JPS63251528A - Setting of cover-receiving frame for underground structure - Google Patents

Abstract

PURPOSE:To permit a receiving frame to be set exactly and strongly by a method in which the level with road face of a cover-receiving frame for underground structure is adjusted, and a quick-setting cement is injected into the space between the receiving frame and the side block. CONSTITUTION:A receiving frame 1 of a cover for underground structure is set on a side block 4, and a flange 2 having a number of level regulating tools 3 is provided for the lower end of the frame 1. The level and inclined state in relation to road face 7 of the frame 1 are adjusted by using the tools 3, and a quick-setting cement 9 is injected into the space 5 between the frame 1 and the block 4. The space 5 is enclosed from inside by an angular inner formwork 6 attached to the inner surface of the block 4.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a method for installing a receiving frame of a cover for underground structures on a side mass.

[Conventional technology]

When installing a receiving frame for the cover of an underground structure, in order to prevent a step from occurring between the upper end of the receiving frame and the road surface, adjusters made of iron plates, block pieces, etc. are installed at several locations between the receiving frame and the side blocks. The height and inclination of the receiving frame were adjusted by interposing an appropriate number of plates. However, when using this method,
It is necessary to always prepare several adjustment plates. Also,
Since adjustment can only be made by the thickness of the adjustment plate, it may not be possible to accurately align the upper end surface of the receiving frame with the road surface.

To solve this problem of height adjustment,
JP-A-78966 proposes a manhole cover frame shown in FIG. 4.

20 In the receiving frame, protrusions C are provided at several places on the seat of the receiving frame main body a, and a receiving seat d is provided at the lower end.
e is attached to this protrusion C. Then, the protrusion length of each adjustment pole (e) that protrudes below the seat is adjusted. By adjusting the protruding length, the manhole cover receiving frame can be installed in a state that is in line with the road surface even on an inclined road surface.

[Problem that the invention seeks to solve]

When the receiving frame is installed in this manner, the inner peripheral shape of the side block is circular, whereas the inner peripheral shape of the receiving frame installed in an inclined state is elliptical. Therefore, it is currently difficult to create an inner formwork that seals the gap between the side mass and the receiving frame. As a result, mortar tended to leak from the gaps between the inner forms. In addition, since ordinary mortar contracts during solidification, it has not been possible to completely eliminate voids.

Therefore, the load applied to the manhole cover when a vehicle or the like passes through it acts as a concentrated load on the upper surface of the side block via the adjustment bolt. For this reason, when used for a long period of time, the upper surface of the side block is destroyed, resulting in a drawback that looseness occurs from the receiving frame body.

Because of these problems, the actual situation is that the receiving frame having the structure shown in FIG. 4 is hardly ever put into practical use.

Therefore, the present invention provides an underground structure in which the upper end surface of the receiving frame is accurately aligned with the road surface of any slope, and the receiving frame is firmly installed on the side mass, thereby preventing backlash from occurring from the receiving frame body. The purpose of this invention is to provide a method for installing a lid holder frame for objects.

[Means for solving problems]

In order to achieve the objective, the method for installing a lid receiving frame for an underground structure of the present invention is such that level adjustment jigs are installed at multiple locations on the receiving frame of the underground structure lid installed on the side block. The level with the upper end surface is adjusted, and the gap created between the top surface of the side block and the lower part of the receiving frame is sealed from the inside with an annular inner form made of an elastic material, and a non-shrinkable expedient is applied to the gap. Characterized by injection of cement.

〔Example〕

Hereinafter, the features of the present invention will be specifically explained using examples with reference to the drawings.

FIG. 1 shows a state in which a receiving frame is installed in this embodiment.

The receiving frame 1 of the lid for underground structures is equipped with a flange portion 2 at the lower end, and level adjustment jigs 3 are installed at multiple locations on the flange portion 2.
is installed. An annular inner mold 6 attached to the inner circumferential surfaces of the receiving frame 1 and the side mass 4 seals an annular gap 5 formed between the receiving frame 1 and the side mass 4 from the inside.

FIG. 2 is a perspective view showing the level adjustment jig 3. FIG. This level adjustment jig 3 includes a U-shaped flange clamping part 3as that clamps the flange part 2, and a nut part 3 fixed to the outside of the flange clamping part 3as.
b, and an adjustment pole (3c) screwed into this nut portion (3b). The receiving frame 1 is placed on the side block 4 with the flange holding portions 3a of the level adjustment jig 3 being fitted into a plurality of locations of the flange portion 2 of the receiving frame 1 from the radial direction. By adjusting the protruding length of the adjustment pole 3c, the height and inclination of the receiving frame 1 are matched with the road surface 7.

In addition, in FIG. 2, a screw hole 3d is bored in the upper surface of the seven-lunge holding part 3a, and a screw 3e can be screwed into the screw hole 3d. This is because the flange portion 2 of the receiving frame 1 to be clamped is larger than the inner height of the 7-lunge clamping portion 3a.
This is for pressing the upper surface of the flange portion 2 with the screw 3e when the thickness of the flange portion 2 is small.

Thereby, the level adjustment jig 3 can be attached to the receiving frame flange portions 2 having different thicknesses.

FIG. 3 is a sectional view of the annular inner formwork 6. This annular inner formwork 6 is a cylindrical sealing band 6 made of an elastic material such as synthetic rubber.
a, and a floating ring-shaped annular pressurizing body 6b, which is also made of an elastic material and is attached in two stages inside the sealing zone 6a. The annular pressurizing body 6b is provided with an air inlet/outlet valve 6C.

When transporting the annular inner formwork 6, the air inside the annular pressurizing body 6b is removed from the air inlet/outlet valve 6C, and the annular inner formwork 6 is handled in a folded state. Further, during use, air is injected from the air inlet/outlet valve 6C to expand the annular pressurizing body 6b and press the sealing band 6a against the inner circumferential surfaces of the receiving frame 1 and the side mass 4. Here, since the annular pressurizing body 6b is configured in the shape of a floating ring, even if an abnormality occurs in the underground structure during the installation work of the receiving frame 1, the worker can easily descend into the underground structure. .

Further, in the lower part of the sealing zone 6a, a non-shrinkable quick release cement 9 is provided in the gap 5 between the flange part 2 and the upper end surface of the side block 4.
An injection pipe 6d for injecting is connected. On the other hand,
An exhaust pipe 6e for discharging air from the cavity 5 is connected to the upper part of the sealing zone 6a. The tip of this exhaust pipe 6e is
In order to completely exhaust air, it is preferably bent upward.

Next, a procedure for installing a receiving frame for a cover for an underground structure will be explained.

First, the flange holding parts 3a of the level adjustment jig 3 are attached to multiple locations on the flange part 2 of the receiving frame 1.

The level adjustment jig 3 is preferably mounted at three equally spaced locations along the circumference of the flange portion 2. At this time, the lengths of the adjustment bolts 3C protruding from the lower surface of the flange portion 2 are set to be approximately the same, and the receiving frame 1 is placed on the side block 4 in this state. Then, set a reference plane by stretching a water system or the like so that it intersects or perpendicularly crosses or perpendicularly on the support frame l from the surrounding road surface 7, and adjust the head of each adjustment bolt 3C so that the upper end surface of the support frame 1 coincides with this reference plane. Turning the. As a result, the level of the support frame 1 relative to the road surface 7 is adjusted.

After the level adjustment is completed, the annular inner mold 6 is inserted from above the opening of the receiving frame 1 in a slightly contracted state. Then, the annular inner formwork 6 is installed so that the upper annular pressure body 6b is in close contact with the lower inner circumferential wall of the receiving frame 1, and the lower annular pressure body 6b is in close contact with the upper inner circumferential wall of the side block 4. Next, air in/out valve 6C
Air is injected from the annular pressure body 6b to inflate it. As a result, the sealing band 6a is pressed against the inner peripheral surfaces of the receiving frame 1 and the side blocks 4.

On the other hand, a cylindrical outer form 8 is attached to the outside of the receiving frame 1, and clay or the like is applied to the portion where the lower end of this outer form 8 contacts the upper part of the side block 4. This prevents the rapidly hardening cement injected into the cavity 5 from leaking.

Note that there is no problem in attaching either of the annular inner formwork 6 and the outer formwork 8 first.

After the above operations are completed, non-shrinkable quick release cement 9 is injected into the void 5 from the injection pipe 6d connected to the lower side of the sealing zone 6a. The injection of the quick release cement 9 ends when the quick release cement 9 overflows from the upper exhaust pipe 6e. Then, the injection tube 6d is closed with a stopper, adhesive tape, or the like.

The non-shrinkable quick-release cement 9 used here includes quick-release cement containing a calcium sulfur aluminate-based expansive material. Then, considering the injection conditions, injection amount, economic efficiency, etc., decide whether to use aggregate or not, and the particle size, and paste.

An appropriate state of mortar or concrete can be used.

After the quick release cement 9 hardens, the outer formwork 8 and the annular inner formwork 6 are removed, the area around the receiving frame 1 is backfilled with crushed stone, earth and sand, and the upper part is paved with asphalt. by this,
Complete the installation work of receiving frame l.

Note that the sealing band 6a of the annular inner formwork 6 is not limited to a cylindrical body made of an elastic material. For example, it is also possible to configure the sealing band 6a with a band-shaped cloth folded into pleats. Thereby, there is no resistance from the sealing zone 6a, the annular pressurizing body 6b can be easily expanded, and the air inlet/outlet valve 6
The work of injecting air from C becomes less burdensome.

〔Effect of the invention〕

As explained above, in the receiving frame installation method of the present invention, the level adjustment jig can be used to adjust the upper end surface of the receiving frame so that it is in alignment with any slope of the road surface. Moreover, since the expansion and contraction of the annular inner mold can be adjusted depending on the degree of air injection, the receiving frame can be installed quickly and leakage can be reliably prevented. Furthermore, since non-shrinkable quick release cement is injected into the void around the receiving frame, there is no shrinkage during hardening, and the load applied to the lid can be supported over the entire surface. Therefore, the upper surface of the side block does not break, and no looseness from the receiving frame body occurs. Furthermore, due to the quick delivery properties of cement, the road can be opened quickly after the installation of the cover frame for underground structures.

[Brief explanation of the drawing]

Fig. 1 is a diagram for explaining the work of installing a receiving frame in an embodiment of the present invention, Fig. 2 is a perspective view of a level adjustment jig, and Fig. 3 is a sectional view of an annular inner form. . Moreover, FIG. 4 is a perspective view of a manhole cover receiving frame having a conventional adjustment mechanism. 1: Receiving frame 2: 7 rung part 3 double level adjustment jig 3a: Flange holding part 3b = nut part
3c; Adjustment bolt 3d: Threaded hole 3e: Screw 4: Side block 5: Gap 6: Annular inner formwork 6a: Sealing zone 6h: Annular pressurizing body 6c: Air in/out valve 6d: Injection pipe 6e: Exhaust pipe 7: Road surface 8
Outer form 9: Quick-release cement a: Receiving frame body b: Seat C: Protrusion d: Receiving seat e° Adjustment bolt patent applicant Hinode Suido Kiki Co., Ltd. Representative Masu Kobori (2 idiots) 1st Figure 00 6C Figure 2 Figure 4

Claims (1)

[Claims] 1. Attach level adjustment jigs at multiple locations on the support frame of the underground structure cover installed on the side mass, adjust the level between the road surface and the upper end of the support frame, and adjust the level between the top surface of the side mass and the lower part of the support frame. 1. A method for installing a lid receiving frame for an underground structure, comprising: sealing a gap formed between the gaps from the inside with an annular inner form made of an elastic material, and injecting non-shrinkable quick release cement into the gap.