KR0154107B1 - Floor structure of building - Google Patents

Abstract

Several floorboard feet 11 are constructed between the station girder 1 and the station girder 2 protruding from the upper surface of the horizontal sphere portion Sh of the sphere S divided into several layers of the building. The bottom member 19 is supported on the upper surface of these floorboard support 11 via the support transverse gap 16. A gap α, β is formed between the end of the floorboard base 11 and the end of the bottom member 19 and the inverse girders 1, whereby vibration of the floorboard base 11 and the bottom member 19 is prevented. Direct transmission to the reverse girders 1 is prevented. In addition, the floorboard stand (11) With cross section It is made of steel, and the upper and lower flanges 13 are elastically deformed with respect to the web 12 to absorb vibrations in the up and down direction, thereby improving sound insulation.

Description

Floor structure

1 is a partial longitudinal cross-sectional view of a house according to an embodiment of the present invention.

2 is an enlarged two-part view of FIG.

3 is an enlarged three-part view of FIG.

4 is an enlarged sectional view taken along line 4-4 of FIG.

* Explanation of symbols for main parts of the drawings

S: Sphere Sh: Horizontal Sphere

1, 2: 1 to 2 beams 11: floorboard support

19: floor member 13 ₄ : opening part

13 flange 16 support width

α, β: gap

[Field of Invention]

The present invention protrudes station beams on the upper surface of a horizontal sphere portion of a sphere for dividing the building into several layers, and provides a floor member with a floorboard support installed between the station beams. It is about floor structure of building supported.

[Description of the Prior Art]

The floor structure of such a building has already been proposed by the present applicant, and is known, for example, by Japanese Patent Laid-Open No. 3-202552.

According to the floor structure of the building described above, the impact applied to the floor member is attenuated to the floor space formed between the floor member and the horizontal sphere portion, so that a good sound insulation effect against the layer and the floor can be obtained. It is desired to further improve such sound insulation effects.

[Summary of invention]

An object of the present invention is to effectively block vibrations transmitted to a sphere by a floor member in a building employing the reverse beam structure described above, and to further improve the sound insulation effect.

In order to achieve the above object, the present invention protrudes the station beams on the upper surface of the horizontal sphere portion of the sphere that divides the building into several layers, and supports the floor member with a floorboard sleeper hypothesized between the station beams In the floor structure of a building, a web having a floorboard base having a substantially triangular cross section and having a pair of top and bottom flanges having an opening at one vertex and a top and bottom both edges connected to one edge of the opening of the pair of flanges It is made of (web), etc., while one flange is supported on the station beam and the bottom member is supported on the other flange via the support transverse, and the end of the floorboard support and the end of the floor member are connected to the sphere. Characterized in that provided with a constant interval.

According to the above-described configuration, the floorboard support has a triangular cross section and has a pair of upper and lower flanges each having an opening at one vertex, and a web or the like connected to one edge of the opening of the pair of flanges, and one flange Since the floor member is supported on the reversible beam and at the same time through the support transverse on the other flange, the vibration applied to the floor member is absorbed by the elastic deformation of the flange, making it difficult to transmit to the sphere, thereby making sound insulation of the building This is improved. In addition, since a constant gap is formed between the end of the floorboard base and the end of the floor member and the sphere, the vibration of the floorboard base and the floor member is not transmitted directly to the reverse beam, and the sound insulation is further improved.

EXAMPLE

The above and other objects, features and advantages of the present invention will become apparent from the description of the most suitable embodiment described in detail below according to the accompanying drawings.

As shown in FIG. 1, the sphere S of the aggregate house made of concrete slabs extends in the horizontal direction to circumscribe the building in several layers up and down, and the horizontal sphere portion Sh extends in the vertical direction and is adjacent thereto. The vertical sphere part SV etc. which mutually connect between the horizontal sphere parts Sh are provided. The horizontal sphere portion Sh protrudes upwards with a plurality of inverted girders 1… on its upper surface and several inverted girders 2…, which are slightly lower than the inverted girders 1…. One so-called station beam structure is employed. The station girders 1… were formed to surround the outer periphery of the living part of a house, and the station girders 2… were formed in a grid so as to connect each other between the station girders 1…. A plurality of subfloor spaces 3... Are formed by the side surfaces of the inverted girders 1..., The inverted beams 2.

Referring to FIGS. 2 to 4 together, as is evident, the so-called gap between the upper end surface 1 ₁ ... Of the reverse girders ₁ ... Several floorboard bases 11... Of steel are arranged in parallel at regular intervals. Each floorboard base 11 consists of a large web 12, and a pair of upper and lower flanges 13, 13, etc. which are protruded on the upper and lower ends of the web 12. Each flange 13 has a cross section of a substantially right-angled isosceles triangular shape, the first portion 13 ₁ which forms one side of the isosceles, the second portion 13 ₂ which forms the base, and the other side of the isosceles. forming first consists of three parts (13, _3), the first portion (13 ₁₎ and the third part (13 ₃₎ on was formed in the opening (13 _4), in the first portion (13 _1), the web (12 between a Is connected to the top or bottom of the

Floorboard support (11 ...), the reverse beam (1 ...) of the end the top wall ₍₁₁ ...), one end portion wall above in the case of the support bottom between the (1 _1, ...) to lay the mortar (14) and having a thickness of 20mm The anti-vibration rubber 15 as an anti-vibration material is interposed. In addition, a slight gap α of about several mm is formed between the end side wall 1 ₂ ... Formed in the inverse girders 1... And the end of the floor plate base 11.

On the upper surface of several floorboard bases 11... Disposed in parallel to each other, several wooden support transverses 16... Arranged in parallel with each other overlap so as to be perpendicular to the floorboard bases 11. When the upper side of the base plate base 11 ... is fixed to the second portion 13 ₂ of the flange 13 by the pedestals 16. second portion (13 ₂₎ to the large-diameter hole portion with a hole portion for receiving the head of the special peg (17 ...), the tip end hole in the formation, and at the same time supporting hoenggan (16 ...) to pass through a has special nails (17 ...) In order to guide the tip of the special nail 17... To the hole of the flange second portion 13 ₂ , a diameter hole portion smaller than the shaft portion of the special nail 17. In the state where the small diameter hole portion of the flange and the hole of the flange second portion 13 ₂ are matched, the special nail 17… is driven with a predetermined force from above, and the flange according to the special nail 17… 13) and the transverse span 16… are fixed and fixed. Then, the bottom member 19 is placed on the upper surface of the supporting transverse section 16 through the dustproof rubber 18 having a thickness of 3 mm, and is fixed with a nail 20. At this time, a slight gap β of a few mm is formed between the end side wall 1 ₂ ... Of the reverse girders 1... And the end of the bottom member 19.

By using special nails (17…) for metal to join the floor plate support (11…) and the transverse span (16…), the number of tools can be reduced significantly compared to the conventional method using a bolt nut. have.

Next, the operation of one embodiment of the present invention having the above-described configuration will be described.

Since the cross section of the bottom member 19 is separated from the end side wall 1 ₂ ... Of the reverse girders 1... By the gap β, the vibration applied to the bottom member 19 is applied to the reverse girders 1. It is not transmitted directly, but is transmitted to the wooden support transverses 16… in the state of large damping via the anti-vibration rubber 18, and further attenuated by the support transverses 16… to the floorboard support 11…. Delivered. At this time, Since the floorboard support 11... Made of the shaped steel can absorb the load in the vertical direction, that is, the connecting portion and the flange 13 of the first portion 13 ₁ and the second portion 13 ₂ of the flange 13. Since the first portion 13 ₁ and the connecting portion on the web 12 can elastically deform, the load from the transverse transverses 16... Is attenuated in accordance with the floorboard base 11. It is delivered to the beams (2…). Furthermore, in that case, the transmission of vibration directly to the reverse girders 1... By the gap α between the end of the bottom plate supports 11... And the reverse girders 1... ) and to reverse beam (1 ...), the vibration damping by the end wall portion ₍₁₁ ...) and the inverse small beam (2 ...), a vibration-proof rubber 15 is mounted interposed between the upper surface of the.

In this way, the vibration applied to the floor member 19 is transmitted to the reverse girder (1…) and the reverse girder (2…) in a sufficiently damped state, so that the noise on the hierarchy is difficult to be transmitted below the hierarchy. Voice improves

In addition, since the sound waves generated by the vibration of the bottom member 19 are sufficiently attenuated in the floor and the space 3, these sound waves are hardly transmitted below the layer via the horizontal sphere portion Sh.

Then, as the bottom plate support 11... The bottom member is a simple structure using only a steel and forming a gap (α, β) between the end of the bottom plate support 11... And the end of the bottom member 19 and the reverse girders 1. The vibration of (19) can be effectively blocked to prevent the transmission of noise below the hierarchy.

As mentioned above, although embodiment of this invention was described in detail, this invention is not limited to the above-mentioned embodiment, A various design change is possible.

For example, a cushion material for blocking vibration may be filled in the gap β between the bottom member 19 and the reverse girders 1...

Claims (2)

The sphere S which divided the building into several layers protrudes the bands and beams 1 and 2 on the upper surface of the horizontal sphere part Sh, and between these bands and the beams 1 and 2 In the floor structure of a building in which the floor member 19 is supported by the hypothetical floorboard support 11, the floorboard support 11 has a roughly triangular cross section and has an open portion 13 ₄ at one vertex. The pair of flanges 13 and the upper and lower edges are webs 12 connected to one edge of the opening 13 ₄ of the pair of flanges 13, and one flange 13 is reversed. The bottom member 19 is supported on the beams 1, 2 and on the other side of the flange 13 via the support transverses 16, and the end and bottom members of the floorboard support 11 The floor structure of the building characterized by the end of 19) being provided with fixed clearance gap (alpha, beta) between sphere (S). The floor structure of a building according to claim 1, wherein the support transverses 16 are secured to the flanges 13 by means of special nails 17 for metal.