KR100397159B1 - Apparatus for fusion-welding stud pin to crt panel - Google Patents

Abstract

The present invention relates to a fin fusion apparatus of a cathode ray tube panel having a pin chuck having a receiving hole for receiving a stud pin, comprising an adsorption magnet disposed in the receiving hole to magnetically adsorb the stud pin. It is done. This makes it possible to adsorb stud pins with a relatively simple configuration and to significantly reduce the time and cost of new installation or replacement of equipment in the pinch area, and to suppress unnecessary energy consumption. It becomes possible.

Description

Pin welding device for panel for cathode ray tube {APPARATUS FOR FUSION-WELDING STUD PIN TO CRT PANEL}

The present invention relates to a fin fusion apparatus of a cathode ray tube panel, and more particularly, it is possible to adsorb stud pins with a relatively simple configuration, and when the equipment of the pin chuck area is newly installed or replaced, the time and The present invention relates to a fin fusion apparatus for a cathode ray tube panel that can significantly reduce costs and suppress generation of unnecessary energy consumption.

Generally, a cathode ray tube has a panel disposed in front of it to project an image, a funnel shaped funnel coupled to the rear of the panel, and a neck having an electron gun coupled to the nose portion of the funnel. Then, the panel and the funnel are formed by heating the raw material of the glass in the melting furnace, and then supplying the molten glass to each forming apparatus and pressurizing it.

Here, the panel has a flat face portion on which the image is projected and a skirt portion bent from each side of the face portion. Phosphors are applied to the inner surface of the face of the panel, and one stud pin is fused to each skirt so that a frame combined with a shadow mask can be mounted on the inner surface of the skirt.

5 is a side view of a fin fusion apparatus of a conventional cathode ray tube panel. As shown in this figure, the conventional pin-fusion apparatus of the cathode ray tube panel, the support frame 110, the guide portion 114 is installed to enable a linear reciprocating motion by the conveying portion 112 on the support frame 110 and And a pin chuck 120 for sucking the stud pins 116 and a heating part 122 for heating the pin chuck 120.

A predetermined receiving hole 121 is formed inside the pin chuck 120 so as to suck the stud pin 116 formed of a stainless material and coated with an oxide film on the outer surface of the pin chuck 120. In addition, an air conduit 127 is connected to one side of the accommodating hole 121 to generate suction force into the accommodating hole 121 to allow the stud pin 116 to be adsorbed on the other side of the accommodating hole 121. 127 is connected to a vacuum pump 129 for generating a predetermined suction force. In addition, when the stud pin 116 is not adsorbed to the negative pressure sensor 131 and the pin chuck 120 to detect whether the stud pin 116 is adsorbed on the pin chuck 120 at one side of the air conduit 127. An alarm generator 133 for notifying is provided.

A pin chuck holder 135 for fixing the pin chuck 120 is provided above the guide part 114, and a pin chuck support block 137 for supporting the pin chuck 120 is provided at an upper end of the pin chuck holder 135. In addition, the upper portion of the guide portion 114, the heating unit 122 composed of a high frequency heating unit 124 in contact with one side of the pin chuck 120, and a power supply unit 126 for supplying power to the high frequency heating unit 124. ) Is provided.

By this configuration, when the stud pin 116 is disposed at a predetermined position in front of the pin chuck 120 through the stud pin 116 supply device (not shown), the vacuum pump 129 is operated to suck in air, Accordingly, the suction force is transmitted to the receiving hole 121 of the pin chuck 120 through the air conduit 127 so that the stud pin 116 is adsorbed to one end of the pin chuck 120. Thereafter, the high-frequency heating unit 124 is supplied with power from the power supply unit 126 to inductively heat the stud pin 116 adsorbed to the pin chuck 120, whereby the stud pin 116 is about 1200 ° C. Heated to. When the stud pin 116 is heated to a predetermined temperature, the guide portion 114 is moved to the fusion position of the stud pin 116 toward the inside of the scud portion 119 of the panel 118 by a linear cam (not shown). As a result, the heated stud pins 116 are melted and melted on the inner wall surface of the scud portion 119.

When the stud pin 116 is not adsorbed to the pin chuck 120 for a predetermined time during the adsorption process of the stud pin 116, the alarm generator 133 operates as the negative pressure sensor 131 detects this and generates a signal. Will be.

By the way, in the conventional pin-fusion apparatus of the cathode ray tube panel, because it has a relatively complex equipment such as a vacuum pump and air conduit to adsorb the stud pin, it is not only very complicated to install or replace a new, but also the cost It takes a relatively large amount of time, it takes a lot of time to install and replace.

In addition, in the state in which the stud pin is not adsorbed on the pin chuck, unnecessary vacuum pressure must be continuously consumed for a time until the alarm generator is activated, thereby causing a problem of energy loss.

Accordingly, it is an object of the present invention to provide a fin fusion apparatus for a cathode ray tube panel that has a relatively simple configuration and is capable of adsorbing stud pins.

In addition, another object of the present invention, when newly installing or replacing the equipment of the pinch area, not only can significantly reduce the time and cost, but also pin fusion of the cathode ray tube panel to suppress the occurrence of unnecessary energy consumption To provide a device.

1 is a side view of the pin fusion apparatus of the cathode ray tube panel according to the present invention,

2 is a longitudinal cross-sectional view of a suction magnet installed in the pin chuck according to an embodiment;

3 is a cross-sectional view taken along line III-III of FIG. 2;

Figure 4 is a longitudinal cross-sectional view of the adsorption magnet is installed on the pin chuck according to another embodiment;

5 is a side view of a fin fusion apparatus of a conventional cathode ray tube panel.

* Explanation of symbols for the main parts of the drawings

16: stud pin 19: skirt

20: pin chuck 21: receiving hole

30: permanent magnet 35: electromagnet

The object of the present invention is to provide a fin fusion apparatus for a cathode ray tube panel with a pin chuck having a receiving hole for receiving stud pins, the adsorption magnet disposed in the receiving hole to magnetically adsorb the stud pins. It is achieved by a pin fusion apparatus of a cathode ray tube panel comprising a.

Here, the adsorbed magnet may be composed of a permanent magnet or an electromagnet.

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

1 is a side view of a fin fusion apparatus of a cathode ray tube panel according to the present invention. As shown in this figure, the pin fusion apparatus of the cathode ray tube panel according to the present invention, as in the pin fusion apparatus of the conventional cathode ray tube panel, so as to enable a linear reciprocating motion by the support frame 10 and the transfer unit 12 The guide part 14 provided on the support frame 10, the pin chuck 20 which adsorb | suck the stud pin 16, and the heating part 22 which heats the pin chuck 20 are provided.

The heating part 22 is disposed on one side of the pin chuck 20 and has a high frequency heating part 24 for generating an electromagnetic field, and a power supply part 26 for supplying power to the high frequency heating part 24. In addition, a pin chuck holder 15 is provided at one side of the heating part 22, and a pin chuck support block 37 for supporting the pin chuck 20 in the horizontal direction is provided at an upper end of the pin chuck holder 15.

On the other hand, the pin chuck 20 is formed of a stainless material and adsorbs the stud pin 16 is coated with an oxide film on the outer surface is formed of a ceramic material, the receiving hole 21 is provided therein, as described above, One end is disposed in the high frequency heating unit 24 and the other end is supported by the pin chuck support block 37.

In addition, an adsorbing magnet formed in the longitudinal direction from the pin chuck support block 37 side to the high frequency heating unit 24 side is inserted into the receiving hole 21 inside the pin chuck 20. In the present invention, an embodiment of the adsorption magnet provided in the accommodation hole 21 will be described in two cases.

FIG. 2 is a longitudinal cross-sectional view of a permanent magnet installed as an adsorbing magnet in the pin chuck 20 according to an embodiment, and FIG. 3 is a cross-sectional view taken along line III-III of FIG. 2. As shown in these figures, a predetermined receiving hole 21 is formed in the cylindrical pin chuck 20 along the axial direction, and the permanent magnet 30 disposed in at least a portion of the receiving hole 21. ) Is provided.

The permanent magnet 30 extends in the longitudinal direction from the pin chuck support block 37 side toward the high frequency heating section 24 in a semicircular cross section and is spaced apart from the end where the stud pin 16 is adsorbed by a predetermined distance. It has a part 31 and a vertical part 33 which is bent downward from the end of the horizontal part 31 and is in contact with the end face of the pin chuck 20.

At this time, the permanent magnet 30, as in the shape of the receiving hole 21, it may be configured to be formed in a circular cross section so as to be completely in contact with the receiving hole 21, in Figure 3 for cleaning operations such as internal foreign matters As described above, it is advantageous to configure the cross section in a semicircular shape. In addition, the length of the horizontal portion 31 is closer to the end surface of the pin chuck 20 except for a predetermined space in which the stud pin 16 is adsorbed, the better the effect can be obtained.

Such a permanent magnet 30 may be attached through an adhesive or the like, and, as in the present embodiment, when only the housing hole 21 is removed, the longitudinal portion 33 contacts the end face of the pin chuck 20. And the pinch support block 37 is supported at the rear, so that the pinch support block 37 cannot be separated from the receiving hole 21. Therefore, when the permanent magnet 30 is installed in this way, there is an advantage that can be very easy to install and replace.

4 is a longitudinal cross-sectional view of a state in which an electromagnet is installed as an adsorption magnet on the pin chuck 20 according to another embodiment. As shown in this figure, a predetermined receiving hole 21 is formed in the cylindrical pin chuck 20 according to another embodiment along an axial direction, and disposed in the receiving hole 21 over at least a portion. An electromagnet 35 is provided.

The electromagnet 35 is formed of a conductor 36 and a conductive coil 37 formed to enclose the conductor 36 in a ring shape to generate an electromagnetic field. The electromagnet 35 also includes a receiving hole 21. It may be disposed in a form similar to the permanent magnet 30 described above.

In this case, a separate power supply unit for supplying power to the electromagnet 35 should be provided in an adjacent region of the pinch 20, but a power supply unit for supplying power to the high frequency heating unit 24 on one side of the pinch holder 15. Since 26 is provided, it can also be comprised so that the electric power of the electromagnet 35 may be applied from this power supply part 26. FIG.

As shown in the embodiment of FIG. 4, when the electromagnet 35 is installed in the accommodation hole 21, the replacement cycle may be very long compared to the permanent magnet 30.

By this configuration, when the stud pin 16 is disposed at a predetermined position in front of the pin chuck 20 through the stud pin 16 supply device (not shown), the stud pin 16 on the metal is formed by the magnetic force of the adsorption magnet. It can be adsorbed to the end of the pinch chuck 20.

Subsequently, when the high frequency heating unit 24 receives the power from the power supply unit 26 to generate the electromagnetic field, the electromagnetic field is transferred to the pin chuck 20 to generate alternating magnetic flux on the stud pin 16 to thereby stud the pin 16. ) Is heated to about 1200 ° C by induced electromotive force by alternating magnetic flux.

As such, when the stud pin 16 is heated to a predetermined temperature, the guide portion 14 is moved to the fusion position of the stud pin 16 toward the inside of the skirt portion 19 of the panel 18 by a linear cam (not shown). By moving, the heated stud pin 16 is fused and melted on the inner wall surface of the skirt portion 19.

As described above, in the present invention, by providing the adsorption magnet in the receiving hole 21 of the pin chuck 20, energy loss due to the adsorption of the stud pin 16 can be reduced as in the related art. In addition, new installation work and replacement work for the pinch (20) area will be very easy to shorten the installation and replacement time, as well as to reduce the overall cost.

As described above, according to the present invention, there is provided a fin fusion apparatus of a cathode ray tube panel which has a relatively simple configuration and is capable of adsorbing stud pins.

In addition, according to the present invention, when a new installation or replacement of the equipment of the pinch area, it is possible not only to significantly reduce the time and cost, but also to suppress the occurrence of unnecessary energy consumption.

Claims (3)

In the pin-fusion apparatus of the panel for cathode ray tubes provided with the pin chuck which has the receiving hole which accommodates a stud pin, It is disposed in the receiving hole pin fin fusion apparatus of the cathode ray tube panel characterized in that it comprises an adsorption magnet to magnetically adsorb the stud pin. The method of claim 1, Pin fusion apparatus of the cathode ray tube panel, characterized in that the adsorption magnet is a permanent magnet. The method of claim 1, Pin adsorption device of the cathode ray tube panel, characterized in that the adsorption magnet is an electromagnet.