CN219365434U - Steel template sealing structure for pressure-bearing assembled steel structure building - Google Patents

Abstract

The utility model relates to the technical field of assembled steel structure buildings, in particular to a steel template sealing structure for a pressure-bearing assembled steel structure building. The adjacent ends of two adjacent steel templates are respectively provided with a connecting part, and the steel template sealing structure is fixed at the tops of the two adjacent connecting parts; the steel form seal structure includes: a straight metal rubber belt and a steel pressing plate; the steel pressing plates are respectively arranged at the edges of the two sides of the straight metal rubber belt, so that the straight metal rubber belt is extruded and fixed at the top of the connecting part. Through the combination setting of metal rubber area and steel clamp plate, promoted the leakproofness effect between two adjacent steel templates, simultaneously, reduced the installation requirement of the machining precision of pressure-bearing building major structure and sealed node to reduce the cost of pressure-bearing building. The line production of the main body structure, the steel templates and the sealing nodes of the pressure-bearing building can be realized, the construction progress is quickened, and the later maintenance is convenient.

Description

Steel template sealing structure for pressure-bearing assembled steel structure building

Technical Field

The utility model relates to the technical field of assembled steel structure buildings, in particular to a steel template sealing structure for a pressure-bearing assembled steel structure building.

Background

The existing fabricated steel structure building is a conventional building, no pressure difference exists between the indoor and the outdoor, and the sealing performance of the building has no special requirement. The partial bearing steel structure building is a main body structure and the steel template participate in sealing together. The pressurizing and oxygenation cabin in the market is of an all-welded structure, and the product is small in size and cannot realize the basic functions of the building.

The pressure-bearing assembled steel structure building is provided with the pressure-bearing steel template to achieve the sealing effect, adopts the mode that the steel structure main body node is sealed and the steel template extrudes the sealing strip to participate in sealing together, has high processing and mounting requirements on the steel template, has high processing and mounting precision requirements on the main body structure, has difficult realization of the sealing effect and is not beneficial to later maintenance, and a more economical sealing mode is needed to facilitate the mounting and the maintenance.

Disclosure of Invention

First, the technical problem to be solved

In view of the above-mentioned shortcomings and disadvantages of the prior art, the utility model provides a steel form sealing structure for a pressure-bearing assembled steel structure building, which solves the technical problems that the sealing form of the steel form adopted by the existing pressure-bearing steel structure building is difficult to meet the sealing requirement and the later maintenance is difficult.

(II) technical scheme

In order to achieve the above purpose, the main technical scheme adopted by the utility model comprises the following steps:

the steel template sealing structure is used for a pressure-bearing assembled steel structure building, the adjacent end parts of two adjacent steel templates are respectively provided with a connecting part, and the steel template sealing structure is fixed at the top parts of the two adjacent connecting parts; the steel form seal structure includes: a straight metal rubber belt and a steel pressing plate;

the steel pressing plates are respectively arranged at the edges of the two sides of the straight metal rubber belt, so that the straight metal rubber belt is extruded and fixed at the top of the connecting part.

On four steel forms in matrix arrangement, steel form seal structure still includes:

a cross-shaped metal rubber belt is arranged at the cross-shaped juncture of the four steel templates, the cross-shaped metal rubber belt is provided with four connecting ends, two side edges of the metal rubber belt in the first direction in the cross-shaped metal rubber belt are provided with continuous steel plates for fixing the metal rubber belt on the connecting part, and two side edges of the metal rubber belt in the second direction, which are positioned at two sides of the continuous steel plates, are respectively provided with a steel plate for fixing the metal rubber belt on the connecting part;

the straight metal rubber belt between every two adjacent steel templates is in butt joint with one connecting end of the cross metal rubber belt.

The top and the bottom of the butt joint part of the straight metal rubber belt and the cross metal rubber belt are respectively provided with a top steel plate and a bottom steel plate;

in the area of the straight metal rubber belt, the straight metal rubber belt and the bottom steel plate are fixedly connected by sequentially penetrating through the top steel plate and the straight metal rubber belt through bolts;

in the region of the cross metal rubber belt, bolts sequentially penetrate through the top steel plate, the cross metal rubber belt and the bottom steel plate to be fixedly connected.

The ends of the straight metal rubber belt and the cross metal rubber belt are respectively provided with convex-concave structures with matched shapes, so that the butt joint of the straight metal rubber belt and the cross metal rubber belt forms labyrinth seal.

If two adjacent steel templates are positioned on the same plane, the section of the metal rubber belt connecting the two adjacent steel templates is in a straight line shape;

if two adjacent steel templates are vertical, the section of the metal rubber belt connecting the two adjacent steel templates is L-shaped.

On the three mutually perpendicular steel templates, the cross section of the straight metal rubber belt is L-shaped; the steel form sealing structure further comprises:

the three-way metal rubber belts are arranged at the junctions of the three steel templates, the cross sections of the three-way metal rubber belts are L-shaped, the three-way metal rubber belts are provided with three connecting ends, and the steel plates are arranged at the edges of the two sides of each metal rubber belt of the three-way metal rubber belts to fix the metal rubber belt on the connecting parts;

the straight metal rubber belt between every two adjacent steel templates is in butt joint with one connecting end of the three-way metal rubber belt.

The top and the bottom of the butt joint part of the straight metal rubber belt and the three-way metal rubber belt are respectively provided with a top angle steel and a bottom angle steel,

in the area of the straight metal rubber belt, the top angle steel, the straight metal rubber belt and the bottom angle steel are fixedly connected through bolts sequentially;

in the region of tee bend metal rubber area, pass in proper order through the bolt top angle steel tee bend metal rubber area with bottom angle steel fixed connection.

The straight metal rubber belt is aligned with the bending center line of the three-way metal rubber belt.

The ends of the straight metal rubber belt and the three-way metal rubber belt are respectively provided with convex-concave structures with matched shapes, so that the butt joint of the straight metal rubber belt and the three-way metal rubber belt forms labyrinth seal.

The steel pressing plate fixes the metal rubber belt on the connecting part through bolts.

(III) beneficial effects

The beneficial effects of the utility model are as follows: the utility model provides a steel template sealing structure for a pressure-bearing assembled steel structure building, which improves the sealing effect between two adjacent steel templates through the combination of a metal rubber belt and a steel template, and simultaneously reduces the processing precision of a main structure of the pressure-bearing building and the installation requirement of sealing nodes, thereby reducing the manufacturing cost of the pressure-bearing building. The line production of the main body structure, the steel templates and the sealing nodes of the pressure-bearing building can be realized, the construction progress is quickened, and the later maintenance is convenient.

Drawings

FIG. 1 is a schematic perspective view of a steel form seal structure of the present utility model (example 1) disposed at the cross-shaped junctions of four steel forms;

FIG. 2 is a schematic cross-sectional view at A-A in FIG. 1;

FIG. 3 is a schematic cross-sectional view at B-B in FIG. 1;

FIG. 4 is a schematic cross-sectional view at C-C in FIG. 1;

FIG. 5 is a schematic perspective view of a steel form seal structure of the present utility model (example 2) disposed at the junction of three steel forms;

FIG. 6 is a schematic cross-sectional view at D-D in FIG. 5;

fig. 7 is a schematic perspective view of a steel form seal structure of the present utility model (example 3) disposed at the cross-shaped junctions of four steel forms.

[ reference numerals description ]

1: a steel template;

2: a straight metal rubber belt;

3: a cross metal rubber belt;

4: a three-way metal rubber belt;

5: a steel pressing plate;

6: a top steel plate;

7: a bottom steel plate;

8: top angle steel;

9: angle steel at the bottom;

10: a connection part;

11: i-steel.

Detailed Description

The utility model will be better explained by the following detailed description of the embodiments with reference to the drawings.

In order that the above-described aspects may be better understood, exemplary embodiments of the present utility model will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present utility model are shown in the drawings, it should be understood that the present utility model may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the utility model to those skilled in the art.

The utility model provides a steel template sealing structure which is applied to a pressure-bearing assembled steel structure building, and after the main structure of the building and a steel template 1 are installed, the installation of the steel template sealing structure is started. The steel form sealing structure is located between two adjacent steel forms 1, the adjacent ends of two adjacent steel forms 1 are all provided with connecting portions 10, the bottoms of the adjacent connecting portions 10 are fixedly connected through I-steel 11 and bolts, and the steel form sealing structure is fixed at the tops of the two adjacent connecting portions 10. The steel form seal structure includes: a straight metal rubber belt 2 and a steel pressing plate 5. Steel pressing plates 5 are respectively arranged at the two side edges of the straight metal rubber belt 2 and are fixed through bolts so as to extrude and fix the straight metal rubber belt 2 at the top of the connecting part 10.

Example 1:

referring to fig. 1 to 4, on four steel forms 1 arranged in a matrix, it is necessary to consider both the sealing of the cross-shaped junctions of the four steel forms 1 and the sealing of two adjacent steel forms 1.

The cross-shaped juncture of the four steel templates 1 is provided with a cross-shaped metal rubber belt 3, and the cross-shaped metal rubber belt 3 is cross-shaped. The cross metal rubber band 3 has four connecting ends, and continuous steel pressing plates 5 are arranged at the two side edges of the metal rubber band in the first direction in the cross metal rubber band 3 to fix the metal rubber band on the connecting parts, and steel pressing plates 5 are respectively arranged at the two side edges of the parts of the metal rubber band in the second direction, which are positioned at the two sides of the continuous steel pressing plates 5, to fix the metal rubber band on the connecting parts 10.

The straight metal rubber belt 2 is arranged between every two adjacent steel templates 1 and is in butt joint with one connecting end of the cross metal rubber belt 3. The top and the bottom of the butt joint of the straight metal rubber belt 2 and the cross metal rubber belt 3 are respectively provided with a top steel plate 6 and a bottom steel plate 7. In the area of the straight metal rubber belt 2, bolts sequentially penetrate through the top steel plate 6, the straight metal rubber belt 2 and the bottom steel plate 7 to be fixedly connected. In the area of the cross metal rubber belt 3, the cross metal rubber belt 3 and the bottom steel plate 7 are fixedly connected through bolts sequentially penetrating through the top steel plate 6.

The two side edges of the top steel plate 6 respectively pass through the top steel plate 6, the straight metal rubber belt 2 and the connecting part 10 in sequence through bolts for extrusion and fixed connection.

Through the extrusion of top steel sheet 6 and bottom steel sheet 7 to the metal rubber area of a word 2, make the butt joint department of metal rubber area of a word 2 and cross metal rubber area 3 have better sealed effect, promote steel form seal structure's leakproofness. Meanwhile, on the premise of meeting the flatness requirement, the construction precision is required to be low, and the construction of installers is facilitated.

The ends of the straight metal rubber belt 2 and the cross metal rubber belt 3 are respectively provided with convex-concave structures with matched shapes, so that the butt joint of the straight metal rubber belt 2 and the cross metal rubber belt 3 forms labyrinth seal to improve the flatness of the butt joint.

If two adjacent steel templates 1 are positioned on the same plane, the section of the metal rubber belt connecting the two adjacent steel templates 1 is in a straight line shape. If two adjacent steel templates 1 are vertical, the section of the metal rubber belt connecting the two adjacent steel templates 1 is L-shaped.

Example 2:

referring to fig. 5-6, on three steel templates 1 perpendicular to each other, the cross section of a straight metal rubber strip 2 is L-shaped, a three-way metal rubber strip 4 is arranged at the junction of the three steel templates 1, the cross section of the three-way metal rubber strip 4 is L-shaped, the three-way metal rubber strip 4 is provided with three connecting ends, and steel pressing plates 5 are arranged at the two side edges of each metal rubber strip of the three-way metal rubber strip 4 to fix the metal rubber strips on the connecting parts so as to enhance the tightness between the steel templates 1.

The straight metal rubber belt 2 between every two adjacent steel templates 1 is in butt joint with one connecting end of the three-way metal rubber belt 4. The top and the bottom of the butt joint of the straight metal rubber belt 2 and the three-way metal rubber belt 4 are respectively provided with a top angle steel 8 and a bottom angle steel 9. In the area of the straight metal rubber belt 2, bolts sequentially penetrate through the top angle steel 8, the straight metal rubber belt 2 and the bottom angle steel 9 to be fixedly connected. In the region of the tee metal rubber belt 4, bolts sequentially penetrate through the top angle steel 8, the tee metal rubber belt 4 and the bottom angle steel 9 for fixed connection.

The two side edges of the top angle steel 8 respectively pass through the top angle steel 8, the straight metal rubber belt 2 and the connecting part 10 in sequence through bolts for extrusion and fixed connection.

The bending center lines of the straight metal rubber belt 2 and the three-way metal rubber belt 4 are aligned so as to improve structural flatness.

The ends of the straight metal rubber belt 2 and the three-way metal rubber belt 4 are respectively provided with convex-concave structures with matched shapes, so that the butt joint of the straight metal rubber belt 2 and the three-way metal rubber belt 4 forms labyrinth seal, and the flatness of the butt joint is improved.

Through the combination setting of top angle steel 8, straight line metal rubber area 2 and bottom angle steel 9, extrude straight line metal rubber area 2 and tee bend metal rubber area 4, make straight line metal rubber area 2 and tee bend metal rubber area 4's butt joint department leakproofness better. Meanwhile, the shape of the junction of the butt joint and the steel template 1 is more matched, the construction precision requirement is low on the premise of meeting the flatness requirement, and the construction of an installer is facilitated.

Example 3:

referring to fig. 7, if four steel templates 1 are junctions between the wall surface and the floor surface, that is, two steel templates 1 located on the same plane are perpendicular to two steel plates located on the other plane, the sealing of the junctions of the four steel templates 1 and the sealing of the L-shaped cross section should be considered at the same time.

The cross metal rubber belt 3 is arranged at the juncture of the four steel templates 1, and the four connecting ends of the cross metal rubber belt 3 are respectively butted with the straight metal rubber belt 2.

Continuous steel pressure plates 5 are arranged at two side edges of the metal rubber strip in the first direction in the cross-shaped metal rubber strip 3 to fix the metal rubber strip on the connecting part, and steel pressure plates 5 are respectively arranged at two side edges of the parts, located at two sides of the continuous steel pressure plates 5, of the metal rubber strip in the second direction to fix the metal rubber strip on the connecting part.

Since the adjacent two steel templates 1 are perpendicular, the cross section of the metal rubber strip in the first direction in the cross metal rubber strip 3 is L-shaped. The top and the bottom of the butt joint of the metal rubber strip in the first direction and the straight metal rubber strip 2 are respectively provided with a top angle steel 8 and a bottom angle steel 9. In the area of the straight metal rubber belt 2, bolts sequentially penetrate through the top angle steel 8, the straight metal rubber belt 2 and the bottom angle steel 9 to be fixedly connected. In the region of the cross metal rubber belt 3, bolts sequentially penetrate through the top angle steel 8, the cross metal rubber belt 3 and the bottom angle steel 9 to be fixedly connected.

The two side edges of the top angle steel 8 respectively pass through the top angle steel 8, the straight metal rubber belt 2 and the connecting part 10 in sequence through bolts for extrusion and fixed connection.

The cross section of the straight metal rubber belt 2 between two adjacent steel templates 1 on the same plane is straight, the straight metal rubber belt 2 is in butt joint with the metal rubber belt strips in the second direction in the cross metal rubber belt 3, and the top and the bottom of the butt joint are respectively provided with a top steel plate 6 and a bottom steel plate 7. In the area of the straight metal rubber belt 2, bolts sequentially penetrate through the top steel plate 6, the straight metal rubber belt 2 and the bottom steel plate 7 to be fixedly connected. In the area of the cross metal rubber belt 3, the cross metal rubber belt 3 and the bottom steel plate 7 are fixedly connected through bolts sequentially penetrating through the top steel plate 6.

The two side edges of the top steel plate 6 respectively pass through the top steel plate 6, the straight metal rubber belt 2 and the connecting part 10 in sequence through bolts for extrusion and fixed connection.

The steel pressure plate 5 fixes the metal rubber tape on the connecting portion 10 by bolts, wherein the metal rubber tape includes: a straight metal rubber belt 2, a cross metal rubber belt 3 and a three-way metal rubber belt 4.

Preferably, the steel wire mesh is embedded in the rubber of the metal rubber belt, so that the metal rubber belt has higher strength, and the sealing performance of the metal rubber belt on the junction of the steel template 1 is improved.

Optionally, the thickness of the metal rubber belt, the size, specification and layer number of the steel wire mesh are selected according to the calculation of the pressure-bearing building or the test and test.

The steel form sealing structure is applied to a pressure-bearing assembled steel structure building, the sealing mode of the embodiment 1 is applied to a floor area, the sealing mode of the embodiment 3 is applied to a crossing area of a wall surface and a floor, and the sealing mode of the embodiment 2 is applied to a corner area, so that reliable sealing between the steel forms of the pressure-bearing building can be realized, and the requirement of being convenient to install and maintain is met.

The utility model provides a steel template sealing structure for a pressure-bearing assembled steel structure building, which provides two new sealing modes, and improves the sealing effect between two adjacent steel templates 1 through the combination arrangement of a metal rubber belt and a steel pressing plate 5.

Through the combination setting of top steel sheet 6 and bottom steel sheet 7, to the extrusion of metal rubber tape, make straight metal rubber tape 2 and the butt joint department of cross metal rubber tape 3 have better sealed effect, promote steel form seal structure's leakproofness.

Through the combination setting of top angle steel 8 and bottom angle steel 9, to the extrusion of metal rubber tape, make straight metal rubber tape 2 and the butt joint department of tee bend metal rubber tape 4 have better sealed effect. Meanwhile, the shape of the junction of the butt joint and the steel template 1 is more matched, the construction precision requirement is low on the premise of meeting the flatness requirement, and the construction of an installer is facilitated.

Meanwhile, by the arrangement mode of the structure, the processing precision of the main structure of the pressure-bearing building and the installation requirement of the sealing node are reduced, so that the manufacturing cost of the pressure-bearing building is reduced.

The utility model also provides a sealing method for the steel template sealing structure, which comprises the following steps:

s1: and after the installation of the building main body structure and the steel template is completed, the installation of the metal rubber sealing belt is started.

S2: and installing metal rubber belts between the steel templates 1.

S3: after the metal rubber belt is installed, a steel pressing plate 5 is installed, and the installation bolts are screwed.

By the sealing method for the steel template sealing structure, line production of the steel template sealing structure can be realized, construction progress is quickened, and later maintenance is facilitated.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium; may be a communication between two elements or an interaction between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that alterations, modifications, substitutions and variations may be made in the above embodiments by those skilled in the art within the scope of the utility model.

Claims (10)

1. The steel template sealing structure for the pressure-bearing assembled steel structure building is characterized in that connecting parts (10) are arranged at adjacent ends of two adjacent steel templates (1), and the steel template sealing structure is fixed at the tops of the two adjacent connecting parts (10); the steel form seal structure includes: a straight metal rubber belt (2) and a steel pressing plate (5);

the steel pressing plates (5) are respectively arranged at the two side edges of the straight metal rubber belt (2) so as to extrude and fix the straight metal rubber belt (2) at the top of the connecting part (10).

2. Steel form seal for press-fit steel construction according to claim 1, characterized in that on four steel forms (1) arranged in a matrix, the steel form seal further comprises:

a cross-shaped metal rubber belt (3) is arranged at the cross-shaped juncture of the four steel templates (1), the cross-shaped metal rubber belt (3) is provided with four connecting ends, two side edges of the metal rubber belt in the first direction in the cross-shaped metal rubber belt (3) are provided with continuous steel templates (5) for fixing the metal rubber belt on the connecting part, and two side edges of the part, located at two sides of the continuous steel templates (5), of the metal rubber belt in the second direction are respectively provided with a steel template (5) for fixing the metal rubber belt on the connecting part (10);

the straight metal rubber belt (2) between every two adjacent steel templates (1) is in butt joint with one connecting end of the cross metal rubber belt (3).

3. The steel template sealing structure for the pressure-bearing assembled steel structure building according to claim 2, wherein the top and the bottom of the butt joint of the straight metal rubber belt (2) and the cross metal rubber belt (3) are respectively provided with a top steel plate (6) and a bottom steel plate (7);

in the area of the straight metal rubber belt (2), the straight metal rubber belt (2) and the bottom steel plate (7) are fixedly connected by sequentially penetrating through the top steel plate (6) through bolts;

in the region of cross metal rubber belt (3), pass through in proper order through bolt top steel sheet (6), cross metal rubber belt (3) with bottom steel sheet (7) fixed connection.

4. A steel form sealing structure for a pressure-bearing assembled steel structure building according to claim 3, wherein the ends of the straight metal rubber belt (2) and the cross metal rubber belt (3) are respectively provided with convex-concave structures with matched shapes, so that the butt joint of the straight metal rubber belt (2) and the cross metal rubber belt (3) forms labyrinth seal.

5. The steel form seal structure for press-fit steel structure building according to any one of claim 1 to 4, wherein,

if two adjacent steel templates (1) are positioned on the same plane, the section of the metal rubber belt connecting the two adjacent steel templates (1) is in a straight line shape;

if two adjacent steel templates (1) are vertical, the section of the metal rubber belt connecting the two adjacent steel templates (1) is L-shaped.

6. Steel form sealing structure for pressure-assembled steel structure buildings according to claim 1, characterized in that on three steel forms (1) perpendicular to each other, the section of the metal-rubber ribbon (2) in a straight line is L-shaped; the steel form sealing structure further comprises:

three-way metal rubber belts (4) are arranged at the junctions of the three steel templates (1), the cross sections of the three-way metal rubber belts (4) are L-shaped, the three-way metal rubber belts (4) are provided with three connecting ends, and the steel pressing plates (5) are arranged at the edges of the two sides of each metal rubber belt of the three-way metal rubber belts (4) to fix the metal rubber belt on the connecting parts;

the straight metal rubber belt (2) between every two adjacent steel templates (1) is in butt joint with one connecting end of the three-way metal rubber belt (4).

7. The steel template sealing structure for the pressure-bearing assembled steel structure building according to claim 6, wherein the top and the bottom of the butt joint of the straight metal rubber belt (2) and the three-way metal rubber belt (4) are respectively provided with a top angle steel (8) and a bottom angle steel (9),

in the area of the straight metal rubber belt (2), the top angle steel (8), the straight metal rubber belt (2) and the bottom angle steel (9) are fixedly connected through bolts in sequence;

in the region of tee bend metal rubber area (4), pass in proper order through the bolt top angle steel (8) tee bend metal rubber area (4) with bottom angle steel (9) fixed connection.

8. The steel form sealing structure for press-fit steel structure building according to claim 6, wherein the bending center lines of the straight metal rubber belt (2) and the three-way metal rubber belt (4) are aligned.

9. The steel template sealing structure for the pressure-bearing assembled steel structure building according to claim 6, wherein the ends of the straight metal rubber belt (2) and the three-way metal rubber belt (4) are respectively provided with convex-concave structures with matched shapes, so that the butt joint of the straight metal rubber belt (2) and the three-way metal rubber belt (4) forms labyrinth sealing.

10. Steel form sealing structure for pressure-assembled steel structure buildings according to any of claims 1-4, 6-9, characterized in that the steel press plate (5) fixes a metal rubber band on the connection part (10) by means of bolts.