KR101776069B1 - Finishing member for deck road - Google Patents

Abstract

The present invention relates to a deck load closing member, and more particularly, to a deck load closing member having a side member of a deck rod and a closing member inserted into a groove of a pillar or the like, and an elastic member provided between the closing member and the inside of the groove, The present invention relates to a deck load closing member for preventing injury and preventing damage to a user by an action of the deck load closing member.
The present invention is characterized in that a deck rod, which is coupled to the deck rod bottom and the deck road rail by both side beams and is supported by a plurality of columns, is provided with a longitudinal buffer And the buffer member moves in a predetermined distance to the inside of the buffer groove of the side beam or the column to perform a buffering action.

Description

[0001] FINISHING MEMBER FOR DECK ROAD [0002]

The present invention relates to a deck load closing member, and more particularly, to a deck load closing member having a side member of a deck rod and a closing member inserted into a groove of a pillar or the like, and an elastic member provided between the closing member and the inside of the groove, The present invention relates to a deck load closing member for preventing injury and preventing damage to a user by an action of the deck load closing member.

Generally, deck road is a walkway, and it is installed on a river or a mountain trail. These deck rods are floor made of wood boards, so even if the user walks, it gives less fatigue and gives comfort to the surrounding natural landscape.

These deck rods have wooden floors and railing for user safety, and are equipped with solid beams and pillars to provide a solid deck load.

On the other hand, a large number of rigid H beams are used for the beams and pillars. On the other hand, the H beam and the like support the deck road firmly, but there is a problem that it does not match with the natural scenery in appearance.

Also, if the user hits a metal member such as a moving H-beam, the user may be injured and the safety may be worried. The safety facilities for these columns and pillars are urgently required.

Registered Patent No. 10-0790553 (published on Jan. 03, 2008) Registered Patent No. 10-1469629 (issued on December 05, 2014) Registered Patent No. 10-1498268 (published on Mar. 05, 2015)

In order to solve the above-mentioned problems, the present invention can prevent injury even if a user hits by combining a buffer material having a round outer shape and a wooden material such as a side view of a deck rod or an H beam such as a pillar, There is a purpose to match.

Another object of the present invention is to provide a spring or foaming elastic member inside the cushioning member, so that even if the user hits it, the cushioning action is secured.

It is a further object of the present invention to provide a cushioning device in which a protruding portion is formed in a side surface of a cushioning member and a protrusion is formed in a groove of a side surface or a pillar so that the cushioning member can be easily moved, In order to prevent the disconnection.

Another object of the present invention is to cover the inner surface of the cushioning member made of wood with the cover member to protect the cushioning member made of wood, thereby improving durability.

According to an aspect of the present invention, there is provided a deck rod including a deck rod, a deck rod bottom and a deck rod rail coupled to both side beams, And the buffer member is moved at a predetermined interval to the inside of the buffer groove of the side beam or the column to perform a buffering action.

In a preferred embodiment of the present invention, the cushioning member is formed such that one side thereof is inserted into the cushion groove of the side beam or column and is formed to have a long length in the longitudinal direction of the side beam or column, An outer surface finishing in a rounded shape; And a groove inserting portion inserted into the buffer groove.

In a preferred embodiment of the present invention, one side of the cushioning member is inserted into the cushioning groove and is located in the cushioning groove, and includes an elastic member for elastically supporting the cushioning member. The elastic member includes a foamed elastic body, A leaf spring, and a plate spring.

In a preferred embodiment of the present invention, the buffer member includes an inner cover member that forms a groove insertion portion to be inserted into the buffer groove, and surrounds the groove insertion portion, and the cover member includes a side surface cover; An inner cover covering the inward surface of the groove insertion portion; And a cover release preventing protrusion protruding outward from the side cover.

According to a preferred embodiment of the present invention, a body locking protrusion protruding inward from the side surface of the buffer groove is formed, and the buffering member forms a separation preventing protrusion corresponding to the body locking protrusion. do.
In a preferred embodiment of the present invention, the deck rod bottom and the deck road rail are provided with deck rods supported by a plurality of columns coupled by both side beams, The deck rod closing member includes a direction buffering member and the buffering member moves in a predetermined interval to the inside of the buffering groove of the side beam or the column to perform a buffering action. The buffering member includes a buffering member, Outer surface finish; And an inner cover member including a groove insertion portion inserted into the buffer groove and surrounding the groove insertion portion, wherein the cover member includes: a side cover surrounding the side surface of the groove insertion portion; An inner cover covering the inward surface of the groove insertion portion; And a cover detachment prevention protrusion protruding outward from the side cover, wherein a body protrusion protruding inward from a side surface of the buffer groove is formed, a cover detachment protrusion is formed to correspond to the body protrusion protrusion, When the cushioning member 20 and the cover member 40 are fitted into the cushioning groove 15 by inserting the cushioning member 20 and the cover member 40 into one side of the cushioning groove and located in the cushioning groove and elastically supporting the cushioning member, The both side cover release preventing protrusions 43 and the body engagement protrusions 16 are engaged with each other across the boundaries while rubbing against each other and the cushioning member 20 and the cover member 40 are fixed to the side beams 13 or the pillar 14 When the external force is not applied in the state of being coupled to the buffer groove 15, the cover separation preventing protrusion 43 of the cover member 40 is blocked by the body latch claw 16 so that the buffer member 20 It is possible to prevent detachment to the outside, The cushioning member 20 is positioned outwardly to maintain the state where the cover release preventing protrusion 43 and the body engagement protrusion 16 are in contact with each other since the elastic member on the inner surface of the body 15 pushes the cushioning member 20 outwardly The buffer member 20 is inserted into the buffer groove 15 to be elastically supported by the elastic member, thereby providing a buffering function.

The present invention having the above-described structure can prevent injury even if a user hits it by joining a cushioning member having a round outer shape and a wooden material such as a side view of a deck rod or an H beam such as a pillar or the like, .

Further, another effect of the present invention is to provide a spring or foaming elastic member inside the buffer member, so that even if the user bumps the buffer member, the buffer member is secured.

Further, another effect of the present invention is that the protrusion is formed on the side surface of the cushioning member and the protrusion is formed on the side surface of the cushion and the groove of the pillar so that the cushioning member can be easily moved by the elastic member, To be separated by the heat exchanger.

Another advantage of the present invention is that the inner surface of the cushioning member made of wood is covered by the cover member to protect the cushioning member made of wood, thereby improving durability.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a lateral installation view of a deck load provided with a deck load closing member according to the present invention;
2 is a longitudinally mounted exemplary view of a deck rod with a deck load closing member according to the present invention.
3 is a view showing an embodiment of a deck rod having a deck load closing member according to the present invention in which a buffer member is coupled to a side beam.
FIG. 4 is a view showing an embodiment of a deck rod provided with a deck load closing member according to the present invention, in which a cushion member is coupled to a column.
5 is a cross-sectional view of an embodiment of a deck rod provided with a deck rod closing member according to the present invention, the side deck being made of a foamed elastic body as an elastic member of a cushioning member.
6 is a cross-sectional view of an embodiment of a deck rod provided with a deck rod closing member according to the present invention, wherein the deck rod is made of a foamed elastic body as an elastic member of a cushioning member on a pillar.
FIG. 7 is an exploded cross-sectional view of a deck rod closure member according to the present invention, in which components of a cushioning member including a coil spring are separated.
8 is an exploded cross-sectional view of a deck rod closing member according to the present invention in a state where a buffer member including a coil spring is assembled.
9 is a disassembled cross-sectional view of a deck rod closing member according to the present invention in a state in which the configurations of the buffer member including the leaf spring are separated.
10 is an exploded cross-sectional view of a deck rod closing member according to the present invention in a state where a buffer member including a leaf spring is assembled.
11 is a cross-sectional view of an embodiment in which a detent projection for a deck rod closure member according to the present invention is formed and a buffer member including a coil spring is positioned outwardly by the elastic force of a coil spring.
12 is a cross-sectional view of an embodiment in which a detent projection for a deck rod closure member according to the present invention is formed and a cushioning member including a coil spring is moved inward by an external force.
13 is a cross-sectional view of an embodiment in which a detent projection for a deck rod closure member according to the present invention is formed and a buffer member including a leaf spring is positioned outwardly by an elastic force of a leaf spring.
Fig. 14 is a sectional view of an embodiment in which a detent projection preventing projection is formed on a deck-load finishing member according to the present invention and a cushioning member including a leaf spring is moved inward by an external force.
Fig. 15 is an exploded perspective view of an embodiment in which a detent projection preventing projection is formed on a deck-load finishing member according to the present invention and a buffer member including a leaf spring is separated from a buffer groove.
16 is a cross-sectional view of an embodiment in which a detent preventing circular protrusion is formed in a deck-load finishing member according to the present invention, and a buffer member including a coil spring is positioned outwardly by an elastic force of a coil spring.
17 is a cross-sectional view of an embodiment in which a detent preventing circular protrusion is formed in a deck rod closing member according to the present invention, and a buffer member including a coil spring is moved inward by an external force.
18 is a sectional view of an embodiment in which a detent preventing circular protrusion is formed in a deck load closing member according to the present invention and a buffer member including a leaf spring is positioned outwardly by the elastic force of a leaf spring.
Fig. 19 is a sectional view of an embodiment in which a detent preventing circular protrusion is formed in a deck rod closing member according to the present invention, and a buffer member including a leaf spring is moved inward by an external force.
FIG. 20 is an exploded perspective view of an embodiment in which a detent preventing circular protrusion is formed in a deck rod closing member according to the present invention and a buffer member including a leaf spring is separated from a buffer groove.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

That is, the deck road closure member according to the present invention is a facility that can be walked with a deck road bottom 11 and deck road railing 12 on both sides as shown in Figs. 1 to 20, Deck rod 10 according to the present invention.

The deck rod 10 is supported on pillars 14 on both sides of the deck rod 10 while being supported by pillars 14 provided on both sides of the floor 11 and the handrail 12, Side rails 13 to which the bottom 11, the railing 12 and the like are fixed while continuing to the side walls 13, 14 and the like.

The column 14, the side beam 13, and the like are made of an H beam or the like, so that the entire deck rod 10 is firmly supported by the rigidity.

Such a deck road 10 is mainly installed on a promenade, a river, a mountain trail, etc., so that the user can safely walk, but is provided with a wooden material and an intimate design so as to provide comfort in harmony with the surrounding environment.

On the other hand, in order to make the deck rod 10 more rigid, the side beams 13 and the pillars 14 are mostly provided with H beams. When such H beams are exposed to the outside as they are, Or there is a fear that the user may hit the head or body with the H beam.

Therefore, the cushioning member 20, which is a shape or a material suitable for the surrounding landscape, is used as the deck rod closing member by being coupled to the side beam 13 or the pillar 14, as in the present invention.

The buffer member 20 is inserted into the buffer groove 15 formed in the side beam 13 or the column 14 and the outer surface of the buffer member 20 has a rounded shape, Is preferably made of a wood material or a wood material pattern. So that it is in harmony with the surrounding natural landscape.

Hereinafter, the deck rod 10 and the buffer member 20 will be described in detail.

That is, the deck road closure member according to the present invention is characterized in that the deck rod bottom 11 and the deck road railing 12 are connected to the deck rod 10 supported by the multiple pillars 14 by the side- .

And a longitudinal buffering member 20 inserted into the vertical buffering groove 15 of the side beam 13 or the column 14.

The cushioning member 20 moves at a predetermined interval to the inside of the cushion groove 15 of the side beam 13 or the column 14 to perform a buffering action. Thus, even if a user hits it, the buffering action prevents the user from being injured. Of course, even if a hard object hits, the facilities such as the H beam are not damaged due to the buffering action.

The buffer member 20 is formed such that one side is inserted into the buffer groove 15 of the side beam 13 or the column 14 and the long side of the side beam 13 or the column 14 is formed .

The cushioning member 20 is formed on the outer surface to have a rounded outer surface 21 so as not to be injured even if a human body hits the rounded outer surface 21.

And a groove insertion portion 22 inserted into the buffer groove 15. Thus, the degree to which the groove insertion portion 22 is inserted into the buffer groove 15 is varied by the elastic force to achieve the buffering action.

To this end, one side of the cushioning member 20 is inserted into the cushioning groove 15, and the elastic member is located in the cushioning groove 15 and elastically supports the cushioning member 20.

Examples of the elastic member may include a foamed elastic body 31 as shown in FIGS. Alternatively, as shown in FIGS. 7, 8, 11, 12, 16, 17, etc., the coil spring 32 may be used as an elastic member. In addition, elastic members may be formed of leaf springs 33 as shown in Figs. 9, 10, 13 to 15, 18 to 20, etc., and may be appropriately selected and implemented according to the facility conditions of the installed deck rods .

The buffer member 20 includes a groove insertion portion 22 to be inserted into the buffer groove 15 and includes an inner cover member 40 surrounding the groove insertion portion 22.

Such a cover member 40 can prevent the groove insertion portion 22 of the buffer member 20 made of a wood material from being damaged by an object such as the H beam and can maintain its shape for a long time. Further, even when the buffer member of wood is moved a number of times due to the elastic force of the elastic member, the buffer member is protected by the cover member, which is a metallic member, so that it is prevented from being damaged by friction on the moving surface.

In addition, a component having a function as a protrusion may be formed in a groove insert part made of a wood material, but it may be provided more firmly when it is formed in a cover member 40.

The cover member (40) has a side cover (41) for covering a side surface of the groove insertion portion (22).

And an inner cover 42 surrounding the inward surface of the groove insertion portion 22 is formed.

And a separation preventing protrusion such as a cover separation preventing protrusion 43 protruding outward from the side cover 41. [ The detachment preventing protrusion such as the cover release preventing protrusion 43 prevents the detachment of the buffering member 20 by the action of the protrusion of the buffering groove 15.

A body stopper protrusion 16 protruding inward from the side of the buffer groove 15 is formed and the buffer member 20 is a release preventer protrusion corresponding to the body stopper protrusion 16, ) And the like.

The construction and assembly process of a plurality of embodiments will be described with reference to the accompanying drawings for a deck road finishing member (finishing member for deck road) according to the present invention.

The deck load closing member according to the present invention is coupled to the deck load 10 such as the side deck load 10, the side deck 13, the pillar 14 and the like as shown in Figs. 1 and 2, FIG. 2 is a longitudinal sectional view of a deck rod provided with a deck rod closing member according to the present invention.

3 is a view showing an embodiment of a deck rod provided with a deck load closing member according to the present invention in which a cushioning member is coupled to a side beam, Fig. 3 shows an embodiment of a deck rod provided with a load-closing member, in which a cushion member is coupled to a column.

The cushioning member 20 is provided such that one side thereof is inserted into the cushion groove 15 of the H beam positioned outwardly from the side beam 13, the column 14, etc., which are generally made of H beams.

Thus, the buffer member 20 can be moved at a predetermined interval while being inserted into the side beam 13 such as the H beam or the buffer groove 15 formed in the column 14, and is elastically supported by the elastic member inside, Function.

In particular, the side beams 13, the pillars 14, and the like are formed to have a long length, and when the buffer member 20 has a long length or a relatively short length, the buffer member 20 may include a plurality of the buffer members.

5 is a cross-sectional view of an embodiment of a deck rod provided with a deck load closing member according to the present invention, in which the side deck is made of a foamed elastic body as an elastic member of a cushioning member. And FIG. 6 is a cross-sectional view of an embodiment of a deck rod provided with a deck rod closing member according to the present invention, wherein the deck rod is made of a foamed elastic body as an elastic member of a cushioning member.

5 and 6, the foamed elastic body 31 such as a styrofoam is provided as an elastic member inside the cushioning member 20 with respect to the side beam 13 and the pillar 14 so as to provide a buffering action.

7 is a exploded cross-sectional view of the deck rod closing member according to the present invention in a state where the configurations of the cushioning member including the coil spring are separated. FIG. 8 is a cross- Fig.

By providing the coil spring 32 as an elastic member in this way, it has a buffering action. 7 and 8, the cover member 40 that encloses the buffer member 20 is formed of a thin metal plate, and the cover detachment prevention protrusion 43 is formed by the protruding piece having one side cut out and protruding outwardly. The cover release preventing protrusion 43 of the protruding piece allows the end of the protruding portion to be directed outward with respect to the buffer groove 15 of the H beam.

In addition, the body stopper 16 having a long length is fixed to the inner surface of the H beam by welding or the like so as to correspond to the separation preventing projection 43 of the projection.

Thus, the body stopper 16 formed on the wall surface of the H beam buffering groove 15 has its tip directed into the buffer groove 15.

Thus, when the buffer member 20 and the cover member 40 are fitted into the buffer groove 15 of the H beam, the protruding piece cover separation preventing protrusion 43 and the body locking protrusion 16, which are two protrusions, And after passing through the boundary between them, they have a shape protruding outwardly so that they can not easily fall out.

11 is a cross-sectional view of an embodiment of a deck-load finishing member according to the present invention in which a protruding piece for preventing detachment is formed and a buffer member including a coil spring is positioned outwardly by the elastic force of a coil spring, Is a cross-sectional view of an embodiment in which a detent projection for preventing deck road closure member according to the present invention is formed and a cushioning member including a coil spring is moved inward by an external force.

When no external force is applied in a state where the cushioning member 20 and the cover member 40 are engaged with the H beam cushion groove 15 such as the side beam 13 and the column 14, The protruding piece of the cover release preventing protrusion 43 of the H-beam is blocked by the body stopper 16 of the H beam so that the buffering member 20 is not released to the outside. On the other hand, since the coil spring 32 on the inner surface of the buffer groove 15 pushes the buffer member 20 outwardly, the buffer member 20 remains in the outward position.

As shown in FIG. 12, when a force acts from the outside, the buffer member 20 is inserted into the buffer groove 15 of the H beam by a predetermined distance to have a buffering function.

9 is a disassembled cross-sectional view of the deck rod closing member according to the present invention in a state where the cushioning members including the leaf spring are separated from each other, and Fig. 10 Sectional view of the deck rod closing member according to the present invention in a state where a buffer member including a leaf spring is assembled.

13 is a cross-sectional view of an embodiment in which a release preventing protrusion is formed in a deck rod closing member according to the present invention and a buffer member including a leaf spring is positioned outwardly by the elastic force of the leaf spring. And the cushioning member including the leaf spring is moved inward by the action of an external force.

FIG. 15 is an exploded perspective view of a deck rod closing member according to the present invention, in which a protruding piece for preventing detachment is formed and a cushioning member including a leaf spring is separated from a cushioning groove.

The leaf spring 33 may be applied to the elastic member made of the coil spring 32 as described above. In the case of the leaf spring, the assembly is more convenient and durable than the coil spring.

In the deck road closing member according to the present invention, the protruded groove insertion portion 22 formed in a "T" shape is inserted into the buffer groove 15 of the side beam 13, the column 14, And forms an outer surface finished surface 21 having a wider width and an outer surface rounded.

The cover member 40 is provided to cover the outer surface of the groove insertion portion 22 and the cover member 40 is fixed to the groove insertion portion 22 by a plurality of bolts or rivets.

Further, the coil spring 32 or the leaf spring 33 is fixed to the bolt or rivet at a predetermined position. The elastic member and the cover member 40 are fixed to the buffer member 20 with bolts or the like and then the buffer member 20 is pressed into the buffer groove 15 to be assembled easily. As described above, the deck-load finishing member according to the present invention has an advantage that it can be fastened easily. In other words, most of the deck roads are already constructed, but the buffer member, which is the closing member, is assembled in a post process. In this assembling process, it is easy to install the deck-load finishing member since the buffering member is easily combined with the simple cushioning operation, not the complicated process.

This ease of construction can be easily applied even when applied to a new deck road facility, and the construction of a deck member can be easily performed even for a deck road that has been installed in the past. That is, with respect to the pillar or the side beam of the existing deck rod, after the release preventing protrusion is formed on the both side surfaces of the buffer groove to be inserted into the buffer member, It is installed by simple construction such as completion.

16 is a cross-sectional view of an embodiment in which a detent preventing circular protrusion is formed in a deck-load finishing member according to the present invention and a cushioning member including a coil spring is positioned outwardly by an elastic force of a coil spring. And the cushioning member including the coil spring is moved inward by the action of an external force.

In other words, Figs. 16 and 17 show a circular protrusion having a rounded shape and a release spring, and a coil spring 32 as an elastic member.

18 is a cross-sectional view of an embodiment in which a detent preventing circular protrusion is formed in a deck rod closing member according to the present invention and a cushioning member including a leaf spring is positioned outwardly by an elastic force of a leaf spring. Fig. And the cushioning member including the leaf spring is moved inward by the action of an external force.

FIG. 20 is an exploded perspective view of an embodiment of a deck-load finishing member according to the present invention, in which a separation protruding circular protrusion is formed and a cushioning member including a leaf spring is separated from a cushioning groove.

A protruding portion of a circular shape having a long length is fixed to the inner surface of the buffer groove of the H beam or the like by welding or the like and the detachment preventing protrusion is formed in the cover member 40 by a circular protrusion formed so that the round protrusion protrudes outward, And the cover member 40 is coupled to the buffer member 20 together with the buffer member 33. When the buffer member 20 and the cover member 40 are inserted into the buffer groove 15, the buffer member 20 can not easily be detached from the buffer groove by the separation preventing protrusion and the body latch. The cushioning member 20 is positioned outwardly by the elastic force of the leaf spring 33 and keeps the fixed position while coming into contact with the both side separation preventing projections and the body catching pawl.

When an external force is applied thereto, the cushioning member 20 moves into the buffer groove 15 at a predetermined distance by a force exceeding the elastic force of the spring as shown in Figs. 17 and 19. Thereby having a buffering action. Thus, even if the user hits the side view or the column, the buffering action of the buffer member prevents the user from being injured. In addition, since the H-beam or the like does not come into contact with the user's body directly, it touches the outer surface finish surface 21 which is the round outer surface of the buffer member, thereby preventing injury.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The technical idea of the present invention should not be construed as being limited.

10: Deck load 11: Deck load bottom
12: deck road railing 13: side beam
14: Column 15: Buffer groove
16: Body stumbling block
20: buffer member 21: outer surface finish surface
22: groove insertion portion 40: cover member
43:

Claims (5)

And a deck rod supported by the plurality of columns, the deck rod bottom and the deck load rail being coupled by both side beams,
And a longitudinal buffering member inserted into the longitudinal buffer groove of the side beam or column,
The buckle member is a deck rod closing member which moves in a predetermined interval to the inside of a buffer groove of a side beam or a column to perform a buffering action,
The cushioning member,
An outer surface finished in a round shape located on the outer surface; And
And a groove insertion portion inserted into the buffer groove,
And an inner cover member surrounding the groove insertion portion,
The cover member
A side cover surrounding the side surface of the groove insertion portion;
An inner cover covering the inward surface of the groove insertion portion; And
And a cover release preventing protrusion protruding outward from the side cover,
A body locking protrusion protruding inward from a side surface of the buffer groove is formed,
A cover release preventing protrusion is formed to correspond to the body stop protrusion,
Wherein one side of the buffer member is inserted into the buffer groove and is located in the buffer groove to elastically support the buffer member,
When the cushioning member and the cover member are assembled by inserting the cushioning groove into the cushioning groove, the both side cover separation preventing projections and the body stopping claws are pasted together,
In a state where the buffering member and the cover member are engaged with the buffering groove of the side beam or the column,
When the external force is not applied, the cover separation preventing protrusion of the cover member is blocked by the body blocking protrusion to prevent the buffering member from being released to the outside. Since the elastic member on the inner surface of the buffering groove pushes the buffering member outwardly, The cushioning member is positioned outwardly to maintain the state in which the cover separation preventing projection and the body locking projection are in contact with each other,
Wherein when the force acts from the outside, the buffer member is inserted into the buffer groove, so that the buffer member performs the buffering action while receiving the elastic support force by the elastic member.
delete The method according to claim 1,
The cushioning member may have one side inserted into the cushion groove of the side beam or column and formed to have a long length in the longitudinal direction of the side beam or column,
The elastic member
A coil spring, and a leaf spring, characterized in that the deck rod closure member is made of a foamed elastic body, a coil spring, and a leaf spring.
delete delete

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