CN215595057U - Reinforced structure of air entrainment slat wall outer window entrance to a cave - Google Patents

Abstract

The utility model relates to a reinforced structure of air entrainment slat wall outer window entrance to a cave, including the first air entrainment slat of relative vertical setting, the wall body is located including the structure roof beam that is located the top and the floor that is located the below one side fixedly connected with second air entrainment slat that first air entrainment slat is close to relatively, still including being located the angle steel of the vertical setting in first air entrainment slat outside, the top of angle steel with structure roof beam fixed connection, the bottom of angle steel with floor fixed connection, one side fixedly connected with angle sign indicating number of angle steel, through the angle sign indicating number with the angle steel will first air entrainment slat with second air entrainment slat centre gripping. The method has the effect of reducing steel consumption and resource waste.

Description

Reinforced structure of air entrainment slat wall outer window entrance to a cave

Technical Field

The application relates to the field of building construction, in particular to a reinforced structure of an outer window opening of an air-entrapping slat wall.

Background

With the increasing popularization of assembly type building construction in China, the requirement on the project assembly rate is higher and higher. In order to achieve the purpose that the assembly rate of the assembly type building is not less than 50%, the material selected by a design unit for secondary structure construction of the external wall is changed from the original building block into the aerated concrete panel wall. The aerated concrete slabs can greatly improve the construction speed due to the larger plate size, so the aerated concrete slabs are more and more popular for the construction of the outer wall.

The current domestic standard requires that when the outer wall of the first air-entrapping slat is larger than 2 meters at the outer window opening, angle steel reinforcement is required to be carried out at the window opening.

Aiming at the related technologies, the inventor thinks that in the prior art, a large amount of angle steel is used for fixing, one end of the first air-entrapping slat is completely sealed by the angle steel, and the conservative steel consumption of the reinforcing mode is large.

SUMMERY OF THE UTILITY MODEL

In order to reduce the steel consumption and thus reduce the waste of resources, the application provides a reinforced structure of air entrainment slat wall outer window opening.

The application provides a pair of reinforced structure of air entrainment slat wall outer window entrance to a cave adopts following technical scheme:

the utility model provides a reinforced structure of air entrainment slat wall outer window entrance to a cave, is including the first air entrainment slat of relative vertical setting, the wall body is located including the structure roof beam that is located the top and the floor that is located the below one side fixedly connected with second air entrainment slat that first air entrainment slat is close to relatively, still including being located the angle steel of the vertical setting in first air entrainment slat outside, the top of angle steel with structure roof beam fixed connection, the bottom of angle steel with floor fixed connection, one side fixedly connected with angle sign indicating number of angle steel, through the angle sign indicating number with the angle steel will first air entrainment slat with second air entrainment slat centre gripping.

Through adopting above-mentioned technical scheme, through upper and lower both ends and wall body relatively fixed with the angle steel, and with angle sign indicating number and angle steel relatively fixed, thereby install first air entrainment slat through angle steel and angle sign indicating number and fix, the reinforcement mode of first air entrainment slat in outer window entrance to a cave department has been optimized, can transmit the angle steel with the dead weight and the effectual angle sign indicating number that passes through of wind load of outer window, and transmit on the primary structure wall body, make first air entrainment slat not receive the disturbance and reduce the fracture of wall body, the use amount of reinforcing the steel sheet has been reduced simultaneously, and resources are saved.

Optionally, the corner connector comprises a third fixing sheet and a fourth fixing sheet which are vertical to each other, the third fixing sheet is parallel to the first air-entrapping slat, the fourth fixing sheet is perpendicular to the first air-entrapping slat, a reinforcing steel bar is fixedly connected to the fourth fixing sheet, and the reinforcing steel bar extends into the second air-entrapping slat.

Through adopting above-mentioned technical scheme, fix angle sign indicating number and second air entrainment slat through the reinforcing bar that sets up, and the reinforcing bar is close to the one end and the third stationary blade relatively fixed of third stationary blade, has reduced the condition that adopts the outstanding point that the gib head bolt caused to form the swell, has improved the roughness of outer wall basic unit, reduces the degree of difficulty of follow-up outer wall heat preservation construction operation.

Optionally, two relative reinforcing bars are a set of fixed knot and construct, fixed knot constructs inside two the reinforcing bar slope setting relatively, and the interval between two relative reinforcing bars reduces from the one side that is close to the fourth stationary blade to the one side that deviates from the fourth stationary blade gradually.

Through adopting above-mentioned technical scheme, through the fixed setting of the relative slope of reinforcing bar to increased the installation intensity between angle sign indicating number and the second air entrainment slat, make and be difficult for droing between second air entrainment slat and the angle sign indicating number, improved the installation life of second air entrainment slat.

Optionally, the length of the corner brace along the length direction of the wall body is smaller than the length of the first fixing sheet along the wall body.

Through adopting above-mentioned technical scheme, through setting up the angle sign indicating number that is in the first stationary blade of shortness to save holistic steel consumption, save the resource.

Optionally, the first air entrainment slat can be formed by splicing a plurality of air entrainment boards, every two top and bottom between the air entrainment boards are fixedly connected with the cardboard respectively, the cardboard with wall body fixed connection.

Through adopting above-mentioned technical scheme, it is fixed to splice through a plurality of air entrainment boards to be convenient for utilize remaining material after the cutting, and fix two adjacent air entrainment boards through the cardboard, be convenient for save raw materials.

Optionally, the two sides of the tongue-and-groove between every two air-entraining plates are fully hung with bonding mortar.

By adopting the technical scheme, the bonding mortar is filled in the groove and tongue position between the two gas adding plates which are relatively close to each other, so that the gap between the two gas adding plates is filled more tightly, the two opposite gas adding plates are fixed more stably, and the connecting strength between the gas adding plates is improved.

Optionally, the angle brace is provided in plurality along the height direction of the angle steel.

Through adopting above-mentioned technical scheme, through a plurality of angle sign indicating numbers that set up for the angle sign indicating number is more firm to the fixed of first air entrainment slat, and then increases overall structure's security.

Optionally, a concrete pressing belt is horizontally arranged at the bottom end of the wall body, two ends of the concrete pressing belt are fixedly connected with the angle steel respectively, and the concrete pressing belt is fixedly connected with the wall body.

Through adopting above-mentioned technical scheme, pressing the area through setting up the concrete and can reducing because the wall body crack that stress concentration phenomenon arouses, reduce external rainwater and get into the intensity that influences the lower part wall body, and can increase the wholeness and the stability of lower part wall body.

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

1. through upper and lower both ends and the wall body relatively fixed with the angle steel, and with angle sign indicating number and angle steel relatively fixed, thereby install first air entrainment slat through angle steel and angle sign indicating number and fix, the reinforcement mode of first air entrainment slat in outer window entrance to a cave department has been optimized, can transmit the angle steel with the dead weight and the effectual angle sign indicating number that passes through of wind load of outer window, and transmit on the primary structure wall body, make first air entrainment slat not receive the disturbance and reduce the fracture of wall body, the use amount of reinforcing the steel sheet has been reduced simultaneously, resources are saved.

2. Fix angle sign indicating number and second air entrainment slat through the reinforcing bar that sets up, and the reinforcing bar is close to the one end and the third stationary blade relatively fixed of third stationary blade, has reduced the condition that adopts the salient point that the gib head bolt caused to form the swell, has improved the roughness of outer wall basic unit, reduces the degree of difficulty of follow-up outer wall heat preservation construction operation.

3. Through the fixed setting of the relative slope of reinforcing bar to increased the installation intensity between angle sign indicating number and the second air entrainment slat, make difficult for droing between second air entrainment slat and the angle sign indicating number, improved the installation life of second air entrainment slat.

Drawings

Fig. 1 is a schematic overall structure diagram of a reinforcing structure of a window opening outside an air-entrapping slat wall in an embodiment of the present application;

FIG. 2 is a schematic view of a first air-entraining slat mounting structure for reinforcing a window opening in an air-entraining slat wall according to an embodiment of the present invention;

fig. 3 is an exploded view of a first air-entraining slat mounting structure of a reinforcing structure for an opening of a window outside an air-entraining slat wall in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of an angle steel corner brace of a reinforcing structure of an outer window opening of an air-entrapping slat wall in an embodiment of the application;

fig. 5 is a schematic structural view of a concrete press belt for reinforcing a window opening of an air-entraining slat wall in an embodiment of the present application.

Description of reference numerals: 1. a wall body; 11. a structural beam; 12. a floor slab; 2. a first air-entraining slat; 21. a gas panel; 22. clamping a plate; 23. a second air-added slat; 3. angle steel; 31. a first fixing sheet; 32. a second fixing sheet; 4. a fixed structure; 41. reinforcing steel bars; 5. corner connectors; 51. a third fixing sheet; 52. a fourth fixing sheet; 6. pressing a concrete belt; 61. and pressing the steel bars.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses reinforced structure of air entrainment slat wall outer window entrance to a cave. Referring to fig. 1 and 2, the reinforced structure of the window opening of the air-entrapping slat wall comprises a first air-entrapping slat 2 vertically arranged on a wall body 1, wherein the first air-entrapping slat 2 is arranged at two opposite ends of the wall body. The wall body 1 comprises a structural beam 11 positioned at the top end and a floor 12 positioned at the bottom end, and the first air-entrapping slat 2 is positioned between the structural beam 11 and the floor 12. And a second air-entrapping slat 23 is arranged at one end, close to the window, of the opposite side of the first air-entrapping slat 2, and the second air-entrapping slat 23 is fixedly connected with the first air-entrapping slat 2.

The first air-entraining lath 2 can be formed by one air-entraining plate 21 or a plurality of air-entraining laths 21 can be spliced and fixed along the length direction of the wall body 1. When a plurality of gas filling plates 21 are spliced to form a first gas filling slat 2, the top end and the bottom end between two gas filling plates 21 are respectively provided with a U-shaped clamping plate 22, the clamping plate 22 is positioned between two gas filling plates 21, and the clamping plate 22 is fixedly connected with the gas filling plates 21. The clamping plate 22 at the top end is fixedly connected with the structural beam 11, and the clamping plate 22 at the bottom end is fixedly connected with the floor slab 12. The two sides of the groove between the two air-adding plates 21 are fully hung with bonding mortar, the bonding mortar is full, and the extruded mortar is cleaned at any time so as to fix the air-adding plates 21.

Referring to fig. 3 and 4, angle steel 3 is vertically arranged at two ends of the first air-entrapping slat 2 along the length direction of the wall body 1, the angle steel 3 comprises a first fixing sheet 31 arranged along the length direction of the wall body 1 and a second fixing sheet 32 arranged along the width direction of the wall body 1, and the first fixing sheet 31 and the second fixing sheet 32 are of an integral structure.

The angle steel 3 that is located both sides is provided with angle sign indicating number 5 near one side relatively, and angle sign indicating number 5 is including the third stationary blade 51 that sets up along wall 1 length direction and the fourth stationary blade 52 that sets up along wall 1 length direction, and third stationary blade 51 and fourth stationary blade 52 structure as an organic whole. The angle sign indicating number 5 sets up threely along angle steel 3's direction of height equidistance, and welded fastening between angle sign indicating number 5 and the angle steel 3. The length of the third fixing sheet 51 along the length direction of the wall body 1 is smaller than that of the first fixing sheet 31 along the length direction of the wall body 1, so that the steel consumption of the corner connector 5 is saved. The third fixing plate 51 and the second air entrainment slat 23 are fixed by the fixing structure 4.

Fixed knot constructs 4 and sets up for the position of angle sign indicating number 5, and every fixed knot constructs 4 including two reinforcing bars 41, and two reinforcing bars 41 slope settings, and along one side from being close to third stationary blade 51 to deviating from one side of third stationary blade 51 gradually towards the one side slope that is close to relatively, reinforcing bar 41 is close to the one end and the third stationary blade 51 welded fastening of third stationary blade 51.

Referring to fig. 1 and 5, a concrete press belt 6 is horizontally arranged on the wall at the bottom end and close to one side of the angle steel 3, the concrete press belt 6 is arranged along the width direction of the wall 1, a press belt steel bar 61 is horizontally arranged inside the concrete press belt 6, the press belt steel bar 61 is arranged along the length direction of the wall 1, and two ends of the press belt steel bar 61 penetrate through the first air-entrapping slat 2 and are respectively fixedly connected with the two angle steels 3.

The implementation principle of the reinforced structure of the opening of the outer window of the air-entrapping slat wall is as follows: through adopting angle steel 3 and a plurality of 5 welded fastening of angle sign indicating numbers, it is fixed with first air entrainment slat 2, and then reduced and consumed the steel volume, and through reinforcing bar 41 with second air entrainment slat 2 and 5 relatively fixed of angle sign indicating numbers, reduce wall body 1 and adopt the gib head bolt, and then improve the roughness of 1 surface of wall body, be convenient for subsequent outer wall insulation's construction.

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 a reinforced structure of air entrainment slat wall outer window entrance to a cave, including first air entrainment slat (2) of relative vertical setting, wall body (1) is including structural beam (11) that are located the top and floor (12) that are located the below, is located one side fixedly connected with second air entrainment slat (23) that first air entrainment slat (2) are close to relatively, its characterized in that: still including being located angle steel (3) of the vertical setting in first air entrainment slat (2) outside, the top of angle steel (3) with structure roof beam (11) fixed connection, the bottom of angle steel (3) with floor (12) fixed connection, one side fixedly connected with angle sign indicating number (5) of angle steel (3), through angle sign indicating number (5) with angle steel (3) will first air entrainment slat (2) with second air entrainment slat (23) centre gripping.

2. The reinforced structure of the window opening outside the air-entrapping slat wall according to claim 1, wherein: corner connector (5) are including relative vertically third stationary blade (51) and fourth stationary blade (52), third stationary blade (51) with first air entrainment slat (2) are parallel, fourth stationary blade (52) with first air entrainment slat (2) are perpendicular, fixedly connected with reinforcing bar (41) on fourth stationary blade (52), reinforcing bar (41) certainly fourth stationary blade (52) stretch into the inside of second air entrainment slat (23).

3. The reinforced structure of the window opening outside the air-entrapping slat wall according to claim 2, wherein: two relative reinforcing bars (41) are a set of fixed knot structure (4), fixed knot constructs (4) inside two reinforcing bar (41) slope relatively sets up, and the interval between two relative reinforcing bars (41) reduces from the one side that is close to fourth stationary blade (52) to the one side that deviates from fourth stationary blade (52) gradually.

4. The reinforced structure of the window opening outside the air-entrapping slat wall according to claim 2, wherein: the length of the corner connector (5) along the length direction of the wall body (1) is smaller than the length of the first fixing sheet (31) along the wall body (1).

5. The reinforced structure of the window opening outside the air-entrapping slat wall according to claim 1, wherein: the first air entrainment slat (2) can be formed by splicing a plurality of air entrainment boards (21), every two top and bottom between the air entrainment boards (21) are fixedly connected with snap-gauge (22) respectively, snap-gauge (22) with wall body (1) fixed connection.

6. The reinforcing structure of the window opening outside the air-entrapping slat wall according to claim 5, wherein: and the two sides of the groove and tongue between every two air-adding plates (21) are fully coated with bonding mortar.

7. The reinforced structure of the window opening outside the air-entrapping slat wall according to claim 1, wherein: the angle connectors (5) are arranged in a plurality along the height direction of the angle steel (3).

8. The reinforced structure of the window opening outside the air-entrapping slat wall according to claim 1, wherein: the concrete press belt is characterized in that a concrete press belt (6) is horizontally arranged at the bottom end of the wall body (1), two ends of the concrete press belt (6) are fixedly connected with the angle steel (3) respectively, and the concrete press belt (6) is fixedly connected with the wall body (1).

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