KR0133792Y1 - Exhaustion system of a vacuum tube - Google Patents

Abstract

The present invention discloses an improved vacuum tube exhaust device. In the exhaust apparatus equipped with the diffusion pump, the boiler of the diffusion pump is heated even if the vacuum is broken during exhaust, so that the working oil is continuously boiled and discharged to the outside.

In this design, the boiler can be rapidly cooled to reduce the discharge of hydraulic oil during vacuum breakdown and increase the operating efficiency of the device.

Description

Vacuum Plate Exhaust

1 is a schematic cross-sectional view showing the configuration of a conventional exhaust device.

2 is a schematic cross-sectional view showing the configuration of the present invention exhaust device.

* Explanation of symbols for main parts of the drawings

DP: Oil diffusion pump RP: Rotary pump

B: boiler O: working oil

KI: Cooling pipe (for condensation and recovery of working oil) K2: Cooling pipe (for boiler rapid cooling)

V: solenoid valve

The present invention relates to the manufacture of vacuum tubes, such as cathode ray tubes, and more particularly to a vacuum tube exhaust apparatus using a diffusion pump.

A cathode ray tube is an apparatus which displays an image on a fluorescent surface by generating an electron beam, focusing and accelerating it. For stable generation and smooth acceleration of the electron beam, high vacuum must be exhausted so that foreign substances such as gas molecules do not remain in the tube. The most widely used for evacuating vacuum tubes such as cathode ray tubes is an exhaust system by connecting two stages of an oil diffusion pump (DP) and a rotary pump (RP), as shown in FIG. .

In FIG. 1, the diffusion pump DP sealedly connected to the exhaust pipe of the cathode ray tube T boils the working oil O stored in the boiler B by the heater H. The steam is formed in multiple stages, and the air in the cathode ray tube T is discharged by spraying at high speed through the nozzle N. At this time, the rotary pump RP applies a back pressure to maintain the operation of the diffusion pump DP. In addition, a cooling tube K through which a predetermined cooling water circulates is provided on the outer circumference of the oil diffusion pump DP in order to condense the boiled steam again and recover the working oil O.

However, the envelope of the cathode ray tube T is generally made of a glass material in consideration of insulation and optical characteristics. Since glass is a brittle material, cracks in the exhaust gas are deflated if there is a defect. (implosion) will occur. In order to shut off the exhaust system, a pressure sensor P was installed in the middle of the exhaust pipe to stop the heating of the heater H and the operation of the rotary pump RP through the shutoff switch SW.

However, even when the power supply to the heater (H) is cut off, since the boiler (B) heated to a high temperature is not easily cooled, the operating oil (O) continues to boil, and the steam is discharged to the outside because the vacuum is broken. Accordingly, the storage amount of the hydraulic oil (O) accommodated in the boiler (B) is reduced. However, in the general structure, it is not possible to check the residual amount of the hydraulic oil O before disassembling the diffusion pump DP, and conventionally, the operating oil when the achieved vacuum degree of the exhaust system is low by measuring the vacuum degree using a vacuum measuring tube. (O) has been replenished. However, such a low degree of vacuum is more likely to be caused by a leak due to poor sealing to the exhaust pipe, so that the diffusion pump RP has to be frequently overhauled.

In view of such a conventional problem, an object of the present invention is to provide an exhaust device capable of preventing the release of hydraulic oil during vacuum breakdown.

In order to achieve the above object, the vacuum tube exhaust device according to the present invention, in the exhaust device equipped with a diffusion pump for exhausting the inside of the vacuum tube by injecting steam generated by boiling the operating oil contained in the boiler with a heater,

Cooling pipe installed on the outer circumference of the boiler to rapidly cool it,

It is characterized in that it is provided with a solenoid valve (Solnoid valve) for supplying the cooling water to the cooling tube in conjunction with the shut-off switch to stop the operation of the exhaust device during the vacuum break of the vacuum tube.

Such specific features and other advantages of the inventive exhaust apparatus will become more apparent from the following description of the preferred embodiments with reference to the accompanying drawings.

In FIG. 2, the exhaust device according to the present invention is constituted by a two-stage connection of the diffusion pump DP and the rotary pump RP as in the prior art, and the hydraulic oil stored in the boiler B of the diffusion pump DP. (O) is configured to be boiled by heating of the heater (H), injected through the nozzle (N), and exhaust the cathode ray tube (T). The outer periphery of the oil diffusion pump DP is provided with a cooling tube K1 for condensation and recovery of the boiled steam, and a pressurizer P is provided in the middle of the exhaust pipe so that a rapid change in pressure is possible. By starting the exhaust system such as heater (H) to stop the operation.

The outer periphery of the boiler (B) of the oil diffusion pump (RP) is provided with a cooling pipe (K2) for rapid cooling according to the features of the present invention and the solenoid valve (V) installed on the pipeline for supplying the cooling water is a cutoff switch ( SW). Preferably, the solenoid valve V is also interlocked with the main switch (not shown) in the normal operation of the exhaust device. The cooling pipe K2 may be configured in the form of a jacket, and in any configuration, the boiler B heated to a high temperature is rapidly cooled by the supply of cooling water, thereby cooling the temperature in the boiler B to the boiling point of the operating oil O. (沸點) It is enough to be able to descend below. Cooling pipe (K2) in addition to the function of rapid cooling, the boiler (B) is wrapped by the high specific heat in normal operation in addition to the role of adiabatic role to improve the thermal efficiency and to prevent the external emission of heat.

The inventive exhaust system configured as described above operates as follows.

First, in normal operation, when the exhaust of the vacuum tube such as cathode ray tube (T) is completed, the heater (H) of the diffusion pump (RP) is first blocked by the blocking of the main switch, the operation is stopped, and the steam is sufficiently cooled and condensed. After a period of time for returning to the hydraulic oil O in the liquid state, for example, after a few minutes, the rotary pump RP is stopped. In this case, when the solenoid valve (V) is configured to interlock with the main switch, the cooling water is supplied to the cooling pipe (K2) and the boiler (B) is immediately cooled, so that the waiting time until the operation of the rotary pump (RP) is stopped is unnecessary. . On the other hand, when the cathode ray tube T during exhaustion is broken by vacuum, cracks, or the like, or leaks to the exhaust pipe, the shutoff switch SW is operated by the pressure regulator P to stop the exhaust device. At this time, the solenoid valve V interlocked with the cutoff switch SW is opened to supply the cooling water to the cooling pipe K2. Accordingly, the boiler B is rapidly cooled, and the boiling of the operating oil O is quickly stopped. The reduction of the storage amount due to external discharge is prevented.

As such, according to the present invention, the residual amount of the working oil does not decrease even in the case of vacuum breaking, so that maintenance check for replenishment is unnecessary, and continuous maintenance of the achieved vacuum degree is possible.

In addition, since the standby time is unnecessary between the stop times of the two pumps even during normal operation, it is possible to increase the operating efficiency of the exhaust system.

Accordingly, there is a great effect on the productivity and cost reduction of the vacuum tube manufacturing of the present invention.

Claims (2)

In the exhaust apparatus provided with a diffusion pump for exhausting a vacuum tube by injecting steam generated by boiling the operating oil contained in the boiler with a heater, and a shutoff switch for stopping the exhaust apparatus in case of vacuum breakdown of the vacuum tube, the boiler (B). And a solenoid valve (V) installed at an outer periphery of the c) to rapidly cool it, and a solenoid valve (V) connected to the cutoff switch (SW) to supply cooling water to the cooling tube (K2). Exhaust system. The vacuum tube exhaust apparatus according to claim 1, wherein said solenoid valve (V) is also linked to a main switch which controls the normal operation of the exhaust apparatus.