KR101651611B1 - Insulating oil reloading device and insulating oil reloading method of x-ray tube module - Google Patents

Abstract

The present invention relates to an insulation oil reloading device and an insulation oil reloading method for an X-ray tube module, capable of smoothening facilitating the supply and discharge of insulation oil in an X-ray tube module by moving and defoaming the insulation oil by using vacuum pressure, and preventing foreign materials and bubbles from being mixed into newly charged insulation oil in the X-ray tube module. To this end, a device for reloading insulation oil received in an X-ray tube module by supplying or discharging the insulation oil through an insulation oil connection unit installed in an X-ray tube module comprises: a waste oil collection unit collecting the insulation oil discharged from the insulation oil connection unit by means of vacuum pressure; a defoaming/supply unit supplying new insulation oil to the X-ray tube module and defoaming the new insulation oil by means of the vacuum pressure; a buffer unit combined with the waste oil collection unit or the defoaming/supply unit, and the insulation oil connection unit, and forming a moving transport channel of for the insulation oil according to the vacuum pressure; and a worktable coupled with the X-ray tube module combined coupled with the buffer unit so that the X-ray tube module can be reversible.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of replacing an insulating oil in an X-ray tube module,

The present invention relates to a method of replacing an insulating oil in an X-ray tube module and a method of replacing the insulating oil. More specifically, the present invention facilitates the supply and discharge of insulating oil from the X-ray tube module through movement and defoaming of insulating oil using vacuum pressure, The present invention relates to a replacement device for an insulating oil in an X-ray tube module and a method for replacing an insulating oil, which can prevent foreign substances and bubbles from mixing with freshly-filled insulating oil.

Generally, an X-ray tube module is a device that generates X-rays by projecting electrons from a cathode installed in a vacuum tube toward a target anode. The X-ray tube module is used for various inspection apparatuses and diagnosis apparatuses for non-destructive inspection, medical diagnosis or chemical analysis.

The X-ray tube module can be roughly divided into a rotary anode type and a fixed anode type.

Since the rotary bipolar X-ray tube module can withstand a momentary large load, it can be widely used for devices involving X-ray imaging. In addition, since the fixed anode type X-ray tube module can be used for a relatively long time with a small instantaneous load, it can be used for a medical X-ray fluoroscopic device or a non-destructive testing device in an industrial field.

Here, the X-ray tube module includes an X-ray tube for generating X-rays, and is filled with insulating oil. Then, the insulating oil filled in the X-ray tube module absorbs the heat generated by the X-ray generation and discharges the heat to the outside of the X-ray tube module.

At this time, the insulating oil filled in the X-ray tube module is deteriorated in the insulating property due to repeated heat absorption and heat release, and foreign substances such as carbon are generated, so that the insulating oil needs to be replaced in the X-tube module.

However, when replacing the insulating oil in the X-ray tube module, the removal of foreign matter is uncertain due to the mixing of the insulating oil to be replaced and the new insulating oil, and the defoaming operation of the newly filled insulating oil is difficult.

Korean Patent Laid-Open Publication No. 2001-0087942 (entitled: Fixed Bipolar X-ray Tube Device, published on September 29, 2001)

SUMMARY OF THE INVENTION An object of the present invention is to solve the problems of the prior art, and it is an object of the present invention to smoothly supply and discharge the insulating oil in the X-ray tube module through movement and defoaming of the insulating oil using the vacuum pressure, And a method of replacing the insulating oil and a method of replacing the insulating oil in the X-ray tube module.

According to another aspect of the present invention, there is provided an apparatus for replacing an insulating oil in an X-ray tube module, comprising: an X-ray tube module for supplying or discharging insulating oil through an insulating- An apparatus for replacing an insulating oil, comprising: a waste oil collecting unit for collecting the insulating oil discharged from the insulating oil connecting portion by vacuum pressure; A defoaming supply unit for supplying new insulating oil to the X-ray tube module by vacuum pressure and defoaming new insulating oil; A buffer unit to which the waste oil collecting unit or the defoaming supplying unit is coupled and is coupled to the insulating oil connecting portion and forms a moving path of the insulating oil according to the vacuum pressure; And a work table in which the X-ray tube module to which the buffer unit is coupled is reversibly coupled.

In this case, when the waste oil collecting unit is coupled to the buffer unit, the insulating oil connecting portion is directed to the lower side of the X-ray tube module, and when the defoaming supplying unit is coupled to the buffer unit, Face the top of the module.

The waste oil collecting unit includes a waste oil vacuum pump for generating a waste oil pneumatic pressure; A collecting housing for receiving the insulating oil discharged from the X-ray tube module by the waste oil pneumatic pressure; A connecting vacuum pipe connecting the waste oil vacuum pump and the collecting housing; And a discharge insulation pipe connecting the collecting housing and the buffer unit.

Here, the defoaming supply unit may include: a first supply unit coupled to one side of the buffer unit and containing new insulating oil to be supplied to the X-ray tube module; And a second supply unit coupled to the other side of the buffer unit and supplying and defoaming new insulating oil accommodated in the first supply unit by the vacuum pressure to the X-ray tube module.

Here, the first supply unit may include: a defoaming housing housing the insulating oil to be supplied to the X-ray tube module; And a supply insulated conduit connecting the buffer unit and the defoaming housing.

Here, the first supply unit may include: a defoaming vacuum pump that applies vacuum pressure to the defoaming housing to deflate insulating oil stored in the defoaming housing; And a defoaming tube for connecting the defoaming housing and the defoaming vacuum pump, wherein the vacuum pressure applied to the first supply unit is higher than the vacuum pressure applied to the second supply unit.

Here, the second supply unit may include a supply vacuum pump for generating a vacuum pressure; And a unit connection pipe connecting the buffer unit and the supply vacuum pump so that a vacuum pressure generated in the supply vacuum pump is applied to the buffer unit.

Here, the second supply unit may include: a vacuum housing connected to the buffer unit by the unit connector; And a connected vacuum tube connecting the vacuum pump and the vacuum housing such that vacuum pressure generated in the vacuum pump is applied to the vacuum housing and the buffer unit.

Here, the buffer unit may include a hollow buffer housing to which vacuum pressure is applied by the waste oil collecting unit or the defoaming supply unit; A buffer fixing part provided at one side of the buffer housing and communicating the X-ray tube module with the buffer housing; A branch connection portion branched from the buffer fixing portion; And a unit connecting portion provided on the other side of the buffer housing, wherein when the waste oil collecting unit is coupled to the buffer unit, the unit connecting portion is disposed below the insulating oil connecting portion, The unit connecting portion is disposed above the insulating oil connecting portion.

The apparatus for replacing an insulating oil in an X-ray tube module according to the present invention further includes a pressure adjusting unit coupled to a pressure adjusting unit provided in the X-ray tube module and applying a predetermined pressure to new insulating oil accommodated in the X-ray tube module.

The apparatus for replacing an insulating oil in an X-ray tube module according to the present invention is characterized in that the position of the insulating oil connecting part is changed in accordance with the combination of the waste oil collecting unit and the buffer unit or the combination of the defoaming supplying unit and the buffer unit, And an inversion unit for inverting the inversion unit.

A method for replacing an insulating oil in an X-ray tube module according to the present invention is a method for replacing an insulating oil contained in an X-ray tube module by supplying or discharging insulating oil through an insulating oil connecting portion provided in the X- A waste oil collecting step of discharging the insulating oil accommodated in the module; An internal cleaning step of supplying new insulating oil to the X-ray tube module using the vacuum pressure and discharging the insulating oil from the X-ray tube module using the vacuum pressure after the waste oil collecting step; An insulating oil injecting step of supplying new insulating oil to the X-ray tube module using the vacuum pressure after the internal cleaning step; And a vacuum defoaming step of defoaming the new insulating oil contained in the X-ray tube module using the vacuum pressure after passing through the insulating oil injection step. When the insulating oil is discharged from the X-ray tube module, And when the insulating oil is supplied to the X-ray tube module, the insulating oil connecting portion is directed to the upper side of the X-ray tube module.

The method for replacing the insulating oil of the X-ray tube module according to the present invention further includes a pressure adjusting step of applying a predetermined pressure to the new insulating oil accommodated in the X-ray tube module after the vacuum defoaming step.

The method for replacing the insulating oil in the X-ray tube module according to the present invention includes the steps of inverting the X-ray tube module such that the position of the insulating oil connecting part is reversed in accordance with the discharge of the insulating oil in the X-ray tube module or the supply of the insulating oil to the X- .

According to the method of replacing the insulating oil in the X-ray tube module and the method of replacing the insulating oil according to the present invention, it is possible to smoothly supply and discharge the insulating oil from the X-ray tube module through movement and defoaming of the insulating oil using the vacuum pressure, It is possible to prevent foreign matter and bubbles from mixing with the insulating oil.

Further, according to the present invention, the waste oil collecting unit and the defoaming unit are stably coupled to the X-ray tube module and the vacuum pressure can be prevented from leaking.

Further, according to the present invention, a stable vacuum pressure is imparted to the X-ray tube module, the movement of the insulating oil is stabilized, and the insulating oil can be prevented from flowing back toward the unit connecting portion in the defoaming process.

Further, the present invention facilitates the discharge of the insulating oil accommodated in the X-ray tube module by the vacuum pressure, prevents the insulating oil from flowing back to the waste oil vacuum pump side, and stably discharges the insulating oil discharged from the X-ray tube module.

In addition, the present invention can safely supply new insulating oil to the X-ray tube module and prevent bubbles from being contained in the new insulating oil through the second degassing process.

Further, the present invention can supply the new insulating oil supplied to the X-ray tube module in a primary defoaming state, and prevent the bubbles from being contained while moving the insulating oil.

In addition, the present invention prevents new insulating oil from being exposed to the outside air and prevents foreign matter from being mixed into new insulating oil.

Further, the present invention can control the vacuum pressure of the buffer housing, smooth supply of new insulating oil, and secondary defoam the new insulating oil accommodated in the X-ray tube module.

Further, the present invention can simplify the supply of the insulating oil and the discharge of the insulating oil in the X-ray tube module, stably maintain the vacuum pressure of the buffer housing, and reduce the number of repetitive operations of the defoaming unit.

Further, the present invention can stabilize the pressure inside the X-ray tube module, can easily cope with thermal deformation of the insulating oil, and can reduce the occurrence of foreign matter or bubbles due to thermal deformation of the insulating oil.

Further, the present invention can reduce the time required for the secondary defoaming and promote the discharge of bubbles contained in the insulating oil.

Further, the present invention can restrict the mounting position of the X-ray tube module, stabilize the movement of the insulating oil, and facilitate the supply of the insulating oil and the discharge of the insulating oil from the X-ray tube module.

In addition, the present invention facilitates heat dissipation from heated insulating oil and prevents foreign matter from entering the inside of the X-ray tube module.

1 is a perspective view illustrating an X-ray tube module according to an embodiment of the present invention.
2 is a block diagram illustrating an apparatus for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention.
FIG. 3 is a view showing an installed state of a waste oil collecting unit in an insulating oil replacing device of an X-ray tube module according to an embodiment of the present invention.
FIG. 4 is a view showing an installation state of a defoaming unit in an insulation oil replacement apparatus of an X-ray tube module according to an embodiment of the present invention.
5 is a perspective view illustrating a buffer unit in an insulation oil replacement apparatus for an X-ray tube module according to an embodiment of the present invention.
6 is a view showing a pressure adjusting unit in an insulating oil replacing device of an X-ray tube module according to an embodiment of the present invention.
7 is a view illustrating a method for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention.

Hereinafter, an embodiment of a method of replacing an insulating oil and a method of replacing an insulating oil in an X-ray tube module according to the present invention will be described with reference to the accompanying drawings. Here, the present invention is not limited or limited by the examples. Further, in describing the present invention, a detailed description of well-known functions or constructions may be omitted for clarity of the present invention.

FIG. 1 is a perspective view showing an X-ray tube module according to an embodiment of the present invention, FIG. 2 is a block diagram showing an apparatus for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention, FIG. 4 is a perspective view showing the installation state of the defoaming unit in the insulation oil replacing device of the X-ray tube module according to the embodiment of the present invention. FIG. 5 is a perspective view illustrating a buffer unit in an insulation oil replacement apparatus for an X-ray tube module according to an embodiment of the present invention, FIG. 6 is a perspective view 1 is a view showing a pressure adjusting unit in the apparatus.

Referring to FIGS. 1 to 6, the insulating oil replacing device of the X-ray tube module according to the embodiment of the present invention can replace the insulating oil accommodated in the X-ray tube module 100 through movement and defoaming of the insulating oil using the vacuum pressure .

Particularly, as shown in FIG. 1, an insulating oil connection portion 102 through which the insulating oil is supplied or discharged is provided at one side of the X-ray tube module 100. A buffer unit 50, which will be described later, may be coupled to the insulating oil connection portion 102. The insulating oil connection portion 102 may be opened or closed through the connection plug 101.

The X-ray tube module 100 is also provided with a mounting connection portion 103 to which a mounting bracket 91 described later or an inversion unit 92 described later is coupled and fixed. At this time, the mounting connection part 103 may be provided with a tube window 106 to which X-rays generated from an X-ray tube built in the X-ray tube module 100 are irradiated.

A pressure adjusting unit 104 is provided at the other side of the X-ray tube module 100 to apply pressure to the new insulating oil accommodated in the X-ray tube module 100. The pressure adjusting unit 104 may be coupled to a pressure adjusting unit 60 described later. It is possible to apply a preset pressure to the new insulating oil accommodated in the X-ray tube module 100 through the pressure adjusting unit 60.

The X-ray tube module 100 may further include a heat exchange unit 105 for radiating heat from the X-ray tube module 100 and dissipating the insulating oil.

The X-ray tube module 100 may further include a cable connection part 107 for supplying power to the X-ray tube.

Although not shown, the X-ray tube module 100 may be provided with a circulation pump (not shown) for circulating the contained insulating oil.

The apparatus for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention supplies or discharges insulating oil through the insulating oil connecting portion 102 provided in the X-ray tube module 100, .

The apparatus for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention includes a waste oil collecting unit 10 for collecting the insulating oil discharged from the insulating oil connecting portion 102 by vacuum pressure, (10) or the defoaming and supplying unit (20) are coupled to the insulating oil connecting portion (102), and the defoaming supplying unit (20) And a work table 90 in which the X-ray tube module 100 to which the buffer unit 50 is coupled is reversibly coupled to the buffer unit 50.

In this case, when the waste oil collecting unit 10 is coupled to the buffer unit 50, the insulating oil connecting portion 102 is directed to the lower side of the X-ray tube module 100, and the defoaming / supplying unit 20 When the buffer unit 50 is coupled to the buffer unit 50, the insulating oil connection unit 102 is directed to the upper side of the X-ray tube module 100. Accordingly, the discharge of the insulating oil from the X-ray tube module 100 is facilitated by the vacuum pressure, and new insulating oil is stably supplied to the X-ray tube module 100 by the vacuum pressure and the new insulating oil can be defoamed .

The waste oil collecting unit 10 includes a waste oil vacuum pump 11, a collecting housing 12, a connecting vacuum tube 13, and a discharge insulating oil pipe 14.

The waste oil vacuum pump 11 generates a waste oil pneumatic pressure.

The collecting housing (12) is coupled to the waste oil vacuum pump (11) and receives the insulating oil discharged from the X-ray tube module (100) by the waste oil pneumatic pressure.

The connecting vacuum tube (13) connects the waste oil vacuum pump (11) and the collecting housing (12). A valve (not shown) may be provided between the waste oil vacuum pump 11 and the collecting housing 12 to select whether or not to transmit the waste oil pneumatic pressure.

The discharge insulation pipe 14 connects the collecting housing 12 and the buffer unit 50. A valve (not shown) may be provided between the collecting housing 12 and the buffer unit 50 to select whether to move the insulating oil. The discharge insulation pipe 14 is connected to the unit connection portion 54 described later.

The waste oil collecting unit 10 includes a waste oil housing 15 in which the insulating oil accommodated in the collecting housing 12 is stored and a waste oil pipe 16 connecting the collecting housing 12 and the waste oil housing 15, And a waste oil transfer motor 17 for transferring the insulating oil stored in the collecting housing 12 to the waste oil housing 15. A valve (not shown) may be provided between the collecting housing 12 and the waste oil housing 15 to select whether to move the insulating oil.

Then, the insulating oil connection portion 102 is directed to the lower side of the X-ray tube module 100. The insulating oil accommodated in the X-ray tube module 100 is discharged from the buffer unit 50 by the waste lubricating air pressure because the waste oil vacuum pump 11 operates to apply the waste oil pressure to the collecting housing 12. To be received in the collection housing (12). The insulating oil of the collecting housing 12 can be moved to the waste oil housing 15 through the waste oil pipe 16 in accordance with the operation of the waste oil transfer motor 17. [

The defoaming supply unit 20 can be divided into a first supply unit 30 and a second supply unit 40.

The first supply unit (30) is coupled to one side of the buffer unit (50). The first advanced unit (30) receives new insulating oil for supplying to the X-ray tube module (100).

The first supply unit 30 includes a defoaming housing 31 in which an insulating oil to be supplied to the X-ray tube module 100 is accommodated and a supply insulated pipe 31 connecting the buffer unit 50 and the defoaming housing 31. [ (34). A valve (not shown) may be provided between the defoaming housing 31 and the buffer unit 50 to select whether to move the insulating oil.

The first supply unit 30 includes a deaerating vacuum pump 32 for applying vacuum pressure to the deaerating housing 31 to deaerate the insulating oil stored in the deaerating housing 31, And a defoaming tube 33 for connecting the defoaming vacuum pump 32. [ A valve (not shown) may be provided between the deaerating housing 31 and the deaerating vacuum pump 32 to select whether the vacuum pressure is transmitted.

At this time, since the vacuum pressure applied to the first supply unit 30 is higher than the vacuum pressure applied to the second supply unit 40, new insulating oil of the first supply unit 30 is supplied to the buffer unit 50 So that it can move smoothly.

The first supply unit 30 includes an insulating oil housing 35 in which the insulating oil to be supplied to the defoaming housing 31 is accommodated and a supply pipe 35 connecting the defoaming housing 31 and the insulating oil housing 35 36). A valve (not shown) may be provided between the defoaming housing 31 and the insulating oil housing 35 to select whether to move the insulating oil.

The second supply unit 40 is coupled to the other side of the buffer unit 50. The second supply unit 40 feeds and defoins the X-ray tube module 100 with new insulating oil accommodated in the first supply unit 30 by the vacuum pressure.

The second supply unit 40 includes a supply vacuum pump 41 for generating a vacuum pressure and a vacuum pump 41 for supplying vacuum pressure generated by the supply vacuum pump 41 to the buffer unit 50, And a unit connection pipe (44) connecting the supply vacuum pump (41). A valve (not shown) may be provided between the buffer unit 50 and the supply vacuum pump 41 to select whether to deliver vacuum pressure.

The second supply unit 40 includes a vacuum housing 42 connected to the buffer unit 50 by the unit connection pipe 44 and a vacuum pump 42 connected to the vacuum pump 41, And a connection vacuum tube 43 connecting the supply vacuum pump 41 and the vacuum housing 42 to the buffer housing 42 and the buffer unit 50. A valve (not shown) may be provided between the buffer unit 50 and the vacuum housing 42 to select whether to transmit vacuum pressure. A valve (not shown) may be provided between the supply vacuum pump 41 and the vacuum housing 42 to select whether to deliver vacuum pressure.

Then, the insulating oil connection portion 102 is directed to the upper side of the X-ray tube module 100. Since the defoaming vacuum pump 32 applies the vacuum pressure to the defoaming housing 31, new insulating oil contained in the insulating oil housing 35 transfers the defoaming housing 31 to the defoaming housing 31, It is possible to primarily defoam the new insulating oil accommodated in the first heat exchanger 31. In addition, since vacuum pressure is applied to the vacuum housing 42 and the buffer unit 50 according to the operation of the supply vacuum pump 32, new insulating oil contained in the first supply unit 30 is supplied to the X- And the second insulating oil accommodated in the buffer unit 50 or the X-ray tube module 100 can be secondarily defoamed.

Here, when the new insulating oil is accommodated in the X-ray tube module 100, the circulating motor (not shown) is operated by the supplied power source, so that the insulating oil can be circulated in the X-ray tube module 100. Circulation of insulating oil can be divided into normal circulation and down circulation.

First, in the normal circulation, the circulation motor (not shown) according to the rated power source operates to circulate the insulating oil in the X-ray tube module 100, so that bubbles or foreign matter remaining in the X- To be mixed with insulating oil. By operating the waste oil collecting unit 10 to discharge the insulating oil from the X-ray tube module 100, bubbles or foreign matter remaining in the X-ray tube module 100 can be completely removed.

Second, the down-circulation is the operation of the circulation motor (not shown) in a state in which the output is lowered. As the insulating oil is circulated in the X-ray tube module 100, the new insulating oil accommodated in the X- It is possible to quickly and easily perform secondary defoaming in the case of dehairing.

The buffer unit 50 includes a buffer housing 51, a buffer fixing unit 52, a branch connection unit 53, and a unit connection unit 54.

The buffer housing 51 is a hollow housing, and vacuum pressure is applied by the waste oil collecting unit 10 or the defoaming unit 20. The buffer housing 51 may be made of transparent or semitransparent material in order to confirm the moving state of the insulating oil with the naked eye or to observe the inside of the buffer housing. In addition, a visual confirmation unit (not shown) may be provided in the buffer housing 51 to confirm the moving state of the insulating oil with the naked eye or to observe the inside of the buffer housing.

The buffer fixing part (52) is provided at one side of the buffer housing (51). The buffer fixing part (52) communicates the X-ray tube module (100) and the buffer housing (51). The buffer fixing portion 52 is coupled to the insulating oil connection portion 102.

The branch connection portion 53 is branched at the buffer fixing portion 52. [ The buffer connection part 53 forms a path through which the insulating oil moves. And the supply insulated pipe (34) is coupled to the buffer connection part (53).

The unit connection portion 54 is provided on the other side of the buffer housing 51. And the discharge insulation pipe 14 or the unit connection pipe 44 is coupled to the unit connection part 54. [

In this case, when the waste oil collecting unit 10 is coupled to the buffer unit 50, the unit connecting portion 54 is disposed below the insulating oil connecting portion 102. In other words, when the waste oil collecting unit 10 is coupled to the buffer unit 50, the insulating tube connecting portion 102 is inverted to the lower side of the X-ray tube module 100 The unit connecting portion 54 can be disposed on the lower side of the insulating oil connecting portion 102.

In addition, when the defoaming supply unit 20 is coupled to the buffer unit 50, the unit connection portion 54 is disposed above the insulating oil connection portion 102. In other words, when the defoaming supplying unit 20 is coupled to the buffer unit 50, the insulating tube connecting part 102 is inverted to the upper side of the X-ray tube module 100 The unit connecting portion 54 can be disposed on the upper side of the insulating oil connecting portion 102.

The apparatus for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention may further include a pressure adjusting unit 60.

The pressure adjusting unit 60 is coupled to the pressure adjusting unit 104 provided in the X-ray tube module 100. The pressure adjusting unit 60 applies a predetermined pressure to the new insulating oil accommodated in the X-ray tube module 100.

The pressure adjusting unit 60 is accommodated in the X-ray tube module 100 to apply a preset pressure to the new insulating oil and adjust the pressure inside the X-ray tube module 100.

The pressure regulating unit 60 includes a compressor 61 for generating pressure, a regulator 62 for regulating the pressure generated in the compressor 61 to a preset pressure, And a regulating pressure tube 64 connecting the regulator 62 and the X-ray tube module 100 to each other. Here, an adjustment connector 65 is coupled to the x-ray tube module 100 for connection with the adjustment pressure tube 64. The adjustment connector 65 is coupled to the pressure adjusting unit 104 provided in the X-ray tube module 100. A valve (not shown) may be provided between the compressor 61 and the regulator 62 to select whether vacuum pressure is transmitted. Further, a valve (not shown) may be provided between the regulator and the pressure adjusting unit 104 to select whether the vacuum pressure is transmitted or not.

Then, when the buffer unit 50 is coupled to the insulating oil connection part 102, the new pressure of the new insulating oil accommodated in the X-ray tube module 100 is increased to a predetermined pressure by providing a predetermined pressure to the X- .

The buffer unit 50 is detached from the X-ray tube module 100 and then the connection cap 101 is coupled to one side of the X-ray tube module 100 to close the insulating oil connection unit 102 have. Further, the adjusting connector (65) can be separated from the pressure adjusting unit (104) to complete the insulating oil replacement operation.

The apparatus for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention may further include a down-transformer 80.

The down-transformer 80 is provided in the X-ray tube module 100 to lower the output of the circulation motor (not shown) circulating the insulating oil. Then, the output of the circulating motor (not shown) is lowered in accordance with the operation of the down-transformer 80, so that the new insulating oil accommodated in the X-ray tube module 100 can be down-circulated. The secondary defoaming of the new insulating oil accommodated in the X-ray tube module 100 can be stabilized and the secondary defoaming can be quickly and easily performed according to the down-circulation.

The apparatus for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention may further include a reversing unit 92. [

The reversing unit 92 is disposed between the waste oil collecting unit 10 and the buffer unit 50 or coupled with the defoaming supply unit 20 and the buffer unit 50, The X-ray tube module 100 is inverted at the work table 90 so that the X-ray tube module 100 is changed. The inversion unit 92 is operated by a user's manipulation or an applied power source to invert the X-ray tube module 100 from the work table 90.

At this time, the X-ray tube module 100 is coupled to the work table 90 via the mounting bracket 91 so that the inversion unit 92 inverts the X-ray tube module 100 from the work table 90 . In other words, the mounting bracket 91 is fixedly coupled to the mounting connection part 103 provided in the X-ray tube module 100, and the reversing unit 92 is rotatably coupled to the work table 90 , The mounting bracket 91 is fixedly coupled to the reversing unit 92 so that the reversing unit 92 can reverse the x-ray tube module 100 from the work table 90.

Although not shown, the apparatus for replacing the insulating oil in the X-ray tube module according to an embodiment of the present invention may further include a control unit (not shown) for controlling operations of the waste oil collecting unit 10 and the defoaming unit 20 have. The control unit (not shown) may control the operation of at least one of the pressure adjusting unit 60, the down-transformer 80, and the reversing unit 92.

The control unit (not shown) can totally control the method of replacing the insulating oil in the X-ray tube module according to an embodiment of the present invention, which will be described later, by an applied power source.

Although not shown, when replacing the insulating oil in the X-ray tube module according to an embodiment of the present invention, when discharging the insulating oil from the X-ray tube module 100 or supplying the insulating oil to the X-ray tube module 100, (Not shown) for selecting a combination of the buffer unit 50 and the buffer unit 50 or the combination of the defoaming unit 20 and the buffer unit 50.

The selection valve (not shown) may select the discharge insulation oil pipe 14 or the supply insulation oil pipe 34 at the unit connection part 54. In other words, the selection valve (not shown) interconnects the unit connecting portion 54, the discharge insulating pipe 14 and the supply insulating pipe 34, and discharges the insulating oil from the X-ray tube module 100 The unit connecting portion 54 and the discharge insulating oil pipe 34 are connected to each other so that the unit connecting portion 54 and the discharge insulating oil pipe 14 are communicated with each other, Can be mutually communicated.

The mounting bracket 91 is fixed to the mounting connection portion 103 and the mounting bracket 91 is attached to the reversing unit 92 provided on the work table 90. [ To couple the X-ray tube module 100 to the work table 90 in a rotatable manner. At this time, since the insulating oil may leak from the insulating oil connecting portion 102, the insulating oil connecting portion 102 is positioned on the upper side of the X-ray tube module 100.

Then, the connection plug 101 is disconnected from the X-ray tube module 100, and the buffer fixing pipe 52 is connected to the insulating oil connection portion 102.

The process of discharging the insulating oil accommodated in the X-ray tube module 100 is to connect the waste oil collecting unit 10 to the buffer unit 50 so that the discharge insulating oil pipe 14 is connected to the branch connecting part 54 .

Then, the inverting unit 92 is operated to rotate the X-ray tube module 100 such that the insulating oil connecting portion 102 faces the lower side of the X-ray tube module 100, as shown in FIG. Then, the insulating oil accommodated in the X-ray tube module 100 is moved to the buffer housing 51.

When the waste oil vacuum pump 11 is operated, the insulating oil accommodated in the buffer housing 51 by the waste oil pneumatic pressure is moved to the collecting housing 12 via the discharge insulating oil pipe 14. The insulating oil accommodated in the collecting housing 12 is moved to the waste oil housing 15 through the waste oil pipe 16 according to the operation of the waste oil transfer motor 17. [

When the insulating housing accommodated in the buffer housing 51 is exhausted, the inverter unit 92 is operated to turn the X-ray tube module 100 toward the upper side of the X-ray tube module 100 .

As shown in FIG. 4, the branch connection unit 53 is connected to the buffer unit 50 by inserting the defoaming supply unit 20 into the buffer unit 50, And the unit connecting pipe 44 is coupled to the unit connecting portion 54. [0041]

When the defoaming vacuum pump 32 is operated, new insulating oil contained in the insulating oil housing 35 is moved to the defoaming housing 31 through the supply pipe 36. In addition, the insulating oil accommodated in the deaerating housing 31 may be primarily defoamed according to the operation of the deaerating vacuum pump 32.

Next, when the supply vacuum pump 41 is operated, the insulating oil accommodated in the defoaming housing 31 is moved to the X-ray tube module 100 and the buffer housing 51 via the supply insulated oil pipe 34 . At this time, by operating the circulation pump (not shown), new insulating oil can be stably introduced into the X-ray tube module 100, and new insulating oil can be normally circulated in the X-ray tube module 100.

The process of defoaming the new insulating oil in a state in which the new insulating oil is accommodated in the X-ray tube module 100 will now be described. In a state where new insulating oil is supplied to the X-ray tube module 100 and the buffer housing 51 through the supply of the insulating oil The new defoaming oil can be defoamed by operating the defoaming vacuum pump 32 at the same time. At this time, the X-ray tube module 100 is filled with new insulating oil, and the buffer housing 51 is filled with new insulating oil in an amount of 40% to 70% of the total volume. Since the new insulating oil is defoamed in the buffer housing 51 with the new insulating oil filled therein, new insulating oil, which is secondarily defoamed in correspondence with the bubbles discharged in accordance with defoaming of the insulating oil filled in the X-ray tube module 100, (100), and the X-ray tube module (100) can be kept filled with new insulating oil.

At this time, by operating the circulation pump (not shown) through the down-transformer 80, new insulating oil can be down-circulated in the X-ray tube module 100.

The X-ray tube module 100 is pivotally moved from the X-ray tube module 100 to the X-ray tube module 100 on the basis of a state in which the X-ray tube module 100 is upright (initial installation state) through the inversion unit 92, The bubbles generated in the bubbles can be stably discharged. In more detail, the X-ray tube module 100 can be pivoted between -30 degrees and 30 degrees through the inversion unit 92. [ Also, the X-ray tube module 100 can be pivoted between -20 degrees and 20 degrees through the inversion unit 92. [ Also, the X-ray tube module 100 can be pivoted between -15 degrees and 15 degrees through the inverting unit 92. [ Also, the X-ray tube module 100 can be pivoted between -10 degrees and 10 degrees through the inversion unit 92. [ Also, the X-ray tube module 100 can be pivoted between -5 degrees and 5 degrees through the inverting unit 92. [ It is possible to prevent the new insulating oil accommodated in the buffer housing 51 from flowing back to the unit connection portion 54 when the pivot movement is out of the allowable range.

The process of adjusting the pressure of the defoamed insulating oil in a state in which the insulating oil that has been defoamed finally in the X-ray tube module 100 is regulated will now be described. The X- The pressure adjusting unit 60 is connected to the pressure adjusting unit 104 so that the adjusting connector 65 and the adjusting pressure pipe 64 are sequentially connected.

When the compressor 61 is operated, a predetermined pressure is applied to the pressure adjusting unit 104 to apply a predetermined pressure to the new insulating oil accommodated in the X-ray tube module 100. The buffer unit 50 is detached from the X-ray tube module 100 with a preset pressure applied to the new insulating oil, and then the insulating oil connection part 102 is closed using the connection plug 101, And the adjustment connector (65) is detached from the pressure adjusting section (104). At this time, the state of the new insulating oil accommodated in the X-ray tube module 100 can be visually confirmed through the tube window 106.

The new insulating oil accommodated in the X-ray tube module 100 can be stably accommodated in the thermal deformation by applying predetermined pressure in a state in which bubbles and foreign matter are not mixed.

Hereinafter, a method for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention will be described. 7 is a view illustrating a method for replacing an insulating oil in an X-ray tube module according to an embodiment of the present invention.

Referring to FIG. 8, in the method of replacing the insulating oil of the X-ray tube module according to the embodiment of the present invention, the insulating oil is supplied or discharged through the insulating oil connecting part 102 provided in the X-ray tube module 100, (100). The method of replacing the insulating oil in the X-ray tube module according to an embodiment of the present invention can be performed by replacing the insulating oil in the X-ray tube module according to the embodiment of the present invention described above.

The method of replacing the insulating oil in the X-ray tube module according to an embodiment of the present invention includes a waste oil collecting step S2, an internal washing step S3, an insulating oil injecting step S4, and a vacuum defoaming step S5, (S1), a pressure adjusting step (S6), and an inversion step (not shown).

The exterior cleaning step (S1) cleans the exterior of the X-ray tube module (100). The exterior cleaning step S1 may be performed prior to the waste oil collection step S2. The exterior cleaning step S1 may remove foreign matter from the exterior of the X-ray tube module 100 by using the compressor 61 and the connection pressure pipe 63. [ In addition, the exterior cleaning step S1 may maximize heat dissipation of the heat exchanging unit 105 by removing foreign matter adhering to the heat exchanging unit 105. [ As the exterior cleaning step S1 is performed, it is possible to prevent foreign matter from flowing into the inside of the X-ray tube module 100 through the insulating oil connection part 102 and the pressure adjusting part 104. [

The X-ray tube module 100 having undergone the external cleaning step S1 is coupled to the work table 90 through the mounting bracket 91. [ The X-ray tube module 100 having undergone the external cleaning step S1 may be coupled to the work table 90 during the installation of the X-ray tube module 100 described above.

The waste oil collecting step S2 discharges the insulating oil stored in the X-ray tube module 100 using the vacuum pressure. The waste oil collecting step S2 may discharge the insulating oil stored in the X-ray tube module 100 through the discharge process of the insulating oil.

The inner cleaning step S3 is a step of supplying the new insulation oil to the X-ray tube module 100 using the vacuum pressure after passing through the waste oil collection step S2, To discharge the insulating oil. In the inner cleaning step S3, the supply of the insulating oil and the discharge of the insulating oil described above are sequentially performed to supply new insulating oil to the X-ray tube module 100 using the vacuum pressure, So that the insulating oil can be discharged from the X-ray tube module 100.

The inner cleaning step S3 is repeatedly performed to remove foreign substances generated in the X-ray tube module 100, thereby removing foreign matter from the X-ray tube module 100. [ In an embodiment of the present invention, the internal cleaning step S3 may be performed 2 to 4 times.

The internal cleaning step S3 includes a cleaning supply step S31 for supplying new insulating oil to the X-ray tube module 100 using the vacuum pressure after the waste oil collecting step S2, the cleaning supply step S31 And then discharging the insulating oil from the X-ray tube module 100 using vacuum pressure.

The inner cleaning step S3 may include a normal circulation step of circulating the insulating oil accommodated in the X-ray tube module 100 as the insulating oil is received in the X-ray tube module 100 after passing through the cleaning supply step S31 (S32).

In addition, the inner cleaning step S3 may further include a cleaning defoaming step (S34) for defoaming the insulating oil to be supplied to the X-ray tube module 100 prior to the cleaning supply step S31.

The internal cleaning step S3 may further include an iteration control step S35 of determining the number of repetitions from the cleaning supply step S31 to the discharge step S33. The repetitive control step S35 may determine the number of repetitions from the washing defoaming step S34 to the discharging step S33.

In addition, the inner cleaning step S3 may further include an iterative finishing step S36 for selecting whether the repetition number of times of finishing the finishing operation is to be finishing through the repetition control step S35. If the number of repetitions is closed as the repetitive finishing step S36 is completed, the insulating oil injecting step S4 is performed. If the repetition number is not completed as the repetitive finishing step S36 is completed, The supply process of the insulating oil and the discharging process of the insulating oil described above are performed again.

The insulating oil injecting step (S4) is performed through the inner washing step (S3), and then supplies new insulating oil to the X-ray tube module (100) using the vacuum pressure. The insulating oil injecting step may supply new insulating oil to the X-ray tube module 100 using the vacuum pressure through the supply of the insulating oil.

The insulating oil injecting step S4 includes a first defoaming step S41 for defoaming the new insulating oil by using the vacuum pressure after the internal cleaning step S3, Next, an insulating oil supplying step (S42) may be performed to supply new insulating oil, which is primarily defoamed by using the vacuum pressure, to the X-ray tube module (100). In the insulating oil supply step (S42), the freshly defused fresh insulating oil is filled in the buffer housing (51) by about 40% to 70%.

In the vacuum defoaming step (S5), after the insulating oil injection step (S4), the new insulating oil contained in the X-ray tube module (100) is defoamed. In the vacuum degassing step S5, the new insulating oil accommodated in the X-ray tube module 100 can be secondarily defoamed by defoaming the new insulating oil.

The vacuum defoaming step S5 includes a down-circulating step S51 for circulating the new insulating oil in a slower manner than the normal circulation in a state where the new X-ray tube module 100 is filled with new insulating oil, a new circulation step S51 for circulating in the X- And a second defoaming step (S52) of defoaming the insulating oil. The vacuum defoaming step S5 may be performed in the downward circulation step S51 or the second defoaming step 52 on the basis of the upright state of the X-ray tube module 100 (Not shown) for pivotally moving the display device 100 from side to side.

The pressure adjusting step S6 is performed after the vacuum defoaming step S5, and then a predetermined pressure is applied to the new insulating oil accommodated in the X-ray tube module 100. [ The pressure adjusting step S6 may apply predetermined pressure to the new insulating oil accommodated in the X-ray tube module 100 through the pressure adjusting process of the defoaming insulating oil.

The inverting step (not shown) may be carried out in the work table 90 so that the position of the insulating oil connection part 102 is changed according to the discharge of the insulating oil in the X-ray tube module 100 or the supply of the insulating oil to the X-ray tube module 100 The X-ray tube module 100 is inverted. The inversion step (not shown) is included in each of the waste oil collecting step S2, the internal cleaning step S3 and the insulating oil injecting step S4 to supply the insulating oil through the inversion unit 92, The X-ray tube module 100 is inverted so that the position of the insulating oil connection portion 102 is changed during the discharge process.

According to the above-described method of replacing the insulating oil in the X-ray tube module and the method of replacing the insulating oil, it is possible to smoothly supply and discharge the insulating oil from the X-ray tube module 100 through movement and defoaming of the insulating oil using the vacuum pressure, It is possible to prevent foreign matters and bubbles from mixing with the newly filled insulating oil.

In addition, the waste oil collecting unit 10 and the defoaming supply unit 20 are stably coupled to the X-ray tube module 100, and the vacuum pressure can be prevented from leaking.

In addition, a stable vacuum pressure is applied to the X-ray tube module 100 to stabilize the movement of the insulating oil and to prevent the insulating oil from flowing back toward the unit connecting portion 54 in the defoaming process.

In addition, by the vacuum pressure, the insulating oil contained in the X-ray tube module 100 can be easily discharged, the insulating oil can be prevented from flowing back to the waste oil vacuum pump 11 side, Can be stably discarded.

In addition, new insulating oil can be safely supplied to the X-ray tube module 100, and bubbles can be prevented from being contained in new insulating oil through a second defoaming process.

Further, new insulating oil supplied to the X-ray tube module 100 can be supplied in a primary defoaming state, and bubbles can be prevented from being contained while moving the insulating oil.

In addition, it is possible to prevent the new insulating oil from being exposed to the outside air, and to prevent the foreign matter from being mixed with the new insulating oil.

Further, it is possible to adjust the vacuum pressure of the buffer housing 51, smoothly supply new insulating oil, and secondarily defoam the new insulating oil contained in the X-ray tube module 100.

It is also possible to simplify the supply of the insulating oil and the discharge of the insulating oil from the X-ray tube module 100, stably maintain the vacuum pressure of the buffer housing 51, reduce the number of repetitive operations of the defoaming unit 20, Can be saved.

Further, it is possible to stabilize the pressure inside the X-ray tube module 100, to easily cope with thermal deformation of the insulating oil, and to reduce the occurrence of foreign substances or bubbles due to thermal deformation of the insulating oil.

In addition, it is possible to reduce the time required for secondary defoaming and to promote the discharge of bubbles contained in the insulating oil.

In addition, the mounting position of the X-ray tube module 100 is limited, the movement of the insulating oil is stabilized, and the supply of the insulating oil and the discharge of the insulating oil from the X-ray tube module 100 can be facilitated.

In addition, heat dissipation from the heated insulating oil can be facilitated, and foreign matter can be prevented from entering the inside of the X-ray tube module 100.

As described above, by replacing the insulating oil in the X-ray tube module 100, viscosity of the insulating oil can be restored in the X-ray tube module 100, foreign substances such as carbon mixed in the insulating oil can be removed, Ray tube module 100 can prevent a spit from occurring due to viscosity or resistance due to bubbles or foreign matter and prevent structural defects (bellows tear, bolt loosening, etc.) inside the X-ray tube module 100, It is possible to stably maintain the new insulating oil accommodated in the cylinder at a predetermined pressure.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Modify or modify the Software.

10: waste oil collecting unit 11: waste oil vacuum pump 12: collecting housing
13: connection vacuum tube 14: discharge insulation oil pipe 15: waste oil housing
16: waste oil pipe 17: waste oil feed motor 20: defoaming feed unit
30: first supply unit 31: defoaming housing 32: defoaming vacuum pump
33: degassed vacuum tube 34: supply insulated oil pipe 35: insulating oil housing
36: supply pipe 40: second supply unit 41: supply vacuum pump
42: vacuum housing 43: connecting vacuum tube 44: unit connector
50: buffer unit 51: buffer housing 52: buffer holder
53: branch connecting portion 54: unit connecting portion 60: pressure adjusting unit
61: compressor 62: regulator 63: connection pressure tube
64: regulating pressure tube 65: regulating connector 80: down-transformer
90: work table 91: mounting bracket 92: reverse unit
100: X-ray tube module 101: connection plug 102:
103: mounting connecting portion 104: pressure adjusting portion 105: heat exchanging portion
106: Tube window 107: Cable connection
S1: exterior cleaning step S2: waste oil collecting step S3: internal washing step
S31: Cleaning supply step S32: Normal circulation step S33: Discharging step
S34: Cleaning and defoaming step S35: Repetitive control step S36: Repeat closing step
S4: Insulating oil injecting step S41: First defoaming step S42: Insulating oil supplying step
S5: Vacuum defoaming step S51: DOWN circulation step S52: Second defoaming step
S6: pressure adjustment step

Claims (13)

An apparatus for replacing an insulating oil contained in an X-ray tube module by supplying or discharging insulating oil through an insulating oil connecting portion provided in the X-ray tube module,
A waste oil collecting unit for collecting the insulating oil discharged from the insulating oil connecting portion by vacuum pressure;
A defoaming supply unit for supplying new insulating oil to the X-ray tube module by vacuum pressure and defoaming new insulating oil;
A buffer unit to which the waste oil collecting unit or the defoaming supplying unit is coupled and is coupled to the insulating oil connecting portion and forms a moving path of the insulating oil according to the vacuum pressure; And
And a work table in which the X-ray tube module to which the buffer unit is coupled is reversibly coupled,
When the waste oil collecting unit is coupled to the buffer unit, the insulating oil connecting portion is directed to the lower side of the X-ray tube module,
Wherein when the defoaming supply unit is coupled to the buffer unit, the insulating oil connection portion is directed to the upper side of the X-ray tube module. The method according to claim 1,
The waste oil collecting unit includes:
Waste oil vacuum pump generating pneumatic pressure;
A collecting housing for receiving the insulating oil discharged from the X-ray tube module by the waste oil pneumatic pressure;
A connecting vacuum pipe connecting the waste oil vacuum pump and the collecting housing; And
And a discharge insulation oil pipe connecting the collection housing and the buffer unit. The method according to claim 1,
The defoaming supply unit includes:
A first supply unit coupled to one side of the buffer unit and containing new insulating oil for supplying to the X-ray tube module; And
And a second supply unit coupled to the other side of the buffer unit and supplying and defoaming new insulating oil accommodated in the first supply unit by vacuum pressure to the X-ray tube module. . The method of claim 3,
Wherein the first supply unit comprises:
A defoaming housing housing the insulating oil to be supplied to the X-ray tube module; And
And a supply insulated pipe connecting the buffer unit and the defoaming housing. 5. The method of claim 4,
Wherein the first supply unit comprises:
A defoaming vacuum pump for applying vacuum pressure to the defoaming housing so that the insulating oil stored in the defoaming housing is defoamed; And
And a defoaming tube connecting the defoaming housing and the defoaming vacuum pump,
Wherein the vacuum pressure applied to the first supply unit is higher than the vacuum pressure applied to the second supply unit. The method of claim 3,
Wherein the second supply unit comprises:
A supply vacuum pump for generating vacuum pressure; And
And a unit connection pipe connecting the buffer unit and the supply vacuum pump so that a vacuum pressure generated in the supply vacuum pump is applied to the buffer unit. The method according to claim 6,
Wherein the second supply unit comprises:
A vacuum housing connected to the buffer unit by the unit connector; And
Further comprising: a connection vacuum tube for connecting the supply vacuum pump to the vacuum housing so that the vacuum pressure generated by the supply vacuum pump is applied to the vacuum housing and the buffer unit. The method according to claim 1,
Wherein the buffer unit comprises:
A hollow buffer housing to which vacuum pressure is applied by the waste oil collecting unit or the defoaming supply unit;
A buffer fixing part provided at one side of the buffer housing and communicating the X-ray tube module with the buffer housing;
A branch connection portion branched from the buffer fixing portion; And
And a unit connection part provided on the other side of the buffer housing,
When the waste oil collecting unit is coupled to the buffer unit,
The unit connection portion is disposed below the insulating oil connection portion,
When the defoaming supply unit is coupled to the buffer unit,
And the unit connecting portion is disposed on the upper side of the insulating oil connecting portion. 9. The method according to any one of claims 1 to 8,
Further comprising a pressure adjusting unit coupled to the pressure adjusting unit of the X-ray tube module and applying a preset pressure to the new insulating oil accommodated in the X-ray tube module. 9. The method according to any one of claims 1 to 8,
And an inverting unit for inverting the X-ray tube module at the work table so that the position of the insulating oil connecting part is changed in accordance with the combination of the waste oil collecting unit and the buffer unit or the combination of the defoaming supplying unit and the buffer unit To replace the insulation oil in the X-ray tube module. A method for replacing an insulating oil contained in an X-ray tube module by supplying or discharging insulating oil through an insulating oil connecting portion provided in the X-ray tube module,
A waste oil collecting step of discharging the insulating oil accommodated in the X-ray tube module using vacuum pressure;
An internal cleaning step of supplying new insulating oil to the X-ray tube module using the vacuum pressure and discharging the insulating oil from the X-ray tube module using the vacuum pressure after the waste oil collecting step;
An insulating oil injecting step of supplying new insulating oil to the X-ray tube module using the vacuum pressure after the internal cleaning step; And
And a vacuum defoaming step of defoaming the new insulating oil contained in the X-ray tube module by using the vacuum pressure after passing through the insulating oil injection step,
When the insulating oil is discharged from the X-ray tube module, the insulating oil connecting portion is directed to the lower side of the X-ray tube module,
Wherein when the insulating oil is supplied to the X-ray tube module, the insulating oil connecting portion is directed to the upper side of the X-ray tube module. 12. The method of claim 11,
Further comprising a pressure adjusting step of applying a predetermined pressure to the new insulating oil accommodated in the X-ray tube module after the vacuum defoaming step. 12. The method of claim 11,
And an inverting step of inverting the X-ray tube module such that the position of the insulating-oil connecting part is changed according to the discharge of the insulating oil in the X-ray tube module or the supply of the insulating oil to the X-ray tube module. How to replace.

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