The present invention relates to an elastic foothold for stairs, and more particularly, to an elastic foothold for stairs that can be fixed to stairs and that can minimize shock applied to users' feet so as to prevent harmful effects on the users' joints such as the knees when the users walk up and down the stairs.
The present invention relates to an elastic foothold for stairs.
In general, walking down a staircase induces shock that can have a harmful effect on the joints such as the knees and fatigue caused by an accumulation of the shock.
Further, in the case that a staircase is washed and then, has some moisture left on the staircase, the elderly and children may slip on the staircase and may be at high risk of injury.
A non-slip structure has been devised as a means to solve such problems. However, the non-slip structure, in which synthetic rubber or metals that went through the extrusion molding process are attached to the ends of a flight of steps, is easily damaged, has a short lifespan and not that effective in preventing slips.
[Related Art Document] Korean Utility Model No. 20-0441458
As a means to solve the above-described problems, the present invention is directed to providing an elastic foothold for stairs that can be fixed to stairs and that can minimize shock applied to users' feet so as to prevent harmful effects on the users' joints such as the knees when the users walk up and down the stairs.
Further, the present invention is directed to providing an elastic foothold for stairs that can prevent the users from slipping on the stairs thereby helping the users to avoid the risk of injury when the users walk up and down the stairs.
Further, the present invention is directed to providing an elastic foothold for stairs that can be easily assembled and disassembled so as to be installed wherever the users want.
Further, the present invention is also directed to providing an elastic foothold for stairs in which a plurality of blocks engaged to both of the ends of a support member can be assembled so as to easily adjust the buffering level of the elastic foothold for stairs depending on the users' needs.
Further, objects, features, and advantages of the present invention will be apparent to those skilled in the art from the following description of the preferred embodiments.
As a means to achieve the above-described purposes, the present invention includes an upper plate 110 having one or more first coupling protrusions 111 formed on one side of a bottom surface of the upper plate, one or more first block insertion parts 112 provided with second coupling protrusions 113 and formed on the other side of the bottom surface of the upper plate, and a first anti-slip part 114 formed on the other side of a top surface of the upper plate; a lower plate 120 having first coupling grooves 121 corresponding to the first coupling protrusions 111 and formed on one side of a top surface of the lower plate so as to be male-female coupled to one side of the upper plate 110, and one or more second block insertion parts 122 provided with third coupling protrusions 123 and formed on the other side of the top surface of the lower plate; one or more first blocks 130 inserted into and coupled to the first block insertion parts 112, and having second coupling grooves 131 formed on bottom surfaces of the first blocks so as to be male-female coupled to the second coupling protrusions 113 and third coupling grooves 132 formed on top surfaces of the first blocks; one or more second blocks 140 inserted into and coupled to the second block insertion parts 122, and having fourth coupling grooves 141 formed on bottom surfaces of the second blocks so as to be male-female coupled to the third coupling protrusions 123 and support members 151 formed on top surfaces of the second blocks; and one or more first elastic members 150 having both of the ends thereof respectively fixed between the first blocks 130 and the second blocks 140 to the third coupling grooves 132 and the support members 151.
Further, the upper plate 110 further has one or more sixth coupling grooves 115 formed on the top surface of the upper plate 110, and the elastic foothold for stairs further includes an anti-slip plate 160 having fourth coupling protrusions 161 formed on a bottom surface of the anti-slip plate 160 and corresponding to the sixth coupling grooves 115 so as to be male-female coupled to the top surface of the upper plate 110, and a second anti-slip part 162 formed on the top surface of the anti-slip plate 160.
Further, one or more guide rails are respectively formed from one side to the other of the bottom surface of the upper plate 110 and the top surface of the lower plate 120 such that the first block insertion parts 112 and the second block insertion parts 122 may move along the guide rails.
Further, the elastic foothold for stairs further includes third blocks 170 having guide coupling parts 171 formed on bottom surfaces of the third blocks and corresponding to guide parts 143 formed on the top surfaces of the second blocks 140 so as to be coupled to the top surfaces of the second blocks 140, and both of the ends of the first elastic members 150 are respectively coupled to the third coupling grooves 132 and seventh coupling grooves 172.
Further, the first elastic members consist of springs coated with rubber, and the first elastic members further have support members installed in the central space of the first elastic members.
As described above, the present invention is directed to providing an elastic foothold for stairs that can be fixed to stairs and that can minimize shock applied to users' feet so as to prevent harmful effects on the users' joints such as the knees when the users walk up and down the stairs.
Further, the present invention is directed to providing an elastic foothold for stairs that can prevent the users from slipping on the stairs thereby helping the users to avoid the risk of injury when the users walk up and down the stairs.
Further, the present invention is directed to providing an elastic foothold for stairs that can be easily assembled and disassembled so as to be installed wherever the users want.
Further, the present invention is also directed to providing an elastic foothold for stairs in which a plurality of blocks engaged to both of the ends of a support member can be assembled so as to easily adjust the buffering level of the elastic foothold for stairs depending on the users' needs.
The advantages and features of the present invention and the method using thereof will become apparent to those skilled in the art from the following description of the preferred embodiments.
The inventive subject matter, however, may be embodied in various different forms, and should not be construed as being limited only to the illustrated embodiments. Rather, these embodiments are provided as examples so that this disclosure will be thorough and complete, and will fully convey the subject matter of the invention to those skilled in the art. The present invention should be considered as limited only by the scope of the appended claims. Unless otherwise noted, like reference numerals denote like elements throughout the attached drawings and written description.
Hereunder, an elastic foothold for stairs according to the embodiments of the present invention will be described by referring to the accompanying drawings.
By referring to
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The upper plate 110 preferably consists of glass fiber reinforced plastics (FRP) and has one or more first coupling protrusions 111 formed at one side of a bottom surface of the upper plate so as to be coupled to the lower plate 120. In this case, the first coupling protrusions 111 are preferably formed to ensure left-right symmetry such that the elastic foothold for stairs 100, in which the upper plate 110 and the lower plate 120 are coupled to each other, may have a solid structure.
Further, the upper plate 110 has first block insertion parts 112, to which the first blocks 130 are inserted and coupled, formed at the other side of the bottom surface of the upper plate 110.
In this case, the upper plate 110 has guide rails formed on the bottom surface of the upper plate from one side to the other side thereof such that the first block insertion parts 112 may move along the guide rails, thereby helping to easily adjust the buffering level the elastic foothold for stairs 100 depending on the user's needs.
The upper plate 110 has a protrusion-shaped first anti-slip part 114 formed at the other side of a top surface of the upper plate so as to prevent the user's feet, coming into contact with the upper plate 110, from sliding.
In particular, the first anti-slip part 114 consists of materials such as synthetic rubber etc. with a high level of friction so as to prevent the user from slipping in the case that the elastic foothold 100 for stairs is washed and then, has moisture left on the elastic foothold for stairs.
Further, the other end of the top surface of the upper plate 110 is bent or curved toward the lower plate 120 such that the user may easily take the user's foot off from the upper plate 110 after stepping on the upper plate 110.
Meanwhile, like the upper plate 110, the lower plate 120 preferably consists of glass fiber reinforced plastics (FRP) and has first coupling grooves 121 which have a position and shape corresponding to the position and shape of the first coupling protrusion 111 of the upper plate 110 and is formed at one side of a top surface of the lower plate 120 so as to be male-female coupled to the upper plate 110.
In this case, preferably, the upper plate 110 has a first hinge part 116 provided from left to right between the first coupling protrusions 111 and the first block insertion parts 112 of the upper plate 110 such that the hinge part may rotate with respect to the part of the lower plate 120, in which the first coupling protrusions 111 and the first coupling grooves 121 are male-female coupled.
Further, the lower plate 120 has second block insertion parts 122, to which the second blocks 140 are inserted and coupled, formed at the other side of the top surface of the lower plate 120.
In this case, the lower plate 120 has guide rails formed on the top surface of the lower plate from one side to the other side thereof such that the second block insertion parts 122 may move along the guide rails, thereby helping to easily adjust the buffering level of the elastic foothold for stairs 100 depending on the user's needs.
When the first block insertion parts 112 and the second block insertion parts 122 move respectively along the guide rails, the first block insertion parts 112 and the second block insertion parts 122 are preferably positioned to be parallel to each other, and the guide rails further include fixing members such that the first block insertion parts 112 and the second block insertion parts 122 are preferably fixed by the fixing members after the first block insertion parts 112 and the second block insertion parts 122 move along the guide rails.
Further, the lower plate 120 has a plurality of bolt holes 125 to couple the bolts inserted through the bolt holes 125 to stairs and to couple the elastic foothold for stairs 100 to the stairs. Further, the lower plate 120 may have a plurality of holes so as to lead to a reduction in the amount of the material.
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Further, preferably, the first block 130 has a third coupling groove 132 formed on a top surface of the first block 130 and having a sectional shape and size corresponding to the sectional shape and size of the first elastic member 150.
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Further, preferably, the second block 140 has a support member 151 which is formed on a top surface of the second block 140 and has a sectional shape and size corresponding to the sectional shape and size of the first elastic member 150.
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In particular, the first elastic member 150 consists of a spring, and the life span of the spring may be lengthened in the case the spring is coated with rubber. The support member 151 formed on the top surface of the second block 140 is inserted into the empty space formed at the center of the first elastic member 150 so as to prevent the first elastic member 150 from escaping from the first block 130 and the second block 140.
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The anti-slip plate 160 has one or more fourth coupling protrusions which are formed at a bottom surface of the anti-slip plate 160 and have shapes and positions corresponding to the shapes and positions of the six coupling grooves 115 so as to male-female couple and to fix the upper plate 110 to the anti-slip plate 160.
The anti-slip plate 160 preferably consists of materials such as synthetic rubber etc. with a high level of friction, and by referring to
Further, the anti-slip plate 160 may be configured to have different shapes and sizes. In particular, as in
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Further, the third block 170 has a seventh coupling groove 172 which is formed on a top surface of the third block 170 and has a sectional shape and size corresponding to the sectional shape and size of the first elastic member 150 such that one end of the first elastic member 150, instead of the support member 151, may be coupled, and the other end may be coupled to the third coupling groove 132.
It will be apparent to those skilled in the art to which the present invention pertains that other modifications and changes may be made without departing from the spirit and scope of the invention. Accordingly, the present invention should not be construed as being limited to the embodiments set forth herein. Rather, the embodiments are provided as examples to describe the spirit of the invention. The scope of protection of the present invention should be determined only by the attached claims, and all the technical ideas within the appended claims and equivalents thereof should be construed as being included in the scope of the present invention.
Number | Date | Country | Kind |
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10-2015-0142926 | Oct 2015 | KR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/KR2016/011316 | 10/10/2016 | WO | 00 |