CN211687577U - Button area ultrasonic wave guillootine - Google Patents

Abstract

The utility model relates to an ultrasonic button belt cutting machine, which comprises a frame, a transition plane, a main board, a transmission pushing device and a cutting device, wherein the transition plane and the bottom of the main board are fixed with the top of the frame, the main board is obliquely arranged, the transmission pushing device comprises a push rod pressing mechanism and a transmission mechanism, the push rod pressing mechanism comprises a pressing cylinder and a pressing cylinder fixing plate, pressing material cylinder connecting plate and ejector sleeve, it is fixed with pressing material cylinder fixed plate to press the material cylinder, and the cylinder axle is fixed with pressing material cylinder connecting plate, presses material cylinder fixed plate and drive mechanism sliding connection, presses material cylinder connecting plate and ejector sleeve fixed, and cutting device cuts cylinder fixed plate, cutting die and ultrasonic wave module including cutting the cylinder, cutting cylinder fixed plate, cutting die and ultrasonic wave module, cuts cylinder fixed plate, mainboard and ultrasonic wave module and connects gradually, cuts the cylinder and cuts the cylinder fixed plate fixed, and the cylinder axle is fixed with the cutting die. The utility model provides a button area ultrasonic wave guillootine can automatic accurate conveying button area, improves pay-off precision and cutting accuracy.

Description

Button area ultrasonic wave guillootine

Technical Field

The utility model relates to a button area cutting means technical field especially relates to a button area ultrasonic wave guillootine.

Background

Because the material thickness of taking the button is inconsistent, has the position of button, and protruding height is very high relatively, what traditional belt cutting machine adopted is the pair roller pay-off, when sending the position of button, will appear blocking, unable pay-off, perhaps pay-off length is inaccurate. Another kind of tradition belt cutting machine is then fluting on the feed roll for dodge the button, feed roll only contacts with the belt like this, and can not receive the influence of button, but to the button great, the little material of belt width, the area that the feed roll can contact is just very little, still can't accurate pay-off, can't satisfy cutting accuracy requirement. Therefore, the automatic accurate feeding of the button belt ultrasonic cutting machine is designed to solve the defects.

SUMMERY OF THE UTILITY MODEL

Weak point to prior art exists, the utility model provides a button area ultrasonic wave guillootine can automatic accurate conveying button area, improves pay-off precision and cutting accuracy.

The utility model adopts the following technical scheme:

an ultrasonic button belt cutting machine comprises a machine frame, a transition plane, a main board, a transmission pushing device and a cutting device.

The bottom of the transition plane is fixedly connected with the top of the frame, one end of the transition plane is contacted with the main board, the main board is fixedly connected with the top of the frame in a certain inclination, the transmission and pushing device comprises a push rod pressing mechanism and a transmission mechanism, the push rod pressing mechanism comprises a pressing cylinder, a pressing cylinder fixing plate, a pressing cylinder connecting plate and a pushing rod, the pressing cylinder is fixedly connected with the top of the pressing cylinder fixing plate, the bottom of a cylinder shaft of the pressing cylinder is fixedly connected with the pressing cylinder connecting plate, the bottom of the pressing cylinder fixing plate is slidably connected with the transmission mechanism, the bottom of the pressing cylinder connecting plate is fixedly connected with the pushing rod, the cutting device comprises a cutting cylinder, a cutting cylinder fixing plate, a cutting die and an ultrasonic module, the cutting cylinder fixing plate, the main board and the ultrasonic module are fixedly connected in sequence, the cutting cylinder is fixedly connected with the top of the cutting cylinder fixing plate, the ultrasonic module is positioned below the cutting die.

Further setting, aforementioned transition plane is equipped with first separation module, and the mainboard top is equipped with the second and separates the module, and first separation module and second separate the module and include fixing base and a plurality of division board.

So set up, first partition module passes through the left and right positions of division board limited button area on the transition plane, and the left and right positions when second partition module is used for prescribing a limit to the button area and gets into the mainboard prevents to take place the skew in the transfer process.

Further setting, the middle part of the main board is provided with a material pushing position stainless steel plate, and the top of the material pushing position stainless steel plate is provided with a limiting block.

So set up, push away material position corrosion resistant plate and be used for placing the button area of treating the transmission, and push away material position corrosion resistant plate and compare ordinary board surface more smooth, can reduce effectively and push away the precision error that the frictional force of material in-process button area and desktop caused, the transmission of being convenient for.

Further setting, aforementioned material pressing cylinder connecting plate bottom is equipped with ejector pin fixed plate, and ejector pin fixed plate one end is equipped with ejector pin connecting block, ejector pin connecting block and ejector pin fixed connection, and the interval of ejector pin fixed plate and mainboard is greater than the stopper height.

So set up, the connection structure of ejector sleeve fixed plate, ejector sleeve connecting block and ejector sleeve can effectively avoid ejector sleeve to rise the back along with pressing material cylinder connecting plate and take place to interfere with the cutting die, and the interval of ejector sleeve fixed plate and mainboard is greater than the stopper height, can prevent that ejector sleeve fixed plate from interfering with the stopper to limit the stroke because of the position of stopper.

Further, the end surface of the pushing rod is L-shaped.

So set up, effectively avoid the circumstances that the back is interfered and the return stroke can not be had by cutting die position at the return stroke in-process to the ejector pin after rising.

Further arranged, one end of the material pressing cylinder fixing plate is provided with a guide rod, and the bottom of the guide rod is fixedly connected with the material pressing cylinder connecting plate.

So set up, the guide bar is used for guiding the material cylinder connecting plate of pressing and moves from top to bottom along the guide bar.

Further setting up, aforementioned drive mechanism includes the motor, the motor fixed plate, from the driving wheel fixed plate, open area and guide rail, motor and motor fixed plate fixed connection, the motor fixed plate with from driving wheel fixed plate bottom all with mainboard top fixed connection, the motor shaft of motor is equipped with the action wheel, be equipped with from the driving wheel fixed plate, pass through the open area from driving wheel and action wheel and be connected, guide rail bottom both ends all are equipped with guide rail bed hedgehopping piece, guide rail bed hedgehopping piece bottom and mainboard top fixed connection.

So set up, the motor drives the action wheel rotatory, drives the motion of opening area to drive push rod swager and construct the removal, make certain height between guide rail and mainboard through the guide rail bed hedgehopping piece of guide rail bottom party, avoid push rod swager to construct the removal in-process and interfere with the stopper.

Further setting, the bottom end of the pressing cylinder fixing plate is provided with a sliding block, the top of the pressing cylinder fixing plate is provided with an opening belt fixing pressing plate, the sliding block is matched with the guide rail, and the opening belt fixing pressing plate is fixedly connected with the opening belt and the pressing cylinder fixing plate.

So set up, opening area fixed clamp plate compresses tightly the opening area, fixes at the material cylinder fixed plate top of pressing, and the opening area moves to drive push rod swager and construct the removal, push rod swager passes through the slider and moves along the guide rail.

Further setting, aforementioned guide rail one end is equipped with inductor position control piece, and inductor position control piece one end is equipped with the inductor fixed plate, and inductor fixed plate bottom is equipped with the inductor.

So set up, the inductor is used for responding to the position of slider to the control motor is just reversing, makes push rod swager construct and drives the slider and remove.

Further setting, aforementioned ultrasonic module includes ultrasonic bonding tool, ultrasonic transducer fixed plate and ultrasonic wave machine case, and mainboard one end is equipped with the ultrasonic emission hole, and the ultrasonic bonding tool passes the ultrasonic emission hole, and the bottom is connected with ultrasonic transducer, ultrasonic transducer and ultrasonic transducer fixed plate fixed connection, and the ultrasonic wave machine case is located inside the frame.

According to the arrangement, the ultrasonic case is used for providing ultrasonic signals for the ultrasonic transducer, the cutting die descends to press the button belt with the ultrasonic welding head, and the ultrasonic transducer sends out ultrasonic waves to cut off the button belt.

Advantageous effects

Compared with the prior art, the utility model provides a button area ultrasonic wave guillootine possesses following beneficial effect:

the utility model provides a button area ultrasonic wave guillootine realizes carrying out the pay-off to the button area automatically through push rod swager constructs and drive mechanism, and the pay-off precision is high, and the cutting precision is high and can not produce the accumulative error; the transmission mechanism adopts open belt transmission, has simple and compact structure and is convenient to adjust; the mainboard slope is placed, makes things convenient for the pay-off, reduces the precision error that the frictional force of pushing away material in-process and desktop caused.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the arrangement of the driving pushing device and the cutting device;

FIG. 3 is a schematic structural view of a driving and pushing device;

fig. 4 is an enlarged view of the structure of the push rod pressing mechanism.

Reference numerals: 1. a frame, 2, a transition plane, 21, a first separation module, 211, a fixed seat, 212, a separation plate, 3, a main plate, 31, a second separation module, 32, a material pushing position stainless steel plate, 321, a limiting block, 33, a material discharging plate, 4, a transmission material pushing device, 41, a push rod material pressing mechanism, 411, a material pressing cylinder, 412, a material pressing cylinder fixing plate, 413, a material pressing cylinder connecting plate, 414, a material pushing rod fixing plate, 415, a material pushing rod connecting block, 416, a material pushing rod, 417, a guide rod, 418, a sliding block, 419, an opening belt fixing pressing plate, 42, a transmission mechanism, 421, a motor, 4211, a driving wheel, 422, a motor fixing plate, 423, a driven wheel fixing plate, 4231, a driven wheel, 424, an opening belt, 425, a guide rail, 4251, a guide rail pad high block, 4252, a sensor position adjusting block, 4253, a sensor fixing plate, 4254, a sensor, 5, a cutting device, 51 and a cutting cylinder, 52. cutting cylinder fixing plate 53, guide pillar 54, guide sleeve 55, rotary cylinder 56, rotary cylinder fixing plate 57, cutting die 581, ultrasonic welding head 582, ultrasonic transducer 583, ultrasonic transducer fixing plate 584, ultrasonic case 6 and button belt.

Detailed Description

To further illustrate the embodiments, the present invention provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the embodiments. With these references, one of ordinary skill in the art will appreciate other possible embodiments and advantages of the present invention. Elements in the figures are not drawn to scale and like reference numerals are generally used to indicate like elements.

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, wherein fig. 1 is a schematic structural diagram of the present invention, fig. 2 is a schematic structural diagram of a transmission material pushing device and a cutting device, fig. 3 is a schematic structural diagram of the transmission material pushing device, and fig. 4 is an enlarged structural diagram of a push rod material pressing mechanism. The utility model discloses a button area ultrasonic wave guillootine of a preferred embodiment, including frame 1, transition plane 2, mainboard 3, transmission blevile of push 4 and cutting device 5.

The bottom of the transition plane 2 is welded with the top of the frame 1, one end of the transition plane 2 is in close contact with the main board 3, and the top of the other end is provided with a first separation module 21. First partition module 21 includes fixing base 211 and a plurality of division board 212, and the interval of adjacent division board 212 is unanimous, and is unanimous with button area 6 width, and fixing base 211 bottom and transition plane 2 top bolted connection have a fixed axle, and a plurality of division boards 212 pass through the fixed axle to be fixed on transition plane 2. The first partition module 21 defines the right and left positions of the button belt 6 on the transition plane 2 by the partition plate 212.

The main board 3 is welded on the top of the frame 1 in a certain inclination, so that the precision error caused by the friction force between the material and the desktop in the material pushing process can be effectively reduced. A second separation module 31 is fixed on the top of one end of the main board 3 close to the transition plane 2 through bolts, and the second separation module 31 is used for limiting the left and right positions of the button belt 6 when entering the main board 3 and preventing deviation in the transmission process. The middle part of the main board 3 is fixed with a material pushing position stainless steel plate 32 through screws and used for placing a button belt 6 to be transmitted, and the material pushing position stainless steel plate 32 is smoother than the surface of a common plate, so that the precision error caused by the friction force between the button belt 6 and a table top in the material pushing process can be effectively reduced, and the transmission is facilitated. The limiting block 321 is welded on the top of the material pushing position stainless steel plate 32, and the limiting block 321 is used for limiting the left and right positions of the button belt 6 on the material pushing position stainless steel plate 32 to prevent deviation in the conveying process. A discharging plate 33 is fixed to one end, far away from the transition plane 2, of the main board 3 through screws, feeding is facilitated, and the button belt 6 is sent out to be cut. One end of the main board 3 close to the discharging board 33 is provided with an ultrasonic emitting hole which is positioned below the cutting device 5.

The transmission pushing device 4 comprises a push rod pressing mechanism 41 and a transmission mechanism 42, and is used for pushing the button belt 6 to the cutting position for cutting.

The push rod pressing mechanism 41 includes a pressing cylinder 411, a pressing cylinder fixing plate 412, a pressing cylinder connecting plate 413, and a pushing rod 416. The material pressing cylinder 411 is installed on the top of the material pressing cylinder fixing plate 412, the bottom of the cylinder shaft of the material pressing cylinder 411 is in bolt connection with the material pressing cylinder connecting plate 413 below, and when the material pressing cylinder 411 stretches out and draws back, the material pressing cylinder connecting plate 413 is driven to move up and down. One end of the material pressing cylinder fixing plate 412 is provided with a guide hole, the bottom of the other end of the material pressing cylinder fixing plate 412 is welded with a sliding block 418, and the top of the material pressing cylinder fixing plate 412 is connected with an opening belt fixing pressing plate 419 through a bolt. The guide rod 417 penetrates through the guide hole to be in bolted connection with the material pressing cylinder fixing plate 412, and the bottom of the guide rod 417 is welded with the material pressing cylinder connecting plate 413 and used for guiding the material pressing cylinder connecting plate 413 to move up and down along the guide rod 417. The bottom of the material pressing cylinder connecting plate 413 is welded with the top of the material pushing rod fixing plate 414, one end of the material pushing rod fixing plate 414 is fixedly connected with the material pushing rod connecting block 415, the material pushing rod connecting block 415 is fixedly connected with the material pushing rod 416, and the connecting structure of the material pushing rod fixing plate 414, the material pushing rod connecting block 415 and the material pushing rod 416 can effectively prevent the material pushing rod 416 from interfering with the cutting die 57 after rising along with the material pressing cylinder connecting plate 413. The distance between the material pushing rod fixing plate 414 and the main plate 3 is greater than the height of the limiting block 321, so that the material pushing rod fixing plate 414 is prevented from interfering with the limiting block 321, and the stroke is prevented from being limited by the position of the limiting block 321. In the conveying process, the pushing rod 416 is lightly pressed at the rear end position of the button belt 6, and the button belt 6 is pushed to the cutting position by pushing the button. The end surface of the material pushing rod 416 is L-shaped, so that the situation that the material pushing rod 416 cannot return due to interference of the position of the cutting die 57 in the return process after rising is effectively avoided. The material pressing cylinder 411 is a cylinder with a limit, and the height between the material pushing rod 416 and the stainless steel plate 32 at the material pushing position can be controlled to be higher than that of the button belt 6 through the limit, so that the material pushing rod 416 is prevented from interfering with the button belt 6 in the return stroke; and the pushing rod 416 can be controlled to just clamp the buttons on the button belts by adjusting the limit, the button belts cannot be pressed tightly, the friction force generated when the button belts move cannot be increased, and therefore accurate feeding is achieved.

The transmission mechanism 42 includes a motor 421, a motor fixing plate 422, a driven wheel fixing plate 423, an open belt 424, and a guide rail 425. Motor 421 and motor fixed plate 422 screwed connection, motor fixed plate 422 and follow driving wheel fixed plate 423 bottom all with mainboard 3 top welding, motor 421's motor 421 axle is equipped with driving wheel 4211, follow driving wheel fixed plate 423 is equipped with from driving wheel 4231, follow driving wheel 4231 and driving wheel 4211 pass through the opening area 424 and connect. The opening belt 424 is pressed by the opening belt fixing pressing plate 419 and fixed on the top of the pressing cylinder fixing plate 412, and the motor 421 drives the driving wheel 4211 to rotate, so as to drive the opening belt 424 to move, and thus drive the push rod pressing mechanism 41 to move. The guide rail 425 is parallel to the edge of the stainless steel plate 32 at the pushing position, guide rail heightening blocks 4251 are welded at two ends of the bottom of the guide rail 425, and the bottom of each guide rail heightening block 4251 is welded with the top of the main board 3, so that a certain height exists between the guide rail 425 and the main board 3, and interference between the push rod pressing mechanism 41 and the limiting block 321 in the moving process is avoided. The middle part of the guide rail 425 is matched with the slide block 418, and the push rod pressing mechanism 41 moves along the guide rail 425 through the slide block 418. An inductor position adjusting block 4252 is further welded at one end of the guide rail 425, an inductor fixing plate 4253 is welded at one end of the inductor position adjusting block 4252, an inductor 4254 is arranged at the bottom of the inductor fixing plate 4253, and the inductor 4254 is used for sensing the position of the sliding block 418, so that the motor 421 is controlled to rotate forwards and reversely, and the push rod pressing mechanism 41 drives the sliding block 418 to move.

The cutting device 5 comprises a cutting cylinder 51, a cutting cylinder fixing plate 52, a guide pillar 53, a guide sleeve 54, a rotary cylinder 55, a rotary cylinder fixing plate 56, a cutting die 57 and an ultrasonic module, wherein the ultrasonic module comprises an ultrasonic welding head 581, an ultrasonic transducer 582, an ultrasonic transducer fixing plate 583 and an ultrasonic case 584, and the cutting cylinder fixing plate 52, the main board 3 and the ultrasonic transducer fixing plate 583 are sequentially and fixedly connected into a whole through double screws. Guide pin bushing 54 and guide pillar 53 clearance fit are located and cut cylinder 51 both sides, cut cylinder 51, guide pillar 53 and guide pin bushing 54 all with cut cylinder fixed plate 52 top bolted connection, cut cylinder 51's cylinder axle and guide pillar 53 bottom all with revolving cylinder fixed plate 56 top welding, when cutting cylinder 51 flexible, drive revolving cylinder fixed plate 56 and be elevating movement, guide pin bushing 54 and guide pillar 53 are used for guiding the stroke of revolving cylinder fixed plate 56. The bottom of the rotary cylinder fixing plate 56 is connected with the rotary cylinder 55 through a bolt, the bottom of the rotary cylinder 55 is connected with the cutting die 57 through a bolt, and the rotary cylinder 55 is used for adjusting the angle of the cutting die 57, so that multi-angle adjustment can be realized. The bottom of the cutting die 57 is provided with a blade, the shape of the blade can be customized according to the requirement of the button belt, and the efficiency is higher. The ultrasonic horn 581 penetrates the ultrasonic wave emitting hole with an end surface parallel to the main plate 3 and below the cutter die 57. The bottom of the ultrasonic welding head 581 is connected with an ultrasonic transducer 582, and the ultrasonic transducer 582 is connected with an ultrasonic transducer fixing plate 583 through flange bolts. An ultrasonic enclosure 584 is located inside the housing 1 for providing ultrasonic signals to the ultrasonic transducers 582. The cutting die 57 is lowered to press the button tape 6 against the ultrasonic horn 581, and the ultrasonic transducer 582 emits ultrasonic waves to cut the button tape 6.

The utility model discloses during the use, button area 6 gets into from transition plane 2 through first separation module 21 and second separation module 31 and pushes away material position corrosion resistant plate 32, and button area 6 receives gravity to export through stopper 321 and removes to play flitch 33 department, presses material cylinder 411 to stretch out, and the cylinder axle drives presses material cylinder connecting plate 413 to descend, presses material cylinder 411 to pass through spacingly, and the control pushes away the button rear end position of area 6 in the button of gently pressing after material pole 416 descends. The motor 421 rotates forward, the sensor 4254 controls the sliding block 418 to move towards the discharge hole along the guide rail 425, drives the material pushing rod 416 to push the button belt 6 to the cutting position, then the motor 421 stops moving, then the rotary cylinder 55 is started, the angle of the cutting die 57 is adjusted, then, when the cutting cylinder 51 extends out, the cutting die 57 is driven to descend to be close to the ultrasonic welding head 581, after the button belt 6 is clamped by the cutting die 57 and the ultrasonic welding head 581, the ultrasonic transducer 582 sends out ultrasonic waves to cut off the button belt 6, then the material pressing cylinder 411 contracts, the cylinder shaft drives the material pressing cylinder connecting plate 413 to ascend, the material pushing rod 416 ascends along with the ascending, the material pressing cylinder 411 controls the material pushing rod 416 to ascend through limiting, the height between the material pushing cylinder 411 and the stainless steel plate 32 at the material pushing position is higher than that of the button belt 6, meanwhile, the cutting cylinder 51 contracts to drive the cutting die 57 to ascend, the button belt 6 at the front end is loosened, and the cutting position is taken out from the discharging plate 33 under the action of gravity. Then the motor 421 rotates reversely, the sensor 4254 controls the sliding block 418 to return to the starting position along the guiding rail 425, and then the motor 421 stops moving, and the next cycle is performed, and so on. The utility model provides a button area ultrasonic wave guillootine adopts motor 421 control push rod to promote button area 6 pay-off, and the pay-off precision improves greatly with the cutting precision, can not produce accumulative error, and opening area 424 transmission simple structure, makes things convenient for the pay-off.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An ultrasonic button cutting machine is characterized by comprising a frame, a transition plane, a main board, a transmission pushing device and a cutting device, wherein the transition plane and the bottom of the main board are fixedly connected with the top of the frame, one end of the transition plane is contacted with the main board, the main board is obliquely arranged, the transmission pushing device comprises a push rod pressing mechanism and a transmission mechanism, the push rod pressing mechanism comprises a pressing air cylinder, a pressing air cylinder fixing plate, a pressing air cylinder connecting plate and a pushing rod, the pressing air cylinder is fixedly connected with the top of the pressing air cylinder fixing plate, the bottom of an air cylinder shaft of the pressing air cylinder is fixedly connected with the pressing air cylinder connecting plate, the bottom of the pressing air cylinder fixing plate is slidably connected with the transmission mechanism, the bottom of the pressing air cylinder connecting plate is fixedly connected with the pushing rod, the cutting device comprises a cutting air cylinder, a cutting air cylinder fixing plate, a cutting die and an ultrasonic module, the, cut the cylinder and cut cylinder fixed plate top fixed connection, cut the cylinder axle and the cutting die fixed connection of cylinder, the ultrasonic wave module is located the cutting die below.

2. The ultrasonic button strip cutting machine as claimed in claim 1, wherein the transition plane is provided with a first separation module, the top of the main plate is provided with a second separation module, and the first separation module and the second separation module comprise a fixing base and a plurality of separation plates.

3. The ultrasonic guillotine for button belt of claim 1 wherein the middle portion of said main plate has a stainless steel plate for pushing material, and the top of said stainless steel plate for pushing material has a limited block.

4. The ultrasonic guillotine for button belt of claim 3, wherein the bottom of the connecting plate of the pressing cylinder is provided with a pushing rod fixing plate, one end of the pushing rod fixing plate is provided with a pushing rod connecting block, the pushing rod connecting block is fixedly connected to the pushing rod, and the distance between the pushing rod fixing plate and the main plate is greater than the height of the limiting block.

5. The ultrasonic button strip cutting machine as claimed in claim 1, wherein the end of the pusher is L-shaped.

6. The ultrasonic guillotine for button belt of claim 1 wherein the pressing cylinder fixing plate has a guide bar at one end, and the bottom of the guide bar is fixed to the connecting plate of the pressing cylinder.

7. The ultrasonic guillotine for button belt of claim 1, wherein the transmission mechanism comprises a motor, a motor fixing plate, a driven wheel fixing plate, an open belt and a guide rail, the motor is fixedly connected to the motor fixing plate, the bottom of the motor fixing plate and the bottom of the driven wheel fixing plate are both fixedly connected to the top of the main board, the motor shaft is provided with a driving wheel, the driven wheel fixing plate is provided with a driven wheel, the driven wheel and the driving wheel are connected through the open belt, the two ends of the bottom of the guide rail are both provided with guide rail elevation blocks, and the bottom of the guide rail elevation blocks is.

8. The ultrasonic guillotine for button belt of claim 7, wherein the pressing cylinder has a slide block at one end of the bottom of the fixing plate, and a fixing plate with an opening at the top of the fixing plate, the slide block is engaged with the guide rail, and the fixing plate with an opening is fixedly connected to the opening and the fixing plate of the pressing cylinder.

9. The ultrasonic guillotine for button belt of claim 7 wherein the guide rail has a sensor position adjustment block at one end, a sensor fixing plate at one end, and a sensor at the bottom of the sensor fixing plate.

10. The button belt ultrasonic cutting machine of claim 1, wherein the ultrasonic module comprises an ultrasonic horn, an ultrasonic transducer fixing plate and an ultrasonic chassis, an ultrasonic emitting hole is formed at one end of the main board, the ultrasonic horn penetrates through the ultrasonic emitting hole, the bottom of the main board is connected with the ultrasonic transducer, the ultrasonic transducer is fixedly connected with the ultrasonic transducer fixing plate, and the ultrasonic chassis is located inside the frame.

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