, has promoted production efficiency.

Description

Bead feeding device for embroidery machine

Technical Field

The utility model belongs to the technical field of automatic embroidery machinery, it is specific, relate to a pearl device down for embroidery machine.

Background

The embroidery machine is also called a computer embroidery machine, is an automatic embroidery machine, has the characteristics of high efficiency and high repeatability compared with the traditional manual embroidery, is a main mechanical product in the modern embroidery industry, and is a common embroidery mode at present for rusting beads on fabrics to achieve a good decorative effect.

In order to promote decorative effect, when embroidering, still often use the pearl of multiple different colours mixedly, in order to reach better decorative effect, but in actual production process, the pearl colour is more easily to lead to the confusion, thereby lead to not rustly corresponding pearl on the corresponding position on fabric surface, light then influence the decorative effect on fabric surface, heavy then lead to the embroidery failure of whole fabric, consequently often can minimize the colour kind that the pearl used in production, in order to guarantee the controllability of production, in addition, at the in-process of embroidering with pearl whereabouts, can't guarantee the unloading state of pearl, still need the manual work to monitor and adjust, in time discover can lead to the embroidery process pause even, greatly influence production efficiency, in order to solve above-mentioned problem, the utility model provides a following technical scheme.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pearl device down for embroidery machine.

The utility model discloses the technical problem who needs to solve does:

1. in order to improve the decorative effect, when embroidering, the beads of multiple different colors are often mixed for use to reach better decorative effect, but in the actual production process, the beads are more in color and are easy to cause disorder, so that the corresponding position on the surface of the fabric is not rusted with the corresponding beads.

2. In the process of falling of the embroidery beads, the blanking state of the beads cannot be guaranteed, manual monitoring and adjustment are needed, the phenomenon that the embroidery process is suspended even can be caused if the situation is not found in time, and the production efficiency is greatly influenced.

The purpose of the utility model can be realized by the following technical scheme:

the bead feeding device for the embroidery machine comprises a material box, wherein the material box is divided into four material storage spaces through partition plates, the bottom of each material storage space is communicated with one end of a bead feeding pipe, the other end of the bead feeding pipe is arranged above a material collecting plate, the bottom of the material collecting plate is communicated with one end of a guide pipe, and the discharging end of the guide pipe is arranged above a bead arranging structure;

the material collecting plate comprises a plate body, wherein a material leaking hole penetrating through the plate body is formed in the center of the plate body, a chute is further formed in the plate body, one end of the chute is arranged right below one discharging end of the bead feeding pipe, the other end of the chute is communicated with the material leaking hole, the bottom end of the material leaking hole is communicated with one end of the guide pipe, and the chute is of an inclined structure with gradually-reduced horizontal height from one end below the bead feeding pipe to the end connected with the material leaking hole;

the bead arranging structure comprises a rack, one surface of the rack facing a material collecting plate is an inclined surface, a chute and a material pushing mechanism are arranged on the inclined surface, a sleeve hole is formed in the bottom of the chute and penetrates through the rack, an installation chamber is arranged in the bead arranging structure, a puncture mechanism is arranged in the installation chamber and comprises a first driving motor and a second driving rod which are fixedly arranged, the shaft extension end of the first driving motor is fixedly connected with one end of a first driving rod, the first driving rod is perpendicular to the shaft extension end of the first driving motor, the other end of the first driving rod is fixedly connected with a clamping rod, one end of the second driving rod is rotatably connected with the rack, the other end of the second driving rod is rotatably connected with one end of a third driving rod, a strip-shaped hole is formed in the second driving rod and is in sliding fit with the clamping rod, and the other end of the third driving rod is rotatably connected with, the puncture needle is connected with the trepanning in a sliding mode, when the puncture needle runs to the lowest point, the bottom of the puncture needle is flush with the bottom of the sliding groove, and a micro vibration motor is fixedly arranged at one end, connected with the third transmission rod, of the puncture needle.

As a further proposal of the utility model, the connecting part of sending pearl pipe and workbin is provided with the valve, send to be provided with the barn door on one section pipe wall of pearl pipe, one side of barn door is provided with photoelectric counter's optical transmitter, and the opposite side of barn door is provided with photoelectric counter's optical receiver.

As a further proposal of the utility model, a baffle is arranged above the chute.

As a further scheme of the utility model, pushing equipment includes that the second drives actuating cylinder, and the second drives actuating cylinder's axle and stretches the one end of fixedly connected with fourth transfer line), and the other end of fourth transfer line rotates with the one end of fifth transfer line to be connected, and the other end of fifth transfer line rotates with the sliding sleeve to be connected, and the tip fixedly connected with push pedal of sliding sleeve, sliding sleeve slide cup joint on the dead lever, and the dead lever is parallel with the upper surface inclined plane of row pearl structure.

The utility model has the advantages that:

1. the utility model discloses an in putting into different storage spaces with the pearl, through unloading in proper order, make the pearl collect and cluster in proper order on the pjncture needle in leaking material hole and pipe, make the pearl can get into the subsequent handling in order, the accuracy that the pearl distributes when having guaranteed the embroidery.

2. The utility model discloses at the during operation, shift up through a driving motor drive pjncture needle, the one end of pjncture needle gets into behind the pipe in the hole that leaks, along sending the pearl pipe when the pearl, the chute gets into in the hole that leaks, miniature shock motor drive pjncture needle, make the pearl beat at the pjncture needle tip, wear the cover on the pjncture needle until the perforation of pearl, when wearing a branch of pearl on the pjncture needle, slowly move down through a driving motor drive pjncture needle, make the pearl fall on the spout one by one, at last through pushing equipment with the pearl that falls down in the pipe push away one by one and slide along the spout and move down, thereby guarantee every pearl in the pipe whereabouts to the spout, its equal vertical setting of perforation, need not the manual work.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a bead feeding device for an embroidery machine according to the present invention;

FIG. 2 is a schematic structural view of a bead feeding tube;

FIG. 3 is a schematic structural diagram of a material collecting plate;

FIG. 4 is a schematic structural diagram of a bead array structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

A bead feeding device for an embroidery machine is shown in figure 1 and comprises a material box 1, wherein the material box 1 is divided into four material storage spaces 12 through partition plates 11, the bottom of each material storage space 12 is communicated with one end of a bead feeding pipe 2, the other end of each bead feeding pipe 2 is arranged above a material collecting plate 3, the bottom of each material collecting plate 3 is communicated with one end of a guide pipe 4, and the discharging end of each guide pipe 4 is arranged above a bead arranging structure 5;

as shown in fig. 2, a valve is arranged at the connection part of the bead feeding pipe 2 and the bin 1, and is used for controlling the falling of the beads, a light barrier 22 is arranged on one section of pipe wall of the bead feeding pipe 2, a light emitter 23 of a photoelectric counter is arranged on one side of the light barrier 22, a light receiver 24 of the photoelectric counter is arranged on the other side of the light barrier 22, and when each bead passes through one section of the light barrier 22, the photoelectric counter counts the number of the beads;

as shown in fig. 3, the material collecting plate 3 includes a plate body 31, a material leaking hole 34 penetrating through the plate body 31 is formed in the center of the plate body 31, a chute 32 is further formed in the plate body 31, one end of the chute 32 is arranged right below a discharging end of the bead feeding pipe 2, the other end of the chute 32 is communicated with the material leaking hole 34, the bottom end of the material leaking hole 34 is communicated with one end of the guide pipe 4, the chute 32 is of an inclined structure with gradually reduced horizontal height from one end below the bead feeding pipe 2 to the end connected with the material leaking hole 34, and a baffle 33 is arranged above the chute 32 to prevent beads entering the chute 32 from the bead feeding pipe 2 from bouncing up and failing to enter the material leaking hole 34 in sequence;

as shown in fig. 4, the bead arranging structure 5 includes a frame 51, one surface of the frame 51 facing the material collecting plate 3 is an inclined surface, a chute 52 and a material pushing mechanism 6 are disposed on the inclined surface, a sleeve hole 53 is disposed at the bottom of the chute 52, the sleeve hole 53 penetrates through the frame 51, an installation chamber is disposed in the bead arranging structure 5, a puncture mechanism 7 is disposed in the installation chamber, the puncture mechanism 7 includes a first driving motor 71 and a second driving rod 74 which are fixedly disposed, an axial extension end of the first driving motor 71 is fixedly connected with one end of a first driving rod 72, the first driving rod 72 is perpendicular to an axial extension end of the first driving motor 71, the other end of the first driving rod 72 is fixedly connected with a clamping rod 73, one end of the second driving rod 74 is rotatably connected with the frame 51, the other end of the second driving rod 74 is rotatably connected with one end of a third driving rod 76, a strip-shaped hole 75 is formed, the strip-shaped hole 75 is in sliding fit with the clamping rod 73, the other end of the third transmission rod 76 is rotatably connected with one end of a puncture needle 77, the puncture needle 77 is in sliding connection with the trepan 53, when the puncture needle 77 runs to the lowest point, the bottom of the puncture needle 77 is flush with the bottom of the chute 52, and a miniature vibration motor is fixedly arranged at one end of the puncture needle 77 connected with the third transmission rod 76;

when the bead leakage device works, the puncture needle 77 is driven to move upwards by the first driving motor 71, one end of the puncture needle penetrates through the guide pipe 4 and then enters the leakage hole 34, when beads enter the leakage hole 34 along the bead feeding pipe 2 and the inclined groove 32, the puncture needle 77 is driven by the micro vibration motor, the beads are made to jump at the end part of the puncture needle 77 until the puncture hole of the beads is sleeved on the puncture needle 77, and when a bundle of beads is penetrated on the puncture needle 77, the puncture needle is driven to move downwards slowly by the first driving motor 71, so that the beads fall on the sliding grooves 52 one by one;

the pushing mechanism 6 comprises a second driving cylinder 66, the shaft extension end of the second driving cylinder 66 is fixedly connected with one end of a fourth transmission rod 65, the other end of the fourth transmission rod 65 is rotatably connected with one end of a fifth transmission rod 64, the other end of the fifth transmission rod 64 is rotatably connected with a sliding sleeve 62, the end part of the sliding sleeve 62 is fixedly connected with a push plate 63, the sliding sleeve 62 is slidably sleeved on a fixed rod 61, the fixed rod 61 is parallel to the inclined plane of the upper surface of the rack 51, the sliding sleeve 62 is driven by a second driving motor 66 to reciprocate along the fixed rod 61, and beads falling in the guide tube 4 are pushed away one by one and slide down along the sliding groove 52.

The method can ensure that each bead falls into the sliding groove along the guide pipe, the perforation of each bead is vertically arranged, manual arrangement is not needed, and the production efficiency is improved.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims

1. The bead feeding device for the embroidery machine is characterized by comprising a material box (1), wherein the material box (1) is divided into four material storage spaces (12) through partition plates (11), the bottom of each material storage space (12) is communicated with one end of a bead feeding pipe (2), the other end of each bead feeding pipe (2) is arranged above a material collecting plate (3), the bottom of each material collecting plate (3) is communicated with one end of a guide pipe (4), and the discharging end of each guide pipe (4) is arranged above a bead arranging structure (5);

the material collecting plate (3) comprises a plate body (31), a material leaking hole (34) penetrating through the plate body (31) is formed in the center of the plate body (31), a chute (32) is further formed in the plate body (31), one end of the chute (32) is arranged right below the discharging end of the bead conveying pipe (2), the other end of the chute (32) is communicated with the material leaking hole (34), the bottom end of the material leaking hole (34) is communicated with one end of the guide pipe (4), and the chute (32) is of an inclined structure with gradually-reduced horizontal height from the end below the bead conveying pipe (2) to the end connected with the material leaking hole (34);

the bead arranging structure (5) comprises a rack (51), one side of the rack (51) facing the material collecting plate (3) is an inclined plane, a sliding groove (52) and a material pushing mechanism (6) are arranged on the inclined plane, a sleeve hole (53) is formed in the bottom of the sliding groove (52), the rack (51) is penetrated through the sleeve hole (53), an installation chamber is arranged in the bead arranging structure (5), a puncture mechanism (7) is arranged in the installation chamber, the puncture mechanism (7) comprises a first driving motor (71) and a second driving rod (74) which are fixedly arranged, the shaft extension end of the first driving motor (71) is fixedly connected with one end of a first driving rod (72), the first driving rod (72) is perpendicular to the shaft extension end of the first driving motor (71), the other end of the first driving rod (72) is fixedly connected with a clamping rod (73), one end of the second driving rod (74) is rotatably connected with the rack (51), the other end of the second transmission rod (74) is rotatably connected with one end of the third transmission rod (76), a strip-shaped hole (75) is formed in the second transmission rod (74), the strip-shaped hole (75) is in sliding fit with the clamping rod (73), the other end of the third transmission rod (76) is rotatably connected with one end of a puncture needle (77), the puncture needle (77) is in sliding connection with the trepanning hole (53), when the puncture needle (77) runs to the lowest point, the bottom of the puncture needle (77) is flush with the bottom of the chute (52), and a miniature vibration motor is fixedly arranged at one end, connected with the third transmission rod (76), of the puncture needle (77).

2. The bead feeding device for the embroidery machine as claimed in claim 1, wherein a valve is arranged at the connecting part of the bead feeding pipe (2) and the bin (1), a light barrier (22) is arranged on a section of pipe wall of the bead feeding pipe (2), a light emitter (23) of a photoelectric counter is arranged on one side of the light barrier (22), and a light receiver (24) of the photoelectric counter is arranged on the other side of the light barrier (22).

3. The bead feeding device for embroidery machine as claimed in claim 1, wherein a baffle (33) is disposed above said chute (32).

4. The bead feeding device for the embroidery machine as claimed in claim 1, wherein the material pushing mechanism (6) comprises a second driving cylinder (66), the shaft extension end of the second driving cylinder (66) is fixedly connected with one end of a fourth transmission rod (65), the other end of the fourth transmission rod (65) is rotatably connected with one end of a fifth transmission rod (64), the other end of the fifth transmission rod (64) is rotatably connected with a sliding sleeve (62), the end of the sliding sleeve (62) is fixedly connected with a push plate (63), the sliding sleeve (62) is slidably sleeved on a fixed rod (61), and the fixed rod (61) is parallel to the upper surface slope of the rack (51).