KR101841363B1 - Welding control system of High-frequency - Google Patents

Abstract

A high-frequency welding control system according to an embodiment of the present invention comprises: a power supply unit which supplies power; a main body unit which enables a welding target having a first film and a second film overlapped therein to be seated; a storage unit in which frequency values of high frequency for welding the welding target are pre-stored; an oscillation unit which generates high frequency for varying the frequency values according to the quantity of electric charges of the power; a variant unit which varies the frequency values of the high frequency of the oscillation unit to match the frequency values of the high frequency of the oscillation unit with frequency values of high frequency for welding the welding target stored in the storage unit; a press unit which is heated through vibration by high frequency of the oscillation unit and applies a pressure to the welding target seated on the main body unit to melt a molten layer applied onto the welding target through heating; and a control unit which judges if the frequency values of the high frequency of the oscillation unit are matched with the frequency values of the high frequency for welding the welding target. Therefore, the high-frequency welding control system according to the present invention not only prevents a peripheral portion, except a welding portion of the welding target, from being deformed by high frequency, but also is able to reinforce welding strength of the welding portion of the welding target by enabling frequency values of high frequency varied according to condenser values of a variable condenser to be matched with the frequency values of the high frequency for welding the welding target.

Description

[0001] WELDING CONTROL SYSTEM OF HIGH-FREQUENCY [0002]

The present invention relates to a high frequency welding control system, and more particularly, to a high frequency welding control system in which a frequency value of a high frequency which varies according to a capacitor value of a variable capacitor is matched with a frequency value of a high frequency for welding a target complex, To a high frequency welding control system for remotely controlling a frequency of a high frequency by varying a capacitor value.

Generally, high frequency means higher frequencies than tens of megahertz (MHz). The high-frequency welding machine using such a high frequency is usually manufactured at frequencies of 13.56 MHz, 27.12 MHz and 40.68 MHz.

Here, the high-frequency welder refers to a device for melting thermoplastic resin sheet fabrics such as PVC, tarpaulin, urethane, and PET by using a high frequency.

When a high-frequency wave is generated and supplied to a complex to be complexed, the molecules of the complex are rapidly vibrated by the high-frequency waves to be heated and melted, and are pressed by the pressure of the press, That is, the bonding surface, is pure and clean.

If the high frequency frequency value generated by the high frequency oscillation unit and the frequency value of the high frequency wave for welding the target complex are not matched, there arises a problem in the welding strength of the complex to be fused.

A conventional high frequency welding machine is a manual method in which an operator adjusts a matching process of a high frequency frequency between an oscillating portion and a complex to be applied through means such as a switch or an adjusting lever to adjust the frequency value of the high frequency of the high frequency welding machine There is a problem that it can not be precisely matched with the frequency value.

Therefore, it is expected to develop a control system for remotely controlling the frequency value of the high frequency of the high frequency welder so that the frequency value of the high frequency generated from the high frequency welder is matched with the frequency value of the high frequency for welding the target complex.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a variable capacitor, which has a frequency value of high frequency that varies according to a capacitor value of a variable capacitor, A high frequency welding control system capable of controlling a frequency of a high frequency by changing a capacitor value of a variable capacitor based on a servo motor control method.

According to an aspect of the present invention, there is provided a high frequency welding control system including: a power supply unit for supplying power; A main body portion on which the complex to be coated is placed so that the first film and the second film overlap; A storage unit for storing a frequency value of a high frequency for depositing the complex to be fired; An oscillation unit generating a high frequency whose frequency value is variable according to the amount of electric charge of the power source; A variable unit for varying a frequency value of a high frequency of the oscillation unit so that a frequency value of a high frequency of the oscillation unit matches a frequency value of a high frequency for depositing a complex to be stored in the storage unit; A press section which generates heat through vibration of the oscillation section by high frequency and applies pressure to a complex to be placed on the body section to melt the melted layer applied to the complex to be complexed through the heat generation; And a control unit for determining whether a frequency value of the high frequency of the oscillation unit matches a frequency value of a high frequency for welding the complex to be synthesized.

The oscillation unit may be configured to adjust the frequency of the radio frequency to match the frequency value of the radio frequency used for depositing the complex to be stored in the storage unit by the variable unit, wherein the capacitor value is set according to the amount of charge of the power source, Wherein the variable unit changes the value of the capacitor such that the frequency value of the high frequency of the variable capacitor matches the frequency value of the high frequency for depositing the complex to be stored in the storage unit; . ≪ / RTI >

The frequency of the high-frequency frequency of the variable capacitor is matched with the frequency of the high-frequency wave for welding the complex to be stored in the storage unit by the servomotor, and the press unit melts the complex to be fired The capacitor value and the frequency value of the high frequency frequency can be reset to the default values.

The frequency of the high-frequency wave for welding the complex to be fused may be determined depending on the heat generation temperature at which the press portion generates heat by the vibration of the high frequency and the melting temperature at which the press portion melts the melt layer based on the heat generation temperature Lt; / RTI >

According to another aspect of the present invention, there is provided a high-frequency fusing control system for controlling a frequency of a high frequency of an oscillation unit to match a frequency value of a high frequency for welding a complex to be stored in the storage unit, And a sensing unit for sensing whether the first film and the second film overlap within a predetermined area and generating respective sensing information.

The sensing unit may include a first sensing unit for sensing whether a frequency value of the high frequency of the oscillation unit matches a frequency value of a high frequency wave for welding the complex to be stored in the storage unit to generate first sensing information The control unit determines that the frequency value of the high frequency of the oscillation unit does not match the frequency value of the high frequency frequency for welding the complex to be stored in the storage unit based on the first sensing information, It is possible to control the variable portion.

The sensing unit may determine whether the first film and the second film are overlapped with each other if the upper side of the first film and the lower side of the second film overlap each other, It is detected whether or not the first film and the second film are overlapped on the basis of the first welding line formed in the peripheral shape of the first film and the second welding line formed in the circumferential shape of the second film below the second film And a second sensing unit for generating second sensing information based on the second sensing information, wherein if the first film and the second film are determined not to be overlapped on the basis of the second sensing information, So that the process for welding can be temporarily stopped.

And the first film and the second film are transported in the horizontal direction with respect to the paper surface so that the first film and the second film are seated on the main body part, The control unit determines that the peripheral region of the first film overlaps the peripheral region of the second film based on the second sensing information and that the first welding line and the second welding line overlap each other And a transporting unit for transporting at least one of the first film and the second film until the transporting unit transports the film.

In addition, the control unit may be configured such that the peripheral region of the first film overlaps the peripheral region of the second film based on the second sensing information of the second sensing unit, and the first welding line and the second welding line overlap each other , It is possible to cause the process to be performed again after the transfer section is returned to the predetermined return point.

Wherein the first film and the second film are arranged such that the second sensing unit senses that the first welding line and the second welding line overlap each other based on the hue of the first welding line and the second welding line, And may be applied to the first welding line and the second welding line with photonic ink.

By matching the frequency value of the high frequency which changes according to the capacitor value of the variable capacitor with the frequency value of the high frequency for welding the complex to be fused, it is possible not only to prevent the periphery except the welded portion of the complex to be mutated by high frequency , The welding strength of the welded portion of the target complex can be enhanced.

1 is a block diagram of a high frequency welding control system according to an embodiment of the present invention;
2 is a block diagram showing components of a high-frequency fusing control system according to an embodiment of the present invention.
3 is a flowchart of a high frequency welding control system according to an embodiment of the present invention,
4 is a view illustrating a process in which a first film and a second film are superimposed on each other to be formed as a complex to be complexed according to an embodiment of the present invention,
5 is a diagram illustrating a process of detecting whether a first film and a second film overlap in a predetermined area according to an embodiment of the present invention,
6 is a diagram illustrating a process of detecting whether a first film and a second film overlap in a predetermined area according to an embodiment of the present invention.
7 is a diagram illustrating a process of detecting whether a first film and a second film overlap in a predetermined area according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided as examples for allowing a person skilled in the art to sufficiently convey the ideas of the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms.

FIG. 1 is a block diagram of a high frequency welding control system according to an embodiment of the present invention, and FIG. 2 is a block diagram illustrating components of a high frequency welding control system according to an embodiment of the present invention.

Before describing FIGS. 1 and 2, the RF welding control system 1 according to an embodiment of the present invention may be configured such that a frequency value of a high frequency, which varies according to a capacitor value of a variable capacitor, The remote control of the high frequency of the variable capacitor based on the servo motor control method can prevent the peripheral portion except for the welded portion of the complex to be deformed by the high frequency wave and also improve the welding strength of the welded portion of the complex to be welded It is a system for strengthening.

1 and 2, a high frequency welding control system 1 according to the present embodiment includes a main body 100, an oscillating portion 200, a variable portion 300, a storage portion 400, a press portion 500, A transfer unit 700, a power supply unit 800, and a control unit 900. As shown in FIG.

The main body 100 is provided so that the first film 11 and the second film 12 overlap and the target complex 10 to be welded by the high frequency of the variable capacitor 210 to be described later is seated.

The oscillation unit 200 is provided to generate a high frequency variable depending on the amount of electric power supplied from the power supply unit 800.

That is, when the amount of electric charge of the power source supplied from the power supply unit 800 is varied, the frequency value of the high frequency can also be varied.

As shown in FIG. 2, the oscillator 200 of the present embodiment includes a variable capacitor 210 so that a user using the high-frequency welding control system 1 can remotely match the frequency value of the high frequency of the oscillator 200 .

The tunable capacitor 210 is configured such that when the target complex 10 is mounted on the main body 100 and power is supplied to the power supply unit 800, a high frequency is generated, and the variable capacitor 210 is placed on the main body 100 The target complex 10 can be welded.

At this time, the variable capacitor 210 is the same as a conventional variable capacitor, and includes a rotor (not shown) rotated by a power source of the power supply unit 800 and a fixed stator (not shown) The capacitor value is changed by the rotation angle of the rotor (not shown), and the frequency value of the high frequency can be varied according to the capacitor value.

The variable portion 300 is provided for varying the frequency value of the high frequency of the variable capacitor 210 so that the frequency value of the high frequency of the variable capacitor 210 matches the frequency value of the high frequency for welding the complex to be fired 10 .

At this time, the variable part 300 generates high frequency from the variable capacitor 210, If the frequency value of the generated high frequency is matched with the frequency value of the high frequency for welding the target complex 10, the variable part 300 may omit the process of varying the frequency value of the high frequency of the variable capacitor 210 have.

2, the variable portion 300 of the present embodiment is configured such that the frequency value of the high frequency of the variable capacitor 210 is varied to match the frequency value of the high frequency for welding the complex 10 to be fused, And a servomotor 310 for changing the capacitor value of the capacitor 210.

That is, the oscillation unit 200 and the variable unit 300 of the present embodiment are provided by the variable capacitor 210 and the servo motor 310, so that the frequency value of the high frequency of the variable capacitor 210 is varied by the servo motor 310 So that it can be operated in a servo motor control system.

The storage unit 400 stores a frequency value of a high frequency for welding the target complex 10 matching the high frequency frequency value of the variable capacitor 210.

The frequency value of the high frequency wave for welding the target complex 10 to be stored in the storage unit 400 is a temperature at which the pressing unit 500 generates heat due to high frequency vibrations of the variable capacitor 210, May be stored according to the melting temperature at which the molten layer 13 formed in the complex 10 to be melted through the exothermic temperature is melted.

At this time, the storage unit 400 may store different frequency values of the high-frequency waves for welding the target complex 10 on the basis of different values of the heating temperature and the melting temperature depending on the type of the target complex.

Here, the type of the complex to be used 10 may be a thermoplastic resin sheet fabric such as PVC, tarpaulin, urethane, PET, and the like.

The servomotor 310 varies the frequency value of the high frequency of the variable capacitor 210 according to the type of the first film 11 and the second film 12 mounted on the main body 100, 400 can be matched with the frequency value of the high-frequency wave for welding the target complex 10 to be welded.

For example, a frequency value of a high-frequency wave for depositing a complex 10 to be used as a tarpaulin (tarpaulin) is stored at 27 MHz in the storage unit 400, and a first film When the controller 900 determines that the frequency of the high frequency of the variable capacitor 210 is 20 MHz, the servomotor 310 changes the frequency of the variable capacitor 210, The high frequency of the variable capacitor 210 can be varied until the frequency value of the high frequency of the capacitor 210 becomes 27 MHz.

In addition, the control unit 900 determines whether or not the frequency value of the high frequency of the variable capacitor 210 is included in a predetermined error range of the frequency value of the high frequency for welding the target complex 10 stored in the storage unit 400 It can be judged.

For example, the predetermined error range determined by the controller 900 is set to ± 0.6%, and the first film 11 and the second film 12, which are seated on the main body 100, The control unit 900 determines that the frequency value of the high frequency of the variable capacitor 210 is equal to the value of the frequency of the high frequency of the variable capacitor 210 by using the tarpaulin in the storage unit 400, It can be determined that the frequency is matched within a predetermined error range with the frequency value of the high frequency for welding.

The press unit 500 applies pressure to the complex 10 to be placed on the main body 100 after the generation of heat due to high frequency vibrations of the variable capacitor 210 to apply pressure to the complex 10 to be irradiated Is provided for melting the formed molten layer (13).

That is, when the press portion 500 melts the molten layer 13 formed on the complex 10 to be welded, the fusion of the complex 10 to be welded is completed.

In addition, the RF welding control system 1 of the present embodiment is configured such that the control unit 900 controls the frequency of the high frequency of the variable capacitor 210 and the frequency value of the high frequency for welding the target complex 10 stored in the storage unit 400 And when the press portion 500 is separated from the target complex 10 after melting the molten layer 13 formed in the complex to be irradiated 10 by the heat generated by the high frequency vibration of the variable capacitor 210, It is possible to reset the capacitor value and the frequency value of the high frequency wave to the default value.

The control unit 900 can extend the service life of the variable capacitor 210 by defaulting the capacitor value of the variable capacitor 210 and the frequency value of the high frequency frequency when the fusion process of the complex 10 is completed.

The sensing unit 600 determines whether the frequency value of the high frequency of the variable capacitor 210 matches the frequency value of the high frequency for depositing the complex 10 to be stored in the storage unit 400, 2 film 12 is provided in the first sensing unit 610 and the second sensing unit 620 in order to detect whether or not the film 12 overlaps within a predetermined area and generate respective sensing information.

The first sensing unit 610 senses whether the frequency value of the high frequency of the variable capacitor 210 matches the frequency value of the high frequency wave for welding the target complex 10 stored in the storage unit 400, Lt; / RTI >

When the first sensing unit 610 generates the first sensing information, the control unit 900 determines the frequency value of the high frequency of the variable capacitor 210 based on the first sensing information, It is possible to judge whether or not the frequency value of the high frequency for welding is matched.

The second sensing unit 620 may detect whether the first film 11 and the second film 12 are overlapped within a predetermined area to generate second sensing information.

When the second sensing unit 620 generates the second sensing information, the controller 900 determines whether the first film 11 and the second film 12 are overlapped within a predetermined area based on the second sensing information Or not.

A detailed description of how the second sensing unit 620 detects whether the first film 11 and the second film 12 overlap in a predetermined area will be described later.

The transfer unit 700 is provided to transfer the first film 11 and the second film 12 to the main body 100 through the first film 11 and the second film 12.

At this time, the transfer unit 700 may change the position of at least one of the first film 11 and the second film 12 based on the second sensing information of the second sensing unit 620.

Here, when the position of at least one film of the first film 11 or the second film 12 is changed, the transfer unit 700 may change the position of at least one film in the direction perpendicular to the paper, Lt; / RTI >

The power supply unit 800 is provided to supply power to the variable capacitor 210, as described above.

FIG. 3 is a flow chart of a high frequency welding control system according to an embodiment of the present invention, and FIG. 4 is a view illustrating a process in which a first film and a second film according to an embodiment of the present invention are superposed on each other, .

First, the transfer unit 700 may transfer the first film 11 and the second film 12 to the main body 100 (S310).

The transfer unit 700 may transfer the first film 11 and the second film 12 to the main body 100 such that the second film 12 is positioned on the upper side of the first film 11 .

A detailed description of the position of the second film 12 on the upper side of the first film 11 will be given with reference to FIG.

When the power of the power supply unit 800 is supplied to the variable capacitor 210 after the first film 11 and the second film 12 are mounted on the body 100, (S315). ≪ / RTI >

When the high frequency is generated from the variable capacitor 210, the first sensing unit 610 receives the high frequency frequency value of the variable capacitor 210 and the high frequency frequency value for welding the target complex 10 stored in the storage unit 400 And generates the first sensing information (S320).

When the first sensing information is generated from the first sensing unit 610, the controller 900 controls the frequency of the high frequency of the variable capacitor 210 based on the first sensing information generated from the first sensing unit 610, It is possible to determine whether the frequency value of the high frequency stored in the unit 400 matches (S325).

If the control unit 900 determines that the frequency value of the high frequency of the variable capacitor 210 matches the frequency value of the high frequency stored in the storage unit 400 based on the first sensing information generated from the first sensing unit 610 The second sensing unit 620 may detect whether the first film 11 and the second film 12 overlap within a predetermined area to generate the second sensing information (S325-Y) S330).

Alternatively, if the control unit 900 determines that the frequency value of the high frequency of the variable capacitor 210 matches the frequency value of the high frequency stored in the storage unit 400 based on the first sensing information generated from the first sensing unit 610, The servo motor 310 changes the rotation angle of the rotor (not shown) of the variable capacitor 210 so that the frequency value of the high frequency of the variable capacitor 210 is stored in the storage unit 400 (S325-N) (S335). The frequency of the high-frequency wave for welding the complex 10 to be fired may be varied.

When the frequency value of the high frequency of the variable capacitor 210 is matched with the frequency value of the high frequency wave for welding the target complex 10 stored in the storage unit 400 by the server motor 310, The sensing unit 620 may detect whether the first film 11 and the second film 12 overlap within a predetermined area and generate the second sensing information at step S330.

At this time, the second sensing unit 610 overlaps the peripheral region of the first film 11 and the peripheral region of the second film 12 within the predetermined area of the first film 11 and the second film 12 The second detection information may be generated (S340).

If the control unit 900 determines that the peripheral region of the first film 11 overlaps the peripheral region of the second film 12 based on the second sensing information generated from the second sensing unit 620 The second sensing unit 620 may detect the first welding line 11a, 11b, 11c or 11d to be described later of the first film 11 or the second welding line 12a, 12b, 12c, and 12d overlap each other (S355).

Here, the peripheral region of the first film 11 overlaps the peripheral region of the second film 12 as shown in FIG. 4A. As shown in FIG. 4A, The film 11 and the second film 12 may be placed on the body 100 and the second film 12 may be positioned on the upper side of the first film 11.

At this time, the second sensing unit 620 may detect the overlap of the peripheral region of the first film 11 and the peripheral region of the second film 12 to generate the second sensing information.

Here, the method in which the second sensing unit 620 senses the overlapping of the peripheral region of the first film 11 and the peripheral region of the second film 12 to generate the second sensing information will be described later with reference to FIGS. 7.

In addition, the second film 13 may be provided with a molten layer 13 protruding in a direction perpendicular to the paper surface with respect to the paper surface.

4 (B), the molten layer 13 is melted by the heat generated by the vibration of the high frequency of the variable capacitor 210, so that the first film 11 and the second And the first film 11 and the second film 12 can be deposited therebetween.

On the other hand, if the control unit 900 judges that the peripheral region of the first film 11 and the peripheral region of the second film 12 are not overlapped based on the second sensing information generated from the second sensing unit 620 (S340-N), the process of the high-frequency welding control system 1 for welding the target complex can be temporarily stopped (S345).

When the process of the high-frequency welding control system 1 is temporarily stopped, the control unit 900 controls the conveying unit 700 to move the first film 11 around the first film 11 based on the second sensing information generated from the second sensing unit 620 At least one of the first film 11 and the second film 12 may be transported (S350) until it is determined that the region of the first film 11 and the peripheral region of the second film 12 overlap.

When the control unit 900 determines that the peripheral region of the first film 11 overlaps the peripheral region of the second film 12 as described above, the second sensing unit 620 may include the first film 11, It is possible to detect whether or not the regions of the second welding lines 12a, 12b, 12c and 12d, which will be described later, of the second film 12 of the first welding lines 11a, 11b, 11c and 11d S355).

If the controller 900 determines that the first film 11a, 11b, 11c, 11d to be described later of the first film 11 is a second film (second film) based on the second sensing information generated from the second sensing unit 620 (S355-Y), the press section 500 is placed in a state of being heated by the high-frequency vibrations of the variable condenser 210 The first film 11 and the second film 12 can be welded together by melting the molten layer 13 (S370).

Alternatively, if the controller 900 determines that the first welding line 11a, 11b, 11c, or 11d of the first film 11, which will be described later, on the basis of the second sensing information generated from the second sensing unit 620, If it is determined that the regions of the second welding lines 12a, 12b, 12c and 12d of the film 12 are not overlapped (S355-N), the control unit 900 controls the high frequency welding control system 1) may be temporarily stopped (S360).

When the process of the high-frequency welding control system 1 is temporarily stopped, the control unit 900 controls the transfer unit 700 to transfer the first film 11 to the transfer unit 700 based on the second sensing information generated from the second sensing unit 620 Until the first welding lines 11a, 11b, 11c and 11d to be positioned are overlapped with the regions of the second welding lines 12a, 12b, 12c and 12d to be described later of the second film 12, 11) and the second film 12 (S365).

11b, 11c, and 11d of the first film 11, the second film (second film) 11a, 11b, 11c, and 11d, which will be described later, based on the second sensing information generated from the second sensing unit 620, 12d are overlapped with each other, the press portion 500 pressurizes the molten layer 13 (13a, 12b, 12c, 12d) through the heat generated by the high frequency vibration of the variable capacitor 210 , The first film 11 and the second film 12 can be welded together (S370).

Here, the second sensing portion 620 may be formed of a first film 11a, a second film 11b, a second film 11c, and a second film 11d to be described later of the first film 11, a second film 12a, 12b, 12c, and 12d are overlapped with each other to generate second sensing information will be described in detail with reference to FIG. 5 through FIG.

5 to 7 illustrate a process of detecting whether a first film and a second film overlap in a predetermined area according to an embodiment of the present invention.

5 to 7, the second sensing unit 620 captures a scene in which the first film 11 and the second film 12 are seated on the main body 100 through the transfer unit 700, The second sensing information can be generated.

Here, the second sensing unit 620 may be configured such that the first film 11 and the second film 12 are seated on the main body 100 through the transfer unit 700 by a user using the high frequency welding control system 1 A display may be provided to allow confirmation of the scene.

At this time, a predetermined area divided into a plurality of areas can be set and output in the display area of the second sensing unit 620.

The second sensing unit 620 senses whether the first film 11 and the second film 12 overlap with each other before sensing whether the peripheral region of the first film 11 and the peripheral region of the second film 12, And the second film 12 are positioned within a predetermined area to generate the second sensing information.

5, the second sensing unit 620 is configured such that the first film 11 and the second film 12 are seated on the main body 100, and the first film 11 and the second film 12 are positioned outside the predetermined region, 11 and a partial area of the second film 12 are positioned, thereby generating the second sensing information.

At this time, if the controller 900 determines that the first film 11 and the second film 12 are not positioned within a predetermined area based on the second sensing information generated from the second sensing unit 620, The process of the high-frequency welding control system 1 can be temporarily stopped.

When the control unit 900 determines that the first film 11 and the second film 12 are located within a predetermined area, the transfer unit 700 stops the process of the high frequency welding control system 1, At least one of the first film 11 and the second film 12 can be transported.

If the control unit 900 determines that the first film 11 and the second film 12 are located within a predetermined area based on the second sensing information generated from the second sensing unit 620, The unit 620 can detect whether the peripheral region of the first film 11 overlaps with the peripheral region of the second film 12 to generate the second sensing information.

6, when the controller 900 determines that the first film 11 and the second film 12 are positioned within a predetermined area, the second sensing unit 620 may detect a plurality of The first film 11 and the second film 1120 are formed on the upper left region 620a, the upper right region 620b, the lower left region 620c, and the lower right region 620d of the predetermined regions divided into the regions 12 and the end portions where the different circumferential portions meet with each other are detected to generate the second sensing information.

If the control unit 900 determines that the peripheral region of the first film 11 and the peripheral region of the second film 12 do not overlap based on the second sensing information generated from the second sensing unit 620, The process of the high-frequency welding control system 1 can be temporarily stopped.

When the process of the high-frequency welding control system 1 is temporarily stopped, the control unit 900 controls the transfer unit 700 such that the first film 11 and the second film 12 are positioned within a predetermined area, At least one of the first film 11 and the second film 12 can be transported until it is determined that the second film 12 is overlapped with the peripheral region of the first film 11.

If the control unit 900 determines that the first film 11 and the second film 12 are positioned within a predetermined area based on the second sensing information generated from the second sensing unit 620, The second sensing portion 620 may be disposed on the first film 11 so that the first fusing lines 11a, 11b, 11c, and 11d formed on the first film 11 and the second fusing lines 11b, It is possible to detect whether or not the second welding lines 12a, 12b, 12c, and 12d formed on the second film 12 are overlapped to generate the second sensing information.

 7, the second sensing unit 620 senses that the first film 11 and the second film 12 are positioned within a predetermined area, and the first film 11 11b, 11c, and 11d formed on the upper side of the first film 11 and the second film 11 formed on the second film 12 are determined to overlap with the peripheral region of the second film 12, It is possible to detect whether or not the second welding lines 12a, 12b, 12c, and 12d formed on the lower side of the wafer 12 overlap each other to generate second sensing information.

At this time, the controller 900 controls the first sensing lines 11a, 11b, 11c, and 11d and the second sensing lines 12a, 12b, 12c, and 12d based on the second sensing information generated from the second sensing unit 620. [ The process of the high-frequency welding control system 1 can be temporarily stopped.

When the process of the high frequency welding control system 1 is temporarily stopped, the control unit 900 controls the transfer unit 700 such that the first film 11 and the second film 12 are positioned within predetermined areas, It is judged that the first welding lines 11a, 11b, 11c and 11d and the second welding lines 12a, 12b, 12c and 12d are overlapped with the peripheral region of the first film 11 and the peripheral region of the second film 12, , At least one of the first film (11) and the second film (12) can be transported.

If the controller 900 determines that the first film 11 and the second film 12 are positioned within a predetermined area and the peripheral region of the first film 11 and the peripheral region of the second film 12 are overlapped The control unit 900 returns the transfer unit 700 to a predetermined return position when it judges that the first welding lines 11a, 11b, 11c and 11d and the second welding lines 12a, 12b, 12c and 12d overlap each other, And the process of the RF welding control system 1 can be advanced again.

When the pressurizing unit 500 of the high-frequency welding control system 1 is operated again, the variable capacitor 210, which is matched with the frequency value of the high-frequency wave for welding the target complex 10 stored in the storage unit 400, And the molten layer 13 is melted through the heating by applying pressure to the first film 11 and the second film 12 so that the first film 11 and the second film 12 12 can be welded.

When the second sensing unit 620 senses the overlapping state of the first welding lines 11a, 11b, 11c and 11d and the second welding lines 12a, 12b, 12c and 12d, the first welding lines 11a, 11b, 11c, 11d and the second welding lines 12a, 12b (12b, 12c, 12d) so as to detect based on the colors of the first welding lines 11a, 11b, 11c, 11d and the second welding lines 12a, , 12c, and 12d may be coated with photonic ink.

In summary, the RF welding control system 1 of the present embodiment is provided with a variable capacitor 210 and a server motor 310 to remotely control a frequency value of a high frequency by a servo motor control method, The frequency value of the high frequency of the condenser 210 is judged through the first sensing unit 610 to match with the frequency value of the high frequency for welding the target complex 10 stored in the storage unit 400, The circumferential region of the first film 11 and the circumferential region of the second film 12 are overlapped within a predetermined region of the first film 11 and the second film 12, 12b, 12c, and 12d of the second film 12 are overlapped with each other through the second sensing unit 620, the press unit 500 A pressure is applied to the first film 11 and the second film 12 so that the heat generated by the vibration of the high frequency of the variable capacitor 210 is transmitted to the first film 11 and the second film 12, It is that 13 the melt is the first film 11 and second film 12 is deposited.

By matching the frequency value of the high frequency which changes according to the capacitor value of the variable capacitor with the frequency value of the high frequency for welding the complex to be fused, it is possible not only to prevent the periphery except the welded portion of the complex to be mutated by high frequency , The welding strength of the welded portion of the target complex can be enhanced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention.

1: High frequency welding control system 10:
11: first film 12: second film
11a, 11b, 11c, 11d: first welding lines 12a, 12b, 12c, 12d:
13: melt layer 100:
200: oscillation unit 210: variable capacitor
300: variable portion 310: servo motor
400: storage part 500: press part
600: sensing unit 610: first sensing unit
620: second sensing unit 700:
800: Power supply unit 900: Control unit

Claims (10)

A power supply unit for supplying power;
A main body portion on which the complex to be coated is placed so that the first film and the second film overlap;
A storage unit for storing a frequency value of a high frequency for depositing the complex to be fired;
An oscillation unit generating a high frequency whose frequency value is variable according to the amount of electric charge of the power source;
A variable unit for varying a frequency value of a high frequency of the oscillation unit so that a frequency value of a high frequency of the oscillation unit matches a frequency value of a high frequency for depositing a complex to be stored in the storage unit;
A press section which generates heat through vibration of the oscillation section by high frequency and applies pressure to a complex to be placed on the body section to melt the melted layer applied to the complex to be complexed through the heat generation;
A controller for determining whether a frequency value of a high frequency of the oscillation unit matches a frequency value of a high frequency for welding the complex to be fired;
Whether a frequency value of a high frequency of the oscillation unit matches a frequency value of a high frequency for depositing a complex to be stored in the storage unit and whether or not the first film and the second film overlap in a predetermined area, A sensing unit for sensing information of the sensing unit; And
And a transfer unit for transferring the first film and the second film in a horizontal direction with respect to the paper surface so that the first film and the second film are seated on the main body unit,
The sensing unit includes:
A first sensing unit for sensing whether a frequency value of a high frequency of the oscillation unit matches a frequency value of a high frequency for welding the complex to be stored in the storage unit to generate first sensing information; And
Wherein the first film and the second film overlap each other when the upper side of the first film and the lower side of the second film overlap each other and the peripheral region of the first film and the second film overlap each other, The first film and the second film are overlapped on the basis of a first welding line and a second welding line formed in a circumferential shape of the second film below the second film to detect whether or not the first film and the second film overlap each other, And a second sensing unit for generating a second sensing signal,
Wherein,
Wherein the control unit determines that the frequency value of the high frequency of the oscillation unit does not match the frequency value of the high frequency for depositing the complex to be stored in the storage unit based on the first sensing information, And controls the variable portion to temporarily suspend the process for welding the complex to be fired if it determines that the first film and the second film do not overlap based on the second sensing information,
Wherein,
Wherein when the process is temporarily stopped, the peripheral region of the first film overlaps the peripheral region of the second film based on the second sensing information, and the first welding line and the second welding line Wherein at least one of the first film and the second film is transported until it is determined that the grooves overlap,
Wherein the molten layer comprises:
The first film being provided on the lower side of the second film in a protruding form,
The transfer unit
The second film is positioned on the upper side of the first film so as to be seated on the main body part,
The predetermined area may include:
Wherein the control unit divides the first film and the second film into a plurality of regions at a position where the first film and the second film are seated,
Wherein,
When it is determined that the first film and the second film are located within the predetermined area, the second sensing unit may determine the area of the upper left corner, the area of the upper left corner, And detecting whether or not the different circumferential portions of the first film and the second film and the end portions where the different circumferential portions of the first film and the second film meet are detected in the region on the right side and the lower right side,
Wherein the second sensing unit comprises:
At least one of the first film and the second film is conveyed until the first film and the second film are seated on the main body portion and it is judged that the first welding line and the second welding line overlap each other, And a display unit for outputting a predetermined scene divided by the plurality of areas, wherein the predetermined area is divided into the plurality of areas. The method according to claim 1,
Wherein,
A variable capacitor for generating a high frequency matching a frequency value of a high frequency for depositing the complex to be stored in the storage part by the variable part, the capacitor being set according to the amount of electric charge of the power source; Lt; / RTI >
The variable-
And a servo motor for changing the value of the capacitor so that the frequency value of the high frequency of the variable capacitor matches the frequency value of the high frequency for welding the complex to be stored stored in the storage unit. 3. The method of claim 2,
Wherein,
The frequency value of the high frequency of the variable condenser is matched with the frequency value of the high frequency wave for welding the complex to be stored stored in the storage part by the servomotor and when the press part is separated from the complex to be fired after melting the complex to be fired , And the capacitor value and the frequency value of the high frequency are reset to default values. The method according to claim 1,
Wherein,
Wherein a frequency value of a high frequency for depositing the complex to be fused is stored in accordance with a heat generation temperature at which the press portion generates heat due to the vibration of the high frequency and a melting temperature at which the press portion melts the fusion layer based on the heat generation temperature Frequency welding control system. delete delete delete delete The method according to claim 1,
Wherein,
When the first and second welding lines overlap the peripheral region of the first film and the peripheral region of the second film based on the second sensing information of the second sensing unit, And the process is returned again after returning to the predetermined return point. The method according to claim 1,
Wherein the first film and the second film are laminated,
The first welding line and the second welding line overlap each other so that the second sensing unit detects the overlap of the first welding line and the second welding line based on the colors of the first welding line and the second welding line, And is applied with ink (Photonic ink).

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