KR910005817B1 - Manufacturing method of cathode structure - Google Patents

Abstract

A cap (C) with a flare (cf) is inserted on upper side of a sleeve (S) and welded between the sleeve and the flare by pressing them. The metal tape (TR) is welded around the circumference of the sleeve to the vertical direction with certain interval. The sleeve is inserted into a holder (H) being concentric with the sleevfe and the risen-up tape is welded at the upper side of the holder. The residual tape is cut off, then the cathode structure with short sleeve is formed. The made structure is pref. treated by heat under hydrogen atmosphere so that thermal residual stress is removed.

Description

Manufacturing method of suspension type cathode structure of electron gun for cathode ray tube

FIG. 1 generally shows a suspension cathode structure, in which a is a plan view and b is a partially ablation side view.

2 is a cross-sectional view of a schematic apparatus for manufacturing a suspension cathode structure of an electron gun for a cathode ray tube according to the present invention.

Figure 3 is a cross-sectional view showing the production method of the suspended cathode structure of the cathode ray tube electron gun according to the present invention for each process.

* Explanation of symbols for main parts of the drawings

S: Sleeve H: Holder

T: Metal Tape

The present invention relates to a cathode structure of an electron gun for a cathode ray tube, and more particularly, to a method for producing a suspension cathode structure of an electron gun for a cathode ray tube that can improve the precision of the suspension type cathode structure and automate its manufacture.

In general, a cathode structure is a hot electron emission source that emits electrons mounted on an electron gun for a cathode ray tube, and various types of structures capable of reaching a thermal stable state within a short time have been developed and studied. Examples thereof include various kinds of cathode structures such as cathodes of R, G, and B electron guns, structures having different structure materials, structures having short sleeve lengths, and structures having integrated sleeves and holders.

Among these structures, as shown in FIG. 1, the suspension type cathode structure K having a shorter length of the sleeve exhibits good characteristics. Thus, the conventional manufacturing method of the suspension type cathode structure as described above is performed by an operator. The cap C is inserted into the upper part of the sleeve S to be welded and fixed, and the outer peripheral surface of the lower part S is welded to one side of the three metal tapes T by 102 ° at a predetermined height, respectively, and the other side thereof is a holder (H). The sleeve S has been manufactured so as to be located at the center of the inside of the holder H by welding to the upper end of each.

This conventional manufacturing method is very difficult to accurately weld each metal tape (T) at 120 ° intervals to the outer peripheral surface of the sleeve (S) so that the gap between them after welding has a significant error. In order to weld the other side of the metal tape (T), one side of which is welded to the lower part of the sleeve (S) to the upper end of the holder (H), since the metal tape (T) is formed by using a separate facility and cut. Length error between the metal tapes T occurs. This is because the metal tape T is welded to the upper end of the holder (H), the sleeve (S) supported by the metal tape (T) is often welded eccentrically with respect to the center of the holder (H). The electron gun for cathode ray tube employing the cathode structure K in which the sleeve S is eccentrically fixed with respect to the center portion of the holder H is not shown in the drawing, but is further formed by the heat generated from the heater built into the sleeve. It becomes eccentric, the dispersion of the screen firing time of each of the R, G, and B electron guns is poor, and the cut-off emission effect cannot be expected, so that a high-definition cathode ray tube cannot be obtained.

Accordingly, an object of the present invention is to provide a method for producing a suspension type cathode structure of an electron gun for cathode ray tubes that can improve the precision by allowing the production of the cathode structure to be automated.

In order to achieve the above object, the present invention, in the manufacturing method of the suspension cathode structure of the electron gun for cathode ray tube, the cap welding to insert the cap with the flare formed on the top of the sleeve and to apply a compressive force on the upper surface and the side to compress the welding flare A process of bending a plurality of metal tapes in a vertical direction to the outer circumferential surface of the sleeve to which the cap is welded, and then simultaneously welding them at predetermined intervals, and a center of the sleeve on which the metal tape is welded to the outer circumferential surface; A plurality of metals inserted into the holder and welded to the outer circumferential surface at predetermined intervals by moving the sleeve downward or by moving the holder upward while the center of the holder into which the sleeve is inserted is aligned. The tape is placed on the upper part of the holder, and the holder welds to the upper part of the holder simultaneously. The sleeve is cut in the center portion of the holder by sequentially cutting the metal tape welded to the upper end of the holder and cutting the remaining metal tape to the outer peripheral surface of the holder. Its feature is that it is supported by.

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

A cathode manufacturing apparatus particularly suitable for carrying out the method of manufacturing the suspension cathode structure of the electron gun for cathode ray tube of the present invention is schematically illustrated in FIG. 2. The head portion 10 is a cylindrical cap punch 12, a ribbon. Welding rod 13, the upper holder support 14 surrounds the upper support rod 11 in sequence, these are not shown in the drawing, but are connected to each other by connecting to the reciprocating transfer means and installed opposite to the upper support rod 11 Base 20 is the lower support rod 21 is installed so that the reciprocating is connected to the transport means to move up and down while the end of the sleeve insertion portion (21a) the same as the sleeve inner diameter is formed stepped.

Then, a metal tape supply device 30 in which a bender and a cutter electrode are installed at right angles with respect to the outer circumferential surface of the holder insert is provided at 120 ° intervals. The lower support rod 21 and the lower support 22 and the lower support 23 is inserted into the insertion space of the holder (H) is formed.

As shown in FIG. 3, the production of the suspension type cathode structure by the cathode manufacturing apparatus configured as described above is roughly divided into the cap welding process (FIG. 3B), the metal tape welding process, the sleeve insertion process, and the metal tape cutting process. .

The cap welding process (FIG. 3a, b) first removes the lower support 23 from the lower support rod 21 of the cathode manufacturing apparatus, inserts the holder (H) and then combines the lower support 23 by the holder Secure (H). And a sleeve (S) is inserted into the sleeve inserting portion (21a) formed at the end by the lower support rod 21 while the cap (C) formed with a flare (cf) on the top of the sleeve (S) To combine.

In this state, the upper support bar 11 and the cap punch 12 are lowered to weld the flare cf formed at the edge of the cap C to the sleeve S.

In the metal tape welding process (FIG. 3c), when the cap C is welded to the sleeve S in the cap welding process, the cap punch 12 is raised and the upper support rod 11 is the upper surface of the cap C. Applying a light pressure to the part so that the sleeve (S) does not flow and is installed vertically on the outer peripheral surface of the sleeve (S), the metal tape (T) from the new metal tape supply device 30 arranged at intervals of 120 ° ) End is formed into a square shape and supplied and welded to the lower end of the sleeve at 120 ° intervals by a welding rod of the metal tape supply device 30.

In addition, the sleeve insertion process (FIG. 3d) is a process of welding the metal tape T welded to the sleeve S to the upper end of the holder H in the metal tape welding process, the metal tape supply device 30 ), The lower holder 22 fixed to the base 20 is raised or the upper support rod is fixed while the metal tape T supplied from the upper surface of the sleeve S is welded at the same height at equal intervals of 120 °. 11) and the lower support bar 21 is moved to the bottom so that the sleeve (S) is inserted into the holder (H) and at the same time the upper end of each metal tape (T) holder (H). Here, the metal tape supply device 30 supports the metal tape T to have a predetermined tension, and the upper and lower support bars 11 and 21 are in close contact to prevent the flow of the sleeve S.

In this state, the ribbon welding rod 13 of the head 10 is lowered to weld each metal tape T positioned at the top of the holder H at the same time.

The metal tape cutting process (Fig. 3e) is to cut the metal tape (T) by a cutter installed in the metal tape supply device when the welding of the metal tape (T) on the holder is completed in the sleeve insertion process. And the remaining residue is cut to the upper end of the holder (S) is to be in close contact with the outer peripheral surface of the holder (H) by lowering the holder upper support 14 of the head (10).

When the production of the cathode is completed as described above, the cathode structure is preferably heat treated in a hydrogen atmosphere to remove the residual welding weld.

As described above, the method of manufacturing the suspension cathode structure of the electron gun for cathode ray tube according to the present invention can place the sleeve in the center of the holder and minimize the heat loss of the heater embedded in the sleeve, as well as for the cathode ray tube employing the same. This has the advantage of reducing the spread of screen firing time between each R, G, B electron gun.

Claims (1)

In the method for manufacturing a suspension cathode structure of an electron gun for a cathode ray tube, a cap (C) having a flare (cf) is inserted into an upper portion of the sleeve (S) and a compressive force is applied to the flare (cf) from the top and side surfaces thereof. Metal tape welding process of bending a plurality of metal tapes T in a vertical direction to a cap welder for press welding and welding the outer surface of the sleeve S to which the cap C is welded at the same time. And move the sleeve S downward in a state where the center of the sleeve S in which the metal tape T is welded on the outer circumferential surface and the center of the holder S in which the sleeve S is inserted coincide with each other. The sleeve S is inserted into the holder H and the metal tape T welded to the outer circumferential surface of the sleeve S is positioned at the upper end of the holder H. Weld them to the top of the holder simultaneously. The cathode insertion structure and the metal tape T welded to the upper end of the holder H are cut in sequence, and the remaining portion thereof is cut through the metal tape in close contact with the outer circumferential surface of the holder. Method for producing a suspension-type cathode structure of an electron gun for cathode ray tube, characterized in that to complete.

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