KR20090006035U - The sample collecting equipment for uranium dioxide powder using fuel of an atomic power generation - Google Patents

Abstract

The present invention relates to a sampling device for uranium dioxide powder for nuclear power fuel.

The sample collection device of the present invention has a passage in three directions, including two straight lines, and a chamber in which a sampling container can be mounted on the lower passage side, and one of the passage sides formed in a straight line of the chamber. And a spoon member which is fastened to the cylinder's operating rod, and is opened upward, and has a hinged bottom surface which is opened by its own weight and the other of the two sides formed in a straight line of the chamber. It is installed on the side of the passage comprises a spoon guide connected to the discharge pipe of uranium oxide while closing the bottom surface of the spoon member.

The present invention provides a sampling device that is easy to disassemble and assemble, shorten the time required for maintenance, increase the operating efficiency of the equipment, and prevent failure due to friction and wear.

Nuclear, fuel, uranium, powder, sample, sample, collection

Description

Sampling device for uranium dioxide powder for nuclear power fuel {THE SAMPLE COLLECTING EQUIPMENT FOR URANIUM DIOXIDE POWDER USING FUEL OF AN ATOMIC POWER GENERATION}

The present invention relates to a sampling device for uranium dioxide powder for nuclear power fuel.

In general, uranium dioxide powder is the most commonly used fuel for nuclear power generation. As a method of manufacturing such uranium dioxide powder, a standard electric resistance furnace or a combustion heating furnace is usually used in the decomposition and reduction stages to decompose a fuel of nuclear power in a gaseous form into UO ₂ F ₂ , followed by uranium dioxide powder. Through a process such as reducing.

However, the uranium dioxide powder has a problem that exothermic and endothermic reactions are intricately intertwined with each other in the manufacturing process, affecting each other, and that defective products can be mass produced due to different reaction speeds between the particles.

Therefore, in the process of discharging the powder for nuclear power fuel, that is, converting uranium hexafluoride (UF ₆ ) to uranium dioxide (UO ₂ ), in the powder discharging process, a predetermined amount of fuel powder is collected and the degree of defect of the corresponding lot is collected. Should be identified.

It is a device for collecting powder for nuclear power fuel used in this case. Conventionally, it is connected with arm, piston, spoon, driving motor, driving motor which converts rotational movement into linear movement by applying cam driving method. It consists of complex mechanical structures such as gears and gearboxes.

However, the nuclear fuel powder sampler using the cam driving method according to the prior art frequently suffers from failure due to wear caused by mutual friction between the interlocking gears and the foreign matter such as fine dust or powder particles trapped inside the gearbox. There is this.

In addition, when a failure occurs, due to a complicated mechanical structure, it is not easy to determine the cause of the failure, even if the cause is identified, it takes a long time to dismantle and maintain, there is a problem that the operation of the equipment must be stopped for a long time.

In addition, the drive motor or the gearbox of the prior art is not easy to procure the goods due to the expensive imported goods, of course, there is a problem that can not be urgently repaired or replaced by other parts when the failure of the corresponding parts.

The present invention is to solve the problems of the prior art as described above, to prevent the operation failure caused by foreign substances such as fine dust or powder particles, nuclear power that can improve the failure due to wear by reducing the friction between the components It is to provide a sampling device of uranium dioxide powder for power generation fuel.

The present invention aims to provide a sample collection device for uranium oxide powder for nuclear power fuel that can be easily disassembled and assembled, simple to identify the cause of failure, and shorten maintenance time by simplifying the mechanical structure. .

In addition, the present invention is to provide a sampling device of uranium dioxide powder for nuclear power fuel for localization of parts that can improve the procurement situation as well as the cost burden for a particular part.

Sampling device of the uranium dioxide powder for nuclear power fuel of the present invention for solving the problems as described above, while forming a passage in three directions, including a straight line in both directions, the lower passage side chamber and the chamber can be installed, The cylinders provided on either side of the passage formed in a straight line of the chamber and the working rods of the cylinders are connected to each other and are opened upward, and the hinged bottom surface is opened by its own weight. A spoon member and a spoon guide provided on the other side of the passage formed in a straight line of the chamber and connected to the discharge pipe of uranium oxide while closing the bottom surface of the spoon member.

The present invention applies a pneumatic or hydraulic cylinder, the spoon guide adopts a form in which the opening end of the insertion hole is opened to the outside can be carried out in a variety of forms, such as smooth insertion of the spoon member during operation. In particular, the bottom surface of the spoon member is provided with a slip groove, and the spoon guide is provided with a slip rail to facilitate a smooth operation and to minimize the friction between the spoon member and the spoon guide to prevent wear.

According to the sampling device of the uranium dioxide powder for nuclear power fuel of the present invention, by adopting the pneumatic or hydraulic cylinder, it prevents the operation failure caused by foreign substances such as fine dust or powder particles, and comprises a slip groove and a slip rail Minimizes friction and wear of the liver and prevents equipment failure and improves productivity.

In addition, the present invention simplifies the mechanical structure, easy disassembly and assembly, it is easy to identify the cause when a failure occurs, and the maintenance time is shortened, thereby reducing the downtime of the facility.

In addition, the present invention has the effect of reducing the cost burden through the localization of the equipment, by smoothly improving the procurement of parts, so as to easily cope with the emergency.

Hereinafter, with reference to the accompanying drawings, the configuration according to a preferred embodiment of the present invention will be described in detail.

As shown in FIG. 1, the present invention provides a discharge pipe 60 of a powder discharge process in which a discharge process of nuclear power fuel powder 80, that is, uranium hexafluoride (UF ₆ ) is converted into uranium dioxide (UO ₂ ) and discharged. It is connected to a predetermined position, and collects a sample by a predetermined amount in order to determine the degree of failure in the decomposition and reduction process of the nuclear power fuel powder 80, the chamber 10 and the cylinder 20 is approximately , The spoon member 30 and the spoon guide 40 is configured in the form including.

The chamber 10 is a kind of a housing, and forms a predetermined passage 11 in three directions, including both directions in a straight line, and a sampling container 50 can be mounted on the lower passage 11 side. In the form of

Here, a predetermined locking lever 12 is further provided on the lower passage 11 side of the chamber 10 to ensure airtightness between the spout and the lower passage 11 of the chamber 10 when the sampling container 50 is mounted. By making it possible, the shape which can prevent the leakage of the nuclear power fuel powder 80 in the process of taking a sample is good.

In addition, the cylinder 20 is installed in one of the passages 11 in one of the two straight directions by the chamber 10, and the predetermined spoon guide 40 is provided in the other passage 11 side. A predetermined packing member 70 may be provided between the chamber 10 and the cylinder 20 and the spoon guide 40 to maintain airtightness.

At this time, the cylinder 20 can be implemented in any one of the pneumatic method or the hydraulic method, but preferably by adopting the pneumatic method, that is, the air cylinder, to prevent the operation failure due to foreign matter such as fine dust or powder particles Good form.

In addition, the spoon guide 40 is for connecting the predetermined spoon member 30 to the discharge pipe 60 of the fuel powder 80 to be collected, for example, nuclear power generation fuel powder in the converter as shown in FIG. 80) That is, the uranium dioxide (UO ₂ ) powder may be implemented in various ways, such as a predetermined type of connection pipe connected to the discharge pipe 60 falling.

As shown in FIG. 2, the present invention has a form in which a predetermined spoon member 30 is fastened to an operating rod 21 of a cylinder 20. Spoon member 30 is a predetermined form opened in the upper direction, the hinge is coupled to the bottom surface 31 is made of a form that can be opened by its own weight while rotating based on the hinge point.

As shown in FIG. 3, the spoon guide 40 installed on the other side of the passage 11 in the straight direction of the chamber 10 moves the spoon member 30 to the discharge pipe 60 of uranium oxide (U _x O _y ) during operation. At the same time to close the bottom surface 31 of the spoon member 30 to maintain the predetermined spoon shape is made to be in parallel.

That is, the spoon guide 40 may have a shape in which the opening end 42 of the insertion hole 41 is opened to the outside so as to smoothly insert the spoon member 30 during operation.

In addition, the bottom surface 31 of the spoon member 30 is provided with a slip groove 31a, and the lower end of the spoon guide 40 is provided with a slip rail 41, but during operation the spoon member 30 and the spoon By minimizing the friction between the guides 40, it is also possible to minimize the wear caused by the friction between the configuration.

That is, the present invention is limited to the slip groove 31a and the slip rail 41 by the friction between the spoon member 30 and the spoon guide 40, so as to prevent wear due to friction between the components. good.

Hereinafter, a brief look at the operating relationship between the technical configuration according to the preferred embodiment of the present invention as described above.

First, the operation of the present invention, as shown in FIG. 3, the chamber 10 at a predetermined portion of the discharge pipe 60 through which the nuclear power fuel powder 80, ie, uranium hexafluoride (UF ₆ ) is converted into uranium dioxide (UO ₂ ) and discharged. And the cylinder 20, the spoon member 30 and the spoon guide 40 is made in the state of being linked, the lower passage 11 of the chamber 10 by the lock lever 12, the predetermined sampling container 50 Is mounted in a state where airtightness is maintained.

When a predetermined air pressure is applied to the cylinder 20, the operation rod 21 is drawn out from the cylinder 20, and thus the spoon member 30 goes straight into the insertion hole 42 of the spoon guide 40.

At this time, the bottom surface 31 of the spoon member 30 enters into contact with the opening end 42a of the insertion hole 42 of the spoon guide 40, thereby closing the lower end of the spoon member 30. That is, when the slip groove 31a of the bottom surface 31 and the slip rail 41 of the spoon guide 40 come into contact with each other, the bottom member 31 which is hingedly coupled is rotated to open the spoon member 30 in an open state. It will close the bottom.

That is, the spoon member 30 enters into the spoon guide 40 along the slip rail 41 by the pressing force of the cylinder 20 and the operating rod 21, and then to the other end of the spoon guide 40. Predetermined uranium oxide (U _x O _y ) powder discharged through the nuclear power generation fuel powder 80, ie, the discharge pipe 60, which is discharged while a portion of the spoon member 30 is drawn out with the bottom surface 31 closed. The amount will be collected.

Thereafter, after taking a predetermined sampling time, the air pressure of the cylinder 20 is applied to the reverse as before, the operating rod 21 is drawn into the cylinder 20, accordingly, the slip rail 41 of the spoon guide 40 The spoon member 30 also returns to its original position.

At this time, the bottom surface 31 of the spoon member 30 is hinged while the slip groove 31a in contact with the slip rail 41 of the spoon guide 40 is gradually dropped from the opening end 42a of the insertion hole 42. It is rotated to the open state, from which the nuclear power fuel powder 80, ie, uranium oxide (U _x O _y ) powder, collected by the spoon member 30 is disposed on the lower passage 11 side of the chamber 10. It is introduced into the installed sampling container 50.

The nuclear fuel powder 80 collected as described above is used as a sample for checking whether or not there is a defect in the fuel conversion process.

As described above, the detailed description of the present invention representatively illustrated specific embodiments to help understanding of the present invention, but the present invention is not limited to the technical idea of the present invention, and the present invention without departing from the concept of the present invention. It is also included in the claims of the present invention that modifications or variations can be made by those skilled in the art.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a three-dimensional view showing an exploded state of a sampling device of uranium dioxide powder for nuclear power fuel according to a preferred embodiment of the present invention.

Figure 2 is a partial cross-sectional view showing a coupling state of the sampling device of the uranium dioxide powder for nuclear power fuel in accordance with a preferred embodiment of the present invention.

3 is a partial cross-sectional view showing an operating state of a sampling device of uranium dioxide powder for nuclear power fuel according to a preferred embodiment of the present invention.

<Code Description of Main Parts of Drawing>

10 chamber 11 passage

12: lock lever 20: cylinder

21: operating rod 30: spoon member

31: bottom face 31a: slip groove

40: spoon guide 41: slip rail

42: insertion hole 42a: opening end

50: collection container 60: discharge pipe

70: packing member 80: fuel powder

Claims (5)

A chamber 10 formed to form a passage 11 in three directions including a straight line in both directions, and having a sampling container 50 mounted on the lower passage 11 side; A cylinder 20 provided on one of the passages 11 side in the two straight directions of the chamber 10; A spoon member 30 which is fastened to the operating rod 21 of the cylinder 20 and opened in an upward direction, and which has a hinged bottom surface 31 open by its own weight; Spoon guide (40) provided on the other side of the passage (11) of the straight direction of the chamber 10 to close the bottom surface 31 of the spoon member 30, and to be connected to the discharge pipe 60 of uranium oxide (40) Sampling device of uranium oxide powder for nuclear power fuel, comprising a). The method of claim 1, The cylinder 20 is characterized in that the pneumatic or hydraulic, characterized in that the sampling device of uranium oxide powder for nuclear power fuel. The method of claim 1, The chamber (10) is characterized in that the lock lever 12 for fixing the mounting state so that the airtightness is maintained when the mounting of the collection container 50, characterized in that the sampling device of uranium oxide powder for nuclear power fuel. The method of claim 1, The bottom surface 31 of the spoon member 30 is provided with a slip groove 31a, the spoon guide 40 in the slip rail 41 is provided in the spoon member 30 and the spoon guide 40 during operation A device for sampling a uranium oxide powder for nuclear power fuel, characterized in that abrasion due to friction between the shells is prevented. The method according to any one of claims 1 to 4, The spoon guide 40 is a sampling of the uranium oxide powder for nuclear power fuel, characterized in that the opening end 42a of the insertion hole 42 is opened to the outside to facilitate the insertion of the spoon member 30 during operation Device.

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