KR101331335B1 - Waterproof textile transport system of ultrasonic welding machine having pressure and angle adjusting structure - Google Patents

Abstract

The present invention relates to an ultrasonic welding machine having a smooth moving structure in accordance with the entry and discharge of the waterproof fabric, and more particularly, the welding roller is configured to have a dual structure having a pressure wheel and a moving roller, and the moving roller is supported on the support arm. Forming a pressing pulley having a pressing belt in contact, the pressing pulley allows the upper, lower, left, right clearance adjustment and the adjustment of the pressing force from the moving roller, thereby smoothly entering the waterproof fabric by the pressing force of the moving roller and the pressing pulley. And discharge is possible, as well as the tension can be adjusted regardless of the type and thickness of the waterproof fabric, allowing easy entry and exit of any waterproof fabric, and also the vertical angle of the pressure pulley can be adjusted. As a result, smooth entry and discharge of the waterproof fabric is possible not only when performing a linear welding operation but also when performing a curved welding operation. The present invention relates to a waterproof fabric movement structure of an ultrasonic welder having a pressure and angle control structure.

Description

Waterproof textile transport system of ultrasonic welding machine having pressure and angle adjusting structure

The present invention relates to an ultrasonic welding machine having a smooth moving structure in accordance with the entry and discharge of the waterproof fabric, and more specifically, provided with a pressure pulley for guiding the entry and discharge of the waterproof fabric is ultrasonic welding, the pressing force of the pressure pulley and By adjusting the angle, it is easy to enter and discharge the waterproofing fabric for ultrasonic welding, and to easily enter and discharge the waterproofing fabric even in the case of linear welding or welding of the waterproofing fabric. It is possible to adjust the tension according to the type and thickness of waterproof fabric, so that it is easy to enter and discharge the waterproof fabric, and it is easy to enter and discharge the waterproof fabric. It relates to a waterproof fabric moving structure.

In recent years, as leisure activities and hobby activities are actively performed, various functional clothes, cloths, tents and tents are widely used.

Such various types of coating are generally to be provided with a waterproof function, and is produced through a waterproof fabric having a waterproof function.

Accordingly, fabrics that require waterproofing, such as functional clothing or cloth, tents, tents, etc. are to be prepared for rainy weather due to the waterproof function while performing the original function faithfully by using the above-described waterproofing fabric.

Thus, the waterproof fabric as described above is able to ensure the waterproofness by bonding to each other by welding bonding, the thermal welding method is mainly used as such welding bonding method.

On the other hand, ultrasonic welding, high frequency, rotation, vibration welding method and the like are applied as such a welding method.

Among them, ultrasonic welding converts power of 220V, 50 / 60Hz into electric energy of 15,000 ~ 60,000Hz through power supply, and then converts it into mechanical vibration energy through converter and adjusts its amplitude with Booster. When the ultrasonic vibration energy thus formed is transferred to the deposit through the horn, instantaneous frictional heat is generated at the bonding surface of the deposit, and the synthetic resin is dissolved and bonded to form a strong molecular bond.

On the other hand, a general ultrasonic welding machine used for ultrasonic welding as described above, as shown in Figure 1, a work table 20 having a welding roller 21 is formed on the upper portion of the main body 10, the upper portion of the work table 20 A support arm 30 is formed at the end portion, and an ultrasonic wave generator 40 having an ultrasonic horn 41 is formed at an end of the support arm 30.

Accordingly, the superimposed waterproof fabric entering the rear from the upper front of the work bench enters the junction between the ultrasonic horn and the welding roller, and is welded by the ultrasonic horn.

However, the conventional ultrasonic welding machine as described above, the operator has to manually enter the waterproofing fabric when entering the waterproofing fabric for ultrasonic welding, the rear by the frictional force with the rotating welding roller simply in the discharge of the welded waterproofing fabric. There was a problem that the entry or discharge is not made smoothly, such as discharged to.

In addition, when performing the ultrasonic welding of the waterproof fabric, the entry and discharge of the waterproof fabric could be relatively easy. However, when the curved work was performed, it was very inconvenient for the operator to arbitrarily adjust, which resulted in a drastic decrease in workability. There was an issue bringing.

The present invention has been made to solve the above problems, the welding roller is configured to form a dual structure having a pressing wheel and a moving roller, and to form a pressing pulley having a pressing belt in contact with the moving roller on the support arm. The pressurized pulley enables the up, down, left, right clearance adjustment and the adjustment of the pressing force from the moving roller to enable smooth entry and discharge of the waterproof fabric by the pressing force of the moving roller and the pressing pulley, as well as the waterproof fabric. It is an object of the present invention to provide a waterproof fabric moving structure of an ultrasonic welding machine having a pressure and angle control structure which enables easy adjustment of tension regardless of the type and thickness of the fabric and enables easy entry and exit even if any waterproof fabric is applied. It is.

In addition, by enabling the vertical angle adjustment of the pressing pulley, the waterproofing of the ultrasonic welding machine having a pressure and angle control structure that enables the smooth entry and discharge of the waterproof fabric during straight welding work as well as curved welding work. It is another object of the present invention to provide a fabric movement structure.

As a specific means for achieving the above object, the work table 20 is formed on the upper portion of the main body, the support arm is formed on the upper portion of the work table 20, the ultrasonic wave having an ultrasonic horn that can be lifted at the end of the support arm In the ultrasonic welding machine in which the generator is formed,
A welding roller made of a pressure wheel for driving a motor exposed to the upper portion of the work table and a moving roller wound around a friction ring;
A support part comprising a support plate having a pair of horizontal guide rails formed on the rear of the support arm;
A moving plate formed with a guide block and a fastening block slidably coupled to the guide rail, and an adjustment screw rod having an end portion fixed to the fastening block and an intermediate portion screwed into a nut body fixed to a rear side of the support arm; ;
It is coupled to the moving part, fixed to the moving plate by a vertical part of the "b" type bending bracket forming a vertical part and a horizontal part, and a pressure adjusting part is formed on the vertical part by a knob bracket, and fixed to the horizontal part. A drive motor is formed by the plate, and the motor shaft penetrates the stationary plate, and a driving pulley is formed at the end thereof; And
An inclined bendable rotating arm having a horizontal extension bracket having a long hole in the middle bearing the motor shaft and having an upper end hinge-coupled to an end of the pressure adjusting part, a support block extending at an end of the rotating arm, and the support block And a rotation block connected to the rotational shaft and coupled to a pressure bar on one side, a pressure pulley connected to the driving pulley and the pressure belt and formed on the pressure bar, and a pressurizing portion configured to control the rotation of the pressure pulley. It can be achieved by

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As described above, the waterproof fabric moving structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention enables the smooth entry and discharge of the waterproof fabric entering therebetween by the pressing force of the pressing pulley in which the moving roller and the pressure belt are wound. This means that it is possible to control the pressing force by adjusting the tension of the pressing pulley according to the type and thickness of the waterproofing fabric, so that the excellent entry and exit effect can be obtained when applied to any waterproofing fabric.

In addition, it is possible to adjust the vertical angle of the pressing pulley, when maintaining the vertical state can be used suitably for performing the straight welding of the waterproof fabric, the performance of various curve work according to the adjustment of the inclination angle of the pressing pulley It is possible to obtain the effect of further improving the workability according to the entry and discharge of the waterproof fabric.

1 is a perspective view showing a general ultrasonic welding machine.
Figure 2 is a rear perspective view showing a waterproof fabric moving structure of the ultrasonic welding machine having a pressure and angle control structure of the present invention.
Figure 3 is a side view of the waterproof fabric moving structure of the ultrasonic welding machine having a pressure and angle control structure of the present invention.
Figure 4 is a perspective view of the main portion of the waterproof fabric moving structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention.
5 is an explanatory view showing a pressure pulley operating state of the waterproof fabric moving structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention.
Figure 6 is an operating state of the waterproof fabric moving structure of the ultrasonic welding machine having a pressure and angle control structure of the present invention.
Figure 7 is a rear explanatory view showing the left and right movement state of the waterproof fabric movement structure of the ultrasonic welding machine having a pressure and angle control structure of the present invention.
Figure 8 is an explanatory side view showing a pressing force adjustment state of the waterproof fabric moving structure of the ultrasonic welding machine having a pressure and angle control structure of the present invention.
Figure 9 is an explanatory back view showing the angle adjustment state of the waterproof fabric moving structure of the ultrasonic welding machine having a pressure and angle control structure of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a rear perspective view showing a waterproof fabric moving structure of the ultrasonic welding machine having a pressure and angle control structure of the present invention, Figure 3 is a side view of the waterproof fabric moving structure of the ultrasonic welding machine with a pressure and angle control structure of the present invention, Figure 4 Is a perspective view of the main portion of the waterproof fabric moving structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention.

 As shown in FIG. 1, an ultrasonic welding machine having a general shape includes a work table 20 formed on an upper portion of a main body 10, a support arm 30 formed on an upper portion of the work table 20, and the support arm 30. From the ultrasonic welding machine in which the ultrasonic wave generation part 40 which has the ultrasonic horn 41 which can move up and down is formed in the edge part of (),

2 to 4, the waterproof fabric moving structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention, the welding roller 100 exposed to the upper portion of the work table 20, and the back of the support arm 30 Pressing the support part 200 formed in the support part, the moving part 300 moving left and right around the support part 200, the rotation driving part 400 for providing a rotational driving force, and the waterproofing fabric 1 It is composed of a pressurizing unit 500 to discharge.

At this time, the welding roller 100, which is rotated by the driving of the motor like a conventional welding roller is installed on the work table 20 to be exposed to the upper portion of the work table 20, the ultrasonic horn 41 at the same time as the rotation ) And a pressing wheel 110 of a metal material for supporting and pressing the welded portion of the waterproofing fabric 1 entering between the welding roller 100 and the moving roller 120 on which the friction ring 121 of the rubber material is wound is formed in two. It will have a structure.

The support part 200 is for supporting the rotary drive part 400 and the pressing part 500 which are to be described later from the rear of the support arm 30, and the support plate 210 is fixed to the rear of the support arm 30. ) Is formed, and the support plate 210 is formed such that the upper and lower pairs of horizontal guide rails 211 are exposed to the rear of the support arm 30.

The moving part 300 is coupled to the support part 200 to form a movable plate 310 which is movable left and right, and the movable plate 310 is slidably coupled to the guide rail 211. The lower pair of guide blocks 311 is formed.

In addition, a fastening block 312 is formed between the guide block 311 in the movable plate 310, and the fastening block 312 has one end of the adjustment screw rod 320 bearing coupled therefrom without rotation interference. will be.

In addition, a nut body 321 is formed on a rear surface of the support arm 30, and an intermediate part of the adjustment screw rod 320 is screwed, and the movable plate () is rotated by the adjustment screw rod 320. Left and right sliding movement of 310 is configured to be possible.

The rotation driving unit 400 is coupled to the moving unit 300, and forms a bending bracket 410 bent in a "b" shape to form a vertical portion facing upward and a horizontal portion facing rear of the support arm 30. It is provided, but is fixed to the moving plate 310 of the moving part 300 by the vertical portion of the bending bracket 410, the pressure adjustment portion 430 is formed by the knob bracket 420 on the upper portion of the vertical portion will be.

In addition, a fixed plate 440 is formed downward in the horizontal portion of the bending bracket 410, the drive plate 450 is mounted on the fixed plate 440 and the motor shaft 451 drawn out from the drive motor 450 ) Is configured to penetrate the fixing plate 440.

In addition, the driving pulley 460 is formed at the end of the motor shaft 451.

The pressing unit 500 is to perform the entry and discharge of the waterproof fabric 1 by applying a rotation pressing force to the moving roller 120 of the welding roller 100, the rotating arm 510, the support block 520, the rotation block 530, the driving pulley 460 and the pressure pulley 540 connected to the pressure belt 541, and a cylinder 550.

Here, the rotating arm 510 is configured to be inclined bent to form a vertical portion toward the top and a horizontal portion toward the front of the support arm 30, the middle portion is configured to the bearing shaft on the motor shaft 451 The upper end of the vertical portion is formed with a horizontal extension bracket 511 having a long hole (511a) is coupled to the hinge (H) of the end of the pressure adjusting portion 430, the tension side auxiliary pulley 512 on one side of the horizontal portion ) Is formed.

The support block 520 is configured in a rectangular block shape formed to protrude downward from the horizontal end of the pivot arm 510. The support block 520 is rotated by a fastening force of the adjustment bolt 521 at the bottom of the support block 520. And one end of the rotation shaft 522 having a predetermined length to be fixed and the other end of the rotation shaft 522 is pulled out to be coupled to the rotation block 530.

The rotation block 530 is configured in a rectangular block shape, one end of the pressing bar 531 having a predetermined length is coupled to the lower hinge (H), the pressing pulley 540 at the other end of the pressing bar 531. ) Is rotatably formed.

At this time, the pressing pulley 540 is configured to be connected to the driving pulley 460 and the pressing belt 541, the auxiliary pulley 512 of the rotating arm 510 is pressed to the upper portion of the pressure belt 541 connected to The tension of the pressing belt 541 is configured to be adjusted.

In addition, a cutaway cylinder bracket 532 having a cylinder accommodating portion 532a is formed at an upper portion of the rotation block 530.

The cylinder 550 is a cylinder that operates by a normal hydraulic or pneumatic, but is coupled to the cylinder bracket 532, the receiving and end of the cylinder receiving portion (532a) of the cylinder bracket 532 The rotatable shaft 551 rotatably coupled to the cylinder bracket 532 and rotatable from the cylinder 550 is rotatably coupled to the upper portion of the pressure bar 531 to pressurize according to the rotatable shaft of the rotatable shaft 551. The pulley 540 is configured to press the moving roller 120 of the rotation and welding roller 100 downward by using the hinge H as the axial point.

On the other hand, the pressure control unit 430, the fixing portion 431 is hinged to the long hole (511a) of the rotating arm 510, one end is screwed to the fixing portion 431, the other end knob A screw rod 433 which is screwed into the adjustment knob 432 through the bracket 420, and a spring 434 supported at both ends by the knob bracket 420 and the fixing part 431 at the screw rod 433. Configure this to be

By rotating the adjustment knob 432, the pivoting arm 510 is configured to be rotatable using the motor shaft 451 bearing a bearing as an axial point.

Hereinafter, the action of the waterproof fabric movement structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

The waterproof fabric moving structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention is to enable the smooth entry and discharge of the waterproof fabric therebetween by the pressing force of the moving roller and the pressing pulley of the welding roller,

In detail, when the ultrasonic welding of the waterproof fabric 1 is to be performed as shown in FIG. 5, first, the pressing pulley 540 is rotated downward and the pressing belt 541 wound around the pressing pulley 540. The friction ring 121 wound on the moving roller 120 of the welding roller 100 may be interviewed.

That is, when the cylinder 550 formed on the upper portion of the rotation block 530 is pulled out to pull out the tapping shaft 551, the tapping shaft 551 pushes the pressure bar 531 to act. Pressing bar 531 is rotated by the hinge (H) coupled to the rotation block 530 and the pressing pulley 540 formed at the end of the pressure bar 531 is rotated downward to interview the moving roller 120. Will be.

Thereafter, as shown in FIG. 6, power may be applied to drive the ultrasonic welding machine. In this case, the driving pulley 460 is driven by the welding roller 100 and the driving motor 450 of the rotation driving unit 400. And the driving pulley 460 is made of the rotation of the pressing pulley 540 connected to the pressing belt.

Thereafter, the ultrasonic welding of the waterproof fabric 1 may be performed, and the ultrasonic welding of the waterproof fabric 1 may be performed by pressing the ultrasonic horn 41 and the welding roller 100 on the waterproof fabric to be welded as in the conventional welding method. What is necessary is to enter between the wheels 110.

That is, when the waterproofing fabric 1 enters between the ultrasonic horn 41 and the pressure wheel 110, the ultrasonic horn 41 is lowered to the bottom and is interviewed on the upper portion of the waterproofing fabric 1, in this case, the ultrasonic wave The horn 41 generates instantaneous frictional heat at the joint surface of the waterproof fabric 1 to dissolve and bond the waterproof fabric.

In addition, the bonded waterproof fabric 1 is applied to the pressing force of the moving roller 120 and the pressing pulley 540 and the friction of the friction ring 121 of the moving roller 120 and the pressing belt 541 of the pressing pulley 540. Is discharged to the rear.

Here, the moving roller 120 and the pressing pulley 540 is discharged by having the same number of rotations in the opposite direction, and at the same time the pressing of the moving roller 120 and the pressing pulley 540 at the same time. And it serves to pull the waterproof fabric (1) by the friction action so that the smooth continuous entry of the waterproof fabric (1) is made.

On the other hand, the interval between the moving roller 120 and the pressure pulley 540 to induce the entry and discharge of the waterproof fabric 1 by the pressure and friction action as described above, the type and thickness of the waterproof fabric 1 or welding operation Various pressing force and angle are required according to the straight and curved operation of the bar, it is possible to adjust the waterproof fabric movement structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention.

At this time, Figure 7 is a rear explanatory view showing the left and right movement state of the waterproof fabric movement structure of the ultrasonic welding machine having a pressure and angle control structure of the present invention,

When adjusting the left and right intervals of the pressing pulley 540 from the fixed moving roller 120 as shown in Figure 7 using the adjusting screw rod 320 of the moving part 300 and the moving part 300 and rotation What is necessary is to adjust the left and right movement of the drive part 400 and the press part 500.

That is, by using the adjustment screw rod 320 to rotate in accordance with the direction to be adjusted from the moving roller 120 of the welding roller 100, in this case, the adjustment screw rod 320 is a nut body (inserted) ( The adjustment screw rod 320 is moved forward or backward by the 321, and the sliding portion between the guide rail 211 of the support plate 210 and the guide block 311 of the movable plate 310 is made at the same time. Rotating drive unit 400 and the pressing unit 500 coupled to 300 will also be moved at the same time.

Thus, the pressing pulley 540 formed in the pressing unit 500 is to approach and retreat from the moving roller 120 of the welding roller 100.

8 is a side explanatory diagram showing a pressing force control state of the waterproof fabric moving structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention.

As shown in FIG. 8, in order to adjust the pressing force between the moving roller 120 and the pressure pulley 540, the rotating arm 510 of the pressing unit 500 using the pressure adjusting unit 430 installed in the rotation driving unit 400. By adjusting the interval between the moving roller 120 and the pressing pulley 540 by rotating, it is possible to adjust the pressure according to the type and thickness of the waterproof fabric (1).

That is, by adjusting or loosening the adjusting knob 432 of the pressure control unit 430 by screwing the screw rod 433, the screw rod 433 during the adjustment of the screw insertion of the adjusting knob 432 is The length is extended and contracted.

At this time, for example, when extending the screw rod 433 is to release the adjusting knob 432 from the screw rod 433, the length of the screw rod 433 is to extend, the screw rod 433 The inserted spring 434 is to push the fixing part 431 as the threaded rod 433 is extended around the knob bracket 420 by the elasticity to push out, the hinge to the fixing part 431 ( H) The fixed rotating arm 510 is rotated by the motor shaft 451 as the axial point, and at the same time, the pressing pulley 540 is spaced apart from the moving roller 120.

On the other hand, when the tightening the adjusting knob 432 in contrast to the above example is to reduce the length of the screw rod 433, the pressure pulley 540 is to close the gap from the moving roller 120.

In addition, Figure 9 is a back explanatory view showing the angle adjustment state of the waterproof fabric moving structure of the ultrasonic welding machine having a pressure and angle control structure of the present invention.

In order to adjust the angle of the pressing pulley 540 as shown in Figure 9 by rotating the rotating shaft 522 fixed to the support block 520, the rotating block 530 connected to the rotating shaft 522 and the pressing pulley ( It is possible to adjust the rotation of the 540, it is possible to adjust the angle of the pressing pulley 540 according to the straight line or curved operation of the waterproof fabric to be ultrasonically welded.

That is, when releasing the fastening force of the adjustment bolt 521 fixing the rotation shaft 522 in the support block 520, the rotation shaft 522 is free to rotate from the support block 520, At the same time, it is possible to adjust the rotation of the rotation block 530 coupled to the end of the rotation shaft 522 and the pressure pulley 540 connected by the pressure bar 531 from the rotation block 530, wherein the waterproof fabric 1 When the pressing pulley 540 is vertically formed according to the shape to be welded), it can be applied at the time of straight working, and if it is formed to form a certain slope, it is adjusted to be suitable for performing the curved work, The degree of inclination of the pressing pulley 540 may be adjusted according to the degree of curve.

As described above, the waterproof fabric moving structure of the ultrasonic welding machine having the pressure and angle control structure of the present invention serves to pull the waterproof fabric by the moving roller and the pressure pulley to enable smooth entry and discharge of the waterproof fabric as well. According to the type and thickness of the waterproof fabric, the pressing force between the moving roller and the pressurized pulley can be easily adjusted.When the press is pressed, the contact is made by the friction ring of the rubber material and the pressurized pulley so that the pressurized marks are not left on the waterproof fabric. The product can be beautifully produced.

In particular, when performing the ultrasonic welding operation by adjusting the angle of the pressing pulley can perform a straight line work or a curve work smoothly to improve the workability.

100: welding roller 110: pressure wheel
120: moving roller 121: friction ring
200: support portion 210: support plate
211 guide rail
300: moving unit 310: moving plate
311: guide block 312: tightening block
320: adjusting screw rod 321: nut body
400: rotation drive part 410: bending bracket
420: knob bracket 430: pressure control unit
431 fixed part 432 adjustment knob
433: threaded rod 434: spring
440: fixed plate 450: drive motor
451: motor shaft 460: drive pulley
500: pressurizing unit 510: rotating arm
511: extension bracket 511a: long hole
512: auxiliary pulley 520: support block
521: adjusting bolt 522: rotating shaft
530: rotation block 531: pressure bar
532: cylinder bracket 532a: cylinder receiving portion
540: pressure pulley 541: pressure belt
550 cylinder 551 shaft

Claims (3)

The work table 20 is formed at an upper portion of the main body 10, a support arm 30 is formed at an upper portion of the work table 20, and an end of the support arm 30 has an ultrasonic horn 41 that can be elevated. In the ultrasonic welding machine in which the ultrasonic generator 40 is formed,
A welding roller 100 made of a pressure wheel 110 exposed to the upper portion of the work table 20 to drive the motor and a moving roller 120 on which a friction ring 121 is wound;
A support 200 formed of a support plate 210 having a pair of horizontal guide rails 211 formed on the rear surface of the support arm 30;
A moving plate 310 having a guide block 311 and a fastening block 312 which are slidably coupled to the guide rail 211, and an end thereof are bearing-fixed to the fastening block 312, and an intermediate portion of the support arm A moving part 300 made of an adjustment screw rod 320 which is inserted into a nut body 321 fixed to a rear surface of the 30;
It is coupled to the moving part 300 and fixed to the moving plate 310 by the vertical part of the "b" type bending bracket 410 forming a vertical part and a horizontal part, and the knob bracket 420 on the upper part of the vertical part. The pressure control unit 430 is formed, the horizontal motor is formed by the fixed plate 440, the motor 450 is formed and the motor shaft 451 passes through the fixed plate 440 and the driving pulley 460 at the end Rotation driving unit 400 is formed; And
An inclined bent rotating arm having a horizontal extension bracket 511 having a long hole 511 a in which a middle is arranged in a bearing on the motor shaft 451 and an end of the pressure adjusting part 430 is hinged at an upper end thereof. 510, a support block 520 extending at an end of the pivot arm 510, a rotation block connected to the support block 520 and the rotation shaft 522, and having a pressure bar 531 coupled thereto. 530, a pressure pulley 540 connected to the driving pulley 460 and the pressure belt 541 and formed on the pressure bar 531, and a cylinder 550 for intermittently rotating the pressure pulley 540. Waterproof fabric movement structure of the ultrasonic welding machine having a pressure and angle control structure, characterized in that comprising a pressing portion 500.
The method of claim 1,
Pressing unit 500,
An auxiliary pulley 512 is formed on one side of the lower end of the rotating arm 510 to adjust the tension of the pressing belt 541 by pressing the upper portion of the pressing belt 541.
The rotation shaft 522 is configured to be rotated and fixed by the fastening force of the adjustment bolt 521 is fastened to the support block 520 when connected to the support block 520,
The pressure bar 531 is configured to be coupled to the hinge (H) when coupled to the rotation block 530,
On the upper portion of the rotation block 530, a cylinder bracket 532 having a cylinder receiving portion 532a at the center is formed and the cylinder 550 is hinged (H) rotatably, and emerges from the cylinder 550 Composed shaft 551 is hinged to the upper portion of the pressure bar (531) is coupled to the hinge (H) pressurizing pulley 540 is rotated downward in accordance with the appearance of the shaft 551 is configured to press the moving roller 120. Waterproof fabric moving structure of the ultrasonic welding machine having a pressure and angle control structure.
The method of claim 1,
Pressure control unit 430,
Fixed part 431 is hinged to the long hole (511a) of the rotating arm 510, one end is screwed to the fixing part 431 and the other end penetrates through the knob bracket 420 adjustment knob 432 It consists of a screw rod 433 screwed to and a spring 434 inserted into the screw rod 433 and both ends supported by the knob bracket 420 and the fixing portion 431,
Waterproofing fabric movement structure of the ultrasonic welding machine having a pressure and angle control structure, characterized in that the rotating arm 510 is configured to be rotatable by the rotation of the adjustment knob 432 to the motor shaft 451 as the axial point.

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