KR20000019146A - Exhaust cart having improved cooling unit - Google Patents

Abstract

PURPOSE: An exhaust cart is provided to acquire high-vacuum of Brown-Tube for computer monitor and decrease a consuming power by improving a cooling efficiency. CONSTITUTION: An exhaust cart having a moving means installed under the exhaust cart comprises a driving motor(3) equipped with a discharging pump(4) for low vacuum and an exhaust hole on its bottom, a vacuum pump for high vacuum in its one side, an exhaust body(9) and an adjusting means in its the other side. Furthermore, the exhaust cart comprises a table(11) for installing a Broun tube(12) in its upper. An exhaust part of the Broun tube is connected to the exhaust body. The exhaust body comprise an air suction fan installed in a shaft of the driving motor equipped with the discharging pump for a low vacuum, and a suction and exhaust hole for sucking and exhausting air. A cooling pump(20) equipped with a cartridge heater(19) is connected to a silicon hose(22), and the cooling means having an air path(25) is constituted in an insulating hole. A suction filter (24) is installed to the air path.

Description

Exhaust Cart with Improved Cooling Means

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exhaust cart for forming a vacuum tube widely used for a monitor of a television or a computer, and to form the inside thereof in a vacuum state. The high heat generated from the head and the head of the exhaust cart is cooled by the air flow path by the air suction method, and the air for cooling is obtained by using the rotational force of the motor which is the power source of the vacuum pump to obtain the suction force. The present invention relates to an exhaust cart with improved cooling means for achieving high vacuum and improving the cooling efficiency, thereby greatly reducing power consumption.

In general, CRTs, which are widely used for television or computer monitors, have a high vacuum in order to accurately scan the electromagnetic waves of the electron gun. The CRT can maintain a high vacuum while discharging the air inside the CRT molded body. Afterwards, the inside of the CRT was formed in a vacuum state by performing subsequent operations such as bombarding treatment and tip-off sealing.

On the other hand, in the conventional technique for discharging the internal air of the CRT and forming it in a vacuum state, an operation lever for operating the exhaust body is installed on one side of the exhaust cart to elevate the exhaust body, and the exhaust body is the The lower end of the exhaust body is connected to the vacuum pump via a connecting pipe or the like and is configured to form a vacuum state in the brown tube while discharging the internal air of the brown tube according to the operation of the vacuum pump.

However, the conventional ones described above have only the specific specification of the CRT tube, because the rising height of the exhaust body is determined by the operation lever. Therefore, the exhaust gas can only be exhausted. Due to this, there is a problem that it is difficult to secure the high vacuum degree in the finished CRT as a result of the wear of the operation lever and the parts and the inaccuracy of the parts. Since the cooling means was circulated along this waterway, the configuration of the cooling means was complicated, but the cooling efficiency was not great, and high vacuum could not be achieved, and since the power for operating the cooling means was required separately, Problems such as high power consumption there was.

The present invention has been made in view of the above-mentioned conventional problems, and relates to an exhaust cart for forming the inside thereof in a vacuum state while manufacturing a cathode ray tube widely used for a television or a computer monitor. The high temperature generated in the discharge section of the CRT and the exhaust tube which is installed in a vacuum state is cooled by an air inlet by an air suction method, and the air for cooling uses the rotational force of the motor which is the power source of the vacuum pump. By providing a suction force to achieve a high vacuum degree of the CRT and to improve the cooling efficiency and to reduce the power consumption resulting from this, it is to provide an improved exhaust cart with an improved cooling means, which is attached to the accompanying drawings below. When described in detail based on the embodiment as follows.

1 is a block diagram showing the overall structure of an embodiment of the present invention

2 is a cooling configuration diagram showing the configuration of the present invention cooling means.

3 is a cross-sectional view showing a drive unit of the present invention.

4 is an excerpt of the configuration showing one side of FIG.

<Explanation of Signs of Major Parts of Drawings>

1: main body 2: moving means

3: drive motor 4: discharge pump

5: Exhaust vent 6: Waiter

7: Chain 8: Vacuum Pump

9: exhaust 10: control means

11: Mounting stand 12: Brown tube

13: Air suction fan 14: Intake vent

15: exhaust vent 16: suction port

17: Filter 18: Insulation port

19: cartridge heater 20: cooling pump

21: Backflow prevention 22: Silicone hose

23: pinch cock 24: suction filter

25: air flow path

A low vacuum discharge pump 4 and a drive motor 3 provided with an exhaust port 5 are installed in the lower part of the main body 1, in which the moving means 2 is installed below, and on one side thereof, the waiter 6 and the chain are provided. The height is adjusted by (7) to install a high vacuum vacuum pump (8) equipped with a cooling means, one side of the vacuum pump (8) is connected to the exhaust body (9) and installed on one side of the exhaust body (9) In the upper part of the main body (1) is installed an adjusting means (10) for adjusting the position of the mounting bracket (11) for installing the CRT (12) and the exhaust part of the CRT by connecting the exhaust unit (9) It is configured to form a high vacuum while releasing the air inside.

In addition, the exhaust cart exhaust body 9 of the embodiment of the present invention configured as described above is provided with a cooling means, which is the shaft of the drive motor 3, the low vacuum discharge pump 4 is installed as shown in An air suction fan (13) is installed in the 301, and an inlet 14 and an exhaust port 15 for intake and exhaust of the sucked air are provided outside the one drive motor 3 thereof. Is installed and insulated by the insulator 18 and connected to the cooling pump 20 in which the cartridge heater 19 installed between the inlet 16 installed is connected by a silicone hose 22, respectively. ), A backflow prevention port 21 is installed above the pin, and a pinch cock 23 is installed between the cooling pump 20 and the driving motor 3, and an air flow path 25 is installed in the insulation port 18. The suction filter 24 is installed at the outer end thereof.

Referring to the operation and effects of the embodiment of the present invention configured as described above in detail as follows.

That is, using the moving means 2, the main body 1 is moved to the lower side of the mounting table for installing the CRT, and in this state, the exhaust part 9 whose position is adjusted by the adjusting means 10 in the exhaust part of the CRT. And operate the drive motor (3) installed on the lower part of the main body (1) while adjusting the height of the high vacuum vacuum pump (8) equipped with cooling means by using the waiter (6) and the chain (7). In this case, the low vacuum discharge pump 4 and the exhaust port 5 installed in the driving motor 3 work together with the high vacuum vacuum pump 8 to perform intake and exhaust actions, and the CRT tube is formed by the intake action. After sucking the internal air of the, it is discharged to the outside air is to be formed in a high vacuum state while discharging the air inside the CRT.

In the embodiment of the present invention which acts as described above, heat is generated in the exhaust body 9 and the vacuum pump 8 and the heat is inhibited for the exhaust action, so that the exhaust body 9 is installed for sealing the exhaust body 9. The ring is damaged, and in order to prevent this, when driving the driving motor 3 in which the low vacuum discharge pump 4 is installed, the air suction fan 13 installed in the shaft 301 is driven to draw suction force. In accordance with the action of the air to the intake, exhaust 14 to the inlet 14 and the exhaust (15).

When the air suction fan 13 by the driving motor 3 is operated as described above, the heat from the inlet port 16, in which the filter 17 and the insulator 18 are installed, is provided with the cartridge heater 19. Cooling by air cooling method by the cooling pump 20 and the cooling action is made by the cooling pump 20 and the fin 13 connected to the silicone hose 22 and by the backflow prevention port 21 It is possible to prevent the backflow of air for cooling and to discharge the waste air using the pinch cock 23, the air flow path 25 installed in the insulator 18 is connected to the cooling pump 20. In addition, since the suction filter 24 is installed in the air passage 25, the cooling action by the suction method occurs as the air sucked through the air passage 25.

The present invention as described above is provided with a high vacuum pump (8) and a low vacuum discharge pump as described above, and the cooling pump installed in the fan 13 and the cartridge heater 19 which operates in accordance with the operation of the drive motor. In addition to the mutual interaction of (20), the air sucked from the air flow path 25 and the suction filter 24 allows the exhaust body to be efficiently cooled by an air cooling method and to achieve a high vacuum degree of the CRT. By improving the cooling efficiency by the cooling means, it is possible to prevent the O-rings of the exhaust body from being damaged or deteriorated and to improve the operation of the vacuum pump, thereby forming a high quality CRT vacuum state.

In addition, the exhaust cart of the embodiment of the present invention as described above is not limited only to the vacuum forming of the CRT, but can be used as the above-described action in a vacuum packaging container or a product having a vacuum force, and the power consumption is improved by improving the cooling efficiency of the cooling means. It is possible to greatly reduce the features such as that.

Claims (2)

A low vacuum discharge pump 4 and a drive motor 3 provided with an exhaust port 5 are installed in the lower part of the main body 1, in which the moving means 2 is installed below, and on one side thereof, the waiter 6 and the chain are provided. The height is adjusted by (7) to install a high vacuum vacuum pump (8) equipped with a cooling means, one side of the vacuum pump (8) is connected to the exhaust body (9) and installed on one side of the exhaust body (9) In the upper part of the main body (1) is installed an adjusting means (10) for adjusting the position of the mounting bracket (11) for installing the CRT (12) and the exhaust part of the CRT by connecting the exhaust unit (9) Improved cooling means characterized in that it is formed in a high vacuum state while discharging the inside of the exhaust cart exhaust body (9) is connected to the cooling means driven by a drive motor to achieve a cooling action by air cooling Exhaust Cart. 2. The cooling means according to claim 1, wherein the cooling means is provided with an air suction fan (13) on the shaft (301) of the drive motor (3) in which the low vacuum discharge pump (4) is installed. The cartridge is provided between the inlet port 14 and the exhaust port 15 for the intake and exhaust of the suctioned air on the outside and the filter 17 is installed between the inlet port 16 is installed while insulated by the insulator 18 The silicon pump 22 is connected to each of the cooling pumps 20 on which the heaters 19 are installed, and a back flow prevention port 21 is installed above the cooling pump 20, and the cooling pump 20 and the driving motor are installed. Cooling means characterized in that the pinch cock (23) is provided between (3) and the air flow path 25 in which the suction filter 24 is installed in one end of the insulating hole 18 of the cooling pump 20. This improved exhaust cart.