JP4549402B2 - Tank side plate replacement method and side plate replacement tool used in the method - Google Patents

Description

  The present invention relates to a construction method for replacing a side plate of a large tank for storing crude oil, petrochemical products, industrial water, gas, and the like, and a side plate replacement tool used therefor. In particular, the present invention relates to a construction method for replacing an upper side plate of a tank with a new side plate, and a side plate replacement tool suitable for the method.

  In Japan, refineries and depots have been built for more than 50 years, and many oil storage tanks (outdoor oil storage tanks) have been built at the same time. At that time, it was an era when construction rush and inspection of welded parts were not established. About 30 years ago, the tank's side plate of Mizushima refinery was cracked, and a large amount of crude oil leaked to the surroundings, causing a major accident. Based on this accident, the Dangerous Goods Safety Technology Association was established, and laws and regulations were enacted on the inspection of tanks that had already been constructed and the inspection of tanks to be constructed. The existing tanks have undergone a few open inspections and repairs as a result of these inspections over the past 30 years, and the safety of the welds is now guaranteed.

  However, base metal defects due to aging have become more common in proportion to the period of use, and at present, the side plate of the gas phase part related to the uppermost stage of the side plate has been reduced in thickness due to corrosion from the inside of the tank. is doing. Originally, in the tank, sludge, impurities, tanker ballast water, etc. contained in the contents settle on the bottom, and the corrosion of the bottom plate proceeds. Therefore, the past repairs were mainly at the bottom, and there were many renewals and repairs of the bottom plate. After that, the bottom plate was often coated, and the renewed bottom plate was less likely to corrode again.

  Since the tank roof plate is exposed to wind and rain from the outside, corrosion from the outer surface, that is, the upper surface is also seen, but in reality the vapor and water vapor generated from the contents inside the tank are applied to the roof plate and the side plate. There is much corrosion from the inner surface due to adhesion and condensation. This greatly depends on the contents of the tank, and when the corrosion from the inside is severe, the gas phase part of the roof plate or the roof bone side plate corrodes so severely as to have a hole. Now that the repair of the bottom has been completed and the anti-corrosion coating has been applied through periodic inspections, a lot of renewal work for the roof plate and the side plate gas phase portion will occur.

Conventionally, tank side plates have been updated by: (1) batch update of the entire tank side plate, (2) mainly update of the lower part of the tank, (3) position of the tank to which the side plate to be updated hits, such as update of the upper part of the tank. Therefore, it is necessary to select an efficient method. From another point of view, the construction method is restricted by (a) whether connection pipes around the tank can be removed, (ii) the degree of freedom of the installation position of heavy equipment for work, and (iii) the degree of freedom of installation of the temporary support base. Furthermore, a suitable method must be selected depending on a tank structure such as a conical fixed roof, a spherical fixed roof, a floating roof, a gas sphere, and a gas double structure. This tank side plate replacement work is not only limited by the presence of piping and oil barriers connected to the lower part of tank (a) above, and the restrictions on the location where heavy equipment (ii) is installed, In the upper part, it becomes a very difficult side plate replacement work, which is a high place work.

  Conventionally, as a known side plate replacement method, Patent Document 1 (Method for assembling the peripheral wall of a cylindrical tank), Patent Document 2 (Method for dismantling and repairing the side wall of a cylindrical structure made of steel), Patent Document 3 (Method for dismantling a cylindrical storage tank) Patent Document 4 (Method of dismantling cylindrical storage tank), Patent Document 5 (Rotary dismantling method of storage tank), Patent Document 6 (Method of renewing storage tank side plate), and the like are known.

  A common feature of these known techniques is the rotation roller arrangement at the bottom of the tank. In Patent Document 1, the side plate lifted by a crane at a fixed position is gradually piled up on a rotating peripheral wall. 3 is a method of rotating the entire tank cut obliquely and gradually cutting it from the lower part of the peripheral wall. Patent Document 4 is a method of moving the cut part of the lower part of the tank obliquely jacked up by a truck. 6 is a construction method in which side plates lifted by a crane at a fixed position are sequentially stacked on a rotating peripheral wall as in Patent Document 1. In any of these methods, it is necessary to cut or pile up the peripheral wall at the bottom of the tank.

  That is, the construction methods of Patent Documents 1 to 6 are not limited to the tank structure regardless of the presence or absence of the tank roof, and are (1) batch update of the entire tank side plate and (ii) the constraints of the heavy equipment for work. Although suitable, since the entire tank is rotated, it is necessary to remove the pipe around the tank (a), and (3) it is not appropriate as a means for replacing only the side plate at the upper part of the tank.

  Known techniques for updating the peripheral wall of the upper part of the tank include Patent Document 7 (dismantling repair method for the upper part of the cylindrical storage tank), Patent Document 8 (dismantling method for the tank), Patent Document 9 (dismantling method of the cylindrical storage tank) Gondola device) and Patent Document 10 (a method for constructing a double shell tank and a side plate mounting device used in the method) are known.

  The feature of these known techniques is to provide a peripheral wall or working device that can be moved in the circumferential direction at the uppermost part of the tank, and Patent Document 7 discloses that the side plate is fitted with a rotating roller at the lower end of the side plate to be updated. Patent Documents 8, 9, and 10 are methods using a hooking jig straddling the upper end of the tank peripheral wall. Further, in Patent Document 8, it is a method of re-hanging a hook jig every time one replacement side plate is cut, in Patent Document 9 is a method of cutting a side plate into a spiral, and in Patent Document 10, a double shell is used. This is a technique that uses the inner wall of the tank. In any of these methods, the uppermost end of the tank peripheral wall is used over the entire circumference.

  That is, these methods of Patent Documents 7 to 10 can replace the (3) side plate at the upper part of the tank, and are not constrained by the connection piping around the (a) tank, and the (i) (u) work described above. However, it is necessary to remove the tank fixed roof in order to use the uppermost end of the tank peripheral wall over the entire circumference. Therefore, it is an effective method for a tank with a floating roof, but it is not an appropriate method for a tank with a fixed roof.

  As a construction method for updating the upper side plate in the tank with a fixed roof, Patent Literature 11 (tank side plate batch updating method), Patent Literature 12 (tank side plate replacement construction method), and the like are known.

  The feature of these known technologies is a method of renewing the upper side plate while maintaining the fixed roof in a tank with a fixed roof. Considering the above (a) connection piping, installing the above (ii) heavy equipment for work Although the construction method is not limited to the above-mentioned conditions such as the placement of the temporary support base, the uppermost side plate is used as a support portion of the fixed roof.

  That is, although the construction method of these patent documents 11-12 is an excellent construction method not restricted by the presence or absence of a fixed roof, there exists a problem which cannot update the upper end side board nearest to a fixed roof.

JP 59-150869 A JP 60-138172 A JP-A-62-185965 JP-A-5-280204 JP 2007-85121 A JP 2007-321357 A JP-A-10-61246 JP-A-10-131520 Japanese Patent Laid-Open No. 10-153000 Japanese Patent Laid-Open No. 10-148044 JP-A-8-135242 JP-A-8-270226

  The present invention has been made in view of the above-described points, and a first problem is to provide a method suitable for renewing the above-described (3) tank upper side plate, particularly the uppermost side plate, and its working equipment. The second problem is to provide a method that can be applied regardless of the presence or absence of connection piping around the tank (a) and the working equipment thereof, and the third problem is the heavy work machine described above. The fourth problem is to provide the above-mentioned tank type, particularly with a conical fixed roof, with a spherical fixed roof, and with a floating roof type. It is an object of the present invention to provide a suitable workable method and its working equipment.

  The first problem is that a plurality of temporary support columns fixed to the upper side of the tank on the side plate below the side plate to be replaced and a plurality of rotations supported by a member that contacts the side plate on the lower side. And solving with the upper part of the tank as a work target. Next, the second problem is that a temporary support column is disposed in the tank height direction of the lower side plate, and a rotation roller is disposed on the back surface of the surface on which the temporary support column of the lower side plate is disposed. The problem is solved by the fact that the side plate to be transported moves along the peripheral wall of the tank in the upper part of the tank. Furthermore, the third problem is that a step of carrying out to the ground surface at a predetermined position of the tank circumferential portion and a new side plate carried from the predetermined position are mounted on a rotating roller and circulated along the circumference of the tank. This can be solved by not changing the position of the heavy machinery with respect to the tank in the step of carrying in the original position of the side plate to be replaced. The fourth problem is that the height of the side plate cutting portion and the joining portion can be made higher than that of the side plate mounting portion of the rotating roller by combining the temporary support post and the rotating roller. Solve.

  The invention according to claim 1 is to apply a construction method for solving the above first to fourth problems. That is, a tank (1) having a structure in which side plates (2) are stacked in a cylindrical shape upward from a base placed on the ground surface, and a tank side plate (2) for storing fluid on the inner peripheral side of the structure In the method of replacing the plurality of temporary support columns (30) fixed toward the upper side of the tank, the side plate (2a) on the lower side of the side plate to be replaced, and the side plate on the lower side A plurality of rotating rollers (50, 60, 61, 62, 63, 102, 104) supported by a member, and the temporary support column (30) in the tank height direction of the lower side plate (2A). The rotating rollers (50, 60, 61, 62, 63, 102, 104) are arranged on the back surface of the side plate (2A) on the lower side where the temporary support columns (30) are arranged. (The former) the side plate to be replaced is the rotating roller (5 , 60, 61, 62, 63, 102, 104) and (b) mounted on the rotating roller (50, 60, 61, 62, 63, 102, 104). A step of circulating the side plate (2a) to be replaced along the circumference of the tank (1) and carrying it out to the ground surface at a predetermined position (12) of the tank circumferential portion; ) A new side plate (2c) carried in from the predetermined position (12) is mounted on the rotating roller (50, 60, 61, 62, 63, 102, 104) and along the circumference of the tank (1). And the step of carrying in the original position of the side plate (2a) to be replaced and the step of joining the new side plate (2c) carried in to the tank (1). The side plate (2a) to be carried out and the bottom in the carrying out step The height (H) from the ground surface of the cut portion (2aA) with the side plate (2A) at the bottom, and the joint portion (2aA) between the new side plate and the lower side plate in the carrying-in step (H) ) Is a tank side plate replacement method characterized in that it is higher (h) than the mounting portion at the lower end of the side plate on the outer peripheral surface of the rotating roller in the unloading step and the unloading step.

  The invention according to claim 2 provides the invention of claim 1 more specifically. That is, it includes a step of integrally fastening (44, 45) the holding members (46, 47) of the temporary support column (30) and the rotating rollers (50, 60, 61, 62, 63, 102, 104). In the fastening step, the temporary support post (30), the transverse beam (46) extending in the radial direction of the tank (1) forming the holding member (46, 47), and the longitudinal direction extending in the tank height direction. The tank side plate replacement method according to claim 1, wherein the side plate (2a) to be updated is fixed at a position sandwiched by a beam (47).

  The invention according to claim 3 provides the invention of claim 2 more specifically. That is, at least three of the rotating rollers (50, 60, 61, 62, 63, 102, 104) are supported (50, 102, 104), and one of the rotating rollers (50) is the vertical beam (47). ) Of the longitudinal beam extending tip (48), and each of the other at least two rotating rollers (102, 104) is rotatable with respect to the longitudinal beam extending tip (48) (90, 92), and the rotatable members (90, 92) are contacted (49) with the side plate (2A) below the side plate (2a) to be replaced. The tank side plate replacement method according to claim 2.

  The invention according to claim 4 provides the invention of claim 1 embodied in a different aspect different from that of claim 2. That is, the first and second side rollers (126, 134) are arranged above and below the outer surface of the side plate to be updated, and the first and second side rollers (126, 134) are cut. After the side plate (2a) is pressed, third and fourth side rollers (124, 132) are arranged above and below the inner surface of the side plate (2a) to be updated, and the cut side plate (2a) ) Is moved by the first to fourth side rollers (124, 126, 132, 134).

  The invention according to claim 5 is to provide a tank side plate replacement tool to be applied to a construction method that solves the above first to fourth problems. That is, it is a tank (1) having a structure in which side plates are stacked in a cylindrical shape upward from a base installed on the ground surface, and a tank side plate (2) for storing fluid is replaced on the inner peripheral side of the structure. In the side plate replacement tool (40, 80, 110, 150, 160, 180) used for the construction method, a plurality of temporary support columns (30) arranged along the side plate (2a) to be replaced, and The temporary support column (30) is fixed to the side plate (2A) below the side plate (2a) to be replaced toward the upper side of the tank, and the side plate (2a) to be replaced ) And rotating around the circumference of the tank (1) (50, 60, 61, 62, 63, 102, 104), and the rotating rollers (50, 60, 61, 104) 62, 63, 102, 104) central axes (51, 58, 9, 98, 100) are arranged in the radial direction of the tank (1), and the temporary support column (30) is moved down along the tank height direction of the lower side plate (2A). The rotating roller (50, 60, 61, 62, 63, 102, 104) is disposed on the inner surface of the side plate (2A) on the side and the outer surface of the side plate (2A) on the lower side. Furthermore, a plurality of the temporary support columns (30) and the rotating rollers (50, 60, 61, 62, 63, 102, 104) are arranged along the circumference of the tank (1) (40a). 40b, 40c,... 180a, 180b, 180c,...)).

  The invention according to claim 6 provides the invention of claim 5 more specifically. That is, holding members (46, 47) of the temporary support column (30) and the rotating rollers (50, 60, 61, 62, 63, 102, 104) are integrally fastened (44, 45), The holding member (46, 47) has a horizontal beam (46) extending in the radial direction of the tank and a vertical beam (47) extending in the tank height direction, and the temporary support column (30) and the horizontal beam ( The tank side plate replacement instrument according to claim 5, wherein 46) and the longitudinal beam (47) are in a position to sandwich the side plate (2a) to be updated.

  The invention according to claim 7 provides the invention of claim 6 more specifically. That is, at least three of the rotating rollers (50, 60, 61, 62, 63, 102, 104) are supported (50, 102, 104), and one of the rotating rollers (50) is the vertical beam (47). ) Of the longitudinal beam extending tip (48), and each of the other at least two rotating rollers (102, 104) is rotatable with respect to the longitudinal beam extending tip (48) (90, 92), and the rotatable members (90, 92) are in contact (49) with the side plate (2A) below the side plate (2a) to be replaced. It is the instrument for tank side plate replacement of description.

  The invention according to claim 8 provides the invention of claim 5 in a form that is embodied from another viewpoint different from that of claim 6. That is, the first and second side rollers (126, 134) are provided on the upper and lower sides of the outer surface of the side plate to be updated, respectively, and the third and fourth side surfaces are provided on the upper and lower sides of the inner surface of the side plate to be updated. A roller (124, 132), and after pressing the cut side plate against the first and second side rollers (126, 134), the third and The tank side plate replacement device according to claim 5, wherein the fourth side roller (124, 132) is attached and disposed.

  The method according to claim 1 of the present invention is a method suitable for renewing the uppermost side plate, which is the first problem, and can be applied regardless of the presence or absence of connection piping around the tank. The construction can be performed without changing, and the construction suitable for the conical fixed roof, the spherical fixed roof, and the floating roof can be performed. In other words, it eliminates the need for a robust support platform that transports the conventional replacement side plate, eliminates the need to move heavy machinery during work, and updates the uppermost side plate with a conical fixed roof, spherical fixed roof, and floating roof type The method has a unique effect of being able to provide a usable method.

  In the method according to claim 2 of the present invention, in addition to the effect of claim 1, the side plate to be updated can be sandwiched by the vertical beam supporting the temporary support column and the rotating roller. A more specific and safe working method can be provided.

  In addition to the effect of the second aspect, the method according to the third aspect of the present invention is applicable even when the diameters of the tanks are different because each of the rotating rollers is supported by a rotatable member. The effect can be applied to a wider variety of tanks.

  The method according to claim 4 of the present invention uses the first to fourth side rollers in addition to the effect of claim 1, and is a safer method against gusts and earthquakes during work. Can be provided.

  The tank side plate replacement device according to claim 5 of the present invention is a device suitable for renewing the uppermost side plate, which is the first problem, and can be applied regardless of the presence or absence of connection piping around the tank. Construction can be performed without changing the installation position of heavy machinery, and construction suitable for conical fixed roof, spherical fixed roof, and floating roof types becomes possible. In other words, it eliminates the need for a robust support platform that transports the conventional replacement side plate, eliminates the need to move heavy machinery during work, and updates the uppermost side plate with a conical fixed roof, spherical fixed roof, and floating roof type There is a unique effect that can provide a usable instrument.

  In addition to the effect of the fifth aspect, the tank side plate replacement instrument according to the sixth aspect of the present invention has a function of sandwiching the side plate to be updated because it includes a vertical beam supporting the temporary support column and the rotating roller. Therefore, the device according to claim 5 can be provided as an instrument that realizes a more specific and safe work.

  In addition to the effect of the sixth aspect, the tank side plate replacement instrument according to the seventh aspect of the present invention has a structure in which each of the rotating rollers is supported by a rotatable member. It can be applied even in different cases, and gives an effect that can be utilized in a wider variety of tanks.

  Since the tank side plate replacement tool according to claim 8 of the present invention includes the first to fourth side rollers in addition to the effect of claim 5, it is more resistant to gusts and earthquakes during work. Safe equipment can be provided.

  The best mode of the invention is described in detail in the following examples.

  The preparatory work of the construction method of this invention and the construction tool used by this construction are demonstrated with FIGS. FIG. 1 is a side view of a tank (1) with a fixed roof that has an annular plate on a foundation as a base body and an external appearance of a side plate (2) and a roof (3) erected on the base plate. The state which removed the outer peripheral part of 4) and exposed the roof bone (5) is shown. At the start of work, the outer peripheral edge (8) of the roof (3) is opened as shown. The roof plate of this opening (9) is a relatively small piece and is easy to carry out, but each of the side plates (2) erected in an upright cylindrical shape has a width of 5 to 5 depending on the size of the tank. It is 10m, 1 to 3m in length, 6 to 30mm in thickness, has a weight of several tons, and requires heavy equipment such as a crane for lifting and lowering. The uppermost side plate (2a) has a thickness of about 6 to 8 mm, but still has a weight of 500 to 600 kilograms, which again requires heavy machinery.

  FIG. 2 shows an arrangement relationship between the tank (1) and the heavy machinery (10). In the case of a large tank, it is conventionally necessary to move the heavy machine (10) around the tank (1). However, in the method of the present invention, the roof bone (5a, 5b, 5c) provided over the entire circumference of the tank (1). 5e,..., 5w, 5x), when updating the side plates directly below, they do not move from the positional relationship shown in FIG. That is, the side plate is lifted and lowered only in the work area indicated by the cross hatch (12) in FIG.

  The opening (9) at the outer peripheral edge of the roof (3) described in FIG. 1 will be described in detail with reference to FIGS. FIG. 3 shows a cross section of the side plate (2) and the roof (3) in the vicinity of the roof (3) of the tank (1) before construction of the present invention. As shown in this cross-sectional view, the tank (1) is fixed between the roof bone (5) and the side plate (2) by a bracket (13), a bracket abutment plate (14), and a fastening portion (15). Here, the portion illustrated by the symbol A is the uppermost side plate (2a).

  FIG. 4 is a sectional view in which the outer peripheral edge of the roof (3) is removed and the roof bone (5) is exposed at the opening (9), and the uppermost step (2a) of the side plate (2) is enlarged. . In this state, the bracket (13) under the roof (3), the bracket abutment plate (14), the fastening portion (15), and the top angle (17) on the uppermost side plate (2a) appear to be exposed. ing.

  This top angle (17) is removed as shown in FIG. The top angle (17) is carried out as a small hand-held piece. The state in FIG. 5 may be only the entire circumference of the tank (1) or only between the tank outer periphery from the side plate (2a) corresponding to the replacement object to the position directly above the heavy machinery (10). Up to this state is preparation work for the tank (1) for carrying out the construction method of the present invention.

  FIG. 6 shows the next step. First, the bracket (13), the bracket abutment plate (14), and the fastening portion (15) attached to the uppermost side plate (2a) to be updated are removed. FIG. 6 also shows a place where the bracket (13) is removed (indicated by an arrow). At this time, if the renewal target is the side plate (2a, 2b, 2c, 2d,... 2x, 2y, 2z) over the entire circumference of the tank, this work is performed with the uppermost side plate (2a) to be removed first. After performing, the support | pillar base (32) for supporting a temporary receiving support | pillar (30) is fixed to the inner periphery of the direct lower board (2A) of the uppermost stage side board (2a) to be updated.

  And this temporary support | pillar (30) passes the opening part (9) of a roof, and inserts it in the inner peripheral part of a tank (1). Further, the temporary support column (30) is fixed to the lower plate (2A) using a hose shoe (34) and a gold arrow (36), and the upper portion of the temporary support column (30) is welded to the roof bone (5a). (38) Therefore, the temporary support column (30) can be attached to the tank (1) with the side plate (2A) and the roof bone (5) that are not to be updated, and can support the roof (3) under construction.

  In the first operation, the roof (3) can be supported by the immediate lower plate (2A) of the uppermost plate (2a) and the temporary support column (30a). Similarly, in the second operation, the roof (3) is supported by the immediate lower plate (2B) of the adjacent uppermost plate (2b) and the temporary support column (30b). As described above, when the same operation is sequentially repeated over the entire circumference of the tank (1) at each uppermost side plate (2), all the uppermost side plates (2a, 2b, 2c, 2d,...) Are updated. The roof (3) is supported by the lower part of the tank (1) so that it can.

  If the side plate (2) to be updated does not extend over the entire circumference of the tank (1) but is a part, the necessary opening (9) is opened immediately above the side plate (2) and the same as described above. Do work.

  7 and 8 are side plate replacement instruments (40) attached to the temporary support columns (30), FIG. 7 is a partially sectional top view thereof, and FIG. 8 is a sectional side view thereof. This side plate replacement instrument (40) uses a hole (31a, 31b) for attaching the side plate replacement instrument (40) of the temporary support post (30) shown in FIG. The column attachment portions (42a, 42b) are fixed to the temporary support column (30) with fixing bolts (44) having (44b). Here, the provisional support column (30) is shown as a C-type steel material, but may be an I-type steel material shown in FIG. Further, the mounting direction of these temporary support columns (30) to the side plate (2) is not limited to the examples shown in FIGS. 6 and 7, and the roof bone (5), the column mounting portions (42a, 42b), It can be arbitrarily determined according to the shape of the column support (32), the gold arrow (36) and the like. In this embodiment, the side plate contact surface (31) of the temporary support column is pressed against the side plate (2).

  The side plate replacement device (40) has a structure in which a horizontal beam (46) is extended from the column attachment portions (42a, 42b) toward the outer periphery of the tank, and is substantially parallel to the height direction of the tank (1). The longitudinal beam (47) is extended downward. The longitudinal beam extending tip (48) is provided with a bracket (49) that supports the rotating roller (50) with a shaft (51) and abuts the side plate (2A) that is not replaced thereunder. With the bracket (49), the side plate replacement device (40) can stably hold the relative position with respect to the tank (1). Further, the longitudinal beam extending tip (48) has the extending members (52, 53) arranged in a substantially horizontal direction along the circumference of the tank (1). Since the vertical beam (47) is substantially parallel to the vertical direction of the tank (1), the rotating roller (50) is disposed substantially orthogonal to the side plate (2A) of the tank (1).

  The extending members (52, 53) are respectively concave and support the shafts (58, 59) with the edge members (54, 55, 56, 57) extending upward, and the rotating rollers (60, 61). ). That is, the rotating rollers (60, 61) are sandwiched between concave portions. The height of the shaft (58, 59) and the rotating roller (60, 61) from the ground is the same as that of the rotating roller (50) and the shaft (51) attached to the longitudinal beam extending tip (48). is there. And the height (H) of the cutting part of the side plate (2) from the tank surface is higher (h) than these rotating rollers (50, 60, 61) to enable cutting work. The rotating rollers (60, 61) supported by the extension members (52, 53) are also arranged perpendicular to the side plate (2A) of the tank (1), that is, toward the tank radial direction, like the middle rotating roller (50). To do.

  FIG. 9 is a partially modified perspective view of the side plate replacement instrument (40) shown in FIGS. The side plate replacement instrument (40) shown in FIG. 9 is fixed to the temporary support post (30) shown in FIG. 6 with fixing bolts (44, 45) as in the first embodiment. Then, a transverse beam (46) in the direction of the outer periphery of the tank, a longitudinal beam (47) substantially parallel to the tank height direction, an extension member (52, 53), an edge member (54, 55, 56, 57), a shaft (51, 58, 59) are the same as in the first embodiment.

  In this second embodiment, the rotating rollers (62, 63) supported by the extending members (52, 53) are set lower than the edge height of the edge members (54, 55, 56, 57). Further, the heights of these rotating rollers (62, 63) and the rotating rollers (not shown) arranged immediately below the longitudinal beam (47) are the same height. Under the extension members (52, 53), brackets (64, 65) that abut on the side plates (2A) that are not replaced are provided. Therefore, in this embodiment, since the side plate (2a) to be transported does not come off from the rotating rollers (62, 63), it can be transported stably.

  When the side plate replacement device (40) described with reference to FIGS. 1 to 9 is attached to the temporary support column (30) along the outer periphery of the tank, the side plate replacement is performed by performing the construction described later.

  The side plate replacement method using the side plate replacement tool (40) will be described with reference to FIGS.

  FIG. 10 shows the way of moving to the side plate replacement instrument (40) after cutting the uppermost side plate (2a). The side plate (2a) is cut by the lower side plate (2A) and the cutting portion (2aA). This cutting part is set to a place slightly higher than the height from the ground on the outer peripheral surface of the rotating roller (50, 60, 61, 62, 63) of the side plate replacement instrument (40). And the cut | disconnected side plate (2a) is lifted by the lever block (68) attached to the hole (66) of the temporary support | pillar (30), and the rotation roller (50, 60, 61, 62) of the construction tool (40). , 63). Then, the lower end of the side plate (2a) is carried on the outer peripheral surface of many rotating rollers (50, 60, 61, 62, 63). That is, since the cutting line (2aA) (height H from the ground surface) is higher than the virtual envelope line connecting the highest points from the ground of each rotating roller (h), the side plate (2a) The side plate replacement instrument (40) can be transported without interference.

  FIG. 11 shows a side plate (2a) cut by using side plate replacement instruments (40a, 40b, 40c, 40d, 40e, 40f, 40g, 40h, 40i, 40j, 40k) attached to the upper part of the tank (1). 2b) is shown in the middle of moving in the direction (72) of the crane (70) of the heavy machinery. In FIG. 11, all the side plates at the top of the tank (1) are removed, but a partial side plate to be replaced may be used. After the cut side plates (2a, 2b) move to the crane (70), the crane (70) suspends the side plates (2a, 2b) sequentially. The rotating rollers (50, 60, 61, 62, 63) of the side plate replacement device (40) are arranged substantially orthogonal to the side plate (2A) of the tank (1). (2a, 2b) does not fall.

  FIG. 12 shows that a new side plate (2c, 2d) is lifted by a crane (70), and side plate replacement devices (40a, 40b, 40c, 40d, 40e, 40f, 40g, 40h, 40i, 40j, 40k) are used. The state which moves to a pertinent direction (74) is shown. The side plate (2c) moved to the replacement position is slightly lifted (76) by the lever block (68) and set at a predetermined position, and then welded to the lower side plate (2A). Therefore, the joint to be welded is at a higher position from the ground than the previous virtual envelope.

  After the new side plates (2c, 2d) at the predetermined positions are welded, the side plate replacement devices (40a, 40b, 40c, 40d, 40e, 40f, 40g, 40h, 40i, 40j, 40k) are transferred to the tank (1). Are sequentially removed, and the opening (9) and the top angle (17) of the roof (3) are attached again. These roof and top angle (17) that close the opening (9) are small pieces that can be carried by hand as in the case of carrying out.

  The method of replacing the side plate at the top of the tank using the side plate replacement device (40) can be applied to any tank with a conical fixed roof, a spherical fixed roof, or a floating roof. And (a) it is not necessary to remove the connection pipe around the tank, (ii) the installation position of the heavy equipment for work does not need to move from a predetermined position near the tank, and (iii) a temporary support base that extends over the entire circumference of the tank. Installation is not always necessary.

  The side plate replacement instrument (40) described with reference to FIGS. 7 to 9 includes extension members (52, 53) extending substantially horizontally from the longitudinal beam extending tip (48) along the circumference of the tank (1). It is provided. By the way, since there are various diameters of the tank (1), an appropriate side plate replacement device (40) must be prepared for each tank diameter. Therefore, it is desirable to use a common instrument even if the tank diameters are different. FIGS. 13 and 14 show another side plate replacement device (80) that can be used even with tanks of different diameters.

  FIG. 13 is a partial cross-sectional top view of this side plate replacement instrument (80), and FIG. 14 is a partial cross-sectional side view thereof. As in the first embodiment, the side plate replacement instrument (80) is fixed to the temporary support post (30) shown in FIG. 6 with fixing bolts (44) and support post mounting portions (42a, 42b). The horizontal beam (46) in the direction of the outer periphery of the tank, the vertical beam (47) substantially parallel to the tank height direction, the axis (51) of the longitudinal beam extending tip (48), and the rotating roller (50) This is the same as in the first embodiment, and is denoted by the same reference numeral.

  The longitudinal beam extending tip (48) is provided with extending portions (82, 84) along the outer periphery of the tank (1), and further, the swing plates (90, 92) via the rotation shafts (86, 88). Is provided. Each of the swinging members (90, 92) has a concave shape, and supports the shaft (98, 100) with the edge members (94, 95, 96, 97) extending upward, and the rotating roller (102). , 104). The height of the shafts (98, 100) and the rotating rollers (102, 104) from the ground is the same as that of the rotating roller (50) and the shaft (52) attached to the longitudinal beam extending tip (48). The rotating rollers (102, 104) are arranged orthogonal to the side plate (2A) of the tank (1) in the same manner as the rotating roller (50) in the middle.

  The swinging member (90, 92) is provided with a bracket (49) on the lower side that comes into contact with the side plate (2A) that is not replaced. The swinging members (90, 92) are moved by the rotating shafts (86, 88) in the tank radial direction until the bracket (49) contacts the non-replaceable side plate (2A). Then, the rotation shafts (86, 88) are fixed at positions where the bracket (49) contacts the side plate (2A) that is not replaced. The fixing means at this time is bolt fastening (not shown) which is a well-known means between the rotating shafts (86, 88) and the swinging members (90, 92).

  When the side plate replacement instrument (80) described with reference to FIGS. 13 and 14 is used, the above-described side plate replacement method can be applied regardless of the diameter of the tank (1).

  Since the movement of the side plate (2a) around the tank described in the third embodiment is performed at a high place, it easily receives a gust of wind. Therefore, it is desirable to carry in a more stable state. 15 and 16 show a side plate replacement instrument (110) which has been improved from such a viewpoint. 15 is a side view seen from the tank circumferential direction, and FIG. 16 is a front view seen from the tank radial direction. FIG. 16 also shows the same instrument (111) as the side plate replacement instrument (110).

  The side plate replacement instruments (110, 111) shown in FIGS. 15 and 16 are fixed to the temporary support posts (30) shown in FIG. 6 with fixing bolts (44, 45) as in the first embodiment. And two horizontal beams (112, 113) in the direction of the tank outer periphery, two vertical beams (115, 116) substantially parallel to the tank height direction, a rotating roller (50) supporting the lower edge of the side plate (2a), and The shaft (51) and the longitudinal beam extending tip (48) supporting the shaft (51) have the same function as the side plate replacement instrument (40) of the first embodiment.

  The side plate replacement device (110, 111) according to the fifth embodiment is arranged at the upper side rollers (124, 126) respectively supported by the two upper support members (120, 122) arranged at the upper portion and at the lower portion. The side plate (2a) to be replaced can be sandwiched and transferred by the lower side rollers (132, 134) supported by the two lower support members (128, 130), respectively. The upper support member (120) close to the tank (1) is bolted to the horizontal beams (112, 113), and the lower support member (128) close to the tank (1) is bolted to the longitudinal beam extension tip (48). Tighten (140, 141, 142, 143). Further, the upper support member (122) and the lower support member (130) that are far from the tank (1) are sandwiched between the vertical beams (115, 116).

  In the side plate replacement instrument (110, 111) of the fifth embodiment, the longitudinal beam extending tip (48) is brought into contact with the side plate (2A) below the side plate to be replaced by the contact plate (145). Since they are in contact with each other, the tank (1) is stably held. And the side plates to be replaced, which are cut or joined by the upper and lower welds (146, 148), are guided left and right by at least two side plate replacement tools (110, 111). Safety measures are taken.

  The sixth embodiment shown in FIGS. 17 and 18 is an improvement of the fifth embodiment. Here, FIG. 17 is a side view seen from the tank circumferential direction, and FIG. 18 is a front view seen from the tank radial direction. FIG. 18 also shows the same instrument (151) as the upper side plate replacement instrument (150) and the same instrument (161, 162) as the lower side plate replacement instrument (160). Yes.

  The side plate replacement device (150, 151) shown in FIGS. 17 and 18 is similar to the fifth embodiment in that the two horizontal beams (112, 113) are fixed to the temporary support column (30) by fixing bolts (44, 45). The upper support member (120) close to the tank (1) is fastened with bolts (142, 143) to the transverse beams (112, 113) and the upper side roller (124) is supported by the fifth embodiment. It is the same composition as.

  The upper support member (155) of the upper side roller (126) far from the tank (1) is a vertical beam (157, 158) parallel to a part of the horizontal beam (112, 113) in the height direction of the tank (1). Constitute. The upper support member (120) close to the tank (1) and the upper side roller (124) are bolted together by sandwiching the upper side plate (124, 126) at the upper part of the side plate (2a) to be replaced. 142, 143), the upper part of the side plate (2a) to be replaced is moved to the upper side roller (126) far from the tank (1), and then bolted again (142, 143).

  As a means for guiding the lower part of the replacement target side plate (2a), the rotation target side plate (2a) is replaced by the rotating roller (50) and the lower side rollers (132, 134) shown in FIG. 15 of the fifth embodiment. Can be sandwiched and transferred. Each of these rollers (50, 132, 134) includes a lower roller support beam (163), a bracket (164), and a lower plate (166) that contacts the side plate (2A) that is not replaced. Hold by the roller support. The contact between the side plate (2A) that is not replaced and the contact plate (166) can be performed by welding. The sandwiching between the lower two upper side rollers (132, 134) can be performed by using bolt fastening (140, 141) in the same manner as the sandwiching between the upper side rollers (124, 126) described above.

In the side plate replacement instrument (150, 151, 160, 161, 162) of the sixth embodiment,
Since the upper side plate replacement instrument (150, 151) and the lower side plate replacement instrument (160, 161, 162) are used as a pair of upper and lower instruments, the construction work is the same as in the fifth embodiment. It is safe against gusts and earthquakes inside, and it is safer because each piece of equipment is small.

  In the first, second and fourth embodiments, three rotating rollers (50, 60, 61) are provided. In these embodiments, even if there are few provisional support columns (30), the side plates can be replaced by mounting the side plates with two rotating rollers (60, 61) extending on the outer periphery of the tank (1). The side plate replacement instrument (40, 80) becomes larger. In the fifth and sixth embodiments, four side rollers (124, 126, 132, 134) for sandwiching the conveyance side plate (2a) are increased. In these first, second, fourth to sixth embodiments, the structure is complicated. Therefore, in the seventh embodiment, the structure is simplified with only one rotating roller arranged on one side plate replacement tool.

  19 and 20 show the seventh embodiment. FIG. 19 is a partially sectional top view as seen from above the tank, and FIG. 20 is a partially sectional front view as seen from the tank radial direction.

  The side plate replacement device (170) shown in FIGS. 19 and 20 is fixed to the temporary support post (30) shown in FIG. 6 with fixing bolts (44, 45), as in the first embodiment. And, the horizontal beam (46) in the direction of the outer periphery of the tank, the vertical beam (47) substantially parallel to the tank height direction, the bracket (49) in contact with the side plate (2A) that is not replaced, and the longitudinal beam extending tip (48) The shaft (51) and the rotating roller (50) are the same as those in the first embodiment, and are denoted by the same reference numerals.

  In the seventh embodiment, the number of roof bones (5) is larger than the circumferential length of the side plate (2a) to be replaced, that is, the temporary support columns (30) attached to the roof bone (5) and This is a suitable means when the pair of side plate replacement instruments (170) are provided on the outer periphery of the tank (1) to support the side plate (2a) being conveyed at least at three or more points.

  The side plate replacement instrument (180) of the eighth embodiment is an example in which the seventh embodiment is further simplified. FIG. 21 is a partial cross-sectional side view showing contact with the side plate (2A) on the lower side of the side plate whose replacement target is the side plate replacement instrument (180). The shaft (51) supporting the rotating roller (50) is welded (182) to the side plate (2A) below the side plate to be replaced, and the other end of the shaft (51) is to be replaced. The side plate (2a) is provided with a stopper (184) for preventing detachment. The shaft (51) is attached in a direction (186) substantially orthogonal to the side plate (2A) on the lower side of the side plate to be replaced, and the rotating roller (50) rotates in the arrow (T) direction.

  FIG. 22 shows a side surface of the side plate replacement instrument (180) attached to the tank (1). Similar to the first embodiment, the temporary support column (30) is fixed to the lower plate (2A) using the first hose shoe (34) and the gold arrow (36), and the upper portion of the temporary support column (30) is covered with the roof. It welds (38) to the bone (5a) to support the roof (3) under construction. In this side plate replacement instrument (180), the side plate fall prevention member (188) is attached to the temporary support column (30) so that the side plate (2a) being conveyed does not fall. Therefore, the side plate (2a) being conveyed does not fall from the upper part of the tank (1) by the side plate fall prevention member (188) and the detachment prevention stopper (184), and the side plate can be replaced safely.

  23 and 24 show a side plate replacement method using the side plate replacement tool (180) of the eighth embodiment, which is substantially the same as the method described in the third embodiment. That is, as shown in FIG. 23, the upper side plate (2a) cut by the lower side plate (2A) and the line (2aA) is the construction tool (180a, 180b, 180c, 180d, 180e, 180f, 180g, 180h, 180i, 180j, 180k) is loaded onto the rotating roller (50) and unloaded. On the contrary, new side plates (2c, 2d) are lifted by the crane (70), transported in the direction (74) and lifted (76) Then, it welds with a lower side plate (2A). Thereafter, similarly to the third embodiment, the side plate replacement instruments (180a, 180b, 180c, 180d, 180e, 180f, 180g, 180h, 180i, 180j, 180k) are sequentially removed from the tank (1), and the opening ( Reattach the roof (3) and top angle (17) of 9).

  The side plate replacement construction method at the top of the tank using the side plate replacement device (180) is the same as in the third embodiment in any tank with a conical fixed roof, a spherical fixed roof, or a floating roof type. Applicable. And (a) it is not necessary to remove the connection piping around the tank, and (ii) the installation position of the heavy equipment for work does not need to be moved from a predetermined position near the tank.

  Also in this construction method, the height relationship between the envelope formed by the outer peripheral portion of the rotating roller (50) of the side plate replacement device (180), the cutting portion (2aA), and the joining portion (2aA) is the same as that of the third embodiment. Is the same.

  In the eighth embodiment, the side plate (2A) that does not replace the shaft (51) of the rotating roller (50) is contacted by welding work, but the present invention is not limited to this method. The side plate replacement instrument (190) of the tenth embodiment shown in FIG. 25 is an example in which this contact is performed by magnetic means. Since the side plate (2) of the tank (1) is generally a steel material, the tenth embodiment can be applied.

  The shaft (51) for supporting the rotating roller (50) is integral with the magnet base (192) and is held by the stopper (184) and the edge member (193). And in this magnet stand (192), there is a magnet (196) that can be rotated by a rotating shaft (194), which is composed of a magnetic core (198a, 198b) and a non-magnetic core (200).

  In FIG. 25, the magnet (196) forms a magnetic path between the magnetic core (198a, 198b) and the side plate (2A), and the side plate replacement device (190) is magnetically coupled to the side plate (2A) that is not replaced. It will be in the state which did. That is, the side plate (2) (not shown) can be conveyed by the rotating roller (50) in the arrangement shown in FIG.

  When the side plate replacement work is finished, the lever (202) of the side plate replacement instrument (190) is pushed down in the direction of the arrow (204) to rotate the magnet (196). In the state of the magnet (206) indicated by the one-dot chain line in the figure, the magnetic path is interrupted by the non-magnetic core (200), so that the side plate replacement instrument (190) can be removed from the side plate (2A) that is not replaced.

  The side plate replacement instrument (190) of the tenth embodiment does not have a welding operation, and can be used for repeated side plate replacement operations. Further, in the tenth embodiment, even if the side plate of the tank (1) is not necessarily made of steel, the above-described side plate replacement work can be performed by making a pair with the steel temporary support post (30). .

  The side plate replacement method described in the third and ninth embodiments is a method of supporting the roof (3) by welding the roof bone (5) and the temporary support post (30). Even spherical type fixed roof or floating roof type tanks can be used.

  In the above description, the provisional support column (30) is disposed inside the tank (1) and the rotating roller is disposed outside the tank (1). However, the method of the present invention is limited to this. Instead, the provisional support column (30) may be disposed outside the tank (1), and a rotation roller may be disposed inside the tank (1).

It is the figure which opened a part of tank roof in implementing this invention. It is a positional relationship figure of a tank and heavy machinery at the time of carrying out the present invention. It is sectional drawing of the tank upper part. FIG. 2 is a cross-sectional view of an upper portion of the tank in the state of FIG. It is the figure which removed the top angle. It is the figure which provided the provisional support pillar of this invention. It is a partial cross section top view of 1st Example of this invention. 1 is a cross-sectional side view of a first embodiment of the present invention. It is a perspective view of 2nd Example of this invention. The first step of the third embodiment of the present invention is shown. The process of carrying out the side plate according to the third embodiment of the present invention will be described. The side board carrying-in process of 3rd Example of this invention is shown. It is a partial cross section top view of 4th Example of this invention. It is a partial cross section side view of 4th Example of this invention. It is a side view of 5th Example of this invention. It is a front view of 5th Example of this invention. It is a side view of 6th Example of this invention. It is a front view of 6th Example of this invention. It is a partial cross section top view of 7th Example of this invention. It is a partial cross section front view of 7th Example of this invention. It is a partial cross section side view of 8th Example of this invention. It is a side view of 9th Example of this invention. The process of carrying out the side plate according to the ninth embodiment of the present invention is shown. The side board carrying-in process of 9th Example of this invention is shown. It is a partial cross section side view of 10th Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Tank with fixed roof 2 Side plate 2a Uppermost side plate 2A Directly lower side plate 2aA of uppermost side plate (2a) Cutting part and joint part 3 Roof 4 Roof board 8 Outer peripheral edge part 9 Roof 5, 5a, 5b, 5c, 5e, 5w, 5x Roof bone 10 Heavy machine 12 Heavy machine work area 13 Bracket 14 Bracket abutment plate 15 Fastening part 17 Top angle 30 Temporary support column 31 Side plate abutment surface 31a, 31b Side plate replacement hole 32 for attaching a side plate replacement tool Receiving base 34 Hose shoe 36 Gold arrow 38 Welded portion 40 of temporary support column (9) Side plate replacement instrument 42a, 42b of first embodiment Column support portion 44 of side plate replacement instrument (40) Fixing bolts 44a, 44b The head of the fixing bolt (44) and the nut 45 The fixing bolt 46 The lateral beam 47 of the side plate replacement device The vertical beam 48 of the side plate replacement device The vertical beam extension tip 49 The directly lower side plate (2A) Bracket 50 to be pressed Rotating roller 51 Shaft 52, 53 Extension member 54, 55, 56, 57 Edge member 58, 59 Shaft 60, 61, 62, 63 Rotating roller 66 Temporary support post (30) hole 68 Lever block 70 Heavy machine Cranes 80 Side plate replacement instruments 82, 84 of the fourth embodiment Extension parts 86, 88 along the outer periphery of the tank (1) 90, 92 Swing plates 94, 95, 96, 97 Edge members 98, 100 Shafts 102, 104 Rotating rollers 110, 111 Side plate replacement tools 112, 113 of the fifth embodiment Horizontal beams 115, 116 Vertical beams 120, 122 Upper support members 124, 126 Upper side rollers 128, 130 Lower support members 132, 134 Lower Side rollers 140, 141, 142, 143 Bolt fastening 145 Wet plate 146, 148 Welded portion 150, 151 Upper side of the sixth embodiment Plate replacement device 155 Upper support members 157, 158 Vertical beams 160, 161, 162 Lower side plate replacement device 163 of the sixth embodiment Lower roller support beam 164 Bracket 166 Current plate 170 Side plate difference of the seventh embodiment Replacement instrument 180 Side plate replacement instrument 182 of the eighth embodiment Welding 184 prevention stopper 188 Side plate fall prevention member 190 Side plate replacement instrument 192 of the tenth embodiment Magnet base 193 Edge member 194 Rotating shaft 196 Magnet 198a, 198b Magnetic core 200 Non-magnetic core 202 Lever

Claims (8)

In the construction method of replacing the tank side plate for storing the fluid on the inner peripheral side of the structure is a tank having a structure in which side plates are stacked in a cylindrical shape upward from the base body installed on the ground surface,
A plurality of temporary support columns fixed to the side plate on the lower side of the side plate to be replaced toward the upper side of the tank,
A plurality of rotating rollers that are supported by a member that contacts the lower side plate;
With
The temporary support strut is disposed in the tank height direction of the lower side plate, and the rotating roller is disposed on the back surface of the lower side plate on which the temporary support strut is disposed,
(A) cutting the tank from the tank before mounting the side plate to be replaced on the rotating roller;
(B) a step of circulating the side plate to be replaced mounted on the rotating roller along the circumference of the tank and carrying it out to the ground surface at a predetermined position of the tank circumferential portion;
(I) a step of mounting a new side plate carried in from the predetermined position on the rotating roller, circling along the circumference of the tank, and carrying it to the original position of the side plate to be replaced;
(Ding) The step of joining the new loaded side plate to the tank;
Have
A cutting portion between the side plate to be carried out and the side plate on the lower side in the step of carrying out, and a joint portion between the new side plate and the side plate on the lower side in the step of carrying in from the ground surface. A tank side plate replacement method characterized in that the height is higher than the mounting portion at the lower end of the side plate on the outer peripheral surface of the rotating roller in the step of carrying out and the step of carrying in. A step of integrally fastening the temporary support post and the holding member of the rotating roller;
The fastening step is fixed at a position where the side plate to be updated is sandwiched between the temporary support column, a horizontal beam extending in a radial direction of the tank constituting the holding member, and a vertical beam extending in a tank height direction. Item 1. The tank side plate replacement method according to Item 1.   At least three of the rotating rollers are supported, and one of the rotating rollers is supported by the longitudinal beam extending tip of the longitudinal beam, and each of the other at least two rotating rollers is in relation to the longitudinal beam extending tip. The tank side plate replacement method according to claim 2, further comprising a step of being supported by a pivotable member and abutting the pivotable member on a side plate below the side plate to be replaced. . The first and second side rollers are arranged above and below the outer surface of the side plate to be updated,
After the cut side plate is pressed against the first and second side rollers, third and fourth side rollers are arranged above and below the inner surface of the side plate to be updated, respectively, and the cut side plate The tank side plate replacement method according to claim 1, wherein the tank side plate is moved by the first to fourth side rollers. Side plate replacement device for use in a tank structure in which side plates are stacked in a cylindrical shape upward from a base body installed on the ground surface, and used for a method of replacing a tank side plate for storing fluid on the inner peripheral side of the structure Leave
A plurality of temporary support columns arranged along the side plate to be replaced, and the temporary support column is fixed to the side plate below the side plate to be replaced toward the upper side of the tank. And
A rotating roller on which the side plate to be replaced is mounted and circulated along the circumference of the tank, and the central axis of the rotating roller is arranged in the radial direction of the tank;
The temporary support struts are arranged on the inner surface of the lower side plate along the tank height direction of the lower side plate, and the rotating roller is provided on the outer surface of the lower side plate. And
Furthermore, a tank side plate replacement instrument comprising a plurality of the temporary support columns and the rotating roller arranged along the circumference of the tank as a pair.   The temporary support strut and the rotating roller holding member are integrally fastened, and the holding member has a horizontal beam extending in the radial direction of the tank and a vertical beam extending in the tank height direction. The tank side plate replacement device according to claim 5, wherein the receiving column, the horizontal beam, and the vertical beam are positioned to sandwich the side plate to be updated.   At least three of the rotating rollers are supported, and one of the rotating rollers is supported by the longitudinal beam extending tip of the longitudinal beam, and each of the other at least two rotating rollers is in relation to the longitudinal beam extending tip. 7. A tank side plate replacement device according to claim 6, wherein the tank side plate replacement device is supported by a rotatable member, and the rotatable member is brought into contact with a side plate located under the side plate to be replaced. The first and second side rollers are provided respectively on the upper and lower sides of the outer surface of the side plate to be updated,
It is provided with third and fourth side rollers on the upper and lower sides of the inner surface of the side plate to be updated,
6. The tank according to claim 5, wherein after the cut side plates are pressed against the first and second side rollers, third and fourth side rollers are attached and arranged on the upper and lower sides of the inner surface of the side plate to be updated. Side plate replacement device.

Images