KR920007275Y1 - Cathode - Google Patents

Abstract

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Description

Imitation cathode for measuring the temperature of heat-dissipating guns

Figure is a cross-sectional view showing an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

2: glass stem 3: heater

4: cathode 5: first electrode

6: cover 7: fine wire

The present invention relates to a simulated cathode for measuring the temperature of a heat-dissipating electron gun that can be used to assist in measuring the temperature of the heat-dissipating electron gun.

The operating temperature of the cathode is a key factor for determining the process conditions of the cathode ray tube and the heater capacity of the electron gun.

In the heat radiation type electron gun, an electron-emitting material is coated on the cathode cap, and the aforementioned cathode cap receives the heat of the heater accommodated therein and heats the electron-emitting material applied on the surface to generate an electron beam.

Therefore, the share of the cathode in the design of this type of electron gun is considerably higher than other components, and the point to be considered in the design of the cathode cap is the temperature heated during operation.

This heating temperature is almost determined by the heater capacity, but the temperature value should be limited according to the material of the cathode cap, and since the emission of hot electrons becomes better as the heating temperature is higher, the operating temperature of the cathode cap is determined by the capacity of the heater. It is an essential item in determining the best temperature value with respect to the durability of the cathode cap and the cathode.

Conventionally, the temperature measurement of the cathode cap is measured using a pyrometer around the neck of the cathode ray tube, but this results in an error in measuring the lateral temperature of the cathode cap, which is not accurate. In addition, as the voltage of the heater is increased, the gas of the electron-emitting material or the metal gas contained in the electrode parts is volatilized and terminated on the inner wall of the neck. The pyrometers that are calculated and displayed in this way cause errors due to foreign matter deposited on the inner wall of the neck, which is not helpful for improving the performance of heaters or cathodes or designing new structures.

An object of the present invention is to provide a simulated cathode for measuring the temperature of a heat-dissipating electron gun that can be used as an assistant in measuring the cathode operating temperature of the electron gun without giving an error to the pyrometer.

In accordance with the above object, the present invention supports a heater and a cathode on a conventional glass stem, bends orthogonal to the axial direction of the stem, and arranges the first electrode in front of the cathode described above. Hanging the cover with a wire or the like in front of the electrode is characterized in that the configuration arranged so that the posture change by its own weight.

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

The figure is a sectional view showing a preferred embodiment of the present invention, in which the heaters 3 for R, G and B are arranged in parallel with respect to a power source on a conventional glass stem 2 in which the stem pins 1 are arranged in the axial direction. It is connected in series, and covers the periphery of these heaters 3 with a sleeve to form a conventional cathode 4, and at the same time bent such that the cathode 4 is orthogonal to the axial direction of the glass stem 2. Install it.

Next, the first electrode 5 is disposed on the front axis of the cathode 4 and connected with a separate support pin, and the first electrode 5 is moved forward of the first electrode 5. The cover 6 made of a substantially disk-shaped metal having a diameter corresponding to the long diameter is tied to the possible wires 7 or the like, and suspended to be able to change its posture by its own weight, and the getter toward one side of the first electrode 5 described above. (8) is extended and installed, and the circumference | surroundings of the glass stem 2 are sealed by the glass tube 9, and it vacuums.

The imitation cathode of the present invention configured as described above is applied with a predetermined operating voltage via the stem pin 1, so that the heater 3 radiates heat and heating of the cathode 4 starts.

During heating of the cathode 4, the glass tube 9 is erected vertically so that the front of the first electrode 5 is obscured by the lid 6.

The gas discharged during the operation of the cathode 4 is deposited on the cover 6 covering the first electrode 5, and the gas is not deposited on the inner circumferential surface of the glass tube 9.

After that, when the discharge of the gas is finished by waiting for a while, the exothermic temperature of the cathode 4 can be measured by using a normal pyrometer (not shown) in this state. It is also turned upside down so that the cover 6 is separated by its own weight to come to the dashed-dotted position in the drawing so that the front of the first electrode 5 is no longer covered. In this way, since no gas or the like is deposited on the inner circumferential surface of the glass tube 9, the cap on the upper surface of the cathode is clearly reflected on the pyrometer, thereby enabling accurate color temperature measurement.

As described above, the present invention measures fundamentally eliminates the factors that impede the accuracy in measuring the operating temperature of the cathode, so that the operating temperature important for the design of the electron gun can be accurately measured according to the actual conditions. Have

Claims (1)

The heater 3 and the cathode 4 are electrically supported on the ordinary glass stem 2, bent to be orthogonal to the axial direction of the stem 2, and the first cathode 4 is placed in front of the first cathode 4. Positioning the electrode 5 and suspending the disk cover 6 made of a substantially discoid metal with a wire 7 in front of the first electrode 5 and changing the posture by the weight of the glass tube 9 according to the posture of the glass tube 9. Imitation cathode for temperature measurement of a heat-dissipating electron gun, characterized in that the configuration possible.