CN214219940U - Be applied to embedded light slat structure of steel frame of low-rise building - Google Patents

Abstract

The application relates to a steel frame embedded light batten structure applied to a low-rise building, which comprises an installation frame and a plurality of batten main bodies. The installing frame comprises a bottom frame, two cross rods and a plurality of longitudinal rods, and the slat main body is embedded in the installing frame. First mounting bar has set firmly along self length direction on the lateral wall of one side of slat main part, has seted up first mounting groove along self length direction on the relative lateral wall of opposite side, and one side of vertical pole is provided with the second mounting bar along self length direction, has seted up the second mounting groove along self length direction on the relative lateral wall of opposite side. When splicing the whole structure, through the mutual gomphosis of first mounting bar and first mounting groove between the slat main part to and with the second mounting bar with be close to the first mounting groove gomphosis in the slat main part of vertical pole, second mounting groove and be close to the first mounting bar gomphosis in the slat main part of vertical pole, make between the adjacent structure spacing each other, effectively improved the stability of whole structure.

Description

Be applied to embedded light slat structure of steel frame of low-rise building

Technical Field

The application relates to the field of house building, in particular to a steel frame embedded light batten structure applied to low-rise buildings.

Background

The light external wall panel is gradually popularized to the external protection system of the steel structure building due to the advantages of low density and high rigidity and strength, and the connection mode of the wall panel and the steel frame is the key for ensuring the cooperative work of the steel frame and the wall panel, so that the research on the connection mode of the light strip panel main body embedded in the steel frame has certain practical significance.

The patent with the publication number of CN210562607U discloses a steel frame embedded light batten structure applied to a low-rise building, which comprises a steel frame and a light batten main body, wherein the light batten main body is tiled and embedded in the steel frame, two adjacent light batten main bodies are bonded by using a bonding agent, the thickness of the light batten main body is larger than that of the steel frame, and two ends of the steel frame in the thickness direction are respectively provided with a connecting fitting corresponding to the thickness of the light batten main body; the steel frame comprises a vertically arranged light steel column and a transversely arranged light steel beam.

With respect to the related art among the above, there are the following drawbacks: mutual butt between the slat main part, then through the binder adhesion, joint strength is lower, and the whole stability of building is relatively poor after the construction is accomplished.

SUMMERY OF THE UTILITY MODEL

In order to improve the stability of the building, the application provides a steel frame embedded light slat structure applied to a low-rise building.

The application provides a be applied to embedded light slat structure of steel frame of low-rise building adopts following technical scheme:

a light batten structure embedded in a steel frame applied to a low-rise building comprises a mounting frame and a plurality of batten main bodies, wherein the plurality of batten main bodies are embedded in the mounting frame, a first mounting strip is fixedly arranged on the side wall of one side of each batten main body along the length direction of the side wall, and a first mounting groove matched with the first mounting strip is formed in the side wall opposite to the other side of each batten main body along the length direction of the side wall;

the installing frame includes underframe, a plurality of horizontal pole and a plurality of vertical pole, and is a plurality of the vertical setting of vertical pole is on the underframe, and is a plurality of the horizontal pole level sets up at the vertical pole top, horizontal pole and vertical pole mutually perpendicular, the horizontal pole constitutes the frame of rectangular size with the vertical pole, one side of vertical pole is provided with the second mounting bar that is used for with first mounting groove adaptation along self length direction, offers the second mounting groove with first mounting bar adaptation along self length direction on the relative lateral wall of opposite side.

Through adopting above-mentioned technical scheme, place preset position with the installing frame, then install a plurality of slat main parts on the underframe in proper order along vertical direction, make the mutual gomphosis of first mounting groove of slat main part and adjacent slat main part, splice when being close to the vertical pole when the slat main part, with the second mounting bar with be close to the first mounting groove gomphosis in the slat main part of vertical pole, the second mounting groove with be close to the first mounting bar gomphosis in the slat main part of vertical pole, until accomplishing the lateral wall gomphosis of four sides, make spacing each other between the adjacent structure, the stability of whole structure has effectively been improved. Then the structure of repeated concatenation slat main part inlays the slat main part level and establishes between the horizontal pole at top, with the top capping, has effectively improved the stability of whole structure.

Preferably, the slat main body and the vertical rod in contact with the vertical slat main body are provided with through holes, the through holes are located on the side walls of the slat main body or the vertical rod in mutual contact, the axis of the through holes is perpendicular to the length direction of the slat main body, and the fixing rods penetrate through the through holes.

Through adopting above-mentioned technical scheme, when constructing whole structure, pass all slat main parts and the vertical pole on a lateral wall face with the dead lever, connect into a whole with slat main part and vertical board on a lateral wall face, effectively avoid taking place the skew between the slat main part, effectively improved the stability of whole structure.

Preferably, the through holes are uniformly arranged in plurality along the length direction of the batten body.

Through adopting above-mentioned technical scheme, penetrate behind the dead lever with more, effectively avoid the slat main part to take place to twist reverse in the horizontal direction, further improved the stability of whole structure.

Preferably, the lateral wall of one side that the horizontal pole is close to top slat main part is provided with the inserted block, the lateral wall of inserted block perpendicular to horizontal pole and slat main part contact, slat main part both ends be provided with the slot of inserted block adaptation.

Through adopting above-mentioned technical scheme, when the concatenation slat main part, with the inserted block gomphosis on slot and the horizontal pole in the slat main part, take place the skew after the restriction slat main part concatenation, effectively improved the stability of whole structure.

Preferably, the cross bar is provided with a fixing plate for contacting with the inner side wall and the outer side wall of the slat body.

Through adopting above-mentioned technical scheme, when the concatenation slat main part, insert the slat main part in the cavity that the fixed plate of both sides formed, carry out the centre gripping to the slat main part, take place the skew after the restriction slat main part concatenation, effectively improved the stability of whole structure.

Preferably, a waterproof layer is arranged above the batten main body at the top.

Through adopting above-mentioned technical scheme, lay the waterproof layer at top slat main part top after the slat main part concatenation at top is accomplished, cover the gap between the slat main part of top, effectively improved the leakproofness of whole structure.

Preferably, the top of the mounting frame is provided with a sealing strip on the edge parallel to the main body of the batten.

Through adopting above-mentioned technical scheme, fill the space between top slat main part and the side slat main part through the sealing strip, effectively improved the leakproofness of whole structure.

Preferably, sealing glue layers are arranged between the adjacent lath main bodies and between the lath main bodies and the vertical rods.

Through adopting above-mentioned technical scheme, glue through the sealant layer and glue between two adjacent slat main parts or slat main part and the installing frame during the concatenation slat main part, effectively improved the stability of overall structure, fill the gap between two adjacent slat main parts or slat main part and the installing frame simultaneously, improved the leakproofness of overall structure.

In summary, the present application includes at least one of the following beneficial technical effects:

when the whole structure is spliced, the adjacent structures are limited mutually by mutually embedding the first mounting strip and the first mounting groove between the slat main bodies, embedding the second mounting strip and the first mounting groove on the slat main body close to the longitudinal rod, and embedding the second mounting groove and the first mounting strip on the slat main body close to the longitudinal rod, so that the stability of the whole structure is effectively improved;

the fixing rods penetrate through all the slat main bodies and the longitudinal rods on one side wall surface to connect the slat main bodies and the longitudinal plates on one side wall surface into a whole, so that the deviation among the slat main bodies is effectively avoided, and the stability of the whole structure is effectively improved;

glue between two adjacent slat main parts or slat main part and the installing frame through the sealant layer and glue, effectively improved the stability of whole structure.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic overall structure diagram of the installation frame in the embodiment of the present application.

FIG. 3 is a schematic view, partly in section, of an embodiment of the present application.

Fig. 4 is a partially enlarged schematic view of a portion a in fig. 3.

FIG. 5 is a schematic structural diagram of a slat body according to an embodiment of the present application.

Fig. 6 is a schematic structural view of a side rail according to an embodiment of the present application.

FIG. 7 is a cross-sectional schematic view of a cross-bar of an embodiment of the present application.

Description of reference numerals: 1. installing a frame; 11. a bottom frame; 12. a longitudinal bar; 121. a second mounting bar; 122. a second mounting groove; 13. a cross bar; 131. a fixing plate; 132. inserting a block; 2. a slat main body; 21. a first mounting bar; 22. a first mounting groove; 23. perforating; 24. a slot; 3. fixing the rod; 4. a sealing strip; 5. and a waterproof layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a steel frame embedded light slat structure applied to low-rise buildings. Referring to fig. 1, a steel frame embedded lightweight slat main body 2 structure applied to a low-rise building includes a mounting frame 1 and a plurality of slat main bodies 2. Referring to fig. 2 and 3, the mounting frame 1 includes a bottom frame 11, two cross bars 13 and a plurality of vertical bars 12, the bottom frame 11 is a square groove, the plurality of vertical bars 12 are welded on the bottom wall of the mounting frame 1 at uniform intervals, and the vertical bars 12 at the corners are welded to each other. Two cross rods 13 are respectively welded on the tops of the longitudinal rods 12 at two sides, and the two cross rods 13 are parallel to each other. The batten main body 2 is embedded in the installation frame 1, the batten main body 2 between the longitudinal rods 12 is parallel to the longitudinal rods 12, the batten main body 2 between the transverse rods 13 is perpendicular to the transverse rods 13, and the whole installation frame is sealed to construct a square closed structure.

Referring to fig. 4 and 5, a first mounting strip 21 is fixedly arranged on one side wall of the slat main body 2 along the length direction thereof, and a first mounting groove 22 adapted to the first mounting strip 21 is formed on the opposite side wall along the length direction thereof.

Referring to fig. 4 and 6, a second mounting bar 121 adapted to the first mounting bar 22 is disposed along a length direction of one side of the vertical rod 12, and a second mounting groove 122 adapted to the first mounting bar 21 is disposed along a length direction of the other side of the opposite side wall.

When the whole structure is constructed, the slat main bodies 2 are sequentially inserted into the grooves on the bottom frame 11 in the vertical direction, the first mounting strips 21 of the slat main bodies 2 and the first mounting grooves 22 of the adjacent slat main bodies 2 are mutually embedded, when the slat main bodies 2 are spliced to be close to the vertical bars 12, the second mounting strips 121 and the first mounting grooves 22 on the slat main bodies 2 close to the vertical bars 12 are embedded, the second mounting grooves 122 and the first mounting strips 21 on the slat main bodies 2 close to the vertical bars 12 are embedded until the side walls on four sides are embedded, the slat main bodies 2 and the vertical bars 12 are mutually abutted, the first mounting strips 21 and the first mounting grooves 22 between the slat main bodies 2 are mutually embedded, the second mounting strips 121 and the first mounting grooves 22 on the slat main bodies 2 close to the vertical bars 12 are embedded, the second mounting grooves 122 and the first mounting strips 21 on the slat main bodies 2 close to the vertical bars 12 are embedded, the adjacent structures are mutually embedded and limited, and the stability of the whole structure is effectively improved.

Referring to fig. 5 and 6, the cross sections of the first mounting bar 21, the first mounting groove 22, the second mounting groove 122 and the second mounting bar 121 are isosceles trapezoids, so that the strip body 2 is more stable when being spliced.

Referring to fig. 5 and 6, the slat main body 2 and the side rail 12 contacting the vertical slat main body 2 are formed with two through holes 23, and the through holes 23 are formed in the side walls of the slat main body 2 or the side rail 12 contacting each other. When constructing whole structure, pass all slat main parts 2 and the vertical pole 12 on a lateral wall face with dead lever 3, connect into a whole with slat main part 2 on a lateral wall face and vertical board, effectively avoid taking place the skew between the slat main part 2, effectively improved the stability of whole structure.

Referring to fig. 4 and 7, the fixing plates 131 are welded to both side walls of the cross bar 13 contacting the slat main body 2, and fixing grooves are formed between the two fixing plates 131 on the same side for contacting the inner and outer side walls of the slat main body 2. Horizontal pole 13 is used for setting firmly a plurality of inserted blocks 132 on the both sides lateral wall with the contact of slat main part 2, and a plurality of inserted blocks 132 are even to be spaced the setting, and the interval between two adjacent inserted blocks 132 equals with the width of slat main part 2, 2 both ends of slat main part be provided with the slot 24 of inserted block 132 adaptation. When concatenation slat main part 2, insert the slat main part 2 in the cavity that the fixed plate 131 of both sides formed, carry out the centre gripping to slat main part 2, with the inserted block 132 gomphosis on slot 24 and the horizontal pole 13 on the slat main part 2 simultaneously, take place the skew after the restriction slat main part 2 concatenation, effectively improved the stability of whole structure.

Between adjacent slat main part 2, all scribble between slat main part 2 and vertical pole 12 and slat main part 2 and the horizontal pole 13 and be equipped with sealed glue formation sealant layer, glue through sealant layer between to two adjacent slat main parts 2 or slat main part 2 and the installing frame 1 during concatenation slat main part 2 and glue, whole structure's stability has effectively been improved, fill the gap between two adjacent slat main parts 2 or slat main part 2 and the installing frame 1 simultaneously, effectively avoid water from gap infiltration, whole structure's leakproofness has effectively been improved.

Referring to fig. 4, after the top slat main body 2 is spliced, the top of the mounting frame 1 is positioned on the edge parallel to the slat main body 2 and is pasted with the sealing strip 4 made of rubber, and a waterproof layer 5 is laid on the top slat main body 2 through a waterproof coiled material. Fill and cover the space at top through sealing strip 4 and waterproof layer 5, water from the gap infiltration when avoiding raining, has effectively improved the leakproofness of whole structure.

The implementation principle of the steel frame embedded light batten structure applied to the low-rise building is as follows: when the whole structure is constructed, the slat main bodies 2 are sequentially inserted into the grooves in the bottom frame 11 along the vertical direction, the first mounting strips 21 of the slat main bodies 2 are mutually embedded with the first mounting grooves 22 of the adjacent slat main bodies 2, when the slat main bodies 2 are spliced to the side rails 12, the second mounting strips 121 are embedded with the first mounting grooves 22 of the slat main bodies 2 close to the side rails 12, and the second mounting grooves 122 are embedded with the first mounting strips 21 of the slat main bodies 2 close to the side rails 12, so that the adjacent structures are mutually limited; then, the slat main body 2 is inserted into the top rail 13, and the slot 24 of the slat main body 2 is fitted into the insert 132 of the rail 13. Then insert the horizontal cavity that the fixed plate 131 that the horizontal pole 13 is close to each other formed with slat main part 2, carry out the centre gripping to slat main part 2, with slot 24 on the slat main part 2 and the inserted block 132 gomphosis on the horizontal pole 13 simultaneously, until sealing whole mounting bracket, constitute a square inclosed structure, through spacing each other between the adjacent structure, effectively improved the stability of whole structure.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an embedded light slat structure of steel frame for low-rise building which characterized in that: the mounting frame comprises a mounting frame (1) and a plurality of slat main bodies (2), wherein the slat main bodies (2) are embedded in the mounting frame (1), a first mounting strip (21) is fixedly arranged on the side wall of one side of the slat main body (2) along the length direction of the side wall, and a first mounting groove (22) matched with the first mounting strip (21) is formed in the side wall opposite to the other side along the length direction of the side wall;

installing frame (1) includes underframe (11), a plurality of horizontal pole (13) and a plurality of vertical pole (12), and is a plurality of vertical setting of vertical pole (12) is on underframe (11), and is a plurality of horizontal pole (13) level sets up at vertical pole (12) top, horizontal pole (13) and vertical pole (12) mutually perpendicular, horizontal pole (13) and vertical pole (12) constitute the frame of rectangular size, one side of vertical pole (12) is provided with second mounting bar (121) that are used for with first mounting groove (22) adaptation along self length direction, sets up second mounting groove (122) with first mounting bar (21) adaptation along self length direction on the relative lateral wall of opposite side.

2. The structure of embedded lightweight batten of steel frame for low-rise building according to claim 1, wherein: seted up on slat main part (2) and with vertical slat main part (2) contact vertical pole (12) perforation (23), perforation (23) are located slat main part (2) or vertical pole (12) the lateral wall of mutual contact, the axis perpendicular to slat main part (2)'s length direction of perforation (23), wear to be equipped with dead lever (3) in perforation (23).

3. The structure of embedded lightweight batten of steel frame for low-rise building according to claim 2, wherein: the through holes (23) are uniformly arranged in a plurality along the length direction of the batten main body (2).

4. The structure of embedded lightweight batten of steel frame for low-rise building according to claim 1, wherein: be provided with inserted block (132) on horizontal pole (13) the side wall that is close to top slat main part (2), the lateral wall of inserted block (132) perpendicular to horizontal pole (13) and slat main part (2) contact, slat main part (2) both ends be provided with slot (24) with inserted block (132) adaptation.

5. The structure of embedded lightweight batten of steel frame for low-rise building according to claim 1, wherein: the cross rod (13) is provided with a fixing plate (131) which is used for contacting with the inner side wall and the outer side wall of the batten main body (2).

6. The structure of embedded lightweight batten of steel frame for low-rise building according to claim 1, wherein: a waterproof layer (5) is arranged above the batten main body (2) at the top.

7. The structure of embedded lightweight batten of steel frame for low-rise building according to claim 1, wherein: the top of the mounting frame (1) is provided with a sealing strip (4) on the edge parallel to the main body (2) of the batten.

8. The structure of the steel frame embedded lightweight slat applied to low-rise buildings according to any one of claims 1 to 7, wherein: and sealing glue layers are arranged between the adjacent slat main bodies (2) and between the slat main bodies (2) and the vertical rods (12).

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