CN214500302U - Solve wall fluting structure of pipeline collision - Google Patents

Abstract

The utility model discloses a wall slotting structure for solving pipeline collision, which relates to the technical field of building engineering, and comprises an upper wall, a steel reinforcement framework of the upper wall, a lower wall, a steel reinforcement framework of the lower wall and a group of equipment pipelines, wherein the equipment pipelines are arranged along the upper wall and pass through an upper wall floor to the lower wall, a groove for the equipment pipelines to pass through is reserved at the collision intersection of the top of the lower wall and the equipment pipelines, four corners of the groove are respectively provided with a first reinforcing steel bar, a construction steel bar is arranged at the position corresponding to the groove inside the lower wall, the construction steel bar comprises a horizontal section and two inclined sections, a first transverse steel bar is arranged at the matching position with four corners of the groove inside the lower wall, the first transverse steel bar is designed into a bending shape, a second reinforcing steel bar is arranged at the corner inside the first transverse steel bar, a second transverse steel bar is arranged at the intersection of the lower wall and the groove, the technical proposal of the utility model is adopted, the space for proper vertical deflection of the equipment pipeline is provided, and the out-of-plane rigidity of the lower shear wall is ensured.

Description

Solve wall fluting structure of pipeline collision

Technical Field

The utility model relates to a building engineering technical field, concretely relates to solve wall fluting structure of pipeline collision.

Background

With the development of economy and society, the number of high-rise buildings is increasing, and the high-rise buildings gradually become the development trend of modern buildings. The shear wall structure has the advantages of high rigidity, good integrity, less steel consumption, capability of effectively reducing lateral movement, better anti-seismic performance, no exposure of edges and corners of columns and beams in a room relative to a frame structure, space saving, good use function, practicability and attractiveness, and wide popularity of developers and owners.

The standard layer height of the upper part of a common high-rise residence is smaller, the thickness of the shear wall is generally smaller and is generally 200-240mm due to the use requirement of building functions, the bottom layer of the building is generally set to be an overhead layer or a shop, the layer height is larger, and the wall thickness needs to be increased on the bottom layer in order to ensure the rigidity and the stability outside the plane of the shear wall.

In the house, bathroom water piping shaft and balcony downspout are usually pasted the shear force wall setting to save space, pass the floor when this type of equipment pipeline, when running into the shear force wall thickening down when passing, generally need change the pipeline, but change the pipeline and make the pipe connection complicated, unsatisfied owner's demand, also do not satisfy the outward appearance design requirement of building simultaneously.

SUMMERY OF THE UTILITY MODEL

In view of the problem that prior art exists, the utility model aims to provide a solve wall fluting structure of pipeline collision has given the space and the feasibility of the suitable vertical skew of equipment pipeline through the shear force wall fluting on the one hand, and on the other hand is strengthened through fluting department shear force wall arrangement of reinforcement and structure, has guaranteed the outer rigidity in plane and the overall stability of shear force wall.

The wall slotting structure for solving the pipeline collision is characterized by comprising an upper wall, a steel reinforcement framework of the upper wall, a lower wall, a steel reinforcement framework of the lower wall and a group of equipment pipelines, wherein the equipment pipelines are arranged by being attached to the upper wall and penetrate through an upper wall floor slab to the lower wall, a groove for the equipment pipelines to penetrate through is reserved at the collision intersection of the top of the lower wall and the equipment pipelines, so that the equipment pipelines can pass through, first reinforcing steel bars are arranged at four corners of the groove, construction steel bars are arranged at the positions, corresponding to the grooves, on the inner side of the lower wall and used for reinforcing the rigidity of one side of the lower wall where the construction steel bars are arranged, each construction steel bar comprises a horizontal section and two inclined sections, first transverse steel bars are arranged at the matching positions of the four corners of the groove in the lower wall, the first transverse steel bars are bent, and second reinforcing steel bars are arranged at the corners of the inner side of the first transverse steel bars, the intersection of lower part wall and recess is equipped with the horizontal reinforcing bar of second, first reinforcing bar and first horizontal reinforcing bar and the horizontal reinforcing bar fixed connection of second, the horizontal reinforcing bar and the structure reinforcing bar fixed connection of first horizontal reinforcing bar and the horizontal reinforcing bar of second, lower part wall framework of steel reinforcement.

The wall slotting structure for solving the pipeline collision is characterized in that a third transverse reinforcing steel bar which is vertically and fixedly connected with the first reinforcing steel bar is arranged in the lower wall, and a fourth transverse reinforcing steel bar which is vertically and fixedly connected with the second reinforcing steel bar is arranged in the lower wall.

A solve wall fluting structure of pipeline collision, its characterized in that first reinforcing bar and first transverse reinforcement intersection are equipped with the additional reinforcing bar that prevents the recess fracture, first reinforcing bar and third transverse reinforcement intersection are equipped with the additional reinforcing bar that prevents the recess fracture.

The wall slotting structure for solving the pipeline collision is characterized in that the second transverse steel bars are fixedly connected with the transverse steel bars and the constructional steel bars of the lower wall steel bar framework through stirrups.

The wall slotting structure for solving the pipeline collision is characterized in that the distance between the transverse steel bars of the lower wall steel bar framework and the horizontal section of the construction steel bars is equal to the depth of the groove.

The wall slotting structure for solving the pipeline collision is characterized in that the thickness of the upper wall is smaller than that of the lower wall.

The wall slotting structure for solving the pipeline collision is characterized in that the depth of the groove is the thickness difference between the upper wall and the lower wall, the height of the groove is 795-802mm, and the width of the groove is designed according to the arrangement of the equipment pipelines.

Compared with the prior art, the beneficial effects of the utility model are that:

1) by adopting the technical scheme of the utility model, on one hand, the top of the lower wall is provided with a groove, so that the space and feasibility of proper vertical offset of the equipment pipeline are provided; on the other hand, the out-of-plane rigidity and stability of the lower shear wall are ensured by reinforcing the shear wall at the groove and strengthening the structure, thereby not only meeting the requirements of owners, but also meeting the requirements of building appearance;

2) the utility model has the characteristics of simple structure and construction are convenient.

Drawings

FIG. 1 is a schematic diagram of a right-view structure of a groove in the present invention;

FIG. 2 is a schematic cross-sectional view taken along the line a-a in FIG. 1;

fig. 3 is a schematic cross-sectional view taken along the plane b-b in fig. 1.

In the figure: 1-upper wall; 2-lower wall; 3-a plant line; 4-a groove; 5-a first reinforcing bar; 6-constructing a steel bar; 7-a first transverse reinforcement; 8-second reinforcing steel bars; 9-a second transverse reinforcement; 10-transverse steel bars of the steel bar framework of the lower wall; 11-a third transverse reinforcement; 12-a fourth transverse bar; 13-additional steel bars; 14-a stirrup; 15-longitudinal bars in the framework of reinforcement of the upper wall.

Detailed Description

As shown in figures 1-3, a wall slotting structure for solving pipeline collision comprises an upper wall 1, a steel reinforcement framework of the upper wall, a lower wall 2, a steel reinforcement framework of the lower wall and a group of equipment pipelines, the thickness of the middle and lower walls 2 of the utility model is larger than that of the upper wall 1, the equipment pipelines 3 are arranged along the upper wall 1 and pass through the upper wall floor to the lower wall 2, the number of the equipment pipelines 3 in the embodiment is 2, a groove 4 for the equipment pipelines 3 to pass through is reserved at the collision intersection of the top of the lower wall 2 and the equipment pipelines 3, so that the equipment pipelines 3 can pass through, compared with the traditional mode that pipelines need to be increased, the utility model has the characteristics of simple structure and convenient construction, the depth of the groove 4 of the utility model is the thickness difference of the upper wall 1 and the lower wall 2, the height of the groove 4 is 795 and 802mm, if the equipment has other requirements, according to equipment specialty value, the width of recess is according to the design of arranging of equipment pipeline 3, and the height optimization of recess 4 is 800mm in this embodiment, and wherein the setting up of recess 4 satisfies the outward appearance requirement of building and owner's operation requirement.

The utility model discloses a solve wall fluting structure of pipeline collision, 2 inboard in the recess 4 corresponding positions of lower part wall are equipped with construction reinforcing bar 6, are used for the reinforcement the rigidity of 2 one sides of construction reinforcing bar 6 place lower part wall, construction reinforcing bar 6 include a horizontal segment and two slope sections, and lower part wall 2 has strengthened the rigidity of 2 this sides of lower part wall through setting up construction reinforcing bar 6.

The utility model discloses a solve wall fluting structure of pipeline collision, four angles of recess 4 all are equipped with first strengthening steel bar 5, are equipped with first transverse reinforcement 7 with the cooperation department at four angles of recess in the lower part wall 2, and first transverse reinforcement 7 designs for the form of buckling, and the 7 inboard corners of first transverse reinforcement is equipped with second strengthening steel bar 8, and first strengthening steel bar 5 and second strengthening steel bar 8 are longitudinal reinforcement, and its diameter is 20 mm.

The utility model discloses a solve wall fluting structure of pipeline collision, the intersection of lower part wall 2 and recess 4 is equipped with the horizontal reinforcing bar 9 of second, and the horizontal reinforcing bar 9 of second need not stretch into both sides around to lower part wall 2 completely.

The utility model discloses a solve wall fluting structure of pipeline collision is equipped with the third transverse reinforcement 11 with the perpendicular fixed connection of first reinforcing bar 5 in the lower part wall 2, be equipped with the fourth transverse reinforcement 12 with the perpendicular fixed connection of second reinforcing bar 8 in the lower part wall 2, first reinforcing bar 5 is equipped with the additional reinforcement 13 that prevents the recess fracture with first transverse reinforcement 7 intersection, and first reinforcing bar 5 is equipped with additional reinforcement 13 with the 11 intersections of third transverse reinforcement, the utility model discloses the additional reinforcement 13 that sets up, mainly used prevents recess 4's fracture.

The utility model discloses a solve wall fluting structure of pipeline collision, including stirrup 14, the horizontal reinforcing bar of second 9 and lower part wall steel reinforcement framework's horizontal reinforcing bar 10 and constructional reinforcement 6 pass through 14 fixed connection of stirrup.

The utility model discloses a solve wall fluting structure of pipeline collision, the distance between the horizontal segment of lower part wall steel reinforcement skeleton's horizontal reinforcement 10 to constructional reinforcement 6 equals with recess 4's degree of depth, and longitudinal reinforcement 15 among the steel reinforcement skeleton of upper portion wall stretches into in the lower part wall 2.

The utility model discloses a solve wall fluting structure of pipeline collision, first reinforcing bar 5 and first transverse reinforcement 7 and the 9 fixed connection of the transverse reinforcement of second, first transverse reinforcement 7 and the transverse reinforcement 10 and the 6 fixed connection of constructional reinforcement of the transverse reinforcement 9 of second, lower part wall steel reinforcement skeleton, the utility model discloses through welding or ligature fixed connection between the well reinforcing bar.

Claims (7)

1. A wall slotting structure for solving pipeline collision is characterized by comprising an upper wall (1), a steel reinforcement framework of the upper wall, a lower wall (2), a steel reinforcement framework of the lower wall and a group of equipment pipelines, wherein the equipment pipelines (3) are arranged along the upper wall (1) and penetrate through an upper wall floor to the lower wall (2), grooves (4) for the equipment pipelines (3) to penetrate through are reserved at collision intersection positions of the top of the lower wall (2) and the equipment pipelines (3), so that the equipment pipelines (3) can pass through, first reinforcing steel bars (5) are arranged at four corners of each groove (4), construction steel bars (6) are arranged at positions corresponding to the grooves (4) on the inner side of the lower wall (2) and used for reinforcing the rigidity of one side of the lower wall (2) where the construction steel bars (6) are located, each construction steel bar (6) comprises a horizontal section and two inclined sections, be equipped with first transverse reinforcement (7) with the cooperation department at four angles of recess in lower part wall (2), first transverse reinforcement (7) design is the form of buckling, the inboard corner of first transverse reinforcement (7) is equipped with second reinforcing bar (8), lower part wall (2) are equipped with second transverse reinforcement (9) with the intersection of recess (4), first reinforcing bar (5) and first transverse reinforcement (7) and second transverse reinforcement (9) fixed connection, first transverse reinforcement (7) and second transverse reinforcement (9), lower part wall steel reinforcement framework's transverse reinforcement (10) and construction reinforcing bar (6) fixed connection.

2. A wall grooving structure for solving pipeline impact as claimed in claim 1, wherein the lower wall (2) is provided with a third transverse reinforcement (11) vertically and fixedly connected to the first reinforcement (5), and the lower wall (2) is provided with a fourth transverse reinforcement (12) vertically and fixedly connected to the second reinforcement (8).

3. A wall grooving structure for solving pipeline impact as claimed in claim 2, wherein the first reinforcing steel bar (5) and the first transverse steel bar (7) are provided with additional steel bars (13) for preventing groove cracking at their junctions, and the first reinforcing steel bar (5) and the third transverse steel bar (11) are provided with additional steel bars (13) for preventing groove cracking at their junctions.

4. A wall slotting structure for solving the problem of pipeline collision as defined in claim 1, wherein the second transverse reinforcement (9) is fixedly connected with the transverse reinforcement (10) and the construction reinforcement (6) of the lower wall steel framework by stirrups (14).

5. A wall slotting structure for solving pipeline impact as defined in claim 1, wherein the distance between the transverse bars (10) of the lower wall steel reinforcement cage and the horizontal section of the construction bars (6) is equal to the depth of the groove (4).

6. A wall grooving construction to solve pipeline collisions as claimed in claim 1, wherein the thickness of the upper wall (1) is less than the thickness of the lower wall (2).

7. The wall grooving structure for solving the pipeline collision as claimed in claim 1, wherein the depth of the groove (4) is the thickness difference between the upper wall (1) and the lower wall (2), the height of the groove (4) is 795 and 802mm, and the width of the groove (4) is designed according to the arrangement of the equipment pipeline (3).

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