KR101634743B1 - Sheet supporting structure - Google Patents

Abstract

The present invention relates to a seat supporting structure having a dustproof function,
A pair of bracket plates 200 formed so as to be erected to face each other in the width direction on the upper surface of the frame 100, A base pipe 300 fixed in the longitudinal direction of the frame 100, an insertion portion 420 inserted between the bracket plates 200 from top to bottom and having a lower end placed on the base pipe 300, A support pipe 400 formed to extend in the upper part of the bracket plate 420 and having a mounting part 440 which is hooked on the upper end of the bracket plate 400 to have a T shape in cross section, A support cap 500 which penetrates the support cap 500 from the upper side to the lower side and reaches the base pipe 300 to be fixed to the base pipe 300; The direction bolt (600) and the frame (100) Relates to a seat support structure in the longitudinal direction is formed between the bracket plate 200 has a dust-proof function comprising an elastic member 700 for absorbing the vibration by supporting the support pipe (400).

Description

[0001] SHEET SUPPORTING STRUCTURE [0002]

The present invention relates to a seat supporting structure, and more particularly, to a seat supporting structure which has a dustproof function capable of firmly supporting a seat made of glass or acrylic or the like and having a dustproof function, Sheet support structure.

Generally, the roof of the building is installed in an arcade structure in order to prevent the rain and maintain the bright state by enabling the mining, and to allow the sky to be seen. Such an arcade structure is also used in a tunnel-shaped soundproofing wall installed on the road, and a roof-like structure is usually arranged in order on a plate-shaped sheet made of glass or acrylic on the top of an I-shaped steel. An example of such an arcade structure is disclosed in Applicant's Utility Model Registration No. 20-0420765 '' Seat Support Structure of Arcade Structure ''.

On the other hand, in the above-mentioned arcade structure, when an external impact is applied, vibration occurs, and if the vibration is continuously applied to the seat, it may be damaged. In particular, when minute vibrations due to movement of the vehicle are continuously generated, stress is gradually accumulated on the seat, and if the vibration is gradually exceeded, it may be suddenly damaged.

Therefore, it is necessary to ensure the structural stability by effectively absorbing the vibration generated by the external impact.

An object of the present invention is to obtain a seat supporting structure having a vibration-proof function capable of securing structural stability by absorbing vibration due to an external impact, particularly a slight degree of vibration, as described above.

The present invention achieves the above-described object by providing a structural device for effectively absorbing vibrations due to an external impact, particularly vibrations occurring repeatedly.

According to the present invention, the structural stability can be improved by absorbing the vibration applied to the arcade structure. Especially, by effectively absorbing the minute vibration repeatedly applied, damage to the arcade structure due to continuous vibration can be prevented.

1 is an excerpt of a sheet supporting structure according to the present invention;
FIG. 2 is a front view of FIG. 1 showing a seat supporting structure according to the present invention;
3 is an exemplary view showing another embodiment of the elastic member according to the present invention,
Fig. 4 is an exemplary view showing a state where the elastic member of Fig. 3 is installed,
Fig. 5 is an exemplary view of a state in which an elastic piece is formed on the elastic member of Fig. 3,
Fig. 6 is an example showing the operation in the state where the elastic member of Fig. 5 is installed,
7 is an exemplary view showing another embodiment of a support pipe and a bracket plate according to the present invention;

In the present invention, in order to obtain a seat supporting structure having a dustproof function capable of securing structural stability by absorbing vibration due to an external impact, particularly a slight degree of vibration, a frame arranged at regular intervals, A pair of bracket plates formed to face each other, a base pipe formed in a predetermined length and fixed in the longitudinal direction of the frame at an intermediate point between the bracket plates, A support pipe formed to extend from the upper portion of the insertion portion and hooked to an upper end of the bracket plate so as to have a T shape in cross section, A support cap covering a point where the sheet is connected, A longitudinal bolt through which the lower end is fixed to reach the base pipe, and an elastic member formed between the bracket plate in the longitudinal direction of the frame and supporting the support pipe to absorb vibration, .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

FIG. 1 is an excerpt of a seat supporting structure according to the present invention, and FIG. 2 is a front structural view of FIG. 1 showing a seat supporting structure according to the present invention.

A seat supporting structure having a dustproof function according to the present invention is characterized in that a frame for forming a tunnel or a roof-like structure is provided by disposing a frame 100 at regular intervals, a seat 800 is placed on the frame 100, And the vibration is absorbed by the elastic member (700).

 The frame 100 may have a shape of 'I' in cross section, but it is not limited thereto.

The sheet 800 is in the form of a plate, and may be reinforced plastic or glass. The sheet 800 may have a predetermined size and may be fixed on the frame 100 to form a wall.

In order to fix the seat 800 to the frame 100 according to the present invention, a bracket plate 200 installed on the upper surface of the frame 100 and a base pipe 300 fixed to a midpoint between the bracket plates 200, A supporting pipe 400 on which a lower end is mounted on the base pipe 300 and on which a seat 800 is mounted, and fixing means for fixing the supporting pipe 400.

The bracket plates 200 are formed in a plate shape, preferably a rectangular plate shape, so as to face each other in the width direction. The bracket plate 200 may be formed by fixing the bracket to the frame 100 with the inlet facing upward. Of course, it may be formed by fixing two plates to the frame 100, and may be adopted as needed.

The bracket plates 200 are formed at regular intervals in the longitudinal direction of the frame 100. And a pair of facing bracket plates 200 are formed at a predetermined interval in the longitudinal direction of the frame 100 as a pair.

The base pipe 300 is a hollow pipe formed to have a predetermined length and continuously formed in the longitudinal direction of the frame 100 at an intermediate point between the facing bracket plates 200. But it is not limited thereto. The base pipe 300 may have a rectangular cross section.

The support pipe 400 is a pipe having an inner hollow 'T' shape. The support pipe 400 is inserted into the bracket plate 200 from the top to the bottom, and the lower end of the support pipe 400 is placed on the base pipe 300. And a mounting portion 440 formed on the upper portion of the inserting portion 420 and hooked on the upper end of the bracket plate 200 to continuously extend along the longitudinal direction of the frame 100.

The support pipe 400 may be mounted on the base pipe 300 or mounted on the bracket plate 200 without bolts being fastened to the bracket plate 200 or fixed to the bracket plate 200 Do.

The insertion portion 420 is formed to have a width equal to or the same as the spacing of the bracket plates 200 formed opposite to each other. The movement of the insertion portion 420 inserted between the bracket plates 200 can be restricted. In addition, the bottom of the inserting portion 420 can be formed with a groove that is in the middle of the base pipe 300, and the base pipe 300 is received in the groove, It is possible to maintain the state of being seated in the position.

The mounting portion 440 is formed to have a width larger than the interval of the bracket plate 200 formed to face each other. Therefore, when the insertion portion 420 is fitted between the bracket plates 200 facing each other, the mounting portion 440 is naturally caught on the upper end of the bracket plate 200. At this time, the lower end of the insertion portion 420 may be spaced apart from the base pipe 300 by about 1 to 3 mm. In contrast to this, the lower end of the inserting portion 420 may be in contact with the base pipe 300 while the upper portion of the bracket plate 200 may not be in contact with the mounting portion 440, but may be seated with a gap of about 1 to 3 mm . The above-described spacing configuration is a configuration that can be employed to allow the support pipe 400 to absorb shocks with a slight upward and downward flow.

The fixing means for fixing the support pipe 400 may include a support cap 500 covering a point where the sheet 800 extends from the upper surface of the sheet 800 to be mounted on the upper surface of the mounting portion 440, And a vertical bolt 600 penetrating the cap 500 from top to bottom and having a lower end fixed to the base pipe 300.

The support cap 500 has a planar shape having a predetermined length. Accordingly, the point where the sheet 800 is continued is completely covered, so that the rainwater is prevented from leaking into the gap between the sheets 800.

The vertical bolt 600 is threaded at the lower end thereof, passes through the support cap 500 from top to bottom, and then is screwed to the base pipe 300. Since the thread is formed only at the lower end portion, the support pipe 400 can be slightly contracted in the thickness direction when an external impact is applied to the support pipe 400

In order to prevent the vertical bolt 600 from being exposed to the outside when the longitudinal bolt 600 is engaged, the auxiliary cap may be provided on the support cap 500. And is installed for the purpose of neatly arranging the appearance while preventing the longitudinal bolts 600 from being rusted by rainwater or the like.

In the present invention described above, the elastic member 700 is installed between the bracket plates 200 formed at regular intervals in the longitudinal direction of the frame 100. The elastic member 700 absorbs vibrations, particularly minute repetitive vibrations, generated when an external force is applied to the frame 100 or an external force is applied to the support pipe 400 while supporting the support pipe 400 . Since the support pipe 400 has a hollow pipe shape, when the external force is applied, the support pipe 400 shrinks or warps to some extent. The elastic member 700 supports and absorbs such shrinkage or warpage. Particularly, it continuously absorbs minute vibrations occurring repeatedly due to passage of a vehicle or the like.

The elastic member 700 may be a spring supporting both sides of the base pipe 300 at the lower end of the frame 100 and an upper end of the elastic member 700 at the lower end of the insertion part 420 to support the insertion part 420.

FIG. 3 is an exemplary view showing another embodiment of the elastic member according to the present invention, and FIG. 4 is an example of a state in which the elastic member of FIG. 3 is installed.

The elastic member 700 includes a flat plate portion 720 extending in the width direction between the frame 100 and the base pipe 300 and a flat plate portion 720 extending in the widthwise direction of the frame 100 from both sides of the flat plate, And a curved elastic part 740 that forms the curved elastic part 740.

The curved elastic part 740 abuts against the lower end of the insertion part 420 to absorb the vibration when the flat plate part 720 is installed and fixed in the width direction between the frame 100 and the base pipe 300 do. The curved elastic part 740 absorbs the impact while acting like a leaf spring.

Since the flat plate portion 720 is firmly fixed between the frame 100 and the base pipe 300, a stable installation environment can be achieved without any additional means for fixing the elastic member 700 . In addition, since the elastic member 700 is formed symmetrically to support the support pipe 400 at a symmetrical position, the vibration absorbing capability can be secured evenly on the right and left sides of the support pipe 400.

A groove may be formed at the lower end of the base pipe 300 at a depth slightly less than the thickness of the flat plate portion 720 or at a slightly shallow depth of about 0.5 mm to 1 mm. Accordingly, the base pipe 300 is fixed in a state of being in close contact with the frame 100, and the flat plate portion 720 can be stably held.

Fig. 5 is an exemplary view of a state in which an elastic piece is formed on the elastic member of Fig. 3, and Fig. 6 is an exemplary view showing an action of the elastic member of Fig. 5 in an installed state.

The elastic member 700 having the curved elastic part 740 may be formed such that the curved elastic part 740 is divided into at least three along the width direction of the frame 100. At least one of the elastic pieces 742 is formed so as to have a height difference with respect to the rest, and the elastic pieces 742 are formed so as to be in contact with the lower end of the insertion part 420 The lower portion is formed at a predetermined distance from the lower end of the inserting portion 420, preferably 0.5 to 1.5 mm. Therefore, when vibration is generated by the contraction or bending of the support pipe 400, the elastic piece 742, which is formed to be higher according to the magnitude of the vibration, absorbs the vibration. When the magnitude of vibration increases, the elastic piece 742, So that the vibration can be absorbed by actively coping with the change of the minute vibration.

7 is an exemplary view showing another embodiment of a support pipe and a bracket plate according to the present invention.

In order to absorb minute vibrations, the support pipe 400 is inclined at a point where the insertion portion 420 and the mounting portion 440 are connected to each other, so that the inclined surface 460 is formed. On the other hand, May be formed in such a manner that an end thereof is tilted outwardly from a point spaced apart from the lower end of the sloping surface 460 at an intermediate point of the sloping surface 460.

As described above, since the support pipe 400 is formed into an empty pipe shape, when the external force is applied, the support pipe 400 is contracted or bent to some extent. As a result, the mounting portion 440 is deformed while being contracted or warped. The inclined surface 460 is pressed toward the frame 100. As a result, the inclined upper end of the bracket plate 200 is pressed by the inclined surface 460, So that they are separated from each other and absorb vibration.

The above structure can effectively absorb vibrations particularly when minute vibrations occur. The bracket plate 200 assists the inclined surface 460 to absorb the fine vibration when the inclined surface 460 is finely pressed by the minute vibration. In this process, the inclined upper surface of the bracket plate 200 pushes up the inclined surface 460 to return to the original position, thereby helping the mounting portion 440 maintain its shape despite the continuous vibration .

The present invention adopting the elastic member 700 and the inclined surface 460 as described above and supporting the sheet 800 can effectively absorb the vibration, particularly the fine vibration, generated by the external force, So that the structural stability of the structure formed by supporting the structure can be improved.

100: frame, 200: bracket plate,
300: Base pipe,
400: support pipe 420: insert,
440: mounting part, 460: inclined surface,
500: support cap,
600: longitudinal bolt, 700: elastic member,
720: flat plate portion, 740: curved elastic portion,
742: elastic piece, 800: sheet.

Claims (5)

The frame 100,
A pair of bracket plates 200 formed so as to face each other in the width direction on the upper surface of the frame 100,
A base pipe 300 formed in a predetermined length and fixed in the longitudinal direction of the frame 100 at an intermediate point between the bracket plates 200,
An insertion portion 420 inserted between the bracket plates 200 and having a lower end placed on the base pipe 300 and an insertion portion 420 formed on the upper portion of the bracket plate 200, A support pipe 400 formed to have a cross-sectional shape of 'T' including a hanging part 440,
A support cap 500 covering the point where the sheet 800 extends from the upper surface of the sheet 800 which is placed on the upper surface of the mounting portion 440,
A vertical bolt 600 penetrating the support cap 500 from top to bottom and having a lower end fixed to the base pipe 300,
And a resilient member (700) formed between the bracket plates (200) in the longitudinal direction of the frame (100) and supporting the support pipe (400) to absorb vibration. The method according to claim 1,
Wherein the elastic member (700) is a spring supporting both sides of the base pipe (300) at a lower end thereof to the frame (100) and an upper end thereof supporting the lower end of the insertion portion (420). The method according to claim 1,
The elastic member 700 includes a flat plate portion 720 extending in the width direction between the frame 100 and the base pipe 300 and a flat plate portion 720 extending in the widthwise direction of the frame 100 from both sides of the flat plate, And a curved elastic part 740 which forms the curved elastic part 740,
When the flat plate portion 720 is installed and fixed in the width direction between the frame 100 and the base pipe 300, the curved elastic portion 740 contacts the lower end of the insertion portion 420 to absorb the vibration. . The method of claim 3,
The curved elastic part 740 is divided into three parts in the width direction of the frame 100 so that at least one of the curved elastic parts 740 has a height difference from the rest,
The lower portion of the insertion portion 420 may be spaced apart from the lower end of the insertion portion 420 such that the lower portion of the insertion portion 420 may contact the lower end of the insertion portion 420, A seat supporting structure having a dustproof function to be absorbed. The method according to claim 1,
The supporting pipe 400 is inclined at a point where the insertion portion 420 and the mounting portion 440 are connected to each other to form the inclined surface 460,
The upper end of the bracket plate 200 is bent so as to be inclined outward from a position spaced apart from the lower end of the inclined surface 460 and the end of the bracket plate 200 is in contact with the middle point of the inclined surface 460,
When a force for lowering the support pipe 400 is applied by the vibration, the inclined surface 460 pushes the end of the bracket plate 200 to open the bracket plate 200 facing the support plate 400 so that the support pipe 400 descends, So that the sheet can be absorbed.

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