JPH0553109U - Impregnated cathode assembly - Google Patents

Abstract

(57) [Abstract] [Purpose] The present invention improves the thermal efficiency and stabilizes the temperature by eliminating the uneven adhesion between the cathode substrate and the cup and between the sleeve and the cup, and prevents the cups from overlapping during manufacturing. It is an object of the present invention to provide an impregnated-type cathode assembly with improved yield. The impregnated cathode assembly of the present invention is a cathode in which a cup 8 having a short cylindrical shape with a bottom is inserted and fixed to one end of a sleeve 4 containing a heater 5 and the cup is impregnated with an electron emitting substance. The base 1 is fixed, the outer diameter of the bottom portion 8a of the cup is set smaller than the inner diameter of the sleeve, and the outer diameter near the opening of the cup is set to be equal to or larger than the inner diameter of the sleeve. The purpose of can be achieved.

Description

[Detailed description of the device]

[0001]

[Industrial application]

 The present invention relates to a high current density impregnated negative electrode structure suitable for use in an electron tube such as a color picture tube.

[0002]

[Prior Art]

 In recent years, there has been a demand for the development of color picture tubes with increased scanning lines to improve resolution and projection tubes with improved brightness. In order to meet these demands, it is necessary to significantly increase the density of electrons emitted from the cathode. By the way, since the impregnated cathode has a larger current density and a longer life than the oxide cathode, the demand in the field of color picture tubes is expanding.

Such an impregnated-type cathode assembly is conventionally configured as shown in FIG. 3, and a short columnar cathode base body 1 impregnated with an electron emissive material (emitter) is placed inside a cup 2 having a short cylindrical shape with a bottom. And is fixed via the brazing filler metal 3. The cup 2 is inserted into one end opening of a cylindrical sleeve 4 from the bottom side thereof, and is fixed to the sleeve 4 with the cathode substrate 1 exposed. A heater 5 is built in the sleeve 4. Further, the sleeve 4 is coaxially supported and fixed to the central portion of a cylindrical holder 6 via three straps 7.

[0004]

[Problems to be solved by the device]

 However, the conventional impregnated cathode structure as described above has a drawback that it is difficult to store the cathode substrate 1 in the cup 2 because the opening of the cup 2 is almost the same as the outer diameter of the cathode substrate 1. It was

Further, since the outer diameter of the bottom of the cup 2 and the inner diameter of the sleeve 4 are almost the same, the insertion into the sleeve 4 was not smooth. As a result, not only does it take time to assemble, but also non-uniform adhesion occurs between the cathode substrate 1 and the cup 2 and between the sleeve 4 and the cup 2 in the assembled state. As a result, heat is not sufficiently conducted from the sleeve 4 to the cup 2 and the cathode substrate 1 in the state where it is incorporated in the electron tube, and the radiant heat from the heater 5 leaks from the gap between the sleeve 4 and the cup 2. Therefore, there is a problem in that the temperature of the cathode substrate 1 does not rise as expected and the temperature variation among the products becomes large, causing variations in the initial characteristics of the electron tube.

In order to solve this problem, in JP-A-3-167732, the outer diameter of the bottom of the cup is made smaller than the inner diameter of the sleeve, and the outer diameter of the opening of the cup is made equal to or larger than the inner diameter of the sleeve. It has been shown to facilitate and ensure the insertion of the cup into the sleeve, improve thermal efficiency and stabilize the cathode temperature.

However, the cup according to this proposal has a substantially trapezoidal cross section. Therefore, if ultrasonic cleaning is performed using an appropriate solvent for squeezing the cup during manufacturing and degreasing cleaning after punching, the cup will be extremely small and light in weight, and it will be shaken by the vibration of ultrasonic waves. Move and the cups will overlap. If the overlapping cups are dried and then separated, the cups will be deformed and the yield will be significantly reduced. Further, when the cathode is assembled, the cups are similarly overlapped with each other in the component supply device, the component supply is stopped, and the operation rate of the assembly device is reduced.

The present invention solves the above problems and eliminates the sticking unevenness between the cathode substrate and the cup and between the sleeve and the cup, thereby improving the thermal efficiency and stabilizing the temperature, and the cup at the time of manufacturing. It is an object of the present invention to provide an impregnated-type cathode assembly in which the yield is improved by preventing mutual overlapping.

[0009]

[Means for Solving the Problems]

 In this invention, a short cylindrical cylinder with a bottom is inserted and fixed to one end of a sleeve containing a heater from the bottom side, and a cathode substrate impregnated with an electron emissive material is fixed in the cup, and the cup outside the bottom of the cup is fixed. The impregnated-type cathode assembly has a diameter smaller than the inner diameter of the sleeve, and an outer diameter near the opening of the cup is equal to or larger than the inner diameter of the sleeve.

[0010]

[Action]

 According to this invention, the opening of the cup is larger than the cathode base, so that the cathode base can be inserted smoothly during manufacturing. Further, since the cup is inserted into the sleeve from the bottom side having an outer diameter smaller than the inner diameter of the sleeve, the insertion can be facilitated. In the state where the insertion is completed, the heat is closely contacted with the inner circumference of the sleeve, so that the heat of the heater in the sleeve can be efficiently and reliably transferred to the cathode substrate in the cup during operation. Therefore, the thermal efficiency is improved and stabilized, and the cathode temperature is stabilized. As a result, variations in initial characteristics do not occur.

Further, since the vicinity of the opening of the cup, that is, the side wall is linear, the cups are overlapped by vibration during ultrasonic cleaning, or the cups are overlapped in the component supply device during the cathode assembly process, so that the cup is not supplied. Without stopping, the yield and operating rate of the assembly equipment can be greatly improved.

[0012]

【Example】

 An embodiment of the present invention will be described in detail below with reference to the drawings. The impregnated type cathode assembly according to the present invention is constructed as shown in FIGS. 1 and 2, FIG. 1 shows the entire structure, and FIG. 2 shows an enlarged view of the vicinity of the cup.

The same parts as those in the conventional example (FIG. 3) are designated by the same reference numerals, and the short columnar cathode substrate 1 is housed in the cup 8 and fixed via the brazing material layer 3. This cup 8 is inserted into one end of a cylindrical sleeve 4 from the bottom side, and is fixed to the sleeve 4 with the cathode substrate 1 exposed. A heater 5 is built in the sleeve 4. Further, the sleeve 4 is coaxially supported and fixed to the central portion of the cylindrical holder 6 via a plurality of, for example, three straps 7.

In the above case, as is clear from FIG. 2, the bottom outer diameter of the cup 8 is set smaller than the inner diameter of the sleeve 4, and the outer diameter near the opening of the cup 8 is equal to the inner diameter of the sleeve 4. It is set equal or higher, which is a feature of this invention.

That is, the cup 8 is made of tantalum, molybdenum, or the like, is formed into a short cylindrical shape with a bottom by press molding, and is composed of a bottom portion 8a, a side wall portion 8b, and a taper portion 8c located between them. .. Due to the presence of this tapered portion 8c, the outer diameter of the outer diameter in the vicinity of the opening, that is, the outer diameter of the side wall portion 8b is larger than the outer diameter of the bottom portion 8a. For example, the plate thickness is 0.025 mm, the outer diameter of the bottom portion 8a is 1.47 mm, and the side wall portion. 8b has an outer diameter of 1.58 mm and a depth of 0.4 mm.

The cathode substrate 1 has a brazing material layer 3 such as ruthenium-molybdenum formed on one end surface of a porous tungsten pellet obtained by molding and sintering tungsten powder having a particle size of 3 to 10 μm. The pellet is impregnated with an electron emissive material consisting of BaO, CaO, and Al ₂ O _3, and has a short cylindrical shape with a diameter of 1.45 mm and a thickness of 0.4 mm. The sleeve 4 is made of tantalum, molybdenum, or the like, and has a cylindrical shape with an outer diameter of 1.60 mm, a length of 5 mm, and a thickness of 0.025 mm. Next, a method of manufacturing the above-mentioned impregnated cathode structure will be described.

First, the cathode substrate 1 is inserted into the cup 8 so that the brazing material layer 3 is located at the bottom portion 8 a of the cup 8, and is fixed to the bottom portion 8 a of the cup 8 via the brazing material layer 3 by welding. Next, the cup 8 is inserted into the one-end opening of the sleeve 4 from the side of the bottom portion 8a having a small diameter. By pressing the surface of the cathode substrate 1, the cup 8 is completely inserted into the sleeve 4. Then, the sleeve 4 and the cup 8 are fixed by laser welding. The X mark in FIG. 2 indicates the welding location.

Next, one end of a ribbon-shaped strap 7 made of rhenium-molybdenum or the like and having a thickness of 0.05 mm and a width of 0.4 mm is fixed to each of the three positions on the outer side of the other end of the sleeve 4 by welding. The other end of the strap 7 is fixed to the shoulder portion of the holder 6 made of Kovar by welding, and the sleeve 4 is coaxially supported and fixed to the central portion of the holder 6 via the strap 7. Of course, the heater 5 is built in the sleeve 4.

As a result, in this embodiment, the outer diameter of the cathode substrate 1 is smaller than the inner diameter of the opening of the cup 8, so that the cathode substrate 1 can be inserted into the bottom portion of the cup 8 very easily. It will be easier.

Also, after inserting the bottom portion of the cup 8 having an outer diameter smaller than the inner diameter of the sleeve 4 into the sleeve 4, the surface of the cathode substrate 1 is pressed, and the cup 8 is entirely slid to its opening. Since it is inserted into the sleeve 4, it is extremely easy to insert the cup 8 into the sleeve 4. Then, in the inserted state, the linear side wall portion 8b of the cup 8 and the inner peripheral surface of the sleeve 4 are completely adhered to each other, and this adhered portion can be laser-welded to fix the two. I can. Therefore, when the sleeve 4 and the cup 8 are welded to each other, a defect such as a significant deformation of the sleeve 4 or a hole is not generated, and good welding can be performed.

As a result, heat is sufficiently conducted from the sleeve 4 to the cup 8 and from the cup 8 to the cathode substrate 1, and the radiant heat from the heater 5 does not leak between the sleeve 4 and the cup 8, so that the thermal efficiency is improved. The temperature of the cathode substrate 1 rises sufficiently and stabilizes as it improves.

Further, since the side wall portion 8b of the cup 8 is formed in a straight line shape, even if the bottom portion of another cup enters the opening portion of the cup 8, it cannot be completely inserted. Resulting in. As a result, the cups do not overlap with each other, and the yield and the operating rate of the manufacturing apparatus are significantly improved.

[0023]

[Effect of the device]

 According to this invention, the opening of the cup is larger than the cathode base, so that the cathode base can be inserted smoothly during manufacturing. Further, since the cup is inserted into the sleeve from the bottom side having an outer diameter smaller than the inner diameter of the cathode sleeve, the insertion can be facilitated. And, when the insertion is completed, the inner periphery of the sleeve comes into close contact with the inner periphery of the sleeve, so that the heat of the heater in the sleeve can be efficiently and reliably transferred to the cathode substrate in the cup during operation. Therefore, the thermal efficiency is improved and stabilized, and the cathode temperature is stabilized, and as a result, variations in initial characteristics do not occur.

Further, since a linear portion is formed in the vicinity of the opening of the cup, the cups may overlap due to vibration during ultrasonic cleaning, or the cups may overlap in the component supply device during the cathode assembly process. The supply of steel will not be stopped, and the yield and operating rate of the assembly equipment can be greatly improved.

[Brief description of drawings]

FIG. 1 is a perspective view showing an impregnated-type cathode assembly according to an embodiment of the present invention with a part cut away.

FIG. 2 is an enlarged cross-sectional view showing a main part of FIG.

FIG. 3 is a perspective view showing a conventional impregnated cathode assembly with a part cut away.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Cathode base | substrate, 4 ... Sleeve, 5 ... Heater, 6 ... Holder, 8 ... Cup, 8a ... Bottom part, 8b ... Side wall part, 8c ... Taper part.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Tsuneo Fukui Inventor Fukui, Himeji-shi, Hyogo-ku, No. 50 Kamimabe, Himeji, Ltd. Stock company, Toshiba Himeji Plant (72) Inventor, Yoshiharu Yoshioka 72, Horikawa-cho, Kawasaki-shi, Kanagawa Inside Toshiba Horikawacho Factory

Claims (1)

[Scope of utility model registration request] 1. An impregnated cathode assembly in which a cup having a short cylindrical shape with a bottom is inserted and fixed to one end of a sleeve containing a heater, and a cathode substrate impregnated with an electron emitting substance is fixed in the cup. An impregnated cathode assembly characterized in that the outer diameter of the bottom of the cup is set to be smaller than the inner diameter of the sleeve, and the outer diameter of the vicinity of the opening of the cup is set to be equal to or larger than the inner diameter of the sleeve. ..