KR20090009602A - Apparatus for generating x-ray of high power - Google Patents

Abstract

A high power X-ray generator is provided to remove cooling hose which causes heat loss by integrally installing a chiller on a side of the X-ray generator housing. A high power X-ray generator comprises insulating oil(211) cooling the heat generated in an X-ray generator(220) and insulates electricity, and a chiller(240) mounted on one side of a housing(210) into one body in order to cool the insulating oil. The chiller includes an insulating oil transfer pipe(241), a cooling fin(242) formed in a part of the transfer pipe, a cooling fan(243) cooling the cooling fin, and a pump(244) inducing the insulating oil from one side to the other side of the housing.

Description

High Power X-Ray Generator {APPARATUS FOR GENERATING X-RAY OF HIGH POWER}

The present invention relates to an X-ray generator, in particular, by cooling the heat generated from the X-ray generator by integrating the cooling device with the housing quickly, by installing the X-ray generator and the high voltage generator in one housing, high-power X-ray generation The present invention relates to a high-power x-ray generating apparatus capable of miniaturizing a device by significantly reducing its volume, as well as simplifying operation and dramatically reducing manufacturing costs by reducing the number of parts.

Non-destructive testing is applied to the physical properties of a material or material, that is, heat, radiation, sound waves, electricity and magnetic energy, etc. to the test object, such as abnormality in the structure of the material (life or object) or the nature and properties of the energy applied due to the presence of defects. This change is a method of identifying abnormalities of tissues or the existence of defects by measuring the amount of change using a suitable transducer.

As a representative example of non-destructive testing equipment, X-ray generators have been applied for medical or industrial purposes for a long time.

Among them, the industrial X-ray generator is used to measure or inspect the abnormality of the material such as the thickness and cracks of the article after the transmitted X-ray is incident or displayed on the X-ray detection sensor after the X-ray is transmitted through the article manufactured by the industry have.

On the other hand, in order to inspect the abnormality of the articles manufactured in many industrial sites, such as X-ray that can be continuously used at a high power of at least 400W is required. However, in order to increase the output of X-rays or use them continuously, the ability to cool the heat generated by the X-ray generators quickly and effectively is required.

To this end, as shown in FIG. 1, the conventional high output X-ray generator includes a housing 111 having a window 111a for emitting X-rays on one side and an X-ray generator disposed in the housing 111 to generate X-rays. An X-ray generator (110) formed of an insulating oil (112) and an insulating oil (112) filled in the housing (111) to cool and insulate heat generated from the X-ray generator (112); The heat generated by the high voltage generator 122 is generated in the high voltage generator 122 and the housing 121 that are generated in the housing 121 and generate the high voltage required for the housing 121 and the X-ray generator 110. A high voltage generator (120) made of insulating oil (123) for cooling and insulating; A cooling device 130 including a pump, a radiator, a condenser, and the like, for cooling the insulating oil 112 of the X-ray generator; It consists of a provided structure. That is, the conventional high output X-ray generator 100 is characterized in that the X-ray generator 110, the high voltage generator 122 and the cooling device 130 are formed separately.

In the conventional high output X-ray generator, the X-ray generator 110 is circulated and cooled by the cooling device 130 to cool the insulating oil 113 filled in the housing 111 to cool the heat generated when the X-ray is generated. The housing 111 and the cooling device 130 to be accommodated are separated and installed at a long distance from each other, and the insulating oil hose 130a is exposed to the outside between the housing 111 and the cooling device 130 for a long time. have. Therefore, the insulating oil 113 cooled by the cooling device is circulated along the insulating oil hose 130a, thereby depriving the cold air, resulting in heat loss. In order to make up for the reduction in cooling efficiency due to such heat loss, the cooling device 130 of the conventional high power X-ray generating apparatus 100 cannot simply use a simple device consisting of a radiator and a fan, and a refrigerator such as a condenser, a pump, a radiator, and the like. Since the same cooling system had to be employed, the volume was very large.

In addition, since the high voltage generator 122 is also separated from the X-ray generator 110, an expensive high-voltage cable 121a must be installed to interconnect the high voltage generator 122 and the X-ray generator 110. In order to insulate the high voltage between 40 kV and 160 kV, a separate insulating oil 122 had to be charged into the housing 120 of the high voltage generator 121.

Accordingly, the conventional high output X-ray generator not only has a problem in that the manufacturing cost is significantly increased, but also the volume occupied by each device is increased because the X-ray generator 110, the cooling device 130, and the high voltage generator 122 are separated from each other. It was so large that a significant area of work was required to accommodate these devices. Moreover, since the apparatuses are separated, the worker has no choice but to perform operations necessary for the task of switching between the three apparatuses, thereby reducing the productivity of the task.

The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to cool a high-power X-ray generator even with a small cooling device that does not require a condenser and to significantly reduce volume and manufacturing cost. It is to provide an X-ray generator that can be.

Another object of the present invention is to integrate the X-ray generator and the high voltage generator in one housing, thereby significantly reducing the volume of the X-ray generator, eliminating the use of expensive high-voltage cables, and at the same time use the insulating oil of the X-ray generator in combination with the high voltage generator. It is possible to provide a high output x-ray generating apparatus that can further reduce manufacturing costs and improve workability.

The present invention for achieving the above object is a housing having a window for emitting X-rays on one side, an X-ray generator disposed in the housing for generating an X-ray, a high voltage generator for generating a high voltage required for the X-ray generator, the housing A high power x-ray generating device including an insulating oil filled in the liquid to cool and insulate electricity generated from the x-ray generator, and a cooling device for cooling the insulating oil, wherein the cooling device includes an insulating oil transfer pipe and a part of the transfer pipe. A heat sink formed in the fan, a fan for cooling the heat sink, and a pump for extracting the insulating oil from one side of the housing and allowing the insulating oil to flow into the other side of the housing through the heat sink. Arranged on one side and integrally formed It is characterized by the configuration.

As described above, the X-ray generator according to the present invention has a technical feature that the cooling device is formed of a heat sink and a fan, and the cooling device is formed to be integrally disposed on one side of the X-ray generator device housing. Through this, it is possible to prevent the cooling loss through the insulating oil hose, and to solve problems such as volume increase, manufacturing cost increase, and operation complexity by separately configuring the cooling device.

On the other hand, the output of the X-ray generator may be used in a variety of low output to high output, considering the efficiency of the cooling device is most preferably in the range of 400 ~ 800W.

In addition, the X-ray generator according to the present invention for achieving another object of the present invention, the high voltage generator is disposed in the housing with the X-ray generator, the high voltage generator is configured to cool and insulated through the insulating oil filled in the housing There is an enemy characteristic.

As such, by separately configuring the high voltage generator in the conventional high output X-ray generator, the high voltage cable provided between the X-ray generator and the high voltage generator can be removed by arranging together the housing of the X-ray generator, and at the same time, the insulating oil required for the high voltage generator It can be covered by the X-ray generator, it can significantly reduce the volume of the product, and also reduce the manufacturing cost and maintenance costs.

As described above, the present invention efficiently combines the high voltage generator and the X-ray generator together in one housing, so that the high voltage generated from the high voltage generator can be safely applied to the X-ray generator without using the high voltage cable, thereby miniaturizing the device. At the same time, the insulating oil for the high voltage generator is not required separately, thereby saving the insulating oil.

In addition, by forming the cooling unit integrally on one side of the X-ray generator housing to eliminate the cooling hose, it is possible to prevent heat loss of the insulating oil circulated through the cooling hose and to improve the cooling capacity even with a small cooling device. It is effective to generate high power X-rays.

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

Here, the terms used in the present invention are defined in consideration of the functions in the present invention, which should be interpreted in their own commonly used meanings.

2 is a schematic view showing an x-ray generator according to an exemplary embodiment of the present invention.

As shown in FIG. 2, the present invention is roughly composed of a housing 210, an X-ray generator 220, a high voltage generator 230, and a cooling device 240.

The housing 210 is formed of a hollow body for accommodating the X-ray generator 220 and the high voltage generator 230, and a window 201a is formed at one side thereof to emit the X-ray generated from the X-ray generator 220. .

In addition, the housing 210 is preferably made of aluminum for the function of heat conductivity and X-ray as an additional filter.

That is, the housing 210 is a thermal and functional because it has a function as an additional filter to smoothly discharge the heat generated when the X-ray generation in the X-ray generator 220 to the outside, and to prevent unnecessary exposure to the user from the irradiated X-rays, etc. Considering the characteristics, aluminum is suitable.

In addition, an inside of the housing 210 is filled with insulating oil 211 (insulating oil) for insulation and cooling functions during the operation of the high voltage generator 230 and the X-ray generator 220.

The insulating oil 211 is generally used for electrical insulation of transformers, circuit breakers, capacitors, cables, etc., but may be any of those having high volumetric electrical resistance, low viscosity, and stability against oxidation. desirable.

The X-ray generator 220 is formed on one side in the housing 210, and consists of a capsule-shaped tube 221, one side is opened to the outside of the tube 221 for the discharge of the generated X-rays The shielding film 222 made of lead is formed to be wrapped.

Therefore, since the X-ray radiated from the X-ray generator 220 is emitted only to an open portion on one side of the shielding membrane 222 and is not transmitted at all to the other wall, the X-ray generator 220 may be dangerous. This can make things more certain.

The high voltage generator 230 is formed of a transformer having a high voltage generation circuit.

In the housing 210, the high voltage generator 230 and the X-ray generator 220 are disposed together. That is, the high voltage generator 230 is connected to the positive end of the tube 221 of the X-ray generator 220 by any connection means known in the art to the initial voltage supplied by the power (not shown) to a high voltage By converting, a high voltage is applied to the X-ray generator 220.

In addition, the high voltage generator 230 and the X-ray generator 220 integrally formed in the housing 210 are simultaneously cooled and insulated through the insulating oil filled in the housing 210.

Therefore, it is not necessary to install expensive high voltage cables as in the prior art, and the structure is simplified, and the manufacturing cost is reduced, and at the same time, the insulating oil charged to the housing of the X-ray generator and the high voltage generator for cooling and electrical insulation is reduced by about half. can do.

The cooling device 240 includes an insulating oil feed pipe 241, a heat sink 242 formed at one end of the insulating oil feed pipe 241, a fan 243 for cooling the heat sink 242, and It includes a pump 244 for deriving the insulating oil 211 from one side of the housing 210 to pass the heat sink 242 to the insulating oil flows into the other side of the housing 210, the housing 210 It is formed integrally on one side of).

In more detail, the transfer pipe 241 is an insulating oil lead-out pipe (discharge pipe) 241a which is located at a portion from which the insulating oil 211 filled in the housing 210 is drawn out, and the derived insulating oil 211. The insulating oil inlet pipe (supply pipe) 241b is positioned at a portion for reflowing the insulating oil 211 that is cold-heat exchanged through the heat sink 242 having the cooling fan 243 into the housing 210.

One end of the insulating oil induction pipe 241a is installed at one side of the housing 210, and one end of the insulating oil inflow pipe 241b is installed at the other side of the housing 210. The other ends of the tube 241b are respectively connected to both sides of the heat sink 242 which is cooled by the cooling fan 243.

In addition, a pump 244 is integrally installed at the other side of the housing 210 to fill the insulating oil 211 filled in the housing 210 with the insulating oil lead-out pipe 241a, the heat sink 242, and the insulating oil inflow pipe 241b. ) To cycle through them.

Here, the insulating oil inlet pipe 241b has a shorter length connected between the heat sink 242 and the housing 210 than the insulating oil induction pipe 241a.

This is because the heat loss due to the movement of the insulating oil 211 does not occur before the cold heat exchange, but occurs after the cold heat exchange.

That is, in the process of transferring the insulating oil 211 derived for cold heat exchange to the heat sink 242, no heat loss occurs, but the insulating oil 211 through which the heat exchange is performed through the heat sink 242 is heat during the transfer process. Since the loss may occur, the length of the insulating oil inflow pipe 241b connected between the heat sink 242 and the housing 210 is very short to prevent heat loss.

Accordingly, as the X-ray generator and the cooling apparatus are conventionally installed separately, the cooling hose which is connected at a long distance is almost unnecessary, and thus the heat of the cold-heat exchanged insulating oil generated by the long time that the cold-heat exchanged insulating oil is circulated along the cooling hose is increased. There is no loss.

In addition, since the cooling heat is faster and the cooling efficiency is excellent, the high heat generated by the X-ray generator 220 can be quickly and smoothly cooled even with a small cooling device, thereby generating high output X-rays.

In addition, since the cooling apparatus is miniaturized according to the improvement of the cooling capability, the entire high output X-ray generator can be manufactured in a very small size.

Referring to the operation state of the high-power X-ray generating apparatus according to the present invention configured as described above are as follows.

First, by using the high output X-ray generating apparatus according to the present invention in advance to recognize the thickness of the steel sheet to be checked for abnormalities such as thickness or cracks, power (not shown) in order to generate the X-rays necessary for abnormality inspection To the high voltage generator 230.

At this time, it is typically configured to change the voltage applied to the X-ray generator 220 in order to variably change the X-ray output according to the thickness of the product to be inspected.

The high voltage generated by the high voltage generator 230 to which the power is applied is applied to the X-ray generator 220 which is integrally connected to generate X-rays.

The X-ray generated by the X-ray generator 220 is transmitted through the product to the X-ray detection sensor (not shown), and the sensor detects the amount of energy of the incident X-rays, thereby inspecting for cracks or other defects in the product. Measure

In addition, at the same time as the operation of the X-ray generator 220, the cooling device 240 also operates while cooling the high heat of the X-ray generator 220 generated by generating the X-ray using a high voltage quickly and effectively.

That is, the cooling device 240 integrally installed in the housing 210 operates the pump 244 to derive the insulating oil 211 filled in the housing 210 to obtain the induction pipe of the insulating oil transfer pipe 241 ( The insulating oil 211 which is moved to the heat sink 242 having the cooling fan 243 through 241a, and cold-heat exchanged while passing through the heat sink 242 immediately flows into the insulating oil inlet pipe 241b and immediately enters the housing 210. Since it is introduced to the other side, heat loss due to movement after cold heat exchange is prevented at the source to cool the high temperature of the X-ray generator 220 quickly and smoothly.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various changes, modifications, and equivalent changes to other embodiments may be made without departing from the technical spirit of the present invention. It will be apparent to those of ordinary skill in the art.

1 is a schematic view showing a conventional x-ray generator.

2 is a schematic view showing an x-ray generating apparatus according to the present invention.

※ Explanation of symbols for main parts of drawing ※

200: x-ray generator 210: housing

210a: x-ray emission window 211: insulating oil

220: x-ray generator 221: tube

222: shielding membrane 230: high voltage generator

240: cooling device 241: transfer pipe

241a: insulation oil induction pipe 241b: insulation oil inflow pipe

242: heat sink 243: cooling fan

244: Pump

Claims (4)

A housing having a window for emitting x-rays on one side, an x-ray generator disposed in the housing for generating x-rays, a high voltage generator for generating high voltages required for the x-ray generator, and heat generated in the housing and generated in the x-ray generator An x-ray generating apparatus including an insulating oil for cooling and insulating the electricity, and a cooling device for cooling the insulating oil, The cooling device includes an insulating oil feed pipe, a heat sink formed on a portion of the transfer pipe, a fan for cooling the heat sink, and an insulating oil drawn from one side of the housing to pass through the heat sink to insulate the oil into the other side of the housing. And a pump to make it possible, wherein the cooling device is disposed on and integrated with one side of the housing. The x-ray generator of claim 1, wherein the output of the x-ray generator is 400 to 800W. The x-ray generator of claim 1, wherein a high voltage generator is disposed together with the x-ray generator in the housing, and the high voltage generator is cooled and insulated through insulating oil filled in the housing. According to claim 1 or 2, wherein the insulating oil feed pipe, the insulating oil inlet pipe and the insulating oil induction pipe, the insulating oil inlet pipe is characterized in that the length connected between the heat sink and the housing is shorter than the insulating oil induction pipe X-ray generator.

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