JP3847937B2 - Manhole structure of reservoir - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a manhole structure of a liquid storage tank. For example, in a public facility such as a school or a hospital, a housing complex such as an apartment or a condominium, a commercial facility such as an office building, or a water supply facility installed in a factory or the like. Preferably used.
[0002]
[Prior art]
In general, as storage tanks for water supply facilities, there are known water receiving tanks installed on the ground or in the basement of buildings, and elevated water tanks installed on the rooftops or elevated platforms of such buildings. Although the tank is not shown in detail, normally, unit plates formed in a box shape with a joining edge standing perpendicularly from the substrate to the same side on the periphery of a right-angled quadrilateral substrate are connected in order by bolts and nuts. The side wall, the bottom wall and the ceiling wall are formed, and the side wall, the bottom wall and the ceiling wall are assembled. In addition, it is necessary for an operator to enter the storage tank in order to perform maintenance work and cleaning work inside the storage tank. For this reason, one or more manholes are provided on the ceiling wall. Yes.
[0003]
Various manhole structures have been proposed. For example, as shown in Japanese Utility Model Publication No. 60-7417, a substrate of a right-angled quadrilateral unit plate used for a ceiling wall is raised to a middle height, and a raised portion is formed. Stand the cylinder at the top of the cylinder, cut out the inside of the cylinder to make a manhole, provide an inward ridge at the tip of the cylinder, cover the manhole with the lid so that it can come into contact with the ridge, and the outer periphery of the lid The part of the lid that passes through the center of the lid and projects opposite each other is projected outward, one of the projections is a hinge, and the other projection is used as a latch. Widely used for liquid tanks.
[0004]
In the manhole structure as described above, a vertical plane passing through the hinge by using the hinge of one of the two protrusions formed on the lid as an axis and lifting the locking part side of the other protrusion upward Opening and closing is performed by rotating the inside.
[0005]
Such a manhole structure is reasonable and can be adopted without any problem when there is no obstacle above the ceiling wall of the liquid storage tank. However, when the space between the ceiling wall of the liquid storage tank installed indoors and the ceiling or beam of the building is small, the lid cannot be sufficiently rotated. For example, if the ceiling wall of the liquid storage tank is set at a high position in order to respond to the user's request to store as much liquid as possible, the ceiling wall will approach the ceiling or beam of the building, leading to the situation described above. There is a fear.
[0006]
For this reason, by setting the ceiling wall of the liquid storage tank at a high position, various manhole structures that can be attached and removed from the lid even when close to the ceiling or beams of the building have been proposed. ing. Specifically, it is possible not only to support the pivot so that the lid can rotate in a vertical plane passing through the bearing, but also to remove the shaft from the bearing to remove the lid from the bearing. A manhole structure that can be slid and removed (see, for example, Japanese Utility Model Publication No. 55-10455), and a pivotal support that pivots around the axis of a bearing that has a lid attached horizontally. A manhole structure in which the lid is slid in the axial direction of the bearing and removed (see, for example, Japanese Utility Model Publication No. 57-35291), and further, a locking piece provided on the lid is formed on the cylinder. A manhole structure (see, for example, Japanese Utility Model Publication No. 61-3838) is known in which the lid is lifted upward and removed by engaging the engagement groove and releasing the engagement state of the engagement piece with the engagement piece. Yes.
[0007]
[Problems to be solved by the invention]
However, the invention described in Japanese Utility Model Publication No. 55-10455 described above is such that the lid is moved in the horizontal direction or lifted upward to be removed from the cylinder. Therefore, when the lid is removed from the position where the manhole opening is closed and removed from the cylinder, the lid is placed on the ceiling wall of the liquid storage tank or lowered from the liquid storage tank onto the floor to a safe place. It is necessary to store temporarily.
[0008]
In the former case, when walking in a narrow and dark space on the upper surface of the ceiling wall, there is a risk that it will come into contact with the lid or slip on the upper surface of the lid. If the lid is dropped or kicked off and dropped from the ceiling wall, the lid may be damaged or may collide with equipment on the floor and be damaged. In addition, it is very dangerous to slide on the upper surface of the lid placed on the ceiling wall of the liquid storage tank.
[0009]
On the other hand, in the latter case, it is necessary to lift the lid again on the ceiling wall and attach it to the manhole opening after maintenance inspection, cleaning, etc., and this is complicated. In addition, since the lid is stored away from the liquid storage tank that does not interfere with walking or work, there is a possibility that the user may forget to attach the lid due to busy work. In that case, dust, dust, insects and the like enter the liquid storage tank from the manhole opening, which is not preferable in terms of hygiene.
[0010]
The present invention has been made in view of such problems, and even when the distance between the ceiling wall of the liquid storage tank and the ceiling of the building is small, the manhole opening is opened without removing the lid. It is intended to provide a manhole structure of a liquid storage tank that can be used.
[0011]
[Means for Solving the Problems]
The present invention projects a cylindrical body upward from a ceiling wall, vertically penetrates the cylindrical body to form a manhole port, covers the manhole port with a lid, and penetrates the outer wall surface of the cylindrical body in the vertical direction The slide fitting is provided with a slide bolt, and the through hole of the slide fitting has a wide hole on one side at a position close to or away from the cylinder. And the other side has a narrow hole that communicates with the wide hole, and is formed in a downwardly bulging shape, and the slide bolt has an outer diameter smaller than the opening width of the narrow hole of the through hole The outer diameter is larger than the opening width of the narrow hole of the through hole, the inner diameter of the outer diameter larger than the opening width of the narrow hole of the through hole, and smaller than the opening width of the wide hole, and the outer diameter of the wide hole of the through hole The large diameter part of the slide The middle diameter part of the cylinder is located directly below the narrow hole in the through hole, and the upper surface of the middle diameter part contacts the lower surface of the slide fitting, so that the lid closes the manhole opening of the cylindrical body. By moving the lid from the horizontal direction and moving the inner diameter part of the slide bolt directly below the wide hole of the through-hole, further lifting the lid body and rotating it horizontally around the slide bolt, The slide bolt's medium diameter part is inserted into the wide hole of the through hole, and the slide bolt's rotation is allowed to open the manhole opening. At this time, the slide bolt's large diameter part contacts the lower surface of the slide fitting. This prevents the lid from coming out.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0013]
1 to 9 show a first embodiment of a manhole structure of a liquid storage tank according to the present invention. The manhole 1 has a substantially cylindrical box shape that can close the cylindrical hole 2a formed on the unit plate 100 that constitutes the ceiling wall of the liquid storage tank that stores drinking water and the like, and the manhole port 2a of the cylindrical body 2. The cover body 3, the slide bolt 4 provided on the protruding portion 31 a of the cover body 3, and the slide fitting 5 provided on the outer wall surface of the cylindrical body 2 corresponding to the slide bolt 4.
[0014]
At the upper end of the cylindrical body 2 that integrally protrudes upward from the substrate 101 of the unit plate 100, a ridge 21 having a constant width toward the inside is provided, and the inside of the ridge 21 is cut out to form a manhole port 2a. Is formed.
[0015]
The unit plate 100 is formed in a box shape by providing a joining edge 102 standing vertically from the substrate 101 to the same side on the periphery of the right-angled quadrilateral substrate 101, and the joining edge 102 of the unit plate 100 is sequentially formed by bolts and nuts. Connected to form the ceiling wall, side wall, and bottom wall of the liquid storage tank.
[0016]
Moreover, the board | substrate 101 of the unit board 100 of the manhole 1 shown in FIG. 1 protrudes in the middle-high to the opposite side to the protrusion side of the joining edge 102 as a whole so that drainage property may be good. In the diagonal direction of the substrate 101, an X-shaped bulging portion having a flat upper surface is provided.
[0017]
The lid 3 has a size that covers the manhole 2 a of the cylindrical body 2, and has a substantially disc-shaped lid 31 having a flat portion 311 that can come into contact with the flange 21 of the cylindrical body 2. The packing P, which is composed of a hanging portion 32 hanging from the outer peripheral edge so as to cover the outer wall surface of the upper end of the cylindrical body 2, is attached to the lower surface of the lid portion 31 (or the upper surface of the flange 21 of the cylindrical body 2). 3 is set to be pressed by the flat portion 311 of 3 and the flange 21 of the cylindrical body 2. And the protrusion part 31a, 31b is formed in the cover part 31 of the cover body 3 at the symmetrical position on the straight line passing through the center continuously from the flat part 311, and the small part formed in one protrusion part 31a. A slide bolt 4 is inserted into a hole (not shown) and fixed by a nut n. Further, a locking bolt 6 is inserted into a small hole (not shown) formed in the other protruding portion 31b and is fixed by a nut n.
[0018]
In addition, the cover part 31 of the cover body 3 protrudes in the middle and high direction to the opposite side to the extending direction of the hanging part 32 as a whole except for the flat part 311. In order to prevent bending when riding, a cross-shaped bulging portion having a cross shape including a portion connecting the protruding portions 31a and 31b is formed. Moreover, the hanging part 32 corresponding to the protrusion part 31a formed in the cover part 31 of the cover body 3 is partly cut away, and prevents the hanging part 32 of the cover body 3 from interfering with the slide fitting 5 to be described later. (See FIG. 3).
[0019]
As shown in FIG. 6, the slide bolt 4 includes a bolt 41 composed of a bolt head H and a trunk portion K, and a nut 42 with a reverse rotation prevention function that is screwed to the lower end of the trunk portion K of the bolt 41. (For example, the trade name U-Nut (trademark) related to the manufacture and sale of Fuji Seimitsu Seisakusho Co., Ltd. is known). Part) 411 is formed, and a screw part (medium diameter part) 412 having a diameter larger than that of the constricted part 411 is formed below the screw part (medium diameter part) 412. Are screwed together. Therefore, in the slide bolt 4, the constricted portion 411, the screw portion 412, and the nut 42 with reverse rotation are arranged vertically from the top near the bolt head H, and the small diameter portion, the medium diameter portion, and the large diameter portion are arranged. The parts are formed in this order from top to bottom.
[0020]
In addition, the screwing position of the reverse rotation preventing nut 42 attached to the screw portion 412 of the bolt 41 is such that the lid portion of the lid 3 is rotated when the lid 3 is lifted and rotated horizontally around the slide bolt 4 as an axis. It is set so that the lowermost end surface of the hanging part 32 hanging from the outer peripheral edge of 31 does not contact the upper end surface of the cylindrical body 2.
[0021]
Further, a screw portion 413 for fixing to one projecting portion 31a of the lid 3 is provided above the constricted portion 411 of the bolt 41 (close to the bolt head H), and the outer diameter of the screw portion 413 is provided. Is set to be equal to or larger than the outer diameter of the screw portion 412.
[0022]
On the other hand, the slide fitting 5 and the locking fitting 7 are fixed to the outer wall surface of the cylindrical body 2 at a symmetrical position on a straight line passing through the center thereof. The slide fitting 5 corresponds to the one protruding portion 31a of the lid body 3 described above, and the locking fitting 7 corresponds to the other protruding portion 31b. As shown in FIG. 7, the slide fitting 5 is an L-shaped plate material composed of a vertical piece 51 and a horizontal piece 52, and is formed so as to conform to the curvature radius and inclination of the outer wall surface of the cylindrical body 2. In the vertical piece 51, a plurality of holes 51a for bolting to the cylindrical body 2 are formed. Further, the horizontal piece 52 of the slide fitting 5 has a small-diameter hole 52a formed on the side close to the vertical piece 51, that is, close to the cylinder 2, and the side far from the vertical piece 51, that is, away from the cylinder 2. A downwardly bulging through-hole 52x is formed which includes a large-diameter hole 52b formed at a position and communicating with the small-diameter hole 52a.
[0023]
The small diameter hole 52 a of the through hole 52 x is set larger than the outer diameter of the constricted portion (small diameter portion) 411 of the slide bolt 4 and smaller than the outer diameter of the screw portion (medium diameter portion) 412. Further, the large-diameter hole 52b of the through hole 52x is larger than the outer diameter of the screw portion (medium diameter portion) 412 of the slide bolt 4 and is larger than the outer diameter of the nut 42 with reverse rotation screwed into the screw portion 412. Is set too small.
[0024]
Further, the locking bolt 6 fixed to the other protrusion 31b of the lid 3 by the nut n has a locking hole 61a penetrating in the diametrical direction below the threaded portion 61 as shown in FIG. The latch of the lock L (see FIG. 2) can be inserted into the lock hole 61a.
[0025]
A locking fitting 7 is fixed to the outer wall surface of the cylindrical body 2 corresponding to the other protrusion 31 b of the lid 3. As shown in FIG. 9, the lock fitting 7 is an L-shaped plate material composed of a vertical piece 71 and a horizontal piece 72, and is formed so as to match the curvature radius and inclination of the outer wall surface of the cylindrical body 2. The piece 71 is formed with a plurality of holes 71 a for bolting to the cylinder 2. Further, a long hole 72 a extending in the radial direction of the cylindrical body 2 is formed in the horizontal piece 72 of the locking fitting 7, and the width of the long hole 72 a is larger than the outer diameter of the screw portion 61 of the locking bolt 6. Is set.
[0026]
Next, the operation of attaching the lid 3 constituting the manhole 1 will be described with reference to FIG.
[0027]
First, the slide metal fitting 5 and the lock metal fitting 7 are respectively bolted to positions that face the outer wall surface of the cylindrical body 180 apart from each other. On the other hand, the bolt 41 of the slide bolt 4 and the locking bolt 6 are inserted into the small holes of the projecting portions 31a and 31b facing each other at 180 degrees apart of the lid 3, and the nuts n are screwed to the screw portions 413 and 61, respectively. And fixed to the lid 3.
[0028]
Next, the lid 3 is gripped, and the screw portion 412 of the bolt 41 is caused to face the large-diameter hole 52b of the through hole 52x of the slide fitting 5, and the screw portion 61 of the locking bolt 6 is placed in the elongated hole 72a of the locking fitting 7. After being exposed, the lid 3 is dropped, the screw portion 412 of the bolt 41 is inserted into the large-diameter hole 52b of the through hole 52x of the slide fitting 5, and the screw portion 61 of the locking bolt 6 is inserted into the elongated hole 72a of the locking fitting 7. Each is inserted through.
[0029]
Thereafter, a nut 42 with reverse rotation is screwed into the threaded portion 412 of the bolt 41 of the slide bolt 4 to prevent the bolt 41 from coming off. That is, since the outer diameter of the nut 42 with anti-reverse rotation is larger than the large-diameter hole 52b of the through hole 52x formed in the slide fitting 5, the upper surface of the nut 42 with anti-reverse rotation can be maintained even when the lid 3 is lifted upward. It abuts on the lower surface of the slide metal fitting 5 and does not lift any further, and the lid 3 and the cylinder 2 remain in a coupled state, and both cannot be detached.
[0030]
Then, the lid 3 is gripped and the locking bolt 6 side is slightly lifted, and while keeping this state, the lid 3 is shifted leftward along the upper surface of the flange 21 of the cylindrical body 2 in FIG. Just move. That is, the constricted portion (small diameter portion) 411 formed on the bolt 41 of the slide bolt 4 is moved from the large diameter hole 52b of the slide fitting 5 to the small diameter hole 52a, and the locking bolt 6 is moved to the long hole 72a of the locking fitting 7. Is moved from one end side to the other end side. Then, the upper end of the screw part (medium diameter part) 412 formed on the bolt 41 of the slide bolt 4 is in contact with the lower surface of the slide fitting 5, and the bolt 41 cannot be pulled out from the small diameter hole 52 a of the slide fitting 5. It becomes. Thereafter, the locking bolt 6 side of the lid 3 is pressed against the upper surface of the flange 21 of the cylinder 2. Then, the packing P adhered to the lower surface of the flat portion 311 of the lid portion 31 of the lid body 3 (or the upper surface of the flange 21 of the cylindrical body 2) is attached to the lower surface of the flat portion 311 of the lid body 3 and the flange of the cylindrical body 2 The upper surface of 21 is pressed and sealed.
[0031]
Next, a tightening nut 62 is screwed into the threaded portion 61 of the locking bolt 6. Then, the upper surface of the tightening nut 62 comes into contact with the lower surface of the lock fitting 7, and the tightening nut 62 screwed into the lock bolt 6 cannot be pulled out from the elongated hole 72 a of the lock fitting 7.
[0032]
After this, the lock L is latched through the lock hole 61 a at the lower end of the lock bolt 6.
[0033]
As a result, neither the slide bolt 4 side nor the locking bolt 6 side of the lid 3 can be lifted upward, and the lower surface of the lid 3 and the upper surface of the flange 21 of the cylindrical body 2 are continuously increased. The packing P is pressed and the sealed state is maintained.
[0034]
That is, the manhole port 2a is securely sealed by the lid 3 and dust and the like are prevented from entering. Further, since the latch of the lock L is passed through the lock hole 61a at the lower end of the lock bolt 6, the lid 3 cannot be moved and the manhole port 2a cannot be opened unless the lock L is unlocked.
[0035]
That is, a person other than the person who can unlock the lock L cannot open the manhole port 2a.
[0036]
Even if the nut 42 with reverse rotation prevention is loosened and removed from the bolt 41, the upper end of the screw portion (medium diameter portion) 412 of the bolt 41 is placed on the lower surface of the small diameter hole 52a of the through hole 52x of the slide fitting 5. Since it is in contact, the lid 3 does not lift. Therefore, drinking water and the like can be stored with peace of mind.
[0037]
Next, a procedure for opening the manhole port 2a in the closed state by the lid 3 will be described with reference to FIG.
[0038]
First, after unlocking the lock L and removing the lock L from the locking bolt 6 (see FIG. 11 (a)), the fastening nut 62 is loosened and removed, and the locking bolt 6 side of the lid 3 is slightly lifted, The lid 3 is moved to the right in FIG. 11 by a distance e (see FIG. 11B). Then, the constricted portion 411 formed in the trunk portion K of the bolt 41 of the slide bolt 4 moves from the small diameter hole 52a of the through hole 52x formed in the slide fitting 5 to the large diameter hole 52b, and is locked. The bolt 6 moves from the other end side of the elongated hole 72a of the lock fitting 7 to one end side.
[0039]
Here, since the outer diameter of the screw portion (medium diameter portion) 412 of the bolt 41 of the slide bolt 4 is smaller than the hole diameter of the large diameter hole 52b of the through hole 52x of the slide fitting 5, the bolt 41 of the slide bolt 4 The screw portion 412 can be inserted through the large-diameter hole 52b of the through hole 52x of the slide metal fitting 5.
[0040]
Therefore, the entire lid 3 is lifted upward, and the threaded portion (medium diameter portion) 412 of the bolt 41 of the slide bolt 4 is inserted into the large diameter hole 52 b of the through hole 52 x of the slide fitting 5. However, at this time, the upper surface of the reverse rotation preventing nut (large diameter portion) 42 screwed into the screw portion (medium diameter portion) 412 of the bolt 41 of the slide bolt 4 comes into contact with the lower surface of the slide fitting 5, and the lid body. 3 is prevented from coming out.
[0041]
Next, while the entire lid 3 is lifted, it is rotated in the horizontal direction around the slide bolt 4 (see FIGS. 1, 2 and 11D). At this time, the lowermost end surface of the hanging portion 32 hanging from the outer peripheral edge of the lid portion 31 of the lid body 3 rotates along the upper surface of the flange 21 provided at the upper end of the cylindrical body 2.
[0042]
That is, the lid 3 is rotated from the manhole port 2a by turning the lid 3 around the slide bolt 4 that is loosely fitted into the large-diameter hole 52b of the through hole 52x of the slide fitting 5. Can be moved to open the manhole port 2a.
[0043]
Even after the lid 3 is moved from the manhole opening 2a, the outer diameter of the reverse rotation preventing nut (large diameter portion) 42 is larger than the diameter of the large diameter hole 52b of the through hole 52x of the slide fitting 5. Since it is large, the slide bolt 4 does not slip out onto the through hole 52x, and the lid 3 is prevented from being detached from the cylindrical body 2.
[0044]
As a result, the lid 3 is always connected without detaching from the cylindrical body 2, and the position of the lid 3 when the manhole port 2a is opened is surely determined at a certain place.
[0045]
Therefore, even if the lid 3 comes into contact with the lid 3 when walking in a narrow and dark space between the ceiling wall upper surface of the liquid storage tank installed indoors and the ceiling of the building or the lower surface of the beam, It cannot be dropped from the ceiling wall of the reservoir. Therefore, there is no possibility that the lid 3 is dropped and damaged, or the lid 3 collides with equipment on the floor and is damaged. Further, since the lid 3 is not placed directly on the ceiling wall of the liquid storage tank and is always at a relatively high position in the vicinity of the upper end of the cylinder 2, the lid 3 is not kicked off. It is safe without slipping on the top surface of the lid 3.
[0046]
In addition, the lid 3 is always connected without detaching from the cylindrical body 2, and the location of the lid 3 when the manhole port 2a is opened is fixed at a certain place. After the completion, the operation of attaching the lid 3 becomes extremely easy. That is, the complicated operation of lifting the lid 3 stored at a location away from the liquid storage tank that does not interfere with walking and work to the ceiling of the liquid storage tank and attaching it to the manhole port 2a becomes unnecessary. Moreover, it is no longer necessary to accidentally forget to attach the lid 3 due to busy work. Therefore, forgetting to attach the lid 3, dust, dust, insects and the like do not enter the liquid storage tank from the opened manhole port 2 a, which is preferable in terms of hygiene.
[0047]
In addition, although the liquid storage tank in embodiment mentioned above illustrated what formed the unit plate 100 in a tank by connecting with a bolt nut sequentially, in addition, the joining edge 102 of the unit plate 100 is inward or outward of a tank. Any of the one formed by welding the joint portion inside the tank toward the tank or the one formed by welding the steel plate to the tank may be used.
[0048]
Further, as the unit plate 100, in addition to the substrate 101 that has the joint edge 102 erected directly, an inclined portion that is inclined at an angle of about 135 degrees with respect to the joint edge 102 between the substrate 101 and the joint edge 102 (see FIG. (Not shown) is used. Further, as the substrate 101 of the unit plate 100, in addition to the substrate 101 described above, a plate bulging to the protruding side (or the opposite side) of the bonding edge 102 or a flat plate shape is adopted. In addition to the X and X shapes, a quadrangle, octagon, cross, and the like are employed.
[0049]
On the other hand, the slide bolt 4 according to the above-described embodiment includes a constricted portion (small diameter portion) 411, a screw portion (medium diameter portion) 412, and a nut with reverse rotation screwed to the screw portion (medium diameter portion) 412. Although it is comprised by (large diameter part) 42, it is not limited to such a structure.
[0050]
For example, the screw portion (small diameter portion) S of the bolt 41 has an outer diameter nut portion (medium diameter portion) 431 corresponding to the medium diameter portion and an outer diameter flange portion (large diameter) corresponding to the large diameter portion at the lower end. Part) A structure having a structure in which the long nut 43 with hooks is screwed, and a lock nut n is screwed and tightened below the long nut 43 with hooks so that the long nut 43 with hooks is not loosened. (See FIG. 12A).
[0051]
In addition, a male screw 414 is formed below the shaft portion (small diameter portion) J corresponding to the small diameter portion of the trunk portion K of the bolt 41, and an outer diameter pipe (medium diameter) corresponding to the medium diameter portion is formed on the male screw 414. Portion) 44 and an outer diameter stopper (large diameter portion) 45 corresponding to the large diameter portion are inserted in order, and the nut n is screwed into the male screw 414, and the non-rotating screw b is screwed into the nut n. It is good also as a locking. Washers w and w are provided between the lower surface of the bolt head H of the bolt 41 and the upper surface of the lid 3 and between the lower surface of the lid 3 and the upper surface of the nut n screwed to the screw portion 413. It is inserted (see FIG. 12B).
[0052]
Further, two lock nuts (intermediate diameter portions) n, n having an outer diameter corresponding to the intermediate diameter portion are screwed into the middle portion in the vertical direction of the screw portion (small diameter portion) S of the bolt 41 and tightened together. In addition, the nut 46 with a hook having an outer diameter ridge (large diameter part) 461 corresponding to the large diameter part is screwed to the lower end of the screw part S, and the locking screw b is screwed into the nut 46 with the hook. It may also be used (see FIG. 12C).
[0053]
Further, instead of the bolt 41, a screw portion (small diameter portion) 471 corresponding to a small diameter portion is provided above, and a screw portion 472 is provided below, and an outer diameter corresponding to a medium diameter portion is provided at an intermediate portion between the screw portion 471 and the screw portion 472. A screw rod 47 having a shaft (medium diameter portion) 48 is used, and the screw portion 471 is fixed to the lid 3 with nuts n and n via washers w and w, and the screw portion 472 corresponds to a large diameter portion. After inserting the outer diameter stopper (large diameter portion) 45, the lock nuts n may be screwed together to prevent the stopper 45 from falling off (see FIG. 12D).
[0054]
In addition, the slide fitting 5 of the above-described embodiment is configured by an L-shaped plate material including a horizontal piece 52 having a through hole 52x and a vertical piece 51 having a bolting hole 51a. It is not limited.
[0055]
For example, a plate-shaped plate material having a horizontal piece in which the through hole 52x is formed (see FIG. 13A), and the plate material in which the through hole 52x is formed may be directly welded or bonded to the cylindrical body 2. You may make it fix (refer FIG. 16).
[0056]
Moreover, as the through-hole 52x, the case where one is a small-diameter hole 52a and the other is a large-diameter hole 52b communicating with the small-diameter hole 52a is illustrated, but it is not limited to a circular hole. It is only necessary that the bottom bulge shape has one narrow hole and the other wide hole communicating with the narrow hole. For example, the through hole 52x may be a square hole with one being a circular hole and the other being a circular hole (see FIGS. 13 (a) and 13 (b)), a dharma-shaped through hole 52x (see FIG. 13 (c)) or a convex It may be a letter-shaped through-hole 52x (see FIG. 13D). Furthermore, a large diameter or wide hole may be formed close to the cylinder 2 and a small diameter or narrow hole may be formed at a position away from the cylinder 2 (see FIGS. 13C and 13D). .
[0057]
14 to 17 show a second embodiment of the manhole structure of the present invention. The manhole 1 of this embodiment includes a rectangular tube-shaped cylinder 2 that is integrally formed to protrude upward from the substrate 101 of the unit plate 100, and has a rectangular shape that sufficiently covers the manhole port 2 a of the cylinder 2. A shallow box-shaped lid 3 is provided that includes a lid 31 and a drooping portion 32 that is suspended from the outer peripheral edge of the lid 31 so as to cover the outer wall surface of the upper end of the cylindrical body 2. A flat slide metal fitting 5 having a through-hole 5x is welded in the vicinity of the corner of the square cylindrical tube body 2, and the corner of the flat metal fitting 5 is fixed. At the other three corners, a flat plate-like locking fitting 7 having a long hole 7a is welded, and one or more of them are locked.
[0058]
Further, the lid 3 has a head portion of a bolt 41 having a trunk portion (small diameter portion) K having a smaller diameter than the narrow hole 5a of the through hole 5x at a position facing the through hole 5x of the slide fitting 5 described above. Is welded, and a pipe (medium diameter portion) 44 having an outer diameter larger than the narrow hole 5a of the through hole 5x and smaller than the wide hole 5b is inserted into the trunk portion K of the bolt 41, and A reverse rotation preventing nut (large diameter portion) 42 having an outer diameter larger than that of the wide hole 5b of the through hole 5x is screwed to a screw portion 412 provided below the trunk portion K of the bolt 41. The slide bolt 4 is constituted by the bolt 41, the pipe 44 and the nut 42 with a reverse rotation prevention.
[0059]
Further, the lid body 3 has an outer diameter screw portion 61 that can be inserted into the elongated hole 7 a at a position facing the elongated hole 7 a of the locking fitting 7, and a locking hole 61 a is formed at the lower end portion of the threaded portion 61. The head portion of the locking bolt 6 is welded, and a screw nut 61 is screwed into the threaded portion 61 of the locking bolt 6 via a washer w, and the latch of the lock L is inserted into the locking hole 61a and locked. Yes.
[0060]
A packing P is attached to the upper end edge of the cylindrical body 2, and the upper surface portion of the packing P is in close contact with the back surface of the lid 3 to seal the manhole port 2 a.
[0061]
Therefore, also in this embodiment, when the manhole port 2a is opened, the following work may be performed. First, after removing the lock L and releasing the fastening nut 62 and the washer w, the lid 3 is grasped and lifted slightly and moved to the right in FIG. Is positioned on the wide hole 5b side of the through hole 5x. Next, when the lid 3 is lifted upward, the locking bolt 6 is pulled out from the elongated hole 7 a of the locking bracket 7, and the reverse rotation prevention nut 42, which is the large-diameter portion of the slide bolt 4, contacts the back surface of the sliding bracket 5. Raised until touching. In this state, if the lid 3 is rotated in the clockwise direction in FIG. 14, the lid 3 rotates around the slide bolt 4 inserted through the through-hole 5x, and the manhole port 2a is opened.
[0062]
On the other hand, when the maintenance and inspection work and the cleaning work are completed, the lid 3 is rotated counterclockwise around the slide bolt 4 in FIG. After moving to the position facing the hole 7a, the lid body 3 is moved to the left in FIG. 15, and the pipe 44, which is the inner diameter part of the slide bolt 4, is positioned immediately below the narrow hole 5a of the through hole 5x. Move. Thereafter, the lid 3 is placed on the cylinder 2, the washer w is inserted into the threaded portion 61 of the locking bolt 6 projecting downward from the elongated hole 7 a of the locking bracket 7, and the tightening nut 62 is screwed. Then, lock the lock L with the lock hole 61a.
[0063]
As a result, when the lid body 3 is moved so as to open the manhole port 2a, the lid body 3 is held in a fixed position without being detached from the cylindrical body 2. Inspection work can be performed safely without kicking.
[0064]
FIG. 18 shows a third embodiment of the manhole structure of the present invention. The liquid storage tank of this embodiment is formed integrally instead of the one formed by connecting the unit plates 100 in order. The liquid storage tank in FIG. 18 has a sandwich structure having a heat insulating material i such as a foam between an exterior plate and an interior plate, and is exemplified by a heat insulating container.
[0065]
And the cylinder 2 of the manhole 1 of this embodiment is formed so as to protrude integrally upward from the inclined ceiling wall, and the cylinder 2 also has a heat insulating material between the exterior plate and the interior plate. i is arranged. In addition, a slide metal fitting 5 and a lock metal fitting 7 made of an L-shaped plate material are respectively fixed at opposing positions 180 degrees apart from the outer wall surface of the cylindrical body 2. The horizontal piece 52 of the slide fitting 5 is formed with a convex through-hole 52x, and the horizontal piece 72 of the locking fitting 7 is formed with a rectangular long hole 72a.
[0066]
Even in such a configuration, the manhole port 2a can be opened by moving a lid (not shown) in the left-right direction to lift and rotate as in the case of the above-described embodiment. The detailed explanation is omitted.
[0067]
In addition, although the liquid storage tank shown in FIG. 18 was illustrated with the heat retention container, it is not limited to a heat retention container, It can apply to an integrated liquid storage tank.
[0068]
【The invention's effect】
As described above, according to the present invention, the cylindrical body protrudes upward from the ceiling wall, vertically penetrates the cylindrical body to form a manhole port, the manhole port is covered with a lid, and the outer wall surface of the cylindrical body is vertically A slide fitting with a through-hole penetrating in the direction is attached, and a slide bolt is provided on the lid, and the through-hole of the slide fitting is located at a position approaching the cylinder or away from the cylinder. The slide bolt has a wide hole on one side and a narrow hole that communicates with the wide hole on the other side, and is formed in a downwardly bulging shape. Small diameter part with an outer diameter smaller than the width, medium diameter part with an outer diameter larger than the opening width of the narrow hole of the through hole and smaller than the opening width of the wide hole, and opening of the wide hole of the through hole A large diameter part with an outer diameter larger than the width, in this order from top to bottom And the middle diameter part of the slide bolt is located directly below the narrow hole of the through hole, and the upper surface of the middle diameter part is in contact with the lower surface of the slide fitting, so that the lid closes the manhole opening of the cylindrical body, From this closed state, the lid body is moved in the horizontal direction to move the inside diameter portion of the slide bolt directly below the wide hole of the through-hole, and further the whole lid body is lifted and rotated in the horizontal direction around the slide bolt as an axis. As a result, the middle diameter part of the slide bolt is inserted into the wide hole of the through hole and the manhole opening is opened by allowing the slide bolt to rotate. The lid prevents the lid from coming out, so even if the distance between the ceiling wall of the liquid storage tank and the ceiling or beam of the building is small, the manhole opening can be secured without removing the lid. To open Door can be.
[0069]
As a result, when the manhole opening is opened, the location of the lid is constant, so there is no risk of the operator from tripping over the lid, and it is possible to get on the lid and slide the foot without kicking. There is no fear of getting it. In addition, since the lid body does not fall from the ceiling wall, the lid body is not damaged by the dropped impact, and equipment on the floor is not damaged.
[Brief description of the drawings]
FIG. 1 is a plan view showing a manhole structure of a liquid storage tank according to an embodiment of the present invention in a partially broken view.
FIG. 2 is a front view showing the manhole structure of FIG.
FIG. 3 is a right side view showing the manhole structure of FIG. 1 with a part thereof omitted.
4 is an enlarged view of a U portion in FIG. 2. FIG.
FIG. 5 is an enlarged view of a V portion in FIG. 2;
FIG. 6 is a perspective view showing a slide bolt.
FIG. 7 is a perspective view showing a slide fitting.
FIG. 8 is a perspective view showing a locking bolt.
FIG. 9 is a perspective view showing a locking metal fitting.
FIG. 10 is an explanatory view showing a procedure for attaching the manhole structure cover of the present invention.
FIG. 11 is an explanatory view showing a procedure for opening the manhole structure cover of the present invention.
FIG. 12 is a cross-sectional view showing another modified example of the slide bolt.
FIG. 13 is a perspective view showing another modification of the slide fitting.
FIG. 14 is a plan view showing another embodiment of the manhole structure of the liquid storage tank of the present invention in a partially broken view.
15 is a cross-sectional view taken along line AA in FIG.
16 is an enlarged view of a portion W in FIG.
17 is an enlarged view of a portion X in FIG.
FIG. 18 is a perspective view showing another embodiment of the manhole structure of the present invention with a part broken away except for the lid.
[Explanation of symbols]
1 Manhole
2 cylinder
2a Manhole entrance
3 lid
31 Lid
32 Bottom
4 Slide bolt
41 volts
411 Constriction (small diameter part)
412 Screw part (medium diameter part)
42 Nuts with reverse rotation prevention (large diameter part)
5 Slide bracket
52 horizontal pieces
52a Small diameter hole
52b Large diameter hole
52x through hole
6 Locking bolt
61a Locking hole
7 Locking bracket
72 horizontal pieces
72a oblong hole

Claims (1)

The cylindrical body protrudes upward from the ceiling wall, penetrates the cylindrical body in the up and down direction to form a manhole port, and covers the manhole port with a lid.
While attaching a slide fitting formed with a through-hole penetrating in the vertical direction on the outer wall surface of the cylindrical body, a slide bolt is provided on the lid body,
The through hole of the slide fitting has a wide hole on one side at a position approaching or away from the cylindrical body, and a narrow hole communicating with the wide hole on the other side. It is formed into a bottom bulge shape,
Further, the slide bolt has a small-diameter portion having an outer diameter smaller than the opening width of the narrow hole of the through hole, and is larger than the opening width of the narrow hole of the through hole, and smaller than the opening width of the wide hole. It has a medium diameter part of the outer diameter and a large diameter part of the outer diameter larger than the opening width of the wide hole of the through hole in this order from top to bottom,
The middle diameter part of the slide bolt is located directly below the narrow hole of the through hole, and the upper surface of the middle diameter part is in contact with the lower surface of the slide fitting, so that the lid closes the manhole port of the cylindrical body,
From this closed state, the lid body is moved in the horizontal direction to move the inside diameter portion of the slide bolt directly below the wide hole of the through-hole, and further the whole lid body is lifted and rotated in the horizontal direction around the slide bolt as an axis. This allows the middle diameter part of the slide bolt to be inserted into the wide hole of the through-hole and allows the slide bolt to rotate, opening the manhole opening,
In this case, the manhole structure of the liquid storage tank is characterized in that the large-diameter portion of the slide bolt abuts against the lower surface of the slide fitting to prevent the lid from coming out.

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