CN211774555U - Anti-seismic heat-insulation light steel building structure - Google Patents

Abstract

The utility model provides a thermal-insulated light steel building structure of antidetonation, includes horizontal light steel joist, support fossil fragments and filling layer, horizontal light steel joist includes diaphragm and two risers, the one end fixed connection of two risers both sides and the vertical setting of diaphragm, diaphragm and two risers constitution "U" font structure, the diaphragm be provided with the through-hole of support fossil fragments adaptation, support fossil fragments insert in just the perpendicular to in the through-hole the technical problem that exists has been solved to the diaphragm among the prior art, if: has no anti-seismic function and poor heat insulation effect.

Description

Anti-seismic heat-insulation light steel building structure

Technical Field

The utility model belongs to the housing construction field, concretely relates to thermal-insulated light steel building structure of antidetonation.

Background

Light gauge steel, a novel building material, along with the development of our country's modernization construction, light gauge steel extensively is used for the hotel, the terminal, the vehicle transportation station, the recreation ground, the market, the mill, office building, old architectural modification, interior decoration sets up, places such as ceiling, light gauge steel building structure among the prior art adopts light gauge steel horizontal and vertical interlude to constitute usually, it leans on the fix with screw, stable structure such as strengthening rib does not have, and set up single cement pressure plate wherein usually, do not have antidetonation and thermal-insulated function of keeping warm, it exists: does not have the technical problems of poor anti-seismic function and poor heat insulation effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a thermal-insulated light steel building structure of antidetonation for solve the technical problem who exists among the prior art, if: has no anti-seismic function and poor heat insulation effect.

In order to achieve the above object, the utility model adopts the following technical scheme:

an earthquake-proof heat-insulating light steel building structure comprises a transverse light steel keel, a supporting keel and a filling layer, wherein the transverse light steel keel comprises a transverse plate and two vertical plates, one ends of the two vertical plates are fixedly connected with the two sides of the transverse plate and are vertically arranged, the transverse plate and the two vertical plates form a U-shaped structure, the transverse plate is provided with a through hole matched with the supporting keel, the supporting keel is inserted into the through hole and is perpendicular to the transverse plate, the supporting keel comprises two vertical light steel keels, a buffering filler and a buffering block, the two vertical light steel keels are both detachably connected with the transverse light steel keel, the two vertical light steel keels are both provided with an open U-shaped structure, the two sides of the buffering block are respectively and fixedly connected with the U-shaped structures of the two vertical light steel keels, the U-shaped structures are far away from one side of the open, and the two vertical light steel keels and the buffering block jointly form an I-shaped structure, the opening at the two ends of the I-shaped structure and the transverse light gauge are parallel to each other, the buffer block is provided with a through hole, the through hole is vertically arranged, the buffer filler is arranged in the through hole, the buffer block is used for being elastically deformed when being extruded, a plurality of support keels are inserted into a transverse plate of the transverse light gauge, a filling layer is connected between any two adjacent support keels, one side of the filling layer is inserted into the U-shaped structure opening of the vertical light gauge, the other side of the filling layer is inserted into the U-shaped structure opening of the vertical light gauge of the other adjacent support keel, the filling layer is used for heat preservation and insulation, when an earthquake occurs, the internal stress is generated under the influence of earthquake waves in the building structure, and the pre-applied deformation provided by the buffer block and the buffer filler can well eliminate the internal stress, the beneficial effects of having the antidetonation function have been reached to separate the outer wall in the building structure through the filling layer, reached the thermal-insulated beneficial effect that keeps warm.

Further, the filling layer includes two cement pressure plates and a heat insulating board, two cement pressure plates and a heat insulating board three size unanimity and set up side by side, the heat insulating board set up in between two cement pressure plates, the heat insulating board is polystyrene resin material, can play good thermal-insulated purpose of keeping warm, and cement pressure plate and light gauge steel cooperation constitute stable, light and safe building structure.

Further, still include a plurality of self tapping screws, be equipped with on the vertical light gauge steel a plurality of with the through-hole of self tapping screw adaptation, self tapping screw passes the through-hole and connect vertical light gauge steel with the cement pressure plate, the cement pressure plate with bond through the binder between the heat insulating board, during the installation, paint the binder evenly in the heat insulating board both sides earlier, then bond two cement pressure plates in its both sides fixedly, insert the filling layer in the opening of above-mentioned two vertical light gauge steel and beat a plurality of self tapping screw fixings at last, reached the beneficial effect of the installation of being convenient for.

Further, the device also comprises a fixed block, one end of the fixed block is connected with the vertical light steel keel, the other end of the fixed block is connected with the horizontal light steel keel, the fixed block is used for fastening the vertical light steel keel and the horizontal light steel keel, and the fixed block, the vertical light steel keel and the horizontal light steel keel form a certain angle to play a role in reinforcing ribs, so that the purpose of stabilizing the whole device is achieved.

Furthermore, a plurality of set screws are respectively arranged at two ends of the fixed block, the set screws are used for respectively connecting the fixed block with the vertical light steel keel and the horizontal light steel keel, and the fixed block is connected with the vertical light steel keel and the horizontal light steel keel through the set screws, so that the device is simple and convenient, and saves time in installation.

The utility model has the advantages that:

(1) this thermal-insulated light steel building structure of antidetonation is provided with the filling layer, separates outer wall and interior wall in the building structure through the filling layer, has reached thermal-insulated beneficial effect of heat preservation.

(2) This thermal-insulated light steel building structure of antidetonation is provided with buffer block and fixed block, and the internal stress that the seismic wave produced can be eliminated to the pre-deflection that provides through the buffer block to fix vertical light steel joist and horizontal light steel joist in order to play firm effect through the fixed block, reached the beneficial effect that has the antidetonation function.

(3) This thermal-insulated light steel building structure of antidetonation is provided with horizontal light steel joist, support fossil fragments and filling layer, inserts between the support fossil fragments and through self tapping screw fixed horizontal light steel joist, support fossil fragments and filling layer through the filling layer, has reached the beneficial effect of the installation of being convenient for.

Drawings

Fig. 1 is the utility model relates to a thermal-insulated light steel building structure's of antidetonation overall structure sketch map.

Fig. 2 is the utility model relates to a thermal-insulated light steel building structure's of antidetonation support fossil fragments cooperation relation sketch map.

Fig. 3 is the utility model discloses a thermal-insulated light steel building structure's of antidetonation section view that bows.

Fig. 4 is the transverse light gauge steel overhead schematic view of the earthquake-resistant and heat-insulating light steel building structure of the utility model.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to fig. 1-4 of the present invention, and it should be apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

An earthquake-proof heat-insulating light steel building structure comprises a transverse light steel keel 3, a supporting keel and a filling layer, wherein the transverse light steel keel 3 comprises a transverse plate and two vertical plates, one ends of the two vertical plates are fixedly connected with the two sides of the transverse plate and are vertically arranged, the transverse plate and the two vertical plates form a U-shaped structure, the transverse plate is provided with a through hole matched with the supporting keel, the supporting keel is inserted into the through hole and is perpendicular to the transverse plate, the supporting keel comprises two vertical light steel keels 2, a buffering filler 6 and a buffer block 5, the two vertical light steel keels 2 are both detachably connected with the transverse light steel keel 3, the two vertical light steel keels 2 are both provided with an open U-shaped structure, the two sides of the buffer block 5 are respectively and fixedly connected with the U-shaped structures of the two vertical light steel keels 2, the U-shaped structures are far away from one side of the open, the two vertical light steel keels 2 and the buffer block 5 jointly form an I-shaped structure, openings at two ends of the I-shaped structure are parallel to the transverse light steel keels 3, the buffer block 5 is provided with a through hole, the through hole is vertically arranged, the buffer filler 6 is arranged in the through hole, the buffer block 5 is used for generating elastic deformation when being extruded, a plurality of support keels are inserted in a transverse plate of each transverse light steel keel 3, a filling layer is connected between any two adjacent support keels, one side of each filling layer is inserted into the U-shaped structure opening of each vertical light steel keel 2, the other side of each filling layer is inserted into the U-shaped structure opening of the other adjacent support keel of each vertical light steel keel 2, the filling layer is used for heat preservation and insulation, and the support keels and the transverse light steel keels 3 form a cross structure, stable and high in safety, connect buffer block 5 and buffering filler 6 between two vertical light gauge steel 2 in the support fossil fragments, because buffer block 5 is the aluminium type material, buffering filler 6 is the rubber materials, because buffer block 5 is the aluminium type material, it is easy to warp, in other words add the deflection in advance, play the function of movement joint, when taking place earthquake, the internal stress produces under the influence of seismic wave in the building structure, buffer block 5 and buffering filler 6 provide at this moment add the deflection in advance can be fine eliminate above-mentioned internal stress, the beneficial effect that has the antidetonation function has been reached, and because the filling layer is inserted on two vertical light gauge steel 2 in different support fossil fragments, above-mentioned two vertical light gauge steel 2 openings set up relatively, the filling layer both ends are inserted in above-mentioned opening, be equipped with outer wall 1 in one side of next-door neighbour's filling layer, outer wall 1 covers horizontal light gauge steel and support fossil fragments completely, the outer wall 1 can be materials such as thistle board, can be connected outer wall 1 and horizontal light gauge steel and support fossil fragments through modes such as screw or bonding during the construction, still need lay the interior wall when the construction in one side of outer wall 1 is kept away from to the filling layer, the same horizontal light gauge steel and the support fossil fragments of complete cover of interior wall, the interior wall can be materials such as acoustic celotex board, waterproof board or thistle board, separate outer wall 1 and interior wall in the housing structure through the filling layer, thermal-insulated beneficial effect has been reached in the heat preservation.

Further, the filling layer includes two cement pressure plates 7 and a heat insulating board 8, two cement pressure plates 7 and 8 three of a heat insulating board size unanimity and set up side by side, heat insulating board 8 set up in between two cement pressure plates 7, heat insulating board 8 is polystyrene resin material, can play good thermal-insulated purpose of keeping warm, and cement pressure plate 7 constitutes stable, light and safe building structure with the cooperation of light gauge steel.

Further, still include a plurality of self tapping screws 9, be equipped with on vertical light gauge steel 2 a plurality of with the through-hole of self tapping screw 9 adaptation, self tapping screw 9 passes the through-hole and connect vertical light gauge steel 2 with cement pressure plate 7, cement pressure plate 7 with bond through the binder between the heat insulating board 8, during the installation, earlier evenly paint the binder in 8 both sides of heat insulating board, then bond two cement pressure plates 7 in its both sides fixedly, insert the filling layer in the opening of above-mentioned two vertical light gauge steel 2 and beat a plurality of self tapping screws 9 fixedly at last, reached the beneficial effect of the installation of being convenient for.

Further, still include fixed block 4, 4 one end of fixed block is connected vertical light gauge steel 2, the 4 other ends of fixed block are connected horizontal light gauge steel 3, fixed block 4 is used for fastening vertical light gauge steel 2 with horizontal light gauge steel 3, fixed block 4 and vertical light gauge steel 2 and horizontal light gauge steel 3 become the purpose of certain angle in order to play the strengthening rib, have reached the purpose of firm whole device.

Furthermore, a plurality of set screws 10 are respectively arranged at two ends of the fixed block 4, the set screws 10 are used for connecting the fixed block 4 with the vertical light steel keel 2 and the horizontal light steel keel 3 respectively, and the fixed block 4 is connected with the vertical light steel keel 2 and the horizontal light steel keel 3 through the set screws 10, so that the device is simple and convenient and saves time in installation.

In the description of the present invention, it should be understood that the terms "counterclockwise", "clockwise", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description of the present invention, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Claims (8)

1. An anti-seismic heat-insulation light steel building structure is characterized by comprising a transverse light steel keel (3), a supporting keel and a filling layer, wherein the transverse light steel keel (3) comprises a transverse plate and two vertical plates, one ends of the two vertical plates are fixedly connected with two sides of the transverse plate and are vertically arranged, the transverse plate and the two vertical plates form a U-shaped structure, the transverse plate is provided with a through hole matched with the supporting keel, and the supporting keel is inserted into the through hole and is perpendicular to the transverse plate;

the supporting keel comprises two vertical light steel keels (2), buffering fillers (6) and a buffer block (5), the two vertical light steel keels (2) are detachably connected with the transverse light steel keels (3), the two vertical light steel keels (2) are both provided with open U-shaped structures, two sides of the buffer block (5) are respectively and fixedly connected with one sides, far away from the openings, of the U-shaped structures of the two vertical light steel keels (2), the two vertical light steel keels (2) and the buffer block (5) jointly form an I-shaped structure, the openings at two ends of the I-shaped structure are mutually parallel to the transverse light steel keels (3), the buffer block (5) is provided with a through hole, the through hole is vertically arranged, the buffering fillers (6) are arranged in the through hole, and the buffer block (5) is used for being elastically deformed when being extruded, a plurality of supporting keels are inserted into the transverse plate of the transverse light steel keel (3), any two of the supporting keels are adjacent to each other, a filling layer is connected between the supporting keels, one side of the filling layer is inserted into the U-shaped structural opening of the vertical light steel keel (2), the other side of the filling layer is inserted into the other adjacent one of the supporting keels, and the filling layer is used for heat preservation and heat insulation.

2. An earthquake-resistant and heat-insulating light steel building structure according to claim 1, characterized in that said filling layer comprises two cement pressure plates (7) and one heat-insulating plate (8), said two cement pressure plates (7) and one heat-insulating plate (8) being of the same size and being arranged side by side, said heat-insulating plate (8) being arranged between said two cement pressure plates (7).

3. An earthquake-resistant and heat-insulating light steel building structure according to claim 2, characterized in that it further comprises a plurality of self-tapping screws (9), said vertical light steel keel (2) is provided with a plurality of through holes adapted to said self-tapping screws (9), said self-tapping screws (9) pass through said through holes and connect said vertical light steel keel (2) and said cement pressure plate (7).

4. An earthquake-resistant and heat-insulating light steel building structure according to claim 2, characterized in that said heat-insulating panels (8) are of polystyrene resin material.

5. An earthquake-resistant and heat-insulating light steel building structure according to claim 2, characterized in that said cement pressure plate (7) is bonded to said heat-insulating plate (8) by means of an adhesive.

6. An earthquake-resistant and heat-insulating light steel building structure according to claim 1, further comprising a fixing block (4), wherein one end of the fixing block (4) is connected with the vertical light steel keel (2), the other end of the fixing block (4) is connected with the transverse light steel keel (3), and the fixing block (4) is used for fastening the vertical light steel keel (2) and the transverse light steel keel (3).

7. An earthquake-resistant heat-insulating light steel building structure according to claim 6, characterized in that a plurality of set screws (10) are respectively arranged at two ends of the fixing block (4), and the set screws (10) are used for the fixing block (4) to respectively connect the vertical light steel keel (2) and the horizontal light steel keel (3).

8. An earthquake-resistant and heat-insulating light steel building structure according to claim 1, characterized in that said buffer block (5) is of an aluminum type material and said buffer filler (6) is of a rubber material.

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