CN217973645U - Full-automatic hot melting coiling machine device - Google Patents

Abstract

The utility model discloses a full-automatic hot melting winding machine device, which comprises a frame, wherein a position to be processed, a processing position and a button falling position are arranged on the frame, a winding mechanism, a fuse wire adhering mechanism and a wire pulling and breaking mechanism are arranged at the processing position, an automatic button placing device is arranged on the frame and above the position to be processed, and a button feeding device is arranged on the frame; the stay wire breaking mechanism comprises a base support arranged on a rack, a clamping arm mounting plate is hinged to the base support, two clamping arm mechanisms which are fixed to a winding buckle wire and work alternately are fixed to the clamping arm mounting plate, the clamping arm mechanisms comprise wire clamping cylinders, fixed clamping arms are fixed to wire clamping cylinder shells, movable clamping arms used for hooking the winding buckle wire and fixing the winding buckle wire in a matched mode with the fixed clamping arms are arranged on telescopic rods of the wire clamping cylinders, a wire breaking cylinder which enables the hinged positions of the clamping arm mounting plate to rotate to break the winding buckle wire is further arranged on the rack, and the problem that the winding buckle wire is loosened and cannot be broken in the process of breaking is solved.

Description

Full-automatic hot melting winding machine device

[ technical field ]

The utility model relates to a full-automatic hot melt winding machine device.

[ background art ]

Along 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 manual work fixes four-hole or two-hole or mushroom button buttons on clothes by sewing threads, if a certain space is not reserved between the buttons and the fabric, the buttons can be very difficult to buckle, a button door can be expanded after buckling, and unsightly impression and wrinkle can be left on the fabric of the accessory of the button door of the clothes. 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 strand of 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 the buckling mode can leave two line tails when the mouth is trimmed, 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.

On the other hand, the existing full-automatic hot-melting button winding machine can only process the joint of a single button and cloth, so that the button to be processed is required to be placed at a processing position by an operator for processing each time, after the processing is completed, the operator manually takes out the processed button, and the whole process can not be completed.

In view of the situation, the applicant has put forward the full-automatic hot melt winding machine device of knot "an intelligence, the publication number is" CN213538329U ", but this patent still has following shortcoming in the in-service use:

although this project organization can prestore and put a plurality of buttons of treating to can process the junction to a plurality of buttons and cloth in proper order, use manpower sparingly, realize full automation work, but after the wire winding is accomplished, need collude get, fixed and break when detaining the line, this broken string mechanism of acting as go-between appears easily and can not collude the line of detaining, or collude and can not firmly clip the line of detaining after getting, make the line of detaining take off at the broken in-process pine and take off, can not realize the broken string function.

[ contents of utility model ]

The utility model overcomes above-mentioned technique is not enough, provides a full-automatic hot melt winding machine device, can accurately collude and get and firmly grasp the winding-buckling line, and full automation work can be in proper order to the junction processing of a plurality of buttons and cloth, uses manpower sparingly.

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

a full-automatic hot-melting button winding machine device comprises a frame, wherein a first station to be processed, a second station to be processed, a processing station, a position to be dropped and a button dropping position are arranged on the frame, a winding mechanism capable of winding a button winding wire at the joint of a button and a cloth, a fuse adhering mechanism for melting a hot fuse on the button winding wire and fixing the button winding wire at the joint of the button and the cloth, and a wire pulling and breaking mechanism for breaking the button winding wire are arranged at the processing station, an automatic button releasing device capable of storing the button to be processed and conveying the button to be processed to the first station to be processed is arranged on the frame above the first station to be processed, a button conveying device capable of conveying the button at the first station to be processed to the second station to be processed for processing, conveying the button at the second station to be processed to the processing station for waiting to be dropped and conveying the button to be dropped to the button dropping position is arranged on the frame, and a button conveying system capable of controlling the winding mechanism, the wire pulling and the fuse releasing mechanism and the automatic button feeding device is arranged in the frame,

the stay wire breaking mechanism comprises a base support arranged on a rack, a clamping arm mounting plate is hinged to the base support, two clamping arm mechanisms which are fixed to a winding buckle wire and work alternately are fixed to the clamping arm mounting plate, the clamping arm mechanisms comprise a wire clamping cylinder, a fixed clamping arm is fixed to a wire clamping cylinder shell, a movable clamping arm used for hooking the winding buckle wire and fixing the winding buckle wire in a matched mode with the fixed clamping arm is arranged on a telescopic rod of the wire clamping cylinder, a wire breaking cylinder enabling the hinged position of the clamping arm mounting plate to rotate to break the winding buckle wire is further arranged on the rack, a limiting sliding block is arranged on the movable clamping arm, and a limiting notch which is sleeved on the fixed clamping arm and used for limiting the movable clamping arm to move along the length direction of the fixed clamping arm is arranged on the limiting sliding block.

The full-automatic hot-melting button winding machine device is characterized in that the wire hooking end of the movable clamping arm is an L-shaped clamping hook, and the clamping end of the fixed clamping arm is pressed against the inner side surface of the hook part of the L-shaped clamping hook.

The full-automatic hot melting coiling machine device is characterized in that a wire breaking cylinder support is arranged on the inner side of the rear side face of the rack, the bottom of the wire breaking cylinder is hinged to the wire breaking cylinder support, and the clamping arm mounting plate is hinged to the wire breaking cylinder telescopic rod.

The full-automatic hot-melting winding button machine device is characterized in that the button conveying device comprises a rotary disc, a button groove for hanging the connection part of the button and the cloth is formed in the edge of the rotary disc, the button groove is formed in the first position to be processed, the second position to be processed, the processing position, the button position to be fallen and the button position to be stopped in sequence, a rotary disc rotating shaft is arranged on one side of the rotary disc, a rotary disc driving device capable of driving the rotary disc rotating shaft is arranged in the rack, and a touch switch capable of detecting that the button enters and controlling the rotary disc to rotate is arranged at the first position to be processed.

The full-automatic hot melting winding button machine device is characterized in that the automatic button placing device comprises a button placing rack, a button feeding channel which can be used for placing buttons and can be communicated with a first position to be processed is arranged in the button placing rack in the vertical direction, a button feeding port and a button discharging port which are communicated with the button feeding channel are respectively arranged at the upper end and the lower end of the button placing rack, and an extruding device which can sequentially feed the buttons entering the button feeding channel into the first position to be processed and can trigger a touch switch is arranged in the button feeding channel.

The full-automatic hot melting button winding machine device is characterized in that the button placing frame 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 conveying channel.

The full-automatic hot-melt winding machine device 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 button feeding channel; the rear baffle can be arranged on the fixed bracket in a forward and backward moving way to adjust the thickness of the button feeding channel.

The full-automatic hot melting winding machine device is characterized in that the extruding device comprises a guide slide rail which is positioned in a fixed support and is vertically arranged, a sliding part is arranged on the guide slide rail, one end of the pressing arm can penetrate through the rear baffle plate when the sliding part moves downwards is rotatably connected to the sliding part, 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 frame, a guide groove which can be used for 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 slide rail, and a guide plate which can drive the pressing arm to penetrate through one end of the baffle plate to retract when the pressing arm moves upwards is arranged on one side of the guide slide rail.

The full-automatic hot-melting winding machine device is characterized in that eight buckle grooves are formed in the edge of the rotating disc, one buckle groove is located at a first position to be machined, one buckle groove is located at a second position to be machined, one buckle groove is located at a machining position, one buckle groove is located at a position to be buckled, and one buckle groove is located at a position to be buckled.

The utility model has the advantages that:

1. the utility model discloses acting in the broken line mechanism of acting as go-between is equipped with limit slider on the arm lock, be equipped with on the limit slider and cup joint and be used for injecing the spacing notch that moves the arm lock along deciding arm lock length direction motion on deciding the arm lock, the end of colluding that moves the arm lock is L type double-layered hook, decide the arm lock exposed end and support and press on the hook portion medial surface of L type double-layered hook, make can accurate collude of arm lock and get the coiling line, and collude the centre gripping that can stabilize behind the coiling line and moving the arm lock and deciding between the arm lock, it takes off at the broken in-process pine to have solved the coiling line, can not realize the problem of broken line.

2. The utility model discloses a device is including remaining to add the station, the processing position and the position of detaining that falls, it can put the automation of putting a plurality of buttons of waiting to process to be provided with in the frame to prestore puts the spiral-lock and puts, be provided with in the frame and carry the button that will wait to process the position and process and carry to the knot device that send that falls the knot position after processing is accomplished, as long as operating personnel puts in proper order the button that will process and puts the knot device automatically and can realize automatic processing to automatic, do not need operating personnel to treat always by the machine, the manpower has been saved, can operate a plurality of devices simultaneously, and the machining efficiency is improved.

3. The utility model discloses an automatic put spiral-lock and put device is including preceding baffle, backplate, left baffle and right baffle, can process the button of different diameters through adjusting the distance between left baffle and the right baffle, can process the button of different thickness through adjusting the distance before backplate and the preceding baffle, powerful, but wide application.

4. The utility model discloses an eight catching grooves have been seted up at the edge of carousel, when being located the first catching groove that waits to add the station and drive the button and rotate the processing position, next button can enter into and wait for in the catching groove of adding the station, after the button processing of adding the station is accomplished, the carousel drives the catching groove of adding the station and rotates to the position of detaining that falls, the button of processing completion drops automatically, the catching groove that is in waiting to add the station drives the button and rotates to the processing position and process, circulate always, save process time, machining efficiency, wherein treat the processing position including first station and the second that waits to add the station, when winding processing to the button of shirt longer interval, need use the first station that waits to add the station, the position of detaining falls, then need use the first station that waits to add the station, the second is treated to add the station, wait to fall the position of detaining, the position of detaining has realized that different interval buttons are wound and are processed the function.

[ description of the drawings ]

Fig. 1 is one of the perspective views of the present invention;

fig. 2 is a second perspective view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a drawing showing the automatic button releasing device of the present invention separated from the frame;

FIG. 5 is an internal structure view of the utility model;

FIG. 6 is a schematic view of the structure of the wire breaking mechanism of the present invention;

FIG. 7 is a second schematic structural view of the wire breaking mechanism of the present invention;

FIG. 8 is a structural view of the cylinder and the clamp arm of the wire breaking mechanism of the present invention;

fig. 9 is a perspective view of the buckle feeding device of the present invention;

FIG. 10 is a structural diagram of the automatic button releasing device of the present invention;

FIG. 11 is a sectional view of the automatic button releasing device of the present invention;

fig. 12 is a second exploded view of the automatic buckle releasing device of the present invention;

FIG. 13 is a view showing the structure of the extruding apparatus of the present invention;

fig. 14 is an exploded view of the extrusion apparatus of the present invention;

fig. 15 is a structural view of the winding mechanism of the present invention.

[ detailed description of the invention ]

The technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that all the directional indicators in the embodiments of the present invention, such as up, down, left, right, front, and rear, 8230, are only used to explain the relative position relationship, movement, etc. between the components in a specific posture as shown in the drawings, and if the specific posture is changed, the directional indicator is changed accordingly. In addition, the descriptions related to "preferred", "less preferred", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "preferred" or "less preferred" may explicitly or implicitly include at least one such feature.

As shown in fig. 1 to 15, in the present embodiment, a full-automatic hot melt winding machine device includes a frame 1, a first to-be-processed location 1011, a second to-be-processed location 1012, a processing location 102, a to-be-dropped location and a dropped location 1032 are disposed on the frame 1, a winding mechanism 2 capable of winding a winding thread at a connection position of a button and a cloth, a fuse thread adhering mechanism 4 for melting a fuse thread on the winding thread and fixing the winding thread at the connection position of the button and the cloth, a thread breaking mechanism 3 for breaking the winding thread are disposed at the processing location 102, an automatic releasing device 5 capable of storing the to-be-processed button and conveying the to-be-processed button to the first to-be-processed location 1011 is disposed above the frame 1, the machine frame 1 is provided with a button conveying device 6 which can convey a button at a first position 1011 to be processed to a second position 1012 to be processed for waiting to be processed, convey the button at the second position 1012 to be processed to a processing position 102 for processing, convey the processed button at the processing position 102 to a position to be dropped for waiting to be dropped and convey the button at the position to be dropped to a dropping position 1032, and the machine frame 1 is internally provided with a control system 7 which can control the winding mechanism 2, the wire pulling and breaking mechanism 3, the fuse adhering mechanism 4, the automatic button releasing device 5 and the button conveying device 6 to operate. The device comprises a first station to be processed, a second station to be processed, a processing station, a position to be buckled and a position to be buckled, wherein an automatic button placing device capable of prestoring a plurality of buttons to be processed is arranged on a rack, a button conveying device capable of conveying the buttons at the first station to be processed to the second station to be processed, conveying the buttons at the second station to be processed to the processing station for processing, conveying the processed buttons at the processing station to the position to be buckled for buckling and conveying the buttons at the position to be buckled to the position to be buckled is arranged on the rack, automatic processing can be achieved as long as an operator sequentially puts the buttons to be processed into the automatic button placing device, the operator does not need to stay beside a machine all the time, manpower is saved, a plurality of devices can be operated at the same time, and the processing efficiency is improved.

As shown in fig. 6-8, the wire pulling and breaking mechanism 3 includes a base support disposed on the frame, a clamp arm mounting plate is hinged to the base support, two clamp arm mechanisms which are used for fixing the winding and working alternately are fixed to the clamp arm mounting plate, the clamp arm mechanism includes a wire clamping cylinder, a fixed clamp arm is fixed to a clamp cylinder shell, a movable clamp arm for hooking the winding and fixing the winding in cooperation with the fixed clamp arm is disposed on a telescopic rod of the wire clamping cylinder, a wire breaking cylinder for rotating a hinged portion of the clamp arm mounting plate to break the winding is further disposed on the frame, a limit slider is disposed on the movable clamp arm, and a limit notch which is sleeved on the fixed clamp arm and used for limiting the movable clamp arm to move along the length direction of the fixed clamp arm is disposed on the limit slider.

After winding is completed, the wire clamping cylinder 33 of one of the clamping arm mechanisms extends upwards to form a telescopic rod to drive the movable clamping arm 35 to move upwards, in the moving process, the limiting slide block 37 on the movable clamping arm 35 limits the movable clamping arm 35 to move along the fixed clamping arm 34, so that the effect of accurately extending the hook part of the movable clamping arm 35 and hooking the winding buckle wire is achieved, then the wire clamping cylinder 33 is controlled to retract the telescopic rod, the winding buckle wire is pulled back, the clamping end of the fixed clamping arm 35 is matched with the clamping end of the fixed clamping arm 35 to clamp and fix the winding buckle wire, and finally the wire breaking cylinder pulls the clamping arm mounting plate to move backwards to drive the wire clamping cylinder 33 to move backwards, so that the winding buckle wire clamped by the movable clamping arm 35 and the fixed clamping arm 34 is broken; after the next winding is finished, the other clamping arm mechanism realizes the hooking and clamps and fixes the winding and buckling wire.

As shown in fig. 6-8, the wire hooking end of the movable clamping arm is an L-shaped clamping hook, and the clamping end of the fixed clamping arm is pressed against the inner side surface of the hook part of the L-shaped clamping hook, so that the winding wire is stably clamped and fixed.

As shown in fig. 6-8, a wire breaking cylinder bracket is arranged on the inner side of the rear side surface of the rack, the bottom of the wire breaking cylinder is hinged on the wire breaking cylinder bracket, and the clamping arm mounting plate is hinged with the wire breaking cylinder telescopic rod.

As shown in fig. 1 to 15, in this embodiment, the button feeding device includes a rotary table, a button slot for hanging the connection portion of the button and the fabric is formed in the edge of the rotary table, the button slot is located at a first position 1011 to be processed, a second position 1012 to be processed, a processing position, a button position to be dropped, and a button position to be dropped in sequence, a rotary table rotating shaft is disposed on one side of the rotary table, a rotary table driving device capable of driving the rotary table rotating shaft is disposed in the machine frame, and a touch switch capable of detecting that the button enters and controlling the rotary table to rotate is disposed at the first position 1011 to be processed. When the button touches touch-control switch 8, touch-control switch 8 gives control system with signal transmission, drive carousel drive arrangement operation, and then drive carousel 61 and rotate, can make the catching groove that is located first position 1011 that waits to process rotate to the second position 1012 that waits to process, and the second waits to process the catching groove of position 1012 department and rotates to processing position 102 department, makes the catching groove of processing position 102 department rotate to waiting to fall to detain the position simultaneously, and make the catching groove of waiting to fall to detain the position rotate to falling and detain position 1032 department, and reasonable in design improves the degree of accuracy.

As shown in fig. 1 to 15, in the present embodiment, the automatic button releasing device 5 includes a button releasing rack 51, a button delivering channel 511 is provided in the button releasing rack 51 in the vertical direction, the button delivering channel 511 is used for placing a button and can communicate with the position 101 to be processed, the upper end and the lower end of the button releasing rack 51 are respectively provided with a button inlet 512 and a button outlet 513, the button inlet 512 and the button outlet 513 are communicated with the button delivering channel 511, and a squeezing device 52 is provided in the button delivering channel 511, the squeezing device can sequentially deliver the buttons entering the button delivering channel 511 to the position 101 to be processed and can trigger the touch switch 8. The pressing device 52 can sequentially press the buttons entering the button feeding channel 511 into the button slots at the positions to be processed 101, and meanwhile, the buttons can touch the touch switch by means of the external force of the pressing device 52, so that the processing accuracy is further improved.

As shown in fig. 1 to 15, in the present embodiment, the button placing rack 51 includes a fixing bracket 514, a front baffle 515, a rear baffle 516, a left baffle 517 and a right baffle 518 are disposed on the fixing bracket 514, and the button feeding passage 511 is formed by the front baffle 515, the rear baffle 516, the left baffle 517 and the right baffle 518.

As shown in fig. 1 to 15, in the present embodiment, the left and right baffles 517 and 518 are disposed on the fixing bracket 514 to be movable left and right, so as to adjust the width of the buckle feeding channel 511; the rear baffle 516 can be arranged on the fixed bracket 514 in a back-and-forth movement way to adjust the thickness of the button feeding channel 511; buttons with different diameters can be processed by adjusting the distance between the left baffle 517 and the right baffle 518, 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 15, in this embodiment, the squeezing device 52 includes a guide rail 521 vertically disposed in the fixed bracket 514, a sliding part 524 is disposed on the guide rail 521, the sliding part 524 is rotatably connected to a pressing arm 522, one end of which can pass through the back plate 516 when the pressing arm 522 moves downward, an elastic part which can drive one end of the pressing arm 522 to pass through the back plate 516 when the pressing arm 522 moves downward is disposed in the buckle releasing frame 51, a guide groove 5161 which can allow the pressing arm 522 to move in a vertical direction is disposed on the back plate 516, the squeezing device 52 includes a first driving device which can drive the pressing arm 522 to reciprocate on the guide rail 521, and a guide plate 523 which can drive one end of the pressing arm 522 to retract when the pressing arm 522 moves upward is disposed on one side of the guide rail 521; in the process of downward movement of the pressing arm 522, under the action of the elastic part, one end of the pressing arm can extend out of the guide groove 5161 of the rear baffle 516 and press the button 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 522 moves upwards, due to the guide effect of the guide plate 523, the elastic part is simultaneously extruded, the end of the pressing arm 522 extending out of the rear baffle can move backwards and retract, the button located in the button feeding channel can continue to move downwards, and the button in the button feeding channel can enter the button groove located at the first position to be processed 1011 one by one through the reciprocating motion of the pressing arm.

As shown in fig. 1 to 15, in this embodiment, eight catching grooves are formed on the edge of the rotating plate, one catching groove is located at the first position to be processed, one catching groove is located at the second position to be processed, one catching groove is located at the processing position, one catching groove is located at the position to be buckled, and one catching groove is located at the position to be buckled.

When the buttons at longer intervals of the shirt are wound, when the button grooves at the first positions to be processed are located and drive the buttons to rotate to the processing positions, the next button can enter the first button grooves at the positions to be processed to wait, after the buttons at the positions to be processed are processed, the rotary disc drives the button grooves at the positions to be processed to rotate to the positions to be processed, the processed buttons automatically drop, the button grooves at the first positions to be processed drive the buttons to rotate to the processing positions to be processed, the operation is always circulated, the processing time is saved, and the processing efficiency is improved.

Carry out wire winding man-hour to the button of short interval of POLO shirt, when being located the first catching groove that treats the processing position and drive the button and rotate the first position that treats the processing position, next button can enter into the first catching groove that treats the processing position and wait for, after the button processing of processing position was accomplished, the carousel drives the catching groove of processing position and rotates to waiting to fall and detain the position, the button that is located to wait to fall to detain the completion of processing in the position then rotates to falling and detains the position, and drop automatically, and be in the second and treat that the catching groove of processing position then rotates to processing position and process, the endless loop has saved process time, and the machining efficiency is improved.

As shown in fig. 1 to 15, in the present embodiment, a fixing mechanism 9 capable of fixing the turntable when the button slot 611 drives the button to rotate to the processing position 102 is disposed in the frame 1. When the rotary table drives the catching groove 611 to rotate to the machining position, the end part of the fixing mechanism can be inserted into the catching groove 611 located at the machining position, the rotary table can be further fixed, the rotary table is prevented from rotating, the catching groove located at the machining position cannot deviate during machining of the rotary table, and machining accuracy is improved.

As shown in fig. 1 to 15, in the present embodiment, a counter 53 capable of counting the number of buttons entering the button feeding passage 511 is disposed at the button feeding port 512, so as to count the number of buttons entering the button feeding passage 511.

As shown in fig. 1 to 15, in the present embodiment, a bobbin base 11 for mounting a bobbin is provided on a frame 1, a winding/fastening cord tightness adjuster 12 capable of adjusting tightness of a winding/fastening cord is provided between the bobbin base 11 and a winding mechanism 2, and a cord breakage detection alarm device 13 capable of detecting whether the winding/fastening cord is broken is provided between the winding/fastening cord tightness adjuster 12 and the winding mechanism 2; when the winding buckle wire entering the winding mechanism is disconnected, the wire breakage detection alarm device can transmit wire breakage information to the control system, the device stops working when the wire is broken, and the device sends out a notice, so that personnel can be informed of processing in the first time of wire breakage, and manpower and material resources are prevented from being wasted.

As shown in fig. 15, in the present embodiment, the winding mechanism 2 includes a base 21, a winding frame 22 is disposed on the base 21, a winding arm 23 is disposed on the winding frame 22, and a winding arm driving device 221 capable of driving the winding arm 23 to rotate for winding is disposed on the winding frame 22.

The working process of the intelligent button feeding full-automatic hot melting button winding machine is further explained below.

The buttons to be processed are sequentially placed into the button feeding channel 511 from the button feeding port 512 of the automatic button placing device 5, when the buttons are placed, the counter 53 calculates the entering quantity, the control system starts to work, the pressing arm 522 of the extruding device 52 presses the buttons downwards, the buttons located at the lowest position enter the button grooves located at the first position 1011 to be processed, the touch switch is touched, the rotary disc rotates, the buttons located at the first position 1011 to be processed rotate to the processing position 102, meanwhile, the fixing mechanism 9 is matched with the button grooves to fix the buttons located at the processing position, and meanwhile, the next button 1011 to be processed enters the button grooves located at the first position to be processed.

The working modes of the winding mechanism 2, the fusible link adhering mechanism 4 and the wire breaking mechanism 3 are positioned at the processing station; when the machine is started, the fuse wire clamp is preheated, a wire barrel wound with a winding wire is fixed on a wire barrel fixing column, an air pipe is connected, a control system starts the motor to rotate after receiving information, the control system sends an instruction to stop the motor to position the winding arm after receiving a signal and enable the winding arm to be positioned at the highest position so as to facilitate threading, at the moment, air flow enters from an air inlet hole at the tail part of the winding arm and is blown out from the end part, a head rest of the winding wire is close to an inlet hole, the winding wire can come out from the end part of a wire outlet pipe along with the air flow, the blown winding wire is held by hand, the air inlet hole stops blowing air, the winding arm rotates towards the lower part, meanwhile, a movable clamping arm of one clamping arm mechanism hooks the winding wire and fixes the winding wire with a fixed clamping arm, the winding mechanism starts winding wire, and the winding wire is wound at a button foot, stopping winding after the fixed number of turns, returning the winding arm to the lowest position of the initial position, simultaneously hooking the winding buckle wire by the movable clamping arm of the other clamping arm mechanism, starting the operation of the fuse wire adhering mechanism, opening the fuse wire clamp by the fuse wire driving device, pushing the fuse wire clamp to the processing position by the pushing device, closing the fuse wire clamp by the fuse wire driving device, fusing the winding buckle wire by the fuse wire clamp and fixing the winding buckle wire at the joint of the button, simultaneously rotating the clamping arm mounting plate downwards by the fuse wire breaking cylinder of the fuse wire breaking mechanism so as to break the fused and fixed winding buckle wire by the clamping arm mechanism, loosening the movable clamping arm to enable the broken waste wire end to enter the recovery tank, and then pushing the clamping arm mounting plate back to the initial position by the fuse wire breaking cylinder to finish the processing of the joint of the button and the cloth positioned at the processing position.

The above is only the preferred embodiment of the present invention, not limiting the patent scope of the present invention, all of which are under the concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct or indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (9)

1. A full-automatic hot-melt winding and buckling machine device comprises a rack (1), wherein a first station to be processed (1011), a second station to be processed (1012), a processing station (102), a position to be buckled (1031) and a buckling position (1032) are arranged on the rack (1), a winding mechanism (2) capable of winding a winding and buckling wire at the joint of a button and cloth, a hot melt wire used for melting the winding and the fusing wire used for fixing the winding and buckling wire at the joint of the button and the cloth, and a wire pulling and breaking mechanism (3) used for breaking the winding and buckling wire are arranged at the processing station (102), an automatic buckling releasing device (5) capable of storing the button to be processed and conveying the button to be processed to the first station to be processed (1011) is arranged on the rack (1) and above the first station to be processed (1011), the machine frame (1) is provided with a button conveying device (6) which can convey a button at a first position to be processed (1011) to a second position to be processed (1012) for waiting to be processed, convey the button at the second position to be processed (1012) to a processing position (102) for processing, convey the processed button at the processing position (102) to a button position to be dropped (1031) for waiting to be dropped and convey the button at the button position to be dropped (1031) to a button dropping position (1032), and a winding mechanism (2), a wire pulling and breaking mechanism (3), a fuse adhering mechanism (4) and a button conveying device (6) are arranged in the machine frame (1) and can be controlled, A control system (7) for the operation of the automatic button releasing device (5) and the button feeding device (6),

stay wire breaking mechanism (3) is including setting up base support (31) on frame (1), it has arm lock mounting panel (32) to articulate on base support (31), be fixed with two arm lock mechanisms that will fix and alternate work around the spiral-lock line on arm lock mounting panel (32), arm lock mechanism is including pressing from both sides line cylinder (33), be fixed with on pressing from both sides line cylinder (33) casing and decide arm lock (34), be equipped with on the telescopic link of line lock cylinder (33) and be used for colluding getting around the spiral-lock line and with decide arm lock (34) cooperation fixed around the spiral-lock line move arm lock (35), still be equipped with on frame (1) and make arm lock mounting panel (32) articulated department rotate make around the broken string cylinder (36) of spiral-lock line disconnection, be equipped with spacing slider (37) on moving arm lock (35), be equipped with on spacing slider (37) and cup joint and be used for injecing on deciding arm lock (34) and move arm lock (35) along deciding arm lock (34) length direction spacing notch (371) motion.

2. The device of claim 1, wherein the hook end of the movable clamping arm (35) is an L-shaped clamping hook, and the clamping end of the fixed clamping arm (34) abuts against the inner side of the hook portion of the L-shaped clamping hook.

3. The full-automatic hot melt winding machine device according to claim 1, characterized in that a wire breaking cylinder bracket (38) is arranged on the inner side of the rear side surface of the frame (1), the bottom of the wire breaking cylinder (36) is hinged on the wire breaking cylinder bracket (38), and the clamping arm mounting plate (32) is hinged with the telescopic rod of the wire breaking cylinder (36).

4. The full-automatic hot melt winding button machine device according to claim 1, characterized in that, the button feeding device (6) comprises a rotary table (61), a button groove (611) for hanging the connection part of the button and the cloth is arranged on the edge of the rotary table (61), the button groove (611) is arranged at a first position (1011) to be processed, a second position (1012) to be processed, a processing position (102), a button position (1031) to be dropped and a button position (1032) to be dropped in sequence, a rotary table rotating shaft (62) is arranged at one side of the rotary table (61), a rotary table driving device (63) capable of driving the rotary table rotating shaft (62) is arranged in the frame (1), and a touch switch (8) capable of detecting that the button enters and controlling the rotary table (61) to rotate is arranged at the first position (1011) to be processed.

5. The full-automatic hot melt winding button machine device according to claim 4, characterized in that the automatic button placing device (5) comprises a button placing rack (51), a button feeding channel (511) which can be used for placing buttons and can be communicated with a first station to be processed (1011) is arranged in the button placing rack (51) in the vertical direction, a button feeding port (512) and a button discharging port (513) which are communicated with the button feeding channel (511) are respectively arranged at the upper end and the lower end of the button placing rack (51), and an extruding device (52) which can sequentially feed the buttons entering the button feeding channel (511) to the first station to be processed (1011) and can trigger the touch switch (8) is arranged in the button feeding channel (511).

6. The full-automatic hot melt winding and buckling machine device according to claim 5, wherein the buckle placing rack (51) comprises a fixed support (514), a front baffle (515), a rear baffle (516), a left baffle (517) and a right baffle (518) are arranged on the fixed support (514), and the front baffle (515), the rear baffle (516), the left baffle (517) and the right baffle (518) surround to form a buckle conveying channel (511).

7. The full-automatic hot-melt button winding machine device according to claim 6, wherein the left baffle (517) and the right baffle (518) can move left and right and are arranged on the fixed bracket (514) to adjust the width of the button feeding channel (511); the rear baffle (516) can be arranged on the fixed bracket (514) in a back-and-forth moving way to adjust the thickness of the button feeding channel (511).

8. The full-automatic hot melt winding machine device according to claim 6, wherein the extrusion device (52) comprises a guide slide rail (521) which is positioned in the fixed support (514) and is vertically arranged, a sliding part (524) is arranged on the guide slide rail (521), one end of the pressing arm (522) which can penetrate through the rear baffle (516) when the sliding part (524) moves downwards is rotatably connected to the sliding part (524), an elastic part which can drive one end of the pressing arm (522) to penetrate through the rear baffle (516) when the pressing arm (522) moves downwards is arranged in the buckle placing frame (51), a guide groove (5161) which can allow the pressing arm (522) to move in the vertical direction is formed in the rear baffle (516), the extrusion device (52) comprises a first driving device which can drive the pressing arm (522) to reciprocate on the guide slide rail (521), and a guide plate (523) which can drive one end of the pressing arm (522) to penetrate through the rear baffle (516) to retract when the pressing arm (522) moves upwards is arranged on one side of the guide slide rail (521).

9. The full-automatic hot melt winding button machine device according to claim 4, characterized in that eight buckle grooves (611) are formed on the edge of the rotary disk (61), wherein one buckle groove (611) is located at the first position to be processed (1011), one buckle groove (611) is located at the second position to be processed (1012), one buckle groove (611) is located at the processing position (102), one buckle groove (611) is located at the position to be dropped (1031), and one buckle groove (611) is located at the drop position (1032).

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