法国专利FR3029127A1 DEVICE FOR LOADING A SPACING GRID WELDING TOOL

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专利摘要:
A charging device for a spacer grid welding tool (10) comprises a base frame (110); a conveyor (120) for conveying a welding tool (10) horizontally over a base frame (110); and a gripper (200) positioned above the base frame (110) for gripping a welding tool (10) conveyed along the conveyor (120) for loading a welding tool (10) into a welding chamber, in a wherein the gripper (200) comprises a gripper body (210); and a gripping member (220) installed horizontally with respect to the end of the gripper body (210) to grip a welding tool (10) and able to tilt in the vertical direction relative to the gripper body (210) in the event that a predetermined load is applied as a vertical load.
公开号:FR3029127A1
申请号:FR1557024
申请日:2015-07-23
公开日:2016-06-03
发明作者:Byeong Eun Oh；Kwang Ho Yun；Dong Kwang Shin；Heui Seob Yang；Sang Jae Han；Jong Sung Hong
申请人:Kepco Nuclear Fuel Co Ltd；
IPC主号:

专利说明:

[0001] The present invention relates to a device for loading a spacer grid welding tool. Generally, a nuclear reactor is equipment that is manufactured to artificially control nuclear fission to generate heat, or to be used for various purposes such as the production of radioisotope or plutonium, or the formation of radiation, etc. In general, a light water reactor nuclear power plant uses enriched uranium in which the ratio of uranium-235 is increased by 2 to 5%. As for the nuclear fuel to be used in nuclear reactors, the fuel fabrication is treated in such a way that a cylindrical pellet weighing about 5 g is made of uranium. In order to manufacture a fuel rod, these pellets are loaded into a zircaloy sheath and a spring and helium gas are placed inside and then an end plug is welded into a rod end. The fuel rods are loaded into a skeleton to ultimately form a fuel assembly and burned by nuclear reaction in the nuclear reactor. The spacer grid in the nuclear fuel assembly that forms a skeleton with a fuel rod, an instrument tube, and a guide tube is comprised of dozens of spacer grid strips. Each spacer grid strip has a plurality of incision portions such as a slot. The spacer grids are placed longitudinally and laterally at regular intervals, so that the spacer grids intersect each other. Thus, the incisions are interconnected to each other by fitting each other so that the spacer grid forms a grid space.
[0002] However, these spacer grid strips are interconnected to each other by insertion into incision portions, the spacer grid itself oscillates due to gaps in most incision portions. Thus, the intersection points where the spacer grids intersect each other, and the parts in which the connection is not solid, such as outside, at the corner, etc., are welded in order to prevent oscillation of the spacer grids. Laser welding is mainly used for the welding process of the spacer grid. For example, Korean Patent No. 10-0922162 of the present applicant (registered Oct. 9, 2009) suggests a laser welding device for a nuclear fuel assembly gap grid to improve workability and the productivity. In the spacer grid laser welding apparatus, the strips of the spacer before welding are provisionally assembled and then assembled with a welding tool comprising a plurality of side plates, upper and lower support plates in order to be supported, and then the welding is done. As another embodiment, the present applicant's Korean Patent No. 10-0952183 (registered April 2, 2010) suggests an automatic welding tool loading and unloading apparatus for charging a welding tool into a vacuum chamber. welding and remove an automatically welded spacing grid. Accordingly, the present invention is to provide a charging device for a welding tool to enable the loading of a welding tool into a welding chamber for a spacing grid laser welding apparatus. The charging device of a spacer grid welding tool as an apparatus for charging a spacer grid welding tool in a welding chamber according to the present invention to accomplish these objects comprises a base frame; a conveyor for conveying a welding tool horizontally on the base frame; and a gripper disposed above the base frame for gripping a welding tool conveyed along the conveyor. The gripper comprises a gripper body; and a gripping member installed horizontally with respect to the end of the gripper body to grip a welding tool, and capable of tilting in the vertical direction relative to the gripper body in the event that the vertical load applied is heavier than a predetermined charge. Preferably, the gripper body and the gripping member into which an elastic body is inserted according to the present invention are connected by at least two (2) or more than two (2) connecting rods placed at different levels. Preferably, a spacer having a width identical to the separation distance is arranged between the gripper body and the gripping member. Preferably, a plurality of loading guide rolls are arranged in a row along the conveyor in at least three (3) locations where a welding tool is properly installed. Preferably, at least one of said loading guide rolls is located outside the conveyor. Preferably, the gripper body according to the present invention is arranged such that at least more than two holes are placed at different levels to form a long through hole in the vertical direction, and the gripper comprises a rail guide arranged transversely; a pair of gripping arms slidable from one side to the other along the guide rail; a connecting rod protruding from the through hole; an elastic body for supporting the gripper body and the gripping member resiliently inserted into the connecting rod; a spacer arranged between the gripper body and the gripping member; and a gripping mechanism for driving the gripping arm horizontally from one side to the other. Preferably, the gripping mechanism according to the present invention comprises a drive cylinder arranged between the gripping arms for driving the gripping arm horizontally; a rotation plate rotatable about a fixed axis of rotation; a pair of rotating arms, one end of which is joined to the rotation plate by a hinge and the other end is connected to each gripping arm by a hinge. Preferably, the rotation plate has its axis of rotation fixed with respect to a protection plate arranged above the gripping arm, and further comprises a proximity sensor for detecting a change of separation distance between the body of the gripping arm. gripper and the gripping element. The present invention has the following advantages. The loading device of a spacer grid welding tool according to the present invention has the effect of increasing workability and productivity by automating the loading and removal of a welding tool into a chamber. welding, and to prevent damage to a welding tool by avoiding overloading which may affect a gripper when removing a welding tool. The present invention also separates the position of a welding tool before and after welding at a plurality of positions and a welding tool before and after welding can be transferred to a single conveying line in both directions. Thus, the welding operation can be carried out efficiently. The objects, features and advantages and other objects, features and advantages of the present invention will be more clearly understood from the following detailed description when made in conjunction with the accompanying drawings, in which: FIG. perspective of a loading device of a spacer grid welding tool according to the present invention. Figure 2 illustrates a perspective view of a gripper according to the loading device of a spacer grid welding tool according to the present invention. Figure 3 illustrates an exploded view of a portion of a gripper according to the loading device of a spacer grid welding tool according to the present invention. Figure 4 illustrates a bottom view of a portion of a gripper according to the loading device of a spacer grid welding tool according to the present invention. Figure 5 illustrates a side view of a gripper according to the loading device of a spacer grid welding tool according to the present invention. Figs. 6 (a) to 6 (d) and Figs. 7 (a) to 7 (d) are diagrams showing an operational example of the loading device of a spacer grid welding tool according to the present invention. .
[0003] The specific functional configurations or descriptions that are indicated in exemplary embodiments of the present invention are only provided by way of description of exemplary embodiments, and the exemplary embodiments according to the concept of the present invention. can be implemented in various forms. Thus, the present invention is not limited to the exemplary embodiments described and all of the appropriate alternatives, modifications, and equivalents are considered within the scope of the present invention. The terms used in this specification serve only to describe the specific embodiment and are not intended to limit the present invention. Expression of the singular implies both singular and plural meaning except in the case of a distinct difference in context. An example of a specific embodiment of the present invention will be explained from the following detailed description taken in conjunction with the accompanying drawings as follows. As shown in FIG. 1, a loading device for a spacer grid welding tool 25 according to the present invention comprises a base frame 110; a conveyor 120 for conveying a welding tool horizontally above the base frame 110; and a gripper 200 located on the base frame 110 for gripping a welding tool 10, and loading a welding tool 10 into a welding chamber (not shown) or removing a welding tool 10 with which the welding is performed in a welding chamber. The base frame 110 may be provided in the form of a rectangular block, and a conveyor 120 and a gripper 200 are positioned above. An adjustment block 111 may be arranged in the lower portion of the base frame 110, the level or alignment of the transverse position of the base frame 110 may be adjusted by a fine adjustment of the adjustment block 111. A Conveyor 120 is installed in the longitudinal direction of a base frame 110, and conveys a welding tool 10 horizontally. Preferably, the conveyor 120 is driven by a bidirectional motor 15 which can be driven in the normal and reverse directions. A gripper 200 grasps a welding tool 10 conveyed along the conveyor 120, loads the welding tool 10 into a welding chamber, and removes the welding tool 10 with which welding is accomplished in a welding chamber. A gripper 200 is installed in such a way that it is supported by a transfer block 130 movable back and forth in the longitudinal direction of a base frame 110. A gripper 200 is also arranged to be movable towards the up and down for the transfer block 130. Thus, the gripper 200 can be moved horizontally or vertically. For example, the transfer block 130 may be reciprocated by the base frame 110 and a well-known linear actuator such as an LM guide. Furthermore, a separate linear actuator is arranged vertically with respect to the transfer block 130 for the gripper 200. Thus, the position of the gripper 200 can be freely changed in the horizontal direction or the vertical direction by the control of two linear actuators. Preferably, a conveyor 120 can be divided by entry / exit position, advancing position and waiting position in the loading direction on the conveyor according to the location of a welding tool before and after the operation. welding. More preferably, loading members 141, 142, 143 may be installed in each position, and interlocked with a gripper 200 to transfer a welding tool. At this stage, the loading elements 141, 142, 143 are the positions in which a welding tool is placed. A welding tool can be raised higher than the level of the conveyor 120 from the position, or a welding tool can be deposited on the conveyor 120. In this exemplary embodiment, the loading elements 141, 142, 143 are illustrated as first load guide cylinder 141, second load guide cylinder 142 and third load guide cylinder 143 for moving a welding tool vertically. But the first loading guide cylinder 141 into which a welding tool is deposited and placed first can be replaced by a position detection sensor with a welding tool transferred by another transfer equipment (not shown). The first loading guide cylinder 141 is taken as an example for the following description. Preferably, the first charge guide cylinder 141 and the second charge guide cylinder 142 may be located in each end of the section, the third charge guide cylinder 143 is adjacent to a weld chamber and placed at the outside a conveyor 120.
[0004] Thus, according to a working condition, the location of a welding tool is divided and a welding tool is provided. The supply and removal of a welding tool can be effected efficiently with a single conveyor, which will be described again with the appropriate drawings (Fig. 6 and Fig. 7). In particular, the gripper 200 according to the present invention comprises a gripper body 210 and a gripping member 220 installed horizontally at the end of the gripper body 210 to grip a welding tool, and able to tilt in the direction vertical relative to the gripper body 210 in the case where an applied vertical load would be heavier than a predetermined load. In general, a welding tool has a plurality of determined holes, and a welding rotation plate of a welding chamber where a welding tool is placed has a guide rod in correspondence with a determined hole. Thus, a welding tool is loaded into a welding chamber, and then a determined hole is inserted by a guide rod so that a welding tool can be installed. In order to guide the welding tool to a precise installation location, a certain hole in a welding tool and a guide rod of a welding plate only allow a small separation distance. Thus, while removal of a welding tool in a post-weld welding chamber is performed, a determined hole in a welding tool may not be easily separated from a guide rod. If a gripper forcibly lifts a welding tool, then the welding tool or gripper may be damaged. Thus, in the event that a vertical load heavier than the determined load would be applied to a gripper 220 for a gripper body 210, means are provided for stopping the upward and downward movement of the gripping member. 220 in the present invention.
[0005] Specifically, if we look at FIG. 2 and FIG. 3, a gripper body 210 includes a body rail 211 and a body plate 212 attached to the end of the body rail 211. A body plate 212 has a through hole 212a in each corner and a spacer 213 is disposed between them. Thus, a gripper body 210 and a gripping member 220 are assembled at a constant distance (D) from each other. The gripping member 220 comprises a gripping plate 221, a guide rail 222 transversely attached to the front side of a gripping plate 221, a pair of driving blocks 223 arranged to be horizontally movable on along the guide rail 222, a pair of gripping arms 224 attached to each drive block 223 for gripping a welding tool, a connecting rod 225 projecting from the through hole 212a at the rear of a carrier plate; gripping 221, and a gripping mechanism 230 for horizontally driving a drive block 223 to the left and to the right.
[0006] Preferably, a through hole 212a is a long hole in the vertical direction, the length, L, in the vertical direction is longer than d, the width of a connecting rod 225. Thus, the gripper body 210 and the gripper 220 assembled by the connecting rod 225 can be moved in the vertical direction within a range of the vertical length of the through hole 212a. The connecting rod 225 of the gripping member 220 enters the through hole 212a of the body plate 212, a spring 240 is inserted, a washer and a nut are assembled at the end, and the gripper body 210 and the gripping element 220 are elastically connected. A thread may be formed at the end of the connecting rod 225 so that a nut can be assembled to the connecting rod. The gripper body 210 and the gripping member 220 are assembled by the connecting rod 225, the spring 240 being interposed therebetween.
[0007] When the spring 240 is compressed to more than one constant load, the gripping member 220 is inclined upwards or downwards. At this point, the established load for which the gripping member 220 becomes tilted can be determined by the elastic coefficient of the spring 240 assembled to the connecting rod 225. However, in this exemplary embodiment, a drive block 223 and a gripper arm 224 are illustrated as separate configurations, the gripper arm may be attached directly to the guide rail such that the gripper arm is slidable from side to side. Preferably, a proximity sensor may further be added to detect the change in separation distance between a gripper body 210 and a gripping member 220. In this exemplary embodiment, the proximity sensor 252 is attached to the carrier fixed 251 assembled to the lateral side of the body plate 212 by a screw. In correspondence, a screen support 253 is installed on the lateral side of the gripper plate 221, and the proximity sensor 252 detects the distance from the screen support 253. Thus, the separation distance gripper 210 and the gripping element 220 can be detected. This proximity sensor can be provided by a well known sensor that produces an ultrasonic wave or an optical signal and detects the distance by detecting the reflected signal.
[0008] Figure 4 is a bottom of a portion of a gripper according to the loading device of a spacer grid welding tool according to the present invention. If we look at FIG. 4, a gripping mechanism 230 for driving a gripper arm 224 from one side to the other comprises a drive cylinder 231 arranged between a pair of drive blocks 223 which can be moved horizontally on the other side. along a guide rail 222 fixed opposite the gripping plate 221 to drive a drive block 223, a rotation plate 232 rotatable about a fixed axis of rotation 232a, a pair of rotary arms 233, one of which end is assembled to the rotation plate 232 by a hinge and the other end is assembled to each drive block 223 by a hinge.
[0009] An axis of rotation 232a of the rotation plate 232 is supported by a protective plate 226 assembled above a pickup plate 221 so that the rotation plate 232 can be rotated.
[0010] In this gripping mechanism 230, the transverse movement of the driving block 223 is obtained by the driving cylinder 231, in which a rotating arm 233 attached to the driving block 223 assists the transverse movement of the driving block 223 with the rotary rotation plate 232 (arrow reference A) so that a longer gripping arm 224 can be moved smoothly from one side to the other (reference arrow B). FIG. 5 illustrates a side view of a gripper according to the loading device of a spacer grid welding tool according to the present invention, uses the same reference numbers for several identical configurations, but uses the term first , second in front of the constituent element and uses a, b at the end of the corresponding reference number to distinguish them. Referring to FIG. 5, we will describe an example of operation of a gripper 200. In the event that a welding tool is not detached from the welding rotation plate during the process in which a gripper 200 grasps a gripper welding and when the withdrawal (lifting operation) is performed once a welding tool is deposited on a welding rotation plate inside a welding chamber and the welding is performed, the first spring 240a and the second spring 240b are respectively pulled and compressed so that a gripper arm 224 is inclined downwardly with the welding tool for a body rail 211. Thus, the overload of the drive part to lift the gripper body 210 is prevented, and damage to the welding tool and the gripping element which may be caused by the application of too much load on the welding tool and the gripping element may to be emp ket. On the one hand, the distance between a gripper body 210 and a gripper 220 is detected by a first proximity sensor 252a and a second proximity sensor 252b during the tilting operation of a gripper arm 224. The detection signal of the first proximity sensor 252a and the second proximity sensor 252b is transmitted to a control unit 260. The control unit 260 then stops the lifting operation of a transfer block 130.
[0011] On the other hand, in the case where a welding tool would be lowered when not precisely assembled to a welding rotation plate, a gripper arm 224 is raised for a gripper body 210 away from the Figure 5. Thus, an overload can be prevented. FIG. 6 and FIG. 7 illustrate diagrams showing the working example of the loading device of a spacer grid welding tool according to the present invention, (a) (b) (c) (d) of FIG. 6 show the procedure where another welding tool is transferred to the standby position while a welding tool continues welding inside a welding chamber. (a) (b) (c) (d) of Fig. 7 show the procedure in which a post welding welding tool is removed and a welding tool in the standby position is loaded into a welding chamber. In Figure 6 and Figure 7, A is a welding tool with which each welding is operated, B is a welding tool with which welding is not yet performed. They are hereinafter referred to as first welding tool, A and second welding tool, B respectively. Referring to Fig. 6 and Fig. 7, while the first welding tool A is welding, the second welding tool B is deposited and positioned in the first feed guide cylinder. 141 (a). The second welding tool B is moved to a forward position, namely, that of a second guide cylinder 142 (b). The second welding tool B positioned in the second feed guide cylinder 142 will be transferred to the input / output position, namely that of a third feed guide cylinder by a gripper 200, and waits (c) ( d) Next, if we refer to FIG. 1 and FIG. 7, a first welding tool with which the welding is completed is withdrawn by a gripper 200 (a), the first removed welding tool A is deposited in the forward position that is, that of the second charge guide cylinder 142 (b). The second welding tool B waiting in succession is loaded into a welding chamber by a gripper 200 (c), while the first welding tool A located in the second loading guide cylinder 142 is transferred to a first cylinder of loading guide 141 along a conveyor 120 (d). In the order as indicated above, the welding tools before or after welding can be loaded into or removed from a welding chamber along a single conveyor. The present invention described above is not limited by the aforementioned embodiments and the accompanying drawings. It will be apparent to those skilled in the art that various substitutions, variations and modifications are possible without departing from the scope of the spirit of the invention. Although a preferred embodiment of the present invention has been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible without departing from the scope and spirit of the present invention. invention as disclosed in the appended claims.

权利要求:
Claims (10)
[0001]
REVENDICATIONS1. Apparatus for loading a welding tool (10) with a spacer grid, comprising: a base frame (110); a conveyor (120) for conveying a welding tool (10) horizontally above the base frame (110); and a gripper (200) located above the base frame (110) for gripping a welding tool (10) conveyed along the conveyor (120) and loading it into a welding chamber, wherein the gripper (200) ) comprises a gripper body (210); and a gripping member (220) installed horizontally with respect to the end of the gripper body (210) for gripping a welding tool (10), and capable of tilting in a vertical direction relative to the body gripper (210) in the event that a load greater than a predetermined load is applied as a vertical load. 20
[0002]
A device for loading a spacer grid welding tool (10) according to claim 1, wherein the gripper body (210) and the gripping member (220) have an elastic body therebetween and are connected by at least two connecting rods 25 (225) or more placed at different levels.
[0003]
A device for loading a spacer grid welding tool (10) according to claim 2, wherein a spacer (213) having a width equal to the separation distance is arranged between the gripper body (210) and the gripping element (220).
[0004]
A device for loading a spacer grid welding tool (10) according to claim 1, wherein a plurality of loading elements (141, 142, 143) are arranged in a row along the conveyor ( 120) in at least three (3) locations where a welding tool (10) is properly installed.
[0005]
A device for loading a spacer grid welding tool (10) according to claim 4, wherein at least one of said loading elements (141, 142, 143) is placed outside the conveyor (120).
[0006]
A device for loading a spacer grid welding tool (10) according to claim 1, wherein the gripper body (210) is positioned in such a manner that at least two of them are placed in position. different levels for forming a long through hole (212a) vertically, and the gripping member (220) comprises a transversely arranged guide rail (222); a pair of gripping arms (224) slidable along the guide rail (222) in a transverse manner; a connecting rod (225) projecting in correspondence with the through hole (212a); an elastic body inserted in the connecting rod (225) for supporting the gripper body (210) and the gripping member (220) resiliently; a spacer (213) arranged between the gripper body (210) and the gripping member (220); and a gripping mechanism (230) for driving the gripping arm (224) horizontally from one side to the other.
[0007]
A device for loading a welding tool (10) with a spacer grid according to claim 6, wherein the gripping mechanism (230) according to the present invention comprises a drive cylinder (231) arranged between the gripping arms (224) for driving the gripper arm (224) horizontally; a rotation plate having a fixed rotational axis; a pair of rotary arms (233), one end of each of which is assembled to the rotation plate by a hinge and the other end of each of them is connected to each gripping arm (224) by a hinge.
[0008]
8. Device for loading a spacer grid welding tool (10) according to claim 7, wherein the rotation plate has its axis of rotation fixed to a protection plate arranged above the gripping arm ( 224).
[0009]
The apparatus for loading a spacer grid welding tool (10) according to claim 2 further comprising a proximity sensor for detecting a change of separation distance between the gripper body (210) and the element gripping device (220).
[0010]
The apparatus for loading a spacer grid welding tool (10) according to claim 6, further comprising a proximity sensor for detecting a change of separation distance between the gripper body (210) and the gripping element (220).

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法律状态:
2016-07-13| PLFP| Fee payment|Year of fee payment: 2 |

2017-07-24| PLFP| Fee payment|Year of fee payment: 3 |

2018-03-30| PLSC| Search report ready|Effective date: 20180330 |

2018-07-30| PLFP| Fee payment|Year of fee payment: 4 |

2019-07-30| PLFP| Fee payment|Year of fee payment: 5 |

2020-07-15| PLFP| Fee payment|Year of fee payment: 6 |

2021-07-28| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

申请号 | 申请日 | 专利标题

KR20140167364|2014-11-27|

KR1020140167364A|KR101647019B1|2014-11-27|2014-11-27|Charging device of a welding fixture of spacer grid|

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