CN211736846U - Plugging system for overlong strip window of large-area factory - Google Patents

Abstract

The utility model discloses a plugging system for a large-area factory building ultra-long strip window, which comprises a first adjusting and fixing part (1), a second adjusting and fixing part (2), an embedded part (3) and a pouring layer (4); the embedded part is embedded in the surface of the windowsill along the length direction of the windowsill (5), the cross section of the first adjusting and fixing part is of an L-shaped structure, the first adjusting and fixing part is arranged along the length direction of the windowsill, and the horizontal end of the first adjusting and fixing part is fixedly connected with the embedded part; the second adjusting fixing piece is fixedly arranged at the bottom of the window frame along the length direction of the window frame (6), and the second adjusting fixing piece is fixedly arranged on the vertical section of the first adjusting fixing piece, so that the window frame is arranged above the windowsill; the pouring layer is poured between the top surface of the windowsill and the bottom surface of the window frame, and the first adjusting fixing piece and the second adjusting fixing piece are poured in the pouring layer. The utility model discloses can adjust the elevation of window frame, improve the installation accuracy, and prolong the infiltration route footpath, reach better prevention of seepage water effect.

Description

Plugging system for overlong strip window of large-area factory

Technical Field

The utility model relates to a windowsill structure for large-scale building engineering especially relates to a shutoff system that is used for large tracts of land factory building overlength area shape window.

Background

The window is one of important components in a building structure, and with the increasing of large building structures, in order to meet the requirements of lighting, beauty and the like, the application of the ultra-long strip window in large building engineering is also more and more extensive. At present, the construction method of the strip window is as follows: the windowsill is of a reinforced concrete structure, rigid decorative aluminum profiles are arranged above the windowsill, the strip-shaped window glass is embedded in an aluminum profile window frame, a gap between the strip-shaped window frame and the windowsill structure is filled through mortar joint plugging, and then construction methods (such as fluorocarbon paint, natural stone paint or coating and the like) are carried out.

Because aluminium alloy and glass are rigid material, the flexible volume is less, and the belt window installation accuracy is stronger to windowsill structure construction accuracy dependence, and the construction error range of allowwing is less. If the strip window decoration aluminum profile and the glass are directly constructed on the windowsill structure, the strip window cannot be installed straightly or even the glass cannot be installed due to overlarge deviation of the windowsill structure. In addition, the large-scale factory building is longer in extension, construction errors are easily amplified, deviation in the vertical direction and deviation in the horizontal direction of the strip window sill are often caused, and installation of the strip window is more difficult.

Secondly, the mortar filled in the gap between the window frame and the windowsill structure has lower strength. And because the gaps are not uniform in size, the mortar is not uniform in thickness, and the deformation caused by temperature change is different, the cracks are easy to generate. In addition, mechanical vibration of a factory building is large in the using process, and cracks are rapidly expanded, so that the water seepage phenomenon of a windowsill is common.

Disclosure of Invention

An object of the utility model is to provide a shutoff system for large tracts of land factory building overlength banding window can adjust the elevation of window frame, improves the installation accuracy, and has prolonged the infiltration path footpath, reaches better prevention of seepage water effect.

The utility model discloses a realize like this:

the utility model provides a shutoff system that is used for large tracts of land factory building overlength banding window, can adjust the elevation of window frame, improves the installation accuracy, and has prolonged the infiltration path, reaches better prevention of seepage water effect.

In order to realize the purpose, the technical scheme of the utility model is that:

a plugging system for an ultralong strip window of a large-area factory building comprises a first adjusting fixing piece, a second adjusting fixing piece, an embedded part and a pouring layer; the embedded part is embedded in the surface of the windowsill along the length direction of the windowsill, the cross section of the first adjusting and fixing part is of an L-shaped structure, the first adjusting and fixing part is arranged along the length direction of the windowsill, and the horizontal end of the first adjusting and fixing part is fixedly connected with the embedded part; the second adjusting and fixing piece is fixedly arranged at the bottom of the window frame along the length direction of the window frame, and the second adjusting and fixing piece is fixedly arranged on the vertical section of the first adjusting and fixing piece, so that the window frame is arranged above the windowsill; the pouring layer is poured between the top surface of the windowsill and the bottom surface of the window frame, and the first adjusting fixing piece and the second adjusting fixing piece are poured in the pouring layer.

The cross section of the second adjusting and fixing piece is of a rectangular structure, the width of the rectangular structure is equal to the thickness of the window frame, and the top surface of the rectangular structure is fixedly attached to the bottom surface of the window frame.

The pouring height of the pouring layer is not less than the height of the second adjusting and fixing piece.

The height of the second adjusting fixing piece is 40 mm.

The windowsill and the construction joint of pouring the layer are internally provided with a water stop strip, and the water stop strip is arranged along the length direction of the windowsill.

The pouring layer is fine stone concrete.

The plugging system further comprises a rear embedded part, the rear embedded part is installed at the error point position of the windowsill, and the error between the elevation of the error point position and the highest elevation of the windowsill is larger than the height of the first adjusting fixing part.

Compared with the prior art, the utility model, following beneficial effect has:

1. the utility model discloses can adjust the mounting height of mounting adjustment window frame through first regulation mounting and second, avoid the installation error of window frame, improve installation accuracy and engineering quality.

2. The utility model discloses can adjust mounting extension infiltration route through the higher layer of pouring of intensity and second, both combine closely, and water-proof effects is good, reduces the infiltration risk, improves the engineering quality.

Drawings

FIG. 1 is a sectional view of a point with a smaller construction error of the plugging system for the overlong strip window of the large-area factory building;

FIG. 2 is a sectional view of a point with a larger construction error of the plugging system for the overlong strip window of the large-area factory building;

FIG. 3 is the installation section view of the water stop strip of the plugging system for the overlong strip window of large area factory building.

In the figure, 1 is a first adjusting fixing part, 2 is a second adjusting fixing part, 3 is an embedded part, 4 is a pouring layer, 5 is a windowsill, 51 is a water stop bar, and 6 is a window frame.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1 and fig. 2, a plugging system for an ultra-long strip window of a large-area factory building comprises a first adjusting and fixing part 1, a second adjusting and fixing part 2, an embedded part 3 and a pouring layer 4; the embedded part 3 is embedded in the surface of the windowsill 5 along the length direction of the windowsill 5, the cross section of the first adjusting and fixing part 1 is of an L-shaped structure, the first adjusting and fixing part 1 is arranged along the length direction of the windowsill 5, and the horizontal end of the first adjusting and fixing part 1 is fixedly connected with the embedded part 3; the second adjusting and fixing piece 2 is fixedly arranged at the bottom of the window frame 6 along the length direction of the window frame 6, and the second adjusting and fixing piece 2 is fixedly arranged on the vertical section of the first adjusting and fixing piece 1, so that the window frame 6 is arranged above the windowsill 5; the pouring layer 4 is poured between the top surface of the windowsill 5 and the bottom surface of the window frame 6, and the first adjusting fixing piece 1 and the second adjusting fixing piece 2 are poured in the pouring layer 4.

The cross-section of second regulation mounting 2 be the rectangle structure, and the width of rectangle structure is equivalent with window frame 6's thickness, the top surface of rectangle structure is fixed with the bottom surface laminating of window frame 6, is convenient for adjust the installation elevation of window frame 6 through the installation height of the relative 1 vertical sections of first regulation mounting of second regulation mounting 2.

The pouring height of the pouring layer 4 is not smaller than the height of the second adjusting and fixing piece 2, the first adjusting and fixing piece 1 and the second adjusting and fixing piece 2 are not exposed, the permeation path is prolonged through the pouring layer 4, and the waterproof effect is improved. Preferably, the height of the second adjusting fixing piece 2 is 40mm, for convenience of construction, the top surface elevation of the windowsill 5 can be adjusted downward by 40mm, at the construction error point position of the windowsill 5, the actual top surface elevation and the designed top surface elevation have a height difference and are lower than the top surface elevation of the original windowsill 5 by more than 40mm, and the construction error can be compensated through the installation position of the second adjusting fixing piece 2 on the vertical section of the first adjusting fixing piece 1.

Referring to fig. 3, a water stop strip 51 is arranged in a construction joint between the windowsill 5 and the pouring layer 4, the water stop strip 51 is arranged along the length direction of the windowsill 5, and the water stop strip 51 can be a water-swelling water stop strip made of rubber and other materials in the prior art, so that the water stop strip can swell when water seeps, and the purpose of preventing the construction joint from seeping water is further achieved.

The shutoff system still include the rearmounted piece of burying (not shown in the figure), the rearmounted error point position department of burying installs at windowsill 5, the elevation of error point position department and windowsill 5's the highest elevation error be greater than the height of first regulation mounting 1, the top surface construction error of windowsill 5 surpasss the height of the vertical section of first regulation mounting 1, can compensate the scope of adjusting, can add the rearmounted effect of burying in order to reach compensation construction error, the rearmounted piece of burying can install in the bottom of first regulation mounting 1, avoid windowsill 5's construction error too big and lead to the problem that the construction gap is big.

Preferably, the first adjusting and fixing part 1 can be made of angle steel, the second adjusting and fixing part 2 can be made of square steel pipes, the embedded part 3 can be made of steel plates, and the total length of the embedded part 3, the total length of the angle steel and the total length of the square steel pipes are all equivalent to the installation length of the strip window.

Preferably, the pouring layer 4 is fine aggregate concrete, the fine aggregate concrete is tightly combined with the second adjusting and fixing part 2, the strength of the fine aggregate concrete is higher than that of mortar, and the condition of generating cracks is less. Because the second adjusting and fixing part 2 prolongs the permeation path, even if the pouring layer 4 has a little crack, the path through which the water permeation passes is long, and a good waterproof effect can be achieved.

Adopt the utility model discloses the banding window construction step of shutoff system is:

1. and recalculating the height of the windowsill 5, positioning and paying off, and reducing the elevation of the windowsill 5 by 40mm due to the addition of the second adjusting and fixing piece 2 made of a square steel pipe with the height of 40 mm.

2. Except for the original embedded parts of the strip-shaped window, the embedded parts 3 of the plugging system are installed and reliably fixed along the length direction of the windowsill 5, the positions and elevations of the embedded parts 3 are rechecked, and disturbance and displacement in the concrete pouring process are avoided.

3. Concrete is adopted to pour the windowsill 5, the concrete is closely vibrated when poured, and the upper opening of the windowsill 5 is smoothed and leveled.

4. And (5) measuring the elevation of the windowsill 5 again, and acquiring the construction deviation data of the windowsill structure. The construction negative deviation of each measuring point is calculated on the basis of the highest point of the windowsill 5, because the construction negative deviation needs to be adjusted by leaning against an angle steel (namely, the first adjusting and fixing part 1), if the construction negative deviation of partial areas is too large and exceeds the adjustable range of the angle steel, partial points need to be processed, and error compensation processing can be performed by adjusting the position of the embedded part 3, adding post-embedded parts on two sides of the point position with larger error, or using angle steel with larger size and the like.

5. The horizontal section of the angle steel is welded on the embedded part 3 in a fillet weld mode, the welding needs to be firm, and the weld forming quality is good.

6. And welding or bolting the square steel pipe (namely the second adjusting and fixing part 2) at the bottom of the window frame 6, measuring the elevation of the square steel pipe, and readjusting the part which does not meet the elevation requirement until the installation precision of the strip window is met. The square steel pipe needs to be guaranteed to be horizontal, and the elevation is at the same height. The square steel pipe can be fixed on the vertical section of the angle steel through spot welding, and is adjusted to be horizontal and then fixed through full welding.

7. The upper surface of the windowsill 5 is cleaned and roughened, and plain cement paste is brushed at one time. After the square steel pipe is fixed, the concrete pouring construction of the pouring layer 4 on the windowsill 5 can be carried out, in order to ensure that the concrete poured twice is tightly combined, the upper surface of the windowsill 5 needs to be cleaned and chiseled to remove laitance, and plain cement paste is brushed for one time. In order to ensure that the construction joint constructed twice is not water-permeable, a water-swelling water stop strip 51 can be arranged in the middle of the windowsill.

8. And (5) erecting forms on two sides of the windowsill 5, and pouring the layer 4 by adopting fine stone concrete. When the fine stone concrete is poured, the fine stone concrete needs to be vibrated and compacted, and the concrete is poured to be parallel and level with the upper opening of the square steel tube.

9. And (4) installing the strip window, and after the elevation of each position of the square steel pipe is checked, installing the strip window. And constructing a building surface layer (such as fluorocarbon paint, real stone paint or coating) on the surface of the fine stone concrete.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, therefore, any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (7)

1. A plugging system for an ultralong strip window of a large-area factory building is characterized in that: the device comprises a first adjusting fixing piece (1), a second adjusting fixing piece (2), an embedded part (3) and a pouring layer (4); the embedded part (3) is embedded in the surface of the windowsill (5) along the length direction of the windowsill (5), the cross section of the first adjusting fixing part (1) is of an L-shaped structure, the first adjusting fixing part (1) is arranged along the length direction of the windowsill (5), and the horizontal end of the first adjusting fixing part (1) is fixedly connected with the embedded part (3); the second adjusting fixing piece (2) is fixedly arranged at the bottom of the window frame (6) along the length direction of the window frame (6), and the second adjusting fixing piece (2) is fixedly arranged on the vertical section of the first adjusting fixing piece (1) so that the window frame (6) is arranged above the windowsill (5); the pouring layer (4) is poured between the top surface of the windowsill (5) and the bottom surface of the window frame (6), and the first adjusting fixing piece (1) and the second adjusting fixing piece (2) are poured in the pouring layer (4).

2. The plugging system for the overlong strip window of the large-area factory building as claimed in claim 1, wherein: the section of the second adjusting fixing piece (2) is of a rectangular structure, the width of the rectangular structure is equivalent to the thickness of the window frame (6), and the top surface of the rectangular structure is fixedly attached to the bottom surface of the window frame (6).

3. The plugging system for the overlong strip window of the large-area factory building as claimed in claim 1, wherein: the pouring height of the pouring layer (4) is not less than the height of the second adjusting and fixing piece (2).

4. The plugging system for the ultra-long strip window of a large area factory building according to any one of claims 1 to 3, wherein: the height of the second adjusting fixing piece (2) is 40 mm.

5. The plugging system for the overlong strip window of the large-area factory building as claimed in claim 1, wherein: a water stop strip (51) is arranged in a construction joint of the windowsill (5) and the pouring layer (4), and the water stop strip (51) is arranged along the length direction of the windowsill (5).

6. The plugging system for the overlong strip window of a large-area factory building as claimed in claim 1, 3 or 5, wherein: the pouring layer (4) is fine stone concrete.

7. The plugging system for the overlong strip window of the large-area factory building as claimed in claim 1, wherein: the plugging system further comprises a rear embedded part, the rear embedded part is installed at an error point position of the windowsill (5), and the error between the elevation of the error point position and the highest elevation of the windowsill (5) is larger than the height of the first adjusting fixing part (1).

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