KR102059637B1 - High Frequency Welding Apparatus having Selectable Mode - Google Patents

Abstract

According to a high frequency welding machine for joining tubes with a selectable mode of the present invention, an output power and control time can be adjusted at an external interface, allowing tubes varying in diameter and thickness to be fused in one welding machine. The high frequency welding machine of the present invention comprises: a high frequency oscillator; an amplifier; a voltage control unit; an interface; and a control unit.

Description

High Frequency Welding Apparatus having Selectable Mode

The present invention relates to a high frequency fusion splicer for tube joining in which a mode can be selected. More particularly, output power and control time can be adjusted at an external interface so that tubes having various thicknesses and various thicknesses can be fused in one splicer. The present invention relates to a high frequency fusion splicer for tube joining in which a mode can be selected.

In general, a high frequency fusion machine is a device that generates power with a frequency of 1MHz or more and vibrates and bonds molecules such as plastic or rubber.The signal generated from the oscillator generates a final output by applying a three-stage amplifier, and is fused through time control. Was controlled.

However, the conventional high frequency fusion machine has been used with a limited output power is generated only at a certain time, the use environment and the thickness and type of tubes used.

Therefore, there is a problem in that each has to have a high frequency fusion splicer according to the thickness and type of the tube.

Republic of Korea Patent Publication No. 10-0714558

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and the mode can be selected in which a tube having various thicknesses and various thicknesses can be fused in one splicer by adjusting the output power and control time at an external interface. It is to provide a high frequency welding machine for joining.

In order to achieve the above object, the mode selectable high frequency fusion splicer for tube bonding enables the output power and control time to be adjusted at the interface so that various types of tubes having different diameters and thicknesses can be fused through one splicer. To make it possible; A high frequency oscillator, a plurality of amplifiers for continuously amplifying high frequency signals output from the high frequency oscillator, a voltage controller for supplying voltage to each amplifier by receiving power from a power supply, and a plurality of preset command controls Receives an interface for selectively outputting any one of the signals and a command control signal output from the interface, and during the time when the voltage is mapped to the command control signal which is preset and mapped according to the diameter and thickness of the tube. It is configured to include a control unit for controlling to be applied to the amplifier.

The fusion processing unit for welding the tube to the final amplifier of the plurality of amplifiers is connected, the power output from the final amplifier can be increased or decreased in accordance with the increase or decrease of the voltage input to the amplifier.

The interface is configured to include a plurality of switches provided in parallel, it is possible to output a plurality of command control signals by the ON / OFF combination of the switch.

The interface may be a digital switch that receives a digital signal and logically outputs a plurality of command control signals in an ON / OFF combination of the switches.

The controller may generate a PWM signal by the command control signal output from the interface to change the output voltage of the voltage controller.

According to the high frequency fusion splicer for tube bonding according to the present invention as described above, the output power and control time can be adjusted at an external interface so that tubes having various thicknesses and various thicknesses can be fused in one splicer. It is effective.

1 is a block diagram showing a high frequency fusion splicer for tube bonding according to an embodiment of the present invention,
2 is a circuit diagram showing a high frequency fusion splicer for tube bonding according to an embodiment of the present invention,
3 is a view showing a manufacturing process of a high frequency fusion splicer for tube bonding according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

The high frequency fusion splicer for tube bonding according to an embodiment of the present invention enables the output power and control time to be adjusted at the interface 100 so that a tube having a plurality of diameters and thicknesses can be fused through one splicer. 1 and 2, the interface 100, the voltage adjusting unit 300, the control unit 500 and the fusion processing unit 700, a high frequency oscillator, and a plurality of amplifiers are included.

That is, the tube is formed of a hollow thermoplastic resin in a cylindrical shape, may have a length of various diameters, the thickness length between the inner diameter and the outer diameter may be variously formed.

The high frequency oscillator generates a high frequency signal by receiving a separate driving power source. The high frequency oscillator is provided with a resonant frequency oscillator composed of a capacitor and a reactant to generate a signal of the oscillator that generates a constant signal. Frequency is generated and output.

The high frequency oscillator amplifies 5 to 20 times the input power for each stage and sequentially increases the amplification from stage 1 to stage 3.

The reason for power amplification in three stages is that transistors that output high power require a higher input power to operate.

The high frequency oscillator is composed of an L-C series resonant circuit, and is composed of an oscillating power supply unit, a capacitance, and a reactance. In the L-C series resonant circuit, the resonance frequency is obtained by Equation 1.

As shown in Equation 1, the high frequency oscillator according to the present invention can control the frequency and the high frequency output signal by the L-C series resonant circuit by adjusting the L and C values.

The voltage adjusting unit 300 receives power from a separate power supply and converts the driving power into driving power for driving the amplifier, and supplies power to each amplifier, and may be configured as a converter circuit.

The power supply may be configured as a battery, and may be configured as a battery such as a lithium ion battery or a lead acid battery to supply current, and may be precharged and used.

The power supply is equipped with a battery management system (BMS), and further includes a super capacitor to supply direct current with the battery. The super capacitor is capable of rapid charge / discharge, high charge / discharge efficiency, and almost infinite. Has a charge / discharge cycle close to

In addition, its low impedance enables rapid charging and discharging, simplifies the sensor and other additional circuitry, providing efficient power with the battery, and the battery and supercapacitors through the battery management system (BMS). Will be managed efficiently.

The battery adopts the DC charging method, which enables charging / discharging regardless of the location, thereby increasing portability.

The amplifier is provided in plural in order to receive a high frequency signal output from the high frequency oscillator and to amplify continuously. The amplifier is provided in multiple stages from the high frequency oscillator in the order of a primary amplifier, a secondary amplifier and a tertiary amplifier.

The amplifier may be configured as a half-bridge circuit for amplifying and outputting a high frequency, and the half-bridge circuit is connected to the upper and lower channel LC resonating elements connected by upper and lower two channel switching elements according to the output of the high frequency oscillator. The circuit is alternately configured to output LC resonance amplification.

The amplifier according to the present invention can be configured as a multi-stage amplifier consisting of three half-bridge circuits. The second half bridge circuit, which is a secondary amplifier for secondary amplifying and outputting the high frequency applied by the second amplification, and the third half bridge circuit, which is a tertiary amplifier for third amplifying and outputting the high frequency applied by the second amplification from the second half bridge circuit. It can be configured as a multi-stage amplification circuit.

The fusion processing unit 700 for fusion welding the tube to the tertiary amplifier, which is the final amplifier among the plurality of amplifiers, is connected, and the power output from the tertiary amplifier is increased or decreased as the voltage input to the amplifier is increased or decreased.

In the high frequency fusion splicer for joining the tube according to the present invention, the frequency used for cutting or fusion of the fusion spliced thermoplastic resin is 13.56 MHz to 216.96 MHz, and after the high frequency signal is output from the high frequency oscillator, The high frequency signal output is 13.56MHz ~ 216.96MHz.

The interface 100 selectively outputs any one of a plurality of preset command control signals, and includes a plurality of switches provided in parallel, and outputs a plurality of command control signals by combination of ON / OFF switches. Be sure to

That is, by using the switch constituting the interface 100 can be adjusted to generate heat for various output power and various times in the fusion processing unit 700.

For example, as shown in Table 1, two switches can be used to configure four modes in combination of ON / OFF. In mode 1, the thickness of the hollow thermoplastic tube is 5 mm and the thickness is It is set in the case of 0.75mm, and heat can be generated for 1 second at the output of 100W. In mode 2, the diameter of the hollow thermoplastic tube is 5mm and the thickness is 0.75mm. Heat can be generated for 2 seconds at a power of 100 W. In mode 3, the diameter of the hollow thermoplastic tube is 6.5 mm and the thickness is 1.7 mm. In case of Mode 4, heat is generated when the thickness of the hollow thermoplastic tube is 9.5mm and the thickness is 1.7mm. Heat can be generated for 3 seconds with an output of 200W. Can be.

In addition, by using three switches it is possible to configure eight modes in the ON / OFF combination, it can be used to fuse the output power and output time different depending on the type of the tube of the thermoplastic resin in each mode.

This switch can be a physical switch or a digital switch that accepts a digital input signal and acts as a logical signal.

The control unit 500 is programmed to output a signal corresponding to the command control signal output from the interface 100. The control unit 500 controls the voltage adjusting unit 300 to preset the command control signal so that the diameter of the tube and The amount of voltage mapped according to the thickness is controlled to be applied to the amplifier, and the high frequency oscillator is controlled to preset the command control signal so that the high frequency signal is output for the mapped time according to the diameter and thickness of the tube.

The controller 500 generates a PWM signal according to the command control signal output from the interface 100 to change the output voltage of the voltage adjusting unit 300 and to change the high frequency output time of the high frequency oscillator.

By doing so, heat is generated for various times while the output power of various sizes is generated in the fusion processing unit 700 by the operation of the interface 100, thereby allowing the apparatus having a different diameter and various thickness to be welded with one device. Can be.

According to the present invention as described above, it is possible to adjust the output power and the control time at the external interface so that the tube having a variety of thicknesses and various thicknesses can be fused in one fusion machine.

In the above description, the present invention has been described with reference to preferred embodiments, but the present invention is not necessarily limited thereto, and a person having ordinary skill in the art to which the present invention pertains does not depart from the technical spirit of the present invention. It will be readily appreciated that various substitutions, modifications and variations can be made.

100: interface 300: voltage regulator
500: control unit 700: fusion treatment unit

Claims (5)

The output power and control time can be adjusted at the interface so that different types of tubes of different diameters and thicknesses can be fused together through one fusion machine;
A high frequency oscillator that receives the driving power and oscillates a high frequency signal, a plurality of amplifiers connected in series to output a frequency of several tens of MHz to continuously amplify the high frequency signal output from the high frequency oscillator, and receives power from a power supply A voltage controller for applying a voltage to an amplifier of the amplifier, an interface for selectively outputting any one of a plurality of preset command control signals, and a command control signal output from the interface, and are preset to the command control signal. And a controller configured to control the voltage applied as much as the size mapped according to the diameter and the thickness of the tube to the amplifier for the mapped time.
A fusion processing unit for welding the tube to the final amplifier of the plurality of amplifiers is connected, the mode selectable tube junction characterized in that the power output from the final amplifier increases or decreases as the voltage input to the amplifier increases or decreases. High frequency fusion machine. delete The high frequency fusion splicer according to claim 1, wherein the interface includes a plurality of switches provided in parallel, and outputs a plurality of command control signals by ON / OFF combinations of the switches. The high frequency fusion splicer according to claim 1, wherein the interface is a digital switch that receives a digital signal and logically outputs a plurality of command control signals by a combination of ON / OFF of the switch. The high frequency fusion splicer according to claim 1, wherein the controller generates a PWM signal according to a command control signal output from the interface to vary the output voltage of the voltage controller.

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