CN214400932U

CN214400932U - Automatic button feeding structure

Info

Publication number: CN214400932U
Application number: CN202022066174.1U
Authority: CN
Inventors: 谭英
Original assignee: Individual
Current assignee: Zhongshan Maisite Automation Equipment Co ltd
Priority date: 2020-09-18
Filing date: 2020-09-18
Publication date: 2021-10-15
Anticipated expiration: 2030-09-18

Abstract

The utility model discloses an automatic send knot structure, including depositing and waiting to process the button and can sending the automation of waiting to process the position in proper order to waiting to process the button and put the spiral-lock and put the device, the below of putting the spiral-lock automatically is provided with can carry the button from being located to wait to process the position to the processing position that is used for processing and carry the button again after processing is accomplished to the knot device that send that drops and detain the position. The utility model discloses a device puts the spiral-lock and puts the device including the automation that can save a plurality of buttons of waiting to process in advance, as long as put the automatic spiral-lock and put the device with the button that needs processing in advance, then will put the button that the spiral-lock sent out automatically and send to the processing position and the position of detaining to fall in proper order through sending the spiral-lock and put the device, accomplish whole processing step, full automation processing improves the accuracy of processing, has practiced thrift the time, has saved the manpower expenditure.

Description

Automatic button feeding structure

[ technical field ] A method for producing a semiconductor device

The invention relates to a garment processing device, in particular to an automatic button feeding structure.

[ background of the invention ]

With the continuous development of the clothing industry, the requirements of the clothing production on automation and intellectualization are higher and higher, when a button sewing machine or a manual button sewing machine fixes four-hole or two-hole or mushroom buttons on clothes by sewing threads, if a certain space is not reserved between the buttons and the fabric, the buttons are very difficult to buckle, the button door can be enlarged after buckling, and unsightly indentation and wrinkle can be left on the fabric of the clothes button door accessory. Therefore, when people buckle, a gap is sometimes reserved between the button and the fabric, so that the button cannot be firmly fastened, is easy to fall off, cannot stand upright on the fabric, and the attractiveness is affected. Meanwhile, the four-hole button is fixed on the fabric by four groups of sewing threads or can support the button door. In order to make the button nail firm and beautiful, in the prior art, a manual winding and wrapping method is adopted to combine four scattered threads into a thick thread. The disadvantages of this manual wire wrap package are: the winding speed is slow, and the consistency is poor. Knotting winding machines have been made to accelerate winding speed, but the existing winding machines use sewing threads to bind four groups of thread nails together in a knotting manner. In such a way, the locking device can be easily scattered, and the purposes of locking and nailing the buckle line and preventing the buckle from falling off can not be achieved. And two line tails can be left in the buckling mode during mouth trimming, and manual trimming is needed. Although the efficiency is greatly improved compared with the original pure manual processing, the requirements of mass garment production and high-quality garment process cannot be met.

In view of the situation, the applicant invented an intelligent full-automatic hot-melt winding machine with publication number "CN 110820187A", but the patent has the following disadvantages in practical use:

this project organization can carry out automatic processing to the junction of button and cloth, but can only carry out the processing to the junction of single button and cloth, and this just makes processing each time all need the button that operating personnel will process to put the processing position and process, and processing is accomplished the back, and operating personnel is manual to take out the button of processing completion, and whole process all leaves operating personnel, and this endurance and the physical requirement to operating personnel are high.

The invention is researched and proposed aiming at the defects of the prior art.

[ summary of the invention ]

In order to solve the defects in the prior art, the automatic button feeding structure is provided, the working efficiency is high, the whole process is automatic, and the labor is saved.

In order to solve the technical problem, the invention provides an automatic button feeding structure which is characterized by comprising an automatic button placing device capable of storing buttons to be processed and sequentially feeding the buttons to be processed to a position to be processed, wherein a button feeding device capable of conveying the buttons from the position to be processed to the processing position for processing and conveying the buttons to the button falling position after the processing is finished is arranged below the automatic button placing device.

The automatic button feeding structure is characterized in that the button feeding device comprises a rotary disc, a button groove for hanging the joint of the button at the position to be processed and the cloth is formed in the edge of the rotary disc, a rotary disc rotating shaft is arranged on one side of the rotary disc, the button feeding device also comprises a rotary disc driving device capable of driving the rotary disc rotating shaft, and the rotary disc driving device drives the button groove to sequentially stop at the position to be processed, the processing position and the button falling position; and a touch switch which can detect that a button enters and control the turntable driving device to drive the turntable to rotate is arranged at the position to be processed.

The automatic buckle feeding structure is characterized in that four buckle grooves are formed in the edge of the rotary disc, one buckle groove is located at a position to be machined, one buckle groove is located at a machining position, and one buckle groove is located at a buckle falling position.

The automatic button feeding structure is characterized in that the rotary table driving device comprises a bearing seat which can be rotatably arranged on a rotating shaft, the rotary table driving device also comprises a first driving cylinder which can drive the bearing seat to rotate relative to the rotating shaft, a shaft sleeve is fixed on the rotating shaft, and a clutch structure which can enable the bearing seat and the shaft sleeve to synchronously move or separate is arranged between the bearing seat and the shaft sleeve; the clutch structure comprises a second driving cylinder which is arranged on the bearing seat and is parallel to the length direction of the rotating shaft, a piston rod which is provided with a second driving cylinder and can be used for the second driving cylinder to penetrate through a shaft hole which can enable the rotating shaft and the bearing seat to synchronously rotate is arranged on the shaft sleeve, the number of the shaft holes is four, and the position of the shaft hole corresponds to the position of the fastening groove.

The automatic button feeding structure is characterized in that the automatic button feeding device comprises a button feeding frame, a button feeding channel is arranged in the button feeding frame in the vertical direction, buttons can be fed into the button feeding channel and can be communicated with a to-be-processed position, the upper end and the lower end of the button feeding frame are respectively provided with a button feeding port and a button discharging port which are communicated with the button feeding channel, and an extrusion device which can sequentially feed buttons entering the button feeding channel into the to-be-processed position and can trigger a touch switch is arranged in the button feeding channel.

The automatic button feeding structure is characterized in that the button feeding rack comprises a fixed support, a front baffle, a rear baffle, a left baffle and a right baffle are arranged on the fixed support, and the front baffle, the rear baffle, the left baffle and the right baffle surround to form a button feeding channel.

The automatic buckle feeding structure is characterized in that the left baffle and the right baffle can move left and right and are arranged on the fixed support to adjust the width of the buckle feeding channel;

the rear baffle can be arranged on the fixed support in a back-and-forth moving mode so as to adjust the thickness of the button feeding channel.

The automatic button feeding structure is characterized in that the extruding device comprises a guide sliding rail which is positioned in the fixed support and is vertically arranged, a sliding part is arranged on the guide sliding rail, one end of the sliding part can penetrate through the rear baffle plate when the sliding part moves downwards is connected with a pressing arm in a rotating mode, an elastic part which can drive one end of the pressing arm to penetrate through the rear baffle plate when the pressing arm moves downwards is arranged in the button placing rack, a guide groove which can enable the pressing arm to move in the vertical direction is formed in the rear baffle plate, the extruding device comprises a first driving device which can drive the pressing arm to reciprocate on the guide sliding rail, and a guide plate which can drive one end of the pressing arm to penetrate through the rear baffle plate to retract when the pressing arm moves upwards is arranged on one side of the guide sliding rail.

The automatic button feeding structure is characterized in that a counter capable of counting the number of buttons entering the button feeding channel is arranged at the button feeding port.

The automatic button feeding structure is characterized by further comprising a fixing mechanism capable of fixing the rotary table when the button groove in the rotary table drives the button to rotate to the processing position.

Compared with the prior art, the automatic button feeding structure has the following advantages:

1. the structure of the invention comprises an automatic button placing device which can store a plurality of buttons to be processed in advance, and the buttons to be processed are placed in the automatic button placing device in advance, and then the buttons sent out by the automatic button placing device are sequentially sent to a processing position and a button falling position through the button sending device, so that the whole processing step is completed.

2. The automatic button releasing device comprises a front baffle, a rear baffle, a left baffle and a right baffle, buttons with different diameters can be processed by adjusting the distance between the left baffle and the right baffle, buttons with different thicknesses can be processed by adjusting the distance between the rear baffle and the front baffle, and the automatic button releasing device is powerful in function and can be widely applied.

3. The edge of the rotary table is provided with the four buckling grooves, when the buckling grooves at the positions to be processed drive the buttons to rotate to the processing positions, the next button can enter the buckling grooves at the substitute processing positions to wait, after the processing of the buttons at the processing positions is completed, the rotary table drives the buckling grooves at the processing positions to rotate to the buckling falling positions, the processed buttons automatically fall off, and the buckling grooves at the positions to be processed drive the buttons to rotate to the processing positions for processing, so that the processing time is saved, and the processing efficiency is improved.

[ description of the drawings ]

The following detailed description of embodiments of the invention is provided in conjunction with the appended drawings, in which:

FIG. 1 is a perspective view of the structure of the present invention mounted to a frame;

FIG. 2 is a front view of the structure of the present invention mounted to a frame;

FIG. 3 is a perspective view of the buckle conveying device of the present invention mounted to a frame;

FIG. 4 is a perspective view of the present invention;

FIG. 5 is a perspective view of the buckle feeder of the present invention;

FIG. 6 is a block diagram of the automatic trip device of the present invention;

FIG. 7 is a disassembled view of the automatic button releasing device of the present invention;

FIG. 8 is a second exploded view of the automatic buckle releasing device of the present invention;

FIG. 9 is a structural view of the extruding apparatus of the present invention;

FIG. 10 is an exploded view of the extrusion apparatus of the present invention;

FIG. 11 is an exploded view of the present invention fastener delivery device;

fig. 12 is a schematic view of the fixing mechanism of the present invention engaged with a turntable.

[ detailed description ] embodiments

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 12, in the present embodiment, an automatic button feeding structure includes an automatic button placing device 1 capable of storing buttons to be processed and sequentially feeding the buttons to be processed to a position 101 to be processed, and a button feeding device 2 capable of conveying the buttons from the position 101 to be processed to a processing position 102 for processing and conveying the buttons to a button dropping position 103 after processing is completed is disposed below the automatic button placing device 1. The automatic button placing device is arranged on a rack 10 for use, the rack comprises a position to be processed, a processing position and a button dropping position, the automatic button placing device capable of storing a plurality of buttons to be processed in advance is used for placing the buttons to be processed into the automatic button placing device in advance, and then the buttons sent out by the automatic button placing device are sequentially sent to the processing position and the button dropping position through the button sending device, so that the whole processing step is completed, the whole process is automatically processed, the processing accuracy is improved, the time is saved, and the labor expenditure is saved.

As shown in fig. 1 to 12, in this embodiment, the button feeding device 2 includes a rotary table 21, a button slot 211 for hanging a connection portion between a button located at the position to be processed 101 and a fabric is formed in an edge of the rotary table 21, a rotary table rotating shaft 22 is disposed at one side of the rotary table 21, the button feeding device 2 further includes a rotary table driving device 23 capable of driving the rotary table rotating shaft 22, and the rotary table driving device 23 drives the button slot 211 to sequentially stop at the position to be processed 101, the processing position 102, and the button falling position 103; a touch switch 3 which can detect that a button enters and control the turntable driving device 23 to drive the turntable 21 to rotate is arranged at the position 101 to be processed; when the button touches touch switch 3, touch switch 3 transmits a signal to a control system, drives the turntable driving device to operate, and further drives turntable 21 to rotate, so that the catching groove located at position 101 to be processed can be rotated to position 102, and meanwhile, the catching groove located at position 102 can be rotated to position 103, so that the design is reasonable, and the accuracy is improved.

As shown in fig. 1 to 12, in the present embodiment, four fastening grooves 211 are formed on the edge of the rotary table 21, wherein one fastening groove 211 is located at the to-be-processed position 101, one fastening groove 211 is located at the processing position 102, and one fastening groove 211 is located at the fastening-falling position 103. When the button groove at the position to be processed drives the button to rotate to the processing position, the next button can enter the button groove at the processing position for waiting, after the button at the processing position is processed, the rotary table drives the button groove at the processing position to rotate to the button position, the processed button automatically drops, the button groove at the processing position drives the button to rotate to the processing position for processing, the operation is always carried out, the processing time is saved, and the processing efficiency is improved.

As shown in fig. 1 to 12, in this embodiment, the turntable driving device 23 includes a bearing seat 231 rotatably disposed on the rotating shaft 22, the turntable driving device 23 further includes a first driving cylinder 232 capable of driving the bearing seat 231 to rotate relative to the rotating shaft 22, a shaft sleeve 221 is fixed on the rotating shaft 22, and a clutch structure capable of synchronously moving or separating the bearing seat 231 and the shaft sleeve 221 is disposed between the bearing seat 231 and the shaft sleeve 221; the clutch structure comprises a second driving cylinder 24 which is arranged on the bearing seat 231 and is parallel to the length direction of the rotating shaft 22, a shaft hole 2211 which is provided on the shaft sleeve 221 and can be used for the piston rod 241 of the second driving cylinder 24 to penetrate and further enable the rotating shaft 22 and the bearing seat 231 to synchronously rotate is formed, the number of the shaft holes 2211 is four, and the position of the shaft hole 2211 corresponds to the position of the buckling groove 211.

When the second driving cylinder 24 drives the piston rod 241 to be inserted into the shaft hole 2211 of the shaft sleeve 221, at this time, the rotating shaft 22 and the bearing seat 231 can rotate synchronously, and when the second driving cylinder 24 drives the piston rod 241 to leave the shaft hole 2211, the two are separated, so that the separation and combination of the bearing seat 231 and the shaft sleeve 221 are realized.

When the bearing seat 231 is fixed with the shaft sleeve 221, the first driving cylinder 232 drives the bearing seat to rotate, the rotating shaft 22 also rotates along with the rotating shaft, so that the buckling groove 211 on the rotary table 21 can move from the previous station to the next station, when the bearing seat 231 is separated from the shaft sleeve 221, the first driving cylinder drives the bearing seat 231 to return to the initial state, when the bearing seat 231 is fixed with the shaft sleeve 221 again, the first driving cylinder drives the bearing seat to rotate, and the buckling groove 211 continuously moves from the current station to the next station, so that the processing process of one button is completed.

As shown in fig. 1 to 12, in this embodiment, the automatic button releasing device 1 includes a button releasing rack 11, a button delivering channel 111 is provided in the button releasing rack 11 in the vertical direction, the button delivering channel 111 is used for placing a button and can be communicated with the to-be-processed position 101, a button inlet 112 and a button outlet 113 communicated with the button delivering channel 111 are respectively provided at the upper end and the lower end of the button releasing rack 11, and an extruding device 12 is provided in the button delivering channel 111, the extruding device can sequentially deliver the button entering the button delivering channel 111 to the to-be-processed position 101 and can trigger the touch switch 3. The pressing device 12 can sequentially press the buttons entering the button feeding channel 111 into the button grooves at the positions 101 to be processed, and meanwhile, the buttons can touch the touch switch by means of the external force of the pressing device 12, so that the processing accuracy is further improved.

As shown in fig. 1 to 12, in this embodiment, the buckle releasing frame 11 includes a fixing bracket 114, the fixing bracket 114 is provided with a front baffle 115, a rear baffle 116, a left baffle 117, and a right baffle 118, and the front baffle 115, the rear baffle 116, the left baffle 117, and the right baffle 118 surround to form the buckle feeding passage 111.

As shown in fig. 1 to 12, in the present embodiment, the left baffle 117 and the right baffle 118 are disposed on the fixing bracket 114 in a left-right movable manner to adjust the width of the buckle feeding channel 111; the rear baffle 116 can be arranged on the fixed bracket 114 in a back-and-forth movement way to adjust the thickness of the button feeding channel 111; buttons with different diameters can be processed by adjusting the distance between the left baffle 117 and the right baffle 118, buttons with different thicknesses can be processed by adjusting the distance between the rear baffle and the front baffle, and the button processing machine is powerful and can be widely applied.

As shown in fig. 1 to 12, in this embodiment, the extruding device 12 includes a guide slide rail 121 vertically disposed in the fixing bracket 114, a sliding part 124 is disposed on the guide slide rail 121, the sliding part 124 is rotatably connected to a pressing arm 122 whose one end can pass through the back plate 116 when moving downward, an elastic part capable of driving one end of the pressing arm 122 to pass through the back plate 116 when the pressing arm 122 moves downward is disposed in the buckle releasing frame 11, a guide groove 1161 capable of allowing the pressing arm 122 to move in a vertical direction is disposed on the back plate 116, the extruding device 12 includes a first driving device capable of driving the pressing arm 122 to reciprocate on the guide slide rail 121, and a guide plate 123 capable of driving one end of the pressing arm 122 to retract when the pressing arm 122 moves upward is disposed on one side of the guide slide rail 121. In the process of downward movement of the pressing arm 122, under the action of the elastic element, one end of the pressing arm can extend out of the guide groove 1161 of the rear baffle 116, the button is pressed downwards, the button located at the lowest position is pressed into the button groove located at the position to be processed, when the pressing arm 122 moves upwards, due to the guide effect of the guide plate 123, the elastic element is simultaneously extruded, the end of the pressing arm 122 extending out of the rear baffle can move backwards and retract, the button located in the button conveying channel can continue to move downwards, and the buttons in the button conveying channel can enter the button groove located at the position to be processed 101 one by one due to the reciprocating motion of the pressing arm.

As shown in fig. 1 to 12, in the present embodiment, a counter 13 capable of counting the number of buttons entering the button feeding channel 111 is disposed at the button feeding port 112, so as to count the number of buttons entering the button feeding channel 111.

As shown in fig. 12, in this embodiment, the fixing mechanism 4 capable of fixing the turntable 21 when the button slot 211 on the turntable drives the button to rotate to the processing position 102 is further included, when the turntable drives the button slot 211 to rotate to the processing position, the end of the fixing mechanism is inserted into the button slot 211 located in the processing position, so as to fix the turntable, prevent the first driving cylinder from driving the turntable to rotate when driving the bearing seat to reset, ensure that the button slot located in the processing position is not deviated during processing, and improve the processing accuracy.

The working process of the automatic button feeding structure is further explained below.

The buttons to be processed are sequentially placed into the button feeding channel 111 from the button feeding port 112 of the automatic button placing device 1, the number of the buttons to be fed is counted by the counter 13 when the buttons are placed, the buttons are started to work through the control system, the buttons are downwards pressed by the pressing arm 122 of the extruding device 12, the button located at the lowest position enters the button groove 211 located at the position 101 to be processed, the touch switch is touched, the rotary disc rotates, the button located at the position 101 to be processed rotates to the position 102 to be processed, and meanwhile the next button to be processed enters the button groove of the position 101 to be processed.

The above is only a preferred embodiment of the present invention, and the technical solutions that achieve the objects of the present invention by basically the same means are all within the protection scope of the present invention.

Claims

1. The utility model provides an automatic send knot structure, its characterized in that is including depositing and waiting to process the button and can will wait to process the automatic button device (1) of putting of button position (101) in proper order, the below of putting automatic button device (1) is provided with can be carried to add station (102) that are used for processing and carry the button again to the knot position (103) of sending of dropping after processing is accomplished from the button that is located waiting to process position (101) and send knot device (2).

2. The automatic button feeding structure of claim 1, wherein the button feeding device (2) comprises a rotary table (21), a button groove (211) for hanging the connection position of the button at the position to be processed (101) and the cloth is formed in the edge of the rotary table (21), a rotary table rotating shaft (22) is arranged on one side of the rotary table (21), the button feeding device (2) further comprises a rotary table driving device (23) capable of driving the rotary table rotating shaft (22), and the rotary table driving device (23) drives the button groove (211) to sequentially stop at the position to be processed (101), the processing position (102) and the button falling position (103); a touch switch (3) which can detect that a button enters and control the turntable driving device (23) to drive the turntable (21) to rotate is arranged at the position (101) to be processed.

3. The automatic button feeding structure of claim 2, wherein the edge of the turntable (21) is provided with four button slots (211), one of the button slots (211) is located at the position (101) to be processed, one of the button slots (211) is located at the processing position (102), and one of the button slots (211) is located at the button-falling position (103).

4. The automatic button feeding structure of claim 3, wherein the rotary table driving device (23) comprises a bearing seat (231) rotatably arranged on the rotating shaft (22), the rotary table driving device (23) further comprises a first driving cylinder (232) capable of driving the bearing seat (231) to rotate relative to the rotating shaft (22), a shaft sleeve (221) is fixed on the rotating shaft (22), and a clutch structure capable of enabling the bearing seat (231) and the shaft sleeve (221) to synchronously move or separate is arranged between the bearing seat (231) and the shaft sleeve (221); the clutch structure including establish on bearing frame (231) and with the second drive actuating cylinder (24) of the length direction parallel arrangement of pivot (22), set up piston rod (241) that can supply second drive actuating cylinder (24) on axle sleeve (221) and pass and then can make pivot (22) and bearing frame (231) synchronous rotation's shaft hole (2211), the quantity in shaft hole (2211) is four, just the position in shaft hole (2211) with the position of catching groove (211) is corresponding.

5. The automatic button feeding structure of claim 2, wherein the automatic button feeding device (1) comprises a button feeding rack (11), a button feeding channel (111) which can be used for a button to be placed and can be communicated with a to-be-processed position (101) is arranged in the button feeding rack (11) in the vertical direction, a button feeding port (112) and a button discharging port (113) which are communicated with the button feeding channel (111) are respectively arranged at the upper end and the lower end of the button feeding rack (11), and an extruding device (12) which can sequentially feed the button entering the button feeding channel (111) into the to-be-processed position (101) and can trigger the touch switch (3) is arranged in the button feeding channel (111).

6. The automatic button feeding structure of claim 5, wherein the button placing rack (11) comprises a fixing support (114), a front baffle (115), a rear baffle (116), a left baffle (117) and a right baffle (118) are arranged on the fixing support (114), and the front baffle (115), the rear baffle (116), the left baffle (117) and the right baffle (118) surround to form a button feeding channel (111).

7. The automatic button feeding structure of claim 6, wherein the left baffle (117) and the right baffle (118) are arranged on the fixed bracket (114) in a left-right moving manner to adjust the width of the button feeding channel (111);

the rear baffle (116) can be arranged on the fixed bracket (114) in a back-and-forth movement mode to adjust the thickness of the button feeding channel (111).

8. The automatic button feeding structure according to claim 6, wherein the extruding device (12) comprises a guide slide rail (121) vertically disposed in the fixing support (114), a sliding member (124) is disposed on the guide slide rail (121), the sliding member (124) is rotatably connected to a pressing arm (122) having one end capable of penetrating through the back plate (116) when moving downward, an elastic member capable of driving one end of the pressing arm (122) to penetrate through the back plate (116) when the pressing arm (122) moves downward is disposed in the button releasing rack (11), a guide groove (1161) capable of moving the pressing arm (122) in a vertical direction is disposed on the back plate (116), the extruding device (12) comprises a first driving device capable of driving the pressing arm (122) to reciprocate on the guide slide rail (121), and a pressing arm (122) is disposed on one side of the guide slide rail (121) when moving upward 122) A guide plate (123) retracted through one end of the tailgate (116).

9. An automatic button feeding structure according to claim 5, characterized in that a counter (13) capable of counting the number of buttons entering the button feeding channel (111) is arranged at the button feeding port (112).

10. The automatic button feeding structure as claimed in claim 2, further comprising a fixing mechanism (4) for fixing the rotary table (21) when the button slot (211) on the rotary table drives the button to rotate to the processing position (102).