The present invention relates to a cover assembly for a utility access hole, and more specifically to a cover assembly in which cover-closing work can be smoothly made.
In road surfaces and at entrances to aboveground utilities, there are formed access holes for accessing the underground and aboveground utilities, such as water, sewerage, gas, electricity, and communication utilities. The access hole is openable and closable by means of a cover assembly. The cover assembly is composed of a support frame fixed to the access hole and a cover removably fitted into the central hole of the support frame. The support frame and the cover generally utilized are ones that have slopes. The support frame with a slope has a central hole whose top portion is formed into an inverted cone (inverted trapezoid in vertical section) with a diameter decreasing downward in the vertical direction of the support frame, whereas the cover with a slope is formed into an inverted cone that is complementary to the top portion of the central hole of the support frame. In the cover assembly shown in
In case that a manhole opening as an access hole is opened, the worker slightly lifts the cover 10 from the support frame 20 with the aid of a crowbar and pulls out the cover 10 onto the road surface by the side of the manhole. In case that the manhole is closed, the cover 10 on the road surface is pushed diagonally downward into the central hole of the support frame 20 to be seated in the support frame. When being pushed into the support frame, however, the cover occasionally tilts greatly in the support frame. If the cover is further pushed in the support frame while being greatly inclined as mentioned, the edge of the cover 10 is brought into contact with the inner peripheral surface 26 of the support frame 20 as illustrated in
An object of the present invention consists in providing a cover assembly for a utility access hole, in which cover-closing work for fitting a cover into a support frame can be performed without difficulty.
To accomplish the above object, a cover assembly according to the invention comprises a support frame fixed to a utility access hole and having a circumferential wall that defines a central hole, at least an upper part of which has a round shape in plan, and a rounded cover that is removably fitted into the upper part of the central hole of the support frame to close the utility access hole. The circumferential wall of the support frame has an S-curved inner peripheral surface (hereinafter referred to as “S-shaped inner peripheral surface” on occasion) in an upper part thereof, and the S-curved inner peripheral surface includes a convex curved surface portion that is curved convexly with respect to the central hole of the support frame and a concave curved surface portion that continues to the convex curved surface portion and is formed above the convex curved surface portion and curved concavely with respect to the central hole of the support frame. The cover has an S-curved peripheral surface (hereinafter referred to as “S-shaped peripheral surface” on occasion) that is substantially complementary in shape to the S-curved inner peripheral surface of the circumferential wall of the support frame. The S-curved peripheral surface of the cover includes a concave curved surface portion that is substantially complementary in shape to the convex curved surface portion of the S-curved inner peripheral surface of the support frame and a convex curved surface portion that continues to the concave curved surface portion and is formed above the concave curved surface portion to have a substantially complementary shape to the concave curved surface portion of the S-curved inner peripheral surface of the support frame.
According to the present invention, the peripheral surface of the cover and the inner peripheral surface of the circumferential wall of the support frame are each formed into an S-curved surface having width in a radial direction, so that a rim of the cover can be securely seated on the inner peripheral surface of the circumferential wall of the support frame. Consequently, if in a state where the cover is almost set in the support frame, the worker pushes a rear rim of the cover with his/her foot to push the cover into the support frame or sets the cover into the support frame using a crowbar, a front rim of the cover gradually rises, while the rear rim thereof slowly enters the central hole of the support frame. In so doing, the rise of a front portion of the cover and the entry of a rear portion of the cover are easily carried out due to a guide function of the S-shaped inner peripheral surface of the circumferential wall of the support frame. Thus, the convex and concave curved surface portions of the S-shaped peripheral surface of the cover are interfitted with the concave and convex curved surface portions of the S-shaped inner peripheral surface of the support frame, respectively, whereby the utility access hole is closed by the cover. Simply by thus pushing the cover into the support frame, the cover can be smoothly set in the support frame.
Preferably, the circumferential wall of the support frame has an upper side-sloped inner peripheral surface that continues to the S-curved inner peripheral surface and is formed above the S-curved inner peripheral surface. The upper side-sloped inner peripheral surface is formed into an inverted cone with a diameter increasing toward an upper part thereof. The cover has an upper side-sloped peripheral surface that continues to the S-curved peripheral surface and is formed above the S-curved peripheral surface. The upper side-sloped peripheral surface is formed into an inverted cone that is complementary to the upper side-sloped inner peripheral surface of the circumferential wall of the support frame.
More preferably, the circumferential wall of the support frame has a lower side-sloped inner peripheral surface that continues to the S-curved inner peripheral surface and is formed below the S-curved inner peripheral surface to have a shape of an inverted cone with a diameter increasing toward an upper part thereof. The cover also has a lower side-sloped peripheral surface that continues to the S-curved peripheral surface and is formed below the S-curved peripheral surface to have a shape of an inverted cone that is complementary to the lower side-sloped inner peripheral surface of the circumferential wall of the support frame.
According to the above-described preferred embodiment, when the cover is installed in the support frame, the upper side-sloped peripheral surface of the cover is brought into contact with the upper side-sloped inner peripheral surface of the support frame (preferably the upper side- and lower side-sloped peripheral surfaces of the cover touch the upper side- and lower side-sloped inner peripheral surfaces of the support frame, respectively). Such a structure for slopes makes it possible to securely support the cover by the support frame and then to prevent the cover from jouncing with respect to the support frame, thereby avoiding infiltration of earth and sand, rainwater, and the like from the outside into the utility access hole.
It is more preferable that the cover and the circumferential wall of the support frame be so formed that the S-curved peripheral surface of the cover does not touch the S-curved inner peripheral surface of the support frame when the upper side-sloped peripheral surface of the cover is brought into contact with the upper side-sloped peripheral surface of the support frame (preferably when the upper side- and lower side-sloped peripheral surfaces of the cover touch the upper side- and lower side-sloped peripheral surfaces of the support frame, respectively).
According to the preferred embodiment, when the cover is installed in the support frame, the upper side-sloped peripheral surface (preferably the upper side- and lower side-sloped peripheral surfaces) of the cover is brought into contact with the upper side-sloped inner peripheral surface (preferably the upper side- and lower side-sloped inner peripheral surfaces) of the support frame over the whole circumference, whereas the S-shaped peripheral surface of the cover and the S-shaped inner peripheral surface of the support frame do not touch each other. This prevents overbite of the cover, and at the same time surely averts the jounce motion of the cover and the infiltration of earth and sand, rainwater, and the like.
A cover assembly according to one embodiment of the present invention will be described below with reference to
The cover assembly of the embodiment comprises a rounded cover 10 and a support frame 20 for supporting the cover, and is fixed to a utility access hole, for example a manhole opening 30b, such that an upper surface 10a of the cover 10 is on substantially the same level as a ground level 30a (FIG. 3). Although not shown in
As illustrated in
The circumferential wall 20a of the support frame has an S-curved inner peripheral surface (hereinafter referred to as S-shaped inner peripheral surface) 20b in a top portion thereof. The S-shaped inner peripheral surface 20b includes a convex curved surface portion 21 and a concave curved surface portion 22 that smoothly continues to the convex curved surface portion 21 and is formed above the convex curved surface portion 21. The convex curved surface portion 21 of the S-shaped inner peripheral surface 20b is curved convexly with respect to the central hole 20c, and the concave curved surface portion 22 is curved concavely with respect to the central hole 20c.
The circumferential wall 20a of the support frame has an upper side-sloped inner peripheral surface 23 that continues to the concave curved surface portion 22 of the S-shaped inner peripheral surface 20b and is formed above the concave curved surface portion 22, and a lower side-sloped inner peripheral surface 24 that continues to the convex curved surface portion 21 of the S-shaped inner peripheral surface 20b and is formed below the convex curved surface portion 21. The upper side- and lower side-sloped inner peripheral surfaces 23, 24 are each formed into an inverted truncated cone (inverted trapezoid in vertical section) with a diameter increasing toward an upper part thereof, and thus extend obliquely with respect to a central axis of the circumferential wall 20a of the support frame (central axis of the cover assembly) in vertical section.
The cover 10 has an S-curved peripheral surface (hereinafter referred to as S-shaped peripheral surface) 10b that is substantially complementary to the S-shaped inner peripheral surface 20b of the circumferential wall 20a of the support frame. The S-shaped peripheral surface 10b includes a concave curved surface portion 11 that is curved concavely with respect to the support frame 20 and a convex curved surface portion 12 that smoothly continues to the concave curved surface portion 11 and is formed above the concave curved surface portion 11 and curved convexly with respect to the support frame 20. The concave curved surface portion 11 and the convex curved surface portion 12 of the S-shaped peripheral portion 10b of the cover 10 are formed substantially complementary in shape to the convex curved surface portion 21 and the concave curved surface portion 22 of the S-shaped inner peripheral surface 20b of the support frame 20, respectively.
Furthermore, the cover 10 has upper side- and lower side-sloped peripheral surfaces 13, 14 each having a shape of an inverted truncated cone, which are substantially complementary to the upper side- and lower side-sloped inner peripheral surfaces 23, 24 of the circumferential wall 20a of the support frame, respectively. The upper side-sloped peripheral surface 13 of the cover 10 continues to the S-shaped peripheral surface 10b of the cover 10 and is formed above the S-shaped peripheral surface 10b. The lower side-sloped peripheral surface 14 continues to the S-shaped peripheral surface 10b and is formed below the S-shaped peripheral surface 10b.
The upper side- and lower side-sloped peripheral surfaces 13, 14 of the cover 10 extend obliquely in vertical section with respect to the central axis of the cover assembly at the same angle as a slope angle of the upper side- and lower side-sloped inner peripheral surfaces 23, 24 of the circumferential wall 20a of the support frame. In vertical section, length of the upper side-sloped peripheral surface 13 of the cover 10 is shorter than the upper side-sloped inner peripheral surface 23 of the circumferential wall 20a of the support frame. Consequently, when the cover 10 is installed in the support frame 20, the upper side- and lower side-sloped peripheral surfaces 13, 14 of the cover 10 are interfitted with the upper side- and lower side-sloped inner peripheral surfaces 23, 24 of the circumferential wall 20a of the support frame, respectively, while the S-shaped peripheral surface 10b of the cover 10 does not touch the S-shaped inner peripheral surface 20b of the circumferential wall 20a of the support frame. The achievement of such a structure for slopes makes it possible to discourage overbite and jounce motion of the cover 10 with respect to the support frame 20 and infiltration of earth and sand, rainwater and the like.
With reference to
In an X-Y coordinate system shown in
In
The cover assembly of the embodiment is achieved as a structure for slopes, in which the cover 10 is interfitted with and supported by the upper side- and lower side-sloped inner peripheral surfaces 23, 24 of the support frame 20 while the S-shaped peripheral surface 10b of the cover 10 and the S-shaped inner peripheral surface 20b of the support frame 20 do not touch each other. In this connection, the second straight line P4P5 corresponding to the upper side-sloped inner peripheral surface 23 of the support frame 20 is made longer than the fourth straight line P4′P5 corresponding to the upper side-sloped peripheral surface 13 of the cover 10.
Moreover, the peripheral surface 10b of the cover and the inner peripheral surface 20b of the circumferential wall 20a of the support frame are each formed into an S-curved surface. As a result, the cover can be moved without a hitch due to a guide function of the support frame while being in line contact with the support frame during cover-closing work. Accordingly, the first and second curved lines P2P3 and P3P4 and the third and fourth curved lines P2′P3′ and P3′P4′ are made into S-shaped curved lines corresponding to the S-shaped inner peripheral surface 20b and the S-shaped peripheral surface 10b, respectively.
With reference to
At the time of closing a manhole opening 30b by the cover 10, in the process of setting the cover 10 in the support frame 20 as shown in
Subsequently, the worker thrusts a rear rim of the cover 10 with his/her foot to push the cover into the support frame 20 or pulls the cover into the support frame with the aid of a crowbar. Thus, as illustrated in
When the cover 10 is installed in the support frame 20, the upper side- and lower side-sloped peripheral surfaces 13, 14 of the cover 10 are brought into contact with the upper side- and lower side-sloped inner peripheral surfaces 23, 24 of the support frame 20 over the whole circumference, respectively, while the S-shaped peripheral surface 10b of the cover 10 and the S-shaped inner peripheral surface 20b of the support frame 20 do not touch each other. This prevents the overbite and jounce motion of the cover 10 with respect to the support frame 20 and the infiltration of earth and sand, rainwater and the like into the manhole opening 30b.
The present invention is not limited to the above-described embodiment and may be modified in various ways.
The above description of the embodiment refers to the case in which the invention is applied to the cover assembly that opens/closes the manhole opening. The invention, however, is applicable to various kinds of cover assemblies. For instance, the invention can be applied to a manhole cover, a large-sized iron cover, and a soil chamber cover to be fixed to the access holes for accessing underground buried objects, underground structure facilities and the like for sewerage. The invention is also applicable to openable/closable iron covers for a multipurpose underground conduit, power transmission and distribution, which are utilized to protect underground facility devices, underground cables and the like for electric power and communications. The invention is further applicable to a fire hydrant cover, a gate valve cover, a slice valve cover, an air valve cover, a cover for gas piping, and a water meter cover serving as opening/closing doors for accessing to buried conduit pipes for water supply and gas piping and ancillary equipment therefor. The invention is not limited to the cover assembly for an access hole for accessing underground utility and may be applied to one for opening/closing the access hole provided to an entrance to aboveground utility.
Furthermore, according to the above-described embodiment, the cover is provided with the upper side- and lower side-sloped peripheral surfaces, and the circumferential wall of the support frame with the upper side- and lower side-sloped inner peripheral surfaces. It is possible, however, to provide the cover only with the upper side-sloped peripheral surface, and to provide the circumferential wall of the support frame with the upper side-sloped inner peripheral surface. Alternatively, the cover may be provided only with the S-shaped peripheral surface instead of the upper side- and lower side-sloped peripheral surfaces, and additionally the circumferential wall of the support frame may be provided only with the S-shaped inner peripheral surface. Furthermore, the shoulder denoted by reference numeral 25 in
Likewise in the other respects, various modifications of the invention can be made without deviating from the gist thereof.
Number | Date | Country | Kind |
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2002-036969 | Feb 2002 | JP | national |
This application is a U.S. National Phase Application under 35 USC 371 of International Application PCT/JP03/001476 filed Feb. 13, 2003.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP03/01476 | 2/13/2003 | WO | 00 | 8/4/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/06907 | 8/21/2003 | WO | A |
Number | Name | Date | Kind |
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149246 | Price et al. | Mar 1874 | A |
1600761 | Haase | Sep 1926 | A |
2190532 | Lukomski | Feb 1940 | A |
4614065 | Papp | Sep 1986 | A |
5052851 | Frishauf | Oct 1991 | A |
Number | Date | Country |
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40-4350 | Feb 1940 | JP |
57-46459 | Oct 1982 | JP |
57-58296 | Dec 1982 | JP |
3047851 | Feb 1998 | JP |
3056877 | Dec 1998 | JP |
Number | Date | Country | |
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20050115157 A1 | Jun 2005 | US |