KR101584637B1 - Ultra sonic cutting device - Google Patents

Abstract

The present invention relates to an ultrasonic cutting device. The ultrasonic cutting device can be conveniently repaired and consistently used by having simple composition even if the ultrasonic cutting device malfunctions. Especially, a first driven shaft inserting and fixing a cutting roller cutting an object to be cut by interaction with an ultrasonic horn mounted on a base is connected to a first lifting unit to be easily rotated. A second driven shaft fixing a pressing roller discharging the object which is completely cut to the outside is connected to a second lifting unit to be easily rotated and is located to the rear side of the first lifting unit. After then, the first driven shaft is rotated by a simultaneous rotation unit of the first and second driven shafts. The cutting roller fixed to the first driven shaft of the first lifting unit rotates since the second driven shaft rotates so that the object is cut. Since the pressing roller fixed to the second driven shaft of the second lifting unit rotates, the object can be discharged. The pressing roller and the cutting roller fixed to the first and second driven shafts of the first and second lifting units ascend and descend at the same time by a simultaneous lifting unit of the cutting roller and the pressing roller so that the object can be pressed.

Description

[0001] ULTRA SONIC CUTTING DEVICE [0002]

The present invention relates to an ultrasonic cutter, and more particularly, to an ultrasonic cutter having a first type coaxial shaft which is inserted and fixed in a cutting roller for cutting a cut material by interaction with an ultrasonic horn mounted on a base, The second longitudinal coaxial shaft fixing the pressurizing roller which is located at the rear side of the cutter and discharging the cut material to be cut out to the outside is coupled to the second platform so as to be rotatable, The first rollers fixed to the first coaxial shaft of the first platform are rotated to rotate the first coaxial shaft while simultaneously rotating the first coaxial shaft and the pressurizing roller fixed to the second coaxial shaft of the second platform, A cutting roller and a pressing roller which are fixed to the first and second slave coaxial shafts of the first and second elevating platforms are simultaneously raised and lowered by the simultaneous elevating means of the cutting and pressurizing rollers It is able to cut the cutting water, and it is possible to increase the cutting productivity by cutting efficiency of the cutting material and discharge effect of the cutting water by rotating the cutting roller and the pressing roller simultaneously by separately feeding the power from one motor. The first and second connecting belts that transmit power to the cutting roller and the pressure roller are not removed by the first and second moving belts fixed to the first and second pistons of the cylinder, So that it is possible to carry out the tasks of the cutting roller and the pressure roller and the one or more cutting rollers of the first elevator shaft can be engaged and fixed by matching the designed dimension to the cutting, The power transmission system, which can obtain the cut material and is transmitted from the motor to the cutting roller and pressurizing roller, has a simple configuration The present invention relates to an ultrasonic cutting apparatus which can be used continuously and can be easily used by simple construction even if there is a breakdown.

The conventional ultrasonic cutting apparatus is disclosed in Japanese Patent Application No. 10-0745232 entitled " Ultrasonic cutting apparatus and control method thereof ".

In the ultrasonic cutting apparatus of the prior art, a cutting projection is formed so as to correspond to an outline line of a shape to be cut at a distal end of the ultrasonic horn to which ultrasonic energy is applied, a fabric to be cut, A roll jig that linearly moves along a rotation axis and an axis line so that ultrasonic energy applied to the ultrasonic horn is oscillated along the cutting protrusions while supporting the rear surface of the fabric, and a first driving unit for rotating the roll jig, And a second driving unit for linearly moving the first driving unit along its axis. "

In the above-described conventional technique, the ultrasonic horn is elevated and lowered by a large distance and a small distance using a mass elevating cylinder and a static pressure cylinder, and the roll jig is rotated and conveyed by using the first motor and the second motor And has a complicated configuration.

Therefore, in the above-mentioned prior art, since a mechanical assembly error is generated due to a complicated configuration, precise cutting can not be performed easily, and a large number of residual troubles are caused.

SUMMARY OF THE INVENTION An object of the present invention is to solve such conventional problems,

By separately supplying power from one motor and rotating both the cutting roller and the pressing roller simultaneously, it is possible to improve the cutting productivity by the cutting efficiency of the cutting material and the discharge effect of the cutting water, The first and second connecting belts for transmitting the power to the cutting roller and the pressure roller are not removed by the first and second moving belts, so that the cutting roller and the pressure roller are accomplished by the stable power transmission of the first and second connecting belts. And one or a plurality of cutting rollers can be fixedly coupled to the first fixed coaxial shaft of the first platform in accordance with the design dimension so that cuts of various sizes can be obtained from one cutter, Since the power transmission system transmitted to the rollers and the pressure rollers has a simple structure, Even if a failure occurs, it provides a purpose of making maintenance simple and continuous use by a simple configuration.

According to an aspect of the present invention,

A first type coaxial shaft inserted and fixed in a cutting roller for cutting a cutting material by interaction with an ultrasonic horn mounted on the base, a first type coaxial shaft coupled to the first elevator shaft so as to be rotatable, The second type coaxial shaft fixing the pressurizing roller for discharging the water to the outside is coupled to the second platform so as to be rotatable, and then the first coaxial shaft is rotated by the simultaneous rotating means of the first and second coaxial shafts, The cutting roller is rotated while the coaxial shaft is rotated so that the cutter is fixed while the cutting roller fixed to the first coaxial shaft of the first platform is rotated and the pressurized roller fixed to the second coaxial shaft of the second platform is rotated to discharge the cutter The cutting and pressing rollers fixed to the first and second slave coaxial shafts of the first and second elevating bars can be simultaneously lifted and lowered by the simultaneous elevating means of the cutting and pressing rollers, Purpose can be achieved.

According to the present invention as described above, cutting power is separately supplied from a single motor and the cutting roller and the pressure roller are simultaneously rotated, thereby improving the cutting productivity due to the cutting efficiency of the cutting material and the effect of discharging the cutting material.

According to the present invention as described above, the first and second connecting belts, which transmit power to the cutting roller and the pressure roller, are removed by the first and second moving belts fixed to the first and second pistons of the first and second cylinders So that it is possible to perform the tasks of the cutting roller and the pressure roller by the stable power transmission of the first and second connecting belts.

According to the present invention as described above, one or a plurality of cutting rollers can be engaged and fixed to the first workpiece coaxial shaft of the first platform in accordance with the designed dimensions, so that cuts of various sizes can be obtained in one cutting machine .

In the present invention as described above, since the power transmission system transmitted from the motor to the cutting roller and the pressure roller has a simple structure, it is advantageous that there is no residual trouble, This has a possible effect.

1 is a perspective view showing a configuration of an ultrasonic cutting apparatus according to the present invention.
2 is a cross-sectional view for explaining the configuration of the ultrasonic cutting apparatus of the present invention
FIG. 3 is a cross-sectional view illustrating the operation of the ultrasonic cutting apparatus of the present invention.
4 is a view showing another embodiment of the ultrasonic cutting apparatus of the present invention

The construction of the present invention will be described in detail with reference to the accompanying drawings.

The first subordinate coaxial shaft 127 that inserts and fixes the cutting roller 128 for cutting the cutter 161 by interaction with the ultrasonic horn 102 mounted on the base 101, 1 elevating platform 141,

A second subordinate shaft 137 which is located on the rear side of the first elevator base 141 and fixes the pressure roller 138 for discharging the cut-off finished material 161 to the outside, 2 elevating platform 151,

The first slave shaft 127 is rotated so that the cutting roller 128 fixed to the first slave shaft 127 of the first elevator shaft 141 rotates and the cutter 161 is cut, The first and second slave coaxial shafts 137 and 137 for rotating the second slave coaxial shaft 137 so that the pressurizing roller 138 fixed to the second slave coaxial shaft 137 of the first slave coil 151 can rotate and discharge the cutter 161 A simultaneous rotating means,

The cutting roller 128 and the pressing roller 138 fixed to the first and second driven shafts 127 and 137 of the first and second elevating bars 141 and 151 are moved up and down simultaneously, And a simultaneous raising and lowering means of the pressurizing roller.

The first and second driven coaxial rotation means include first and second driven pulleys 126 and 136 coupled to one side of the first and second driven coaxial shafts 127 and 137,

The main body 103 having the first and second driven pulleys 126 and 136 and the first and second rotating pulleys 124 and 134 connected by the first and second connecting belts 125 and 135, First and second connection shafts 123 and 133 positioned at the first and second connection shafts 123 and 123,

The first and second coupling shafts 123 and 133 are connected to the first and second joint shafts 129 and 139 and the first and second coupling shafts 123 and 133 are connected to the first and second joint shafts 129 and 139, Two interlocking shafts 122 and 132,

The first and second interlocking pulleys 121 and 131 of the first and second interlocking shafts 122 and 132 are connected to the driving belt 114 by the driving belt 114 to rotate the first and second interlocking shafts 122 and 132. [ A drive shaft 112 rotatably coupled to the lower side of the main body 103,

And a motor 111 mounted on the base 101 outside the main body 103 for driving the drive shaft 112 and connected to the drive shaft 112.

The simultaneous elevating means of the cutting and pressurizing rollers is mounted on the upper side of the main body 103 connecting the first and second pistons 142 and 152 to the upper side portions of the first and second elevating rods 141 and 151 First and second cylinders 143 and 153,

In order to prevent rotation of the first and second elevating rods 141 and 151, the lower portion is fixed to both sides of the first and second elevating rods 125 and 135, and the upper portion passes through the main body 103, And a plurality of first and second guide rods (144) and (154) that are so exposed as to flow.

When the first and second elevating rods 141 and 151 are lifted and lowered, the first and second connecting belts 125 and 135 are rotated by the first and second driven pulleys 127 and 137 of the first and second driven shafts 127 and 137, To prevent the first and second rotating shafts 126 and 136 or the first and second connecting shafts 123 and 133 from being detached from the first and second rotating pulleys 124 and 134, The first and second connecting shafts 123 and 123 are fixed by the pistons 142 and 152 and the first and second guide rods 144 and 154, (133) and the first and second moving bases (145) and (155).

In addition, a plurality of cutting rollers 128 are coupled to the first slave coaxial shaft 127 of the first platform 141 so as to be cut according to the cutting dimensions.

Hereinafter, the operation of the present invention will be described.

Fig. 1 is a perspective view showing the configuration of the ultrasonic cutting apparatus according to the present invention. Fig. 2 is a cross-sectional view for explaining the configuration of the ultrasonic cutting apparatus of the present invention. 2, the two cutting rollers 128 are joined as shown in FIG. 2 by one or four first coaxial axes 127 coupled to the base 101, And press the start button (not shown).

The first and second cylinders 143 and 153 mounted on one side of the main body 103 are operated to advance the first and second pistons 142 and 152 by the pressing operation of the start button.

The first and second moving belts 145 and 155 and the first and second moving belts 145 and 155 coupled to the intermediate portions of the first and second pistons 142 and 152 by the advancement of the first and second pistons 142 and 152, First and second elevating rods 141 and 151 coupled to the lower portion of the two pistons 142 and 152 and first and second moving rods 127 and 127 coupled to the first and second rods 141 and 151, The first driven pulley 126 and the second driven pulley 136 descend while the cutting roller 128 of the first driven shaft 127 descends and touches the cutter 161 to be pressed.

3, the pressure roller 138 of the second driven shaft 137 simultaneously moves downward as shown in FIG. 3 at the same time as the cutting roller 128 of the first driven coaxial shaft 127.

The motor 111 mounted on one side of the base 101 is driven to drive the drive shaft 112 while the cutting roller 128 and the pressure roller 138 are lowered as described above, The driving pulley 113 is driven to rotate the driving belt 114.

The drive belt 114 simultaneously rotates the first and second interlocking pulleys 121 and 131 so that the first and second interlocking shafts 122 and 132 are rotated.

The first and second joint shafts 129 and 139 are rotated by the rotation of the first and second interlocking shafts 122 and 132 so that the first and second joint shafts 129 and 139 are coupled to the first and second moving shafts 145 and 155, 2 connecting shafts 123 and 133 and the first and second rotating pulleys 124 and 133 are rotated.

The rotating force of the first and second rotating pulleys 124 and 134 causes the first and second driven pulleys 126 and 136 to rotate by the first and second connecting belts 125 and 135, And the two coaxial axes 127 and 137 are rotated.

The cutter roller 128 is rotated by the rotation of the first and second slave coaxial shafts 127 and 137 and the cutter 161 is rotated by the interaction with the ultrasonic horn 102 mounted on the base 101, And the cut material 161 cut by the cutter roller 128 is discharged to the rear side of the main body 103 by the rotation of the pressure roller 138. [

The first and second moving belts 145 and 155 which are fixed by the first and second pistons 142 and 152 and the first and second guide rods 144 and 154 in the main body 103, The first and second connecting pulleys 124 and 134 move up and down with the first and second pistons 142 and 152 together with the first and second connecting shafts 123 and 133 When the first and second elevating rods 141 and 151 are lifted and lowered, the first and second connecting belts 125 and 135 are connected to the first and second driven pulleys 126 and 127 of the first and second driven shafts 127 and 137, The first and second rotating pulleys 124 and 134 of the first and second connecting shafts 136 and 133 can be prevented from being detached from the first and second rotating shafts 136 and 134.

As described above, according to the present invention, since the power is separately supplied from one motor 111 and the cutting roller 128 and the pressure roller 138 are rotated at the same time, the cutting efficiency of the cutting material and the discharge effect of the cutting material It can be increased.

101-Base 102-Ultrasonic Horn
103-Body 104-Diaphragm
111 - motor 112 - drive shaft
113-drive pulley 114-drive belt
121, 131 - first and second interlocking pulleys 122, 132 -
123, 133 - first and second connecting shafts 124, 134 -
125, 135 - first and second connecting belts 126, 136 - first and second driven pulleys
127,137- 1st and 2nd coaxial 128-
138 - Pressure roller 141, 151 -
142, 152 - first and second pistons 143, 153 - first and second cylinders
144, 154 - first and second guide rods 145, 155 -
161-Foundation Water

Claims (5)

The first subordinate coaxial shaft 127 that inserts and fixes the cutting roller 128 for cutting the cutter 161 by interaction with the ultrasonic horn 102 mounted on the base 101, 1 elevating platform 141,
A second subordinate shaft 137 which is located on the rear side of the first elevator base 141 and fixes the pressure roller 138 for discharging the cut-off finished material 161 to the outside, 2 elevating platform 151,
The first slave shaft 127 is rotated so that the cutting roller 128 fixed to the first slave shaft 127 of the first elevator shaft 141 rotates and the cutter 161 is cut, The first and second slave coaxial shafts 137 and 137 for rotating the second slave coaxial shaft 137 so that the pressurizing roller 138 fixed to the second slave coaxial shaft 137 of the first slave coil 151 can rotate and discharge the cutter 161 A simultaneous rotating means,
The cutting roller 128 and the pressing roller 138 fixed to the first and second driven shafts 127 and 137 of the first and second elevating bars 141 and 151 are moved up and down simultaneously, And a pressurizing roller for simultaneously raising and lowering the ultrasonic vibrator. The method according to claim 1,
The means for simultaneously rotating the first and second driven coaxial shafts includes first and second driven pulleys 126 and 136 coupled to one side of the first and second driven shafts 127 and 137,
The main body 103 having the first and second driven pulleys 126 and 136 and the first and second rotating pulleys 124 and 134 connected by the first and second connecting belts 125 and 135, First and second connection shafts 123 and 133 positioned at the first and second connection shafts 123 and 123,
The first and second coupling shafts 123 and 133 are connected to the first and second joint shafts 129 and 139 and the first and second coupling shafts 123 and 133 are connected to the first and second joint shafts 129 and 139, Two interlocking shafts 122 and 132,
The first and second interlocking pulleys 121 and 131 of the first and second interlocking shafts 122 and 132 are connected to the driving belt 114 by the driving belt 114 to rotate the first and second interlocking shafts 122 and 132. [ A drive shaft 112 rotatably coupled to the lower side of the main body 103,
And a motor (111) mounted on a base (101) outside the main body (103) for driving the drive shaft (112) and connected to the drive shaft (112). The method according to claim 1,
The cutting and pressurizing roller simultaneous elevating means is a means for simultaneously raising and lowering the pressurizing rollers 141 and 151 by means of the first and second elevators 141 and 151, 1 and 2 cylinders 143 and 153,
In order to prevent rotation of the first and second elevating rods 141 and 151, the lower portion is fixed to both sides of the first and second elevating rods 125 and 135, and the upper portion passes through the main body 103, And a plurality of first and second guide rods (144) (154) that are exposed so as to be flowable. The method according to claim 1,
The first and second connecting belts 125 and 135 are connected to the first and second driven pulleys 126 and 127 of the first and second driven shafts 127 and 137, To prevent the first and second connecting shafts 123 and 133 from being detached from the first and second rotating pulleys 124 and 134 of the first and second connecting shafts 123 and 133, The first and second connecting shafts 123 and 123 are fixed by the first and second guide rods 142 and 144 and the first and second guide rods 144 and 154, 133) for moving up and down together with the first and second moving parts (145, 155). The method according to claim 1,
Wherein a plurality of cutting rollers (128) are coupled to the first slave coaxial shaft (127) of the first platform (141) so as to be cut according to the cutting dimension.

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