1. Field of the Invention
The present invention relates to a non-slip structure that provides a metal plate with a non-slip protruded piece, which is highly effective in preventing a slip without any trouble caused by a through hole, thereby enhancing reliability.
2. Description of the Related Art
As non-slip structures of a metal plate which constitute floors, aisles, stairs, or decorative laminated sheets and the like of building structures, or floors and steps of buses, trucks, special vehicles and the like and, furthermore, top sides and decks of railway rolling stocks, marine vessels and the like in addition to temporary sole plates and the like of civil works and the like, heretofore, the technologies such as enumerated below have been known.
(1) A banded steel plate 11 is known, which has a non-slip banded pattern rounded and formed when a steel plate is flat-rolled (see
Since the height of the banded pattern 13, formed when the steel plate is flat-rolled, is low and also has a curved shape, a non-slip effect can be expected as long as it is used for a relatively good working condition. Even in such a case, not much non-slip effect can be expected (see
(2) A non-slip structure is known, which is laminated with a non-slip sheet comprising a sandpaper because the upper cover of construction equipment is taken as a tread.
However, this non-slip sheet is not expected to bring out satisfactory effect since the grain is crushed promptly, depending on its use.
(3) Hence, in order to eliminate these troubles, a structure is known, in which a through hole 22 having a round shape or star-like shape is first formed by punching in a steel plate 21 and, then, a large number of patterns 23 that are made by pulling up the peripheral hem of the through hole 22 by a press and the like are arranged (see
In this non-slip steel plate 21, since the height of the pulled up portion of the pattern 23 can be sufficiently secured, which also becomes a sharply chopped off surface 27 by punching, much stronger non-slip effect can be expected.
Consequently, this non-slip steel plate 21 is used particularly at elevated working floors, and locations in which the non-slip effect is spoiled due to rainwater and slurries, and the like.
However, since the above-described non-slip steel plate is cut with the through hole, depending on its application, it is inevitable that there arise problems such as rainwater and slurries falling down below the tread, or fiery winds and a diffusion of noises inversely rolling up from below to the tread or the like.
Hence, this non-slip steel plate is integrally welded on a separate floor surface made of a flat steel plate or firmly fixed to it by bolting as necessary.
Since bolting makes it possible to separate the non-slip steel plate and the flat steel plate, which becomes the floor surface, it is possible to prevent a rusty fluid from arising out of rainwater accumulated between the non-slip steel plate and the flat steel plate or to clean up dusts accumulated in each non-slip pattern.
Nevertheless, in either case, since the floor structure is twofold, it leads to a rise in the manufacturing cost because of the twofold structure.
The present invention has been made in view of the above-described circumstances, and the main object of the invention is to provide a highly reliable non-slip structure, which is highly effective in preventing a slip without any trouble caused by the through hole.
A further object of the invention is to provide a non-slip structure, which is good in draining.
In the present invention, a cutting line to form a protruded piece is formed by shearing a portion of the metal plate and, at the same time, the protruded piece is pulled up to a height, which does not exceed the thickness of the metal plate, along the cutting line, and a sheared surface is raised along the cutting line. Since the above-described sheared surface comprises a shape which does not form the through hole in the metal plate, a non-slip effect can be realized by an edge rising high vertically, and it can be improved, compared to a conventional structure, which is low in height and rounded.
The above-described protruded piece comprises a pair of lateral side cutting lines formed at both lateral sides, and a joining cutting line, which joins between top end portions of the pair of lateral cutting lines by a straight line or a curved line. The protruded piece may have a shape, which is gradually pulled up higher from the base ends of the lateral cutting lines so that the joining cutting line become the highest in height.
Also, with a center as a horizontal surface, a plurality of protruded pieces are formed almost radially in the direction of the center around the periphery, and a pulled up edge portion of each protruded piece may be arranged in the direction of the center.
Further, when a draining path portion, which is connected to the horizontal surface of the center and is set up in the same surface, is formed between the above-described protruded pieces, an operability of cleaning works can be enhanced.
A preferred embodiment of a non-slip structure of the present invention applied to a cover plate made of steel plate which covers various units, parts and portions of frame bodies and the like of construction equipment will be described below with reference to the drawings.
This non-slip structure 1, as shown in
In this way, the sheared surface is raised along the cutting lines and, at the same time, the above-described sheared surface contacts the surrounding steel plate 2 at least at a part thereof and, therefore, even when a protruded piece 3 is formed, a through hole will never be formed on the steel plate 2.
That is, this protruded piece 3 has a pair of lateral side surfaces or cutting lines 3a formed at both lateral sides of the protruded piece 3, and an end surface or joining cutting line 3b which joins between the top ends of the pair of lateral cutting lines 3a, and has a shape which is gradually pulled up and elevated from the base end sides of the lateral cutting lines 3b so that the joining cutting line 3b becomes the highest in height.
The peripheral hem end surface (sheared surface) of the elevated protruded piece 3 becomes an edge 7, and the edge 7 along the joining cutting line 3b becomes the highest in height.
As described above, the portion which is divided by the lateral cutting lines 3a and joining cutting line 3b is pulled up, and becomes the protruded piece 3, which is almost fan-shaped as seen from its top view in the case of the illustrated example, and has a form which is curved spherically in its upper surface. Further, though the sheared surface along the cutting lines 3a and 3b becomes the edge 7, since it is not pulled up higher than the thickness of the steel plate 2, the lower end of the edge 7 is connected and overlapped (see
Although the protruded piece 3 may be arranged interspersedly, in the present embodiment, as shown in
The non-slip pattern 4 is arranged in plurality by an adequate configuration on a steel plate 3, which becomes a floor surface or a tread (see
This non-slip pattern 4 comprises a plurality of protruded pieces 3, which are arranged in the radial pattern with an any one point as the center; a center portion 5, which is arranged in the center among these protruded pieces 3 and comprises an almost horizontal surface of the same level as a reference surface of the steel plate 2; and a draining path portion 6, which junctions this center portion 5 and comprises the almost horizontal surface which extends to cross between the adjacent protruded pieces 3.
Note that the joining cutting line 3b of each protruded piece 3 provided in the non-slip pattern 4 becomes a circular-arc curbed line overlapping with a concentric circle of the center portion 5.
Here, the above-described center portion 5 and the draining path portion 6 are areas left without being subjected to any process when the steel plate 2 is processed to form the protruded piece 3. In the case of the illustrated example, the center portion 5 is formed almost in a circular shape, and the draining path portion 6 is like a belt having uniform the same width and is formed so as to intersect the above-described center portion 5 at right angles in a radial direction.
The shape and the number of protruded pieces 3 and draining path portions 6 are not limited to the illustrated example, but can be set to an adequate shape and the number according to the application.
Since the non-slip pattern 4 is constituted as described above, the peripheral hem of the protruded piece 3 has the edge 7 almost vertically raised with the above-described joining cutting line as the highest position, and its shape is arranged in a flat circular arc along the outer periphery of the center portion 5 at equal intervals (at intervals of 90 degree in the case of the illustrated example) and, therefore, a non-slip effect can be enhanced.
Also, since the through hole is not formed, and the edge 7 of the protruded piece contacts at least the thickness portion of the steel plate 2, no fluids such as water and slurry or ambience such as heat and noises are allowed to move freely from the upper side to the underside or inversely from the underside to the upper side.
Moreover, even when the water is accumulated in the center portion 5 which is surrounded by the protruded pieces, it is discharged through the radially shaped draining path portions 6, and can be cleaned up conveniently.
In the above-described embodiment, though a steel plate is cited as an example, other metal plates may be used in this invention.
Also, the shape of the protruded piece and the non-slip pattern is not limited to the above-described embodiment, but may be adequately changed in design depending on the application.
Furthermore, this non-slip structure is not limited to the cover plate of the construction equipment similarly to the above-described embodiment, but may be used for various types of the floor surfaces, the treads and the like, to be brief, the treads on which the user steps, and can be, applied to all sorts of the applications similarly to the banded steel plate.
Since the non-slip structure as described above performs a non-slip effect by means of the edge rising high vertically, it can be improved, compared to the conventional structure, which is low in height and rounded.
Also, since there is no need to open a through hole, the trouble caused by the flow of a fluid or ambience is controlled, so that there is no limit imposed on the application. Also, there is no need to make a double structure, which superposes the structure on the flat steel plate and the like similarly to the conventional ways.
Also, since the forming of the protruded piece can simultaneously form the center portion and the draining path portion connected thereto, the operability of the cleaning can be enhanced.
Number | Date | Country | Kind |
---|---|---|---|
2001-318760 | Oct 2001 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP02/10745 | 10/16/2002 | WO | 00 | 10/17/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/033835 | 4/24/2003 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
15479 | Ellithorn | Aug 1856 | A |
768932 | Davidson | Aug 1904 | A |
937415 | Cairns | Oct 1909 | A |
1441327 | Blum | Jan 1923 | A |
1680032 | Anderson | Aug 1928 | A |
D101558 | Rose | Oct 1936 | S |
2154597 | Barrett | Apr 1939 | A |
D140623 | Harper | Mar 1945 | S |
D192796 | Terwilliger | May 1962 | S |
3100312 | Williams | Aug 1963 | A |
D198689 | Duern | Jul 1964 | S |
3140644 | Lee | Jul 1964 | A |
3575764 | McFarren | Apr 1971 | A |
3627502 | Rees et al. | Dec 1971 | A |
4169339 | See | Oct 1979 | A |
4203268 | Gladden et al. | May 1980 | A |
4343119 | Bahnfleth | Aug 1982 | A |
4436779 | Menconi et al. | Mar 1984 | A |
4596729 | Morrison | Jun 1986 | A |
4620816 | Kupfer | Nov 1986 | A |
4709519 | Liefer et al. | Dec 1987 | A |
5653071 | Iwami et al. | Aug 1997 | A |
5997212 | Takada et al. | Dec 1999 | A |
7021109 | Ohno et al. | Apr 2006 | B2 |
7162839 | Ohno et al. | Jan 2007 | B2 |
20020018908 | Smith et al. | Feb 2002 | A1 |
20030066253 | Lin | Apr 2003 | A1 |
Number | Date | Country |
---|---|---|
57-145037 | Sep 1982 | JP |
S57-145037 | Sep 1982 | JP |
S59-77512 | May 1984 | JP |
H1-68124 | May 1989 | JP |
4-61151 | May 1992 | JP |
6-101314 | Apr 1994 | JP |
6-185188 | Jul 1994 | JP |
06-322938 | Nov 1994 | JP |
9-302723 | Nov 1997 | JP |
2002-45928 | Feb 2002 | JP |
2003-206622 | Jul 2003 | JP |
Number | Date | Country | |
---|---|---|---|
20040118059 A1 | Jun 2004 | US |