KR20130028335A - Y-typed plan building for apartment house units with cross ventilation - Google Patents

Abstract

PURPOSE: A building with a Y-shaped plane capable of including a cross ventilation structure for each household unit is provided to realize a plane which is structurally advantageous, a plane which stably resists a horizontal load, and a plane which is advantageous to ventilation. CONSTITUTION: A building with a Y-shaped plane capable of including a cross ventilation structure for each household unit comprises a core frame, a pillar, and a slab. The core frame is designed so that the shear walls facing each other spread towards in three directions as a Y shape. The pillar surrounds the periphery of the core frame and is separately located to a front side of the core frame. The core frame is separately designed in order to include the cross ventilation structure, and a household partition wall(30) is located in between the core frames. The core frame of the center is comprised of a spine wall of a triangle, and the wall stably resists the horizontal load.

Description

Y-typed Plan Building for Apartment House Units with Cross Ventilation}

The present invention relates to a flat design of a flat-shaped building, and more particularly, to a flat-planned flat-shaped building that realizes a perforated structure for almost all unit households in a plane in which three or more units are arranged on a floor. .

Recently, many high-rise residential apartments have been built, and the high-rise residential apartments are mainly designed as tower cores. This is because it is a good form to fill a large number of households (units) per unit area, which enables efficient use of land.

Tower type multi-purpose apartments are designed in various forms such as T type, 十 type, Ｙ type, □ type, W type, and U type, among which T type, Ｙ type and 十 type are most designed. Since the tower-type multi-purpose apartment is composed of several plate-type copper pillars connected to one, it is possible to make arrangements between the main pillars, which is advantageous in securing the distance between the main pillars, securing daylight, and viewing.

However, the tower-type multi-purpose apartment has a disadvantage in terms of mining and ventilation for each unit generation because the design mainly consists of designing the tower-type central core with redundancy and arranging unit generations with both redundancies. 1 is a plan view of a conventional U-shaped building, as shown, unit households are arranged in both overlapping degrees.

The present invention was developed to escape from the tower-type multi-purpose apartments centered on the redundancy, and has a flat type of a new plan that can realize a perforated structure for almost every unit generation in a plane in which three or more generation units are arranged in one floor. There are technical challenges in providing a building.

In order to solve the above technical problem, the present invention, the core shear frame facing each other is designed to extend in three directions in a U-shaped composition; and is designed so as to be spaced apart in front of the core frame surrounding the core frame circumference Pillars; The slab is designed while connecting the core frame and the pillar; as the base layer plan structure design is made of a multi-generation residential flat design to the outside of the core frame as a building of the reference layer plane, one of three directions of the core structure of the core frame The above double shear wall is designed to be divided and separated at the same position in the middle to form a wallless section, while a generation boundary wall is designed in the middle of the shear wall in each section of the core frame divided and separated by the wallless section, thereby forming the wallless section. Through the core frame provides a flat building with a unit generation cross-vent structure, characterized in that the plan is designed in a cross-vent structure occupied by the same generation.

According to the present invention, the following effects can be expected.

Firstly, almost all unit households in flat-type buildings can realize a direct ventilation structure. This makes it possible to design residential buildings that are advantageous for ventilation and ventilation problems.

Secondly, it is possible to design a U-shaped building in a structurally favorable plane while advantageously responding to inequality shrinkage.

1 is a plan view of a conventional N-shaped building.
2 to 11 are various plan views of the U-shaped building of the unit generation cross-vent structure according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings and preferred embodiments.

2 to 11 are various plan views of the U-shaped building of the unit generation cross-vent structure according to the present invention. Unit type butt-flat building of the unit generation according to the present invention, the core frame (10) is designed to extend in three directions in the shape of the double shear wall facing each other; and, surrounding the core frame (10) A pillar 20 designed to be spaced apart from the front of the core frame 10; The slab is designed while connecting the core frame 10 and the pillars 20; as the reference floor plan structure design is made as a multi-generation residential plan design to the outside of the core frame 10 as a building of the flat type reference floor plane, each generation The core frame 10 is divided and designed so as to have a butting structure, while the generation boundary wall 30 is properly disposed between the core frames 10. In other words, the core frame 10 is designed such that the double shear wall of one or more of the three directions of the U-shaped structure is divided and separated at the same position in the middle so that the wallless section 11 is formed, while the core frame 10 is divided by the wallless section 11. In each section of the separated core frame 10 is to design the generation boundary wall 30 in the intermediate position of the shear wall. Accordingly, the space between both sides of the core frame 10 through the seamless wall section 11 is planar design with a butt-air structure occupied by the same generation.

In the construction of the unit-generation butt-wind building structure completed as described above, since the core frame 10 in the center is composed of a triangular spine wall, the wall is implemented as a structural system that stably resists a horizontal load such as wind or earthquake. do. In other words, the core frame 10 in the center resists most horizontal loads such as earthquakes and winds, and the pillars 20 around the core frame 10 resist gravity loads in ordinary times such as self load or load load. To be completed. On the other hand, in the present invention, the Ｙ-type building encompasses T-type and 十 -type buildings.

2 to 8 are plan views of the reference layer variously completed the generation configuration with the same core frame (10). The floor plans of these reference floors can be completed in one high-rise composite building because the core frame 10 is configured in the same way, and of course, it can be completed in different main buildings. If you are building a single high-rise complex, make sure you have an outrigger floor.

2 is a reference layer plane for the sixth generation (A1, A2, B1, B2, C1, C2), the core frame 10 is designed such that one wall section 11 is formed in all three directions of the U-shaped structure. The central frame 12 by the double shear wall of the short U-shaped structure and the outer branch frame 13 by the double shear wall of the short parallel structure are divided into three, and the generation boundary wall 30 is the angle of the center frame 12. Designed to be located in each shear wall of the shear wall and the outer branch frame 13 is three is arranged in the center frame 12 and six is arranged in the outer branch frame (13). Here, the generation boundary wall 30 is designed as a pillar connecting wall while connecting the shear wall and the pillar 20 or as a core side wall for each room boundary of the core such as a vertical shaft, an elevator, and a staircase. Thus, three generations (A2, B2, C2) occupying the space on both sides of the core frame 10 at the same time through the wall section 11 is designed, while simultaneously enclosing the double shear wall of each outer branch frame 13 The three generations (A1, B1, C1) are designed, and all of these six generations are realized with a direct vent structure. In particular, in Figure 2, all six generations are designed in the form of using the core planned in the outer branch frame 13 of the core frame, the generation that occupies the space on both sides of the core frame 10 at the same time through the wall section 11 and It is designed to be used simultaneously with the generation that surrounds the double shear wall of the outer branch frame 13 at the same time. For example, the A1 and A2 generations share the core, the B1 and B2 generations share the core, and the C1 and C2 generations share the core. The core is intended to be dedicated to other layers.

3 and 4 are designed in the same manner as in FIG. 2, but there are only differences in the arrangement of the generation boundary walls 30 and the degree of space layout of the core. 5 is different from the arrangement of the generation boundary wall 30 and the space layout of the core compared with FIG. 2, and there is a difference in the use of the central frame (12). In other words, FIG. 5 shows that the core planned in the outer branch frame 13 of the core frame is exclusively available to each of three generations A1, B1, and C1 simultaneously surrounding the double shear wall of the outer branch frame 13. While being designed, three generations (A2, B2, C2) in which the core planned in the center frame 12 of the core frame occupies the space of both core frames 10 simultaneously through the wall section 11 are commonly used. It is designed to be possible. This core plan is the result of considering the current building law, because the special evacuation stairs are determined by the number of households for apartments and the area by officetel. 2 to 4 are proposed as the reference floor plan of the apartment, Figure 5 is proposed as the reference floor plan of the officetel.

FIG. 6 is a reference layer plane for the fifth generation (A1, A2, B1, B2, C1). For this, the core frame 10 is formed so that only one wall section 11 is formed in two of three directions of the composition. I design it. That is, the core frame 10 is designed to be divided into one central frame 12 by the double shear wall of the U-shaped structure and two outer branch frame 13 by the double shear wall of the short parallel structure, and each boundary wall has a generation boundary wall. By designing (30), two generations (A2, B2) of simultaneously occupying the space on both sides of the core frame (10) through the wall section (11) are designed, while the double shear wall of each outer branch frame (13) The three generations (A1, B1, C1) surrounding the same time are designed to be designed. Of course, all five generations are realized with a direct air structure.

7 is a reference layer plane for the fifth generation (A1, A2, B1, B2, C1), there is a big difference in the configuration method of the core frame 10 compared to FIG. The core frame 10 is designed to be formed at one or two wallless sections 11 in all three directions of the U-shaped structure, but is constructed in five generations by appropriately omitting the generation boundary wall 30. Accordingly, two generations A2 and B2 are simultaneously designed to occupy the space of both core frames 10 through the wall section 11, while simultaneously enclosing the double shear wall of each outer branch frame 13 at the same time. Two generations A1, B1, and C1 are designed, and one generation C1 simultaneously occupies the space on both sides of the core frame 10 through the wall section 11, and at the same time, It is designed to surround the double shear wall simultaneously. All five generations are realized with a direct vent structure, and in particular, the C1 generation has a dual vent structure.

8 is a reference layer plane for the third generation (A1, B1, C1), while the core frame 10 is designed so that two wallless sections 11 are formed in all three directions of the composition while the generation boundary wall 30 is formed. By arranging only the front wall of the center frame 12 of the core frame 10, it consists of 3 generations. In other words, the core frame 10 is designed so that two wall sections 11 are formed in all three directions of the U-shaped frame. As a result, one core frame 12 and the endless wall section are formed by the double shear wall of the U-shaped frame. 11 the three outer branch frames (13) by the double shear walls of the parallel composition separated by 11) and the intermediate branch frames (14) by the double shear walls between the central frame (12) and the outer branch frames (13). It is divided into dogs, the outer branch frame 13 and the middle branch frame 14 is designed so that the generation boundary wall 30 is omitted, the generation that occupies both the space of the core frame 10 through the wall section 11 at the same time and The generation that simultaneously surrounds the double shear wall of the outer branch frame 13 is designed to be integrated into one generation. As shown, each of the generations A1, B1, and C1 has a multi-bout structure.

9 to 11 are plan views of the reference layer completed by configuring the core frame 10 in a different form from FIGS. 2 to 8. FIG. 9 is an example in which the core frame 10 of FIG. 8 is slightly changed, and the generation boundary wall 30 is also designed in the outer branch frame 13 and the middle branch frame 14 in total for 9 generations (A1, A2, A3). , B1, B2, B3, C1, C2, and C3) are completed in a direct vent structure. 10 shows one central frame 12 by the double shear wall of the U-shaped frame and three outer branch frames 13 by the double shear wall of the parallel structure separated by the endless wall section 11, and the central frame. The core frame 10 is designed to be divided into one middle branch frame 14 by the double shear wall between the 12 and the outer branch frame 13, and the generation boundary wall 30 is the center frame 12, the outer branch. By designing to be arranged between the frame 13 and the intermediate branch frame 14, as well as the outer branch frame 13 and the middle branch frame 14, a total of eight generations (A1, A2, B1, B2, C1, C2, C3) C4) is finished in a direct vent structure. 11 is designed such that one wall section 11 is formed only in two of the three directions of the U-shaped frame of the core frame 10 so that the core frame 10 is formed by the double shear wall of the U-shaped frame. 5th generation by designing one to be divided into two outer branch frame 13 by a double shear wall of parallel composition, and to design the generation boundary wall 30 to be placed in the center frame 12 and the outer branch frame 13 (A1, B1, B2, C1, C2) is finished in a direct vent structure, and the first generation (A2) is completed in a one side open structure.

On the other hand in Figures 2 to 11 it can be seen that the vertical shaft is designed to be thin so as to face the outer surface of the shear wall along the shear wall of the core frame (10). By designing such a vertical shaft, it is possible to design the column 20 at a position far from the shear wall of the core frame 10, and as a result, it is completed in a structure that advantageously corresponds to the differential shrinkage. This is because the additional stress due to the uneven shrinkage difference between the shear wall and the pillar 20 of the core frame 10 can be reduced. In other words, when the vertical member is subjected to gravity load, shrinkage occurs in the longitudinal direction in proportion to the stress ratio, and the stress ratio with respect to self-load or loading load that is normally applied is about 0.4 for the shear wall of the core frame 10 located at the center and Since the pillar 20 is about 0.8, the shear wall of the core frame 10 and the pillar 20 have a difference in shrinkage due to the difference in stress ratios, and as a result, the two members (shear wall and column of the core frame) As additional stress is generated in the connected slabs, cracks may occur even when reinforced with rebar. Since the additional stress due to the uneven shrinkage is large when the distance between adjacent members is short and small when the distance between the members is long, the distance between the shear wall of the core frame 10 and the pillar 20 is determined by the design of the vertical shaft. It can be lengthened and becomes a structural system that can cope with additional stress caused by uneven shrinkage. Furthermore, according to the design of the vertical shaft, the wall center line, which is a reference for calculating the area of the household, retreats from the center line of the shear wall to the center line of the vertical shaft boundary wall, which is advantageous in calculating the dedicated area.

In addition, FIGS. 2 to 10 design the cores arranged in the core frame 10 to be arranged in parallel in the same direction with respect to each of the double shear walls, whereas FIGS. 11 to 12 illustrate the cores planned in the core frame 10. Is designed to face each other between the double shear walls, considering the compact design, parallel arrangements as shown in Figs. 2 to 10 are advantageous.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, the present invention is not limited to the above-described exemplary embodiments, and various modifications, additions and substitutions may be made without departing from the scope of the present invention. And the scope of the present invention is defined by the appended claims.

10: core frame (not shown)
11: wall section
12: center frame
13: Outer Branch Frame
14: middle branch frame
20: Column
30: Boundary Wall

Claims (8)

The core shears 10 facing each other are designed to extend in three directions in a U-shaped composition; and a pillar designed to be spaced apart from the front of the core skeleton 10 while surrounding the core skeleton 10. 20); As the slab is designed while connecting the core frame 10 and the pillar 20; as a reference floor plan structure design is made of multi-family residential flat design outside the core frame 10 as a flat-shaped building,
While the double shear wall of one or more of the three-way structure of the core frame 10 is designed to be divided and separated at the same position in the middle, the wallless section 11 is formed,
As the generation boundary wall 30 is designed in the middle of the shear wall in each section of the core frame 10 divided and separated by the wallless section 11,
Through-wall section 11, the space of the core frame 10, both sides of the flat structure of the unit generation cross-ventilated structure, characterized in that the plane design in a direct-ventilated structure occupied by the same generation. In claim 1,
The core frame 10 is designed such that one wall section 11 is formed in all three directions of the U-shaped frame, thereby forming one central frame 12 by a double shear wall of a short U-shaped frame and 2 having a short parallel composition. It is divided into three branches (13) of the outer branch by the shear wall,
The generation boundary wall 30 is designed to be located in the middle of each shear wall of the front end frame and the outer branch frame 13 of the central frame 12,
This allows three generations to simultaneously occupy the space on both sides of the core frame 10 through the wall section 11, while three generations surrounding the double shear wall of each outer branch frame 13 are designed. 의 type building of unit household direct ventilation structure to assume. In claim 2,
The core, which is planned for the outer branch frame 13 of the core frame, simultaneously surrounds the double shear wall of the outer branch frame 13 and the generation occupying the space of both core frames 10 simultaneously through the wall section 11. The U-shaped building of the unit household cross-window structure, characterized in that the generation is designed to be available at the same time. In claim 2,
The core, which is planned for the outer branch frame 13 of the core frame, is designed to be used exclusively for generations that simultaneously surround the double shear wall of the outer branch frame 13,
The core projected in the center frame 12 of the core frame, unit generation, characterized in that the generation that occupies the space of both the core frame 10 at the same time through the wallless section 11 is designed to be used in common. Vent-shaped building. In claim 1,
The core frame 10 is designed so that two or more wallless sections 11 are formed in at least one of three directions of the U-shaped frame, thereby forming a center frame 12 by a double shear wall of the U-shaped frame, and It is divided into the outer branch frame 13 by the double shear wall of the parallel structure separated by the terminal seamless wall section 11, and the middle branch frame 14 between the center frame 12 and the outer branch frame 13, The middle branch frame 14 is designed by a double shear wall of parallel composition or by a single shear wall of one piece structure in which one shear wall is omitted.
The generation boundary wall 30 is designed to be positioned in the middle of each shear wall of the center frame 12, each shear wall of the outer branch frame 13 and each shear wall of the intermediate branch frame 14,
Generations that occupy the space on both sides of the core frame 10 at the same time through the seamless wall section 11 are designed, while generations that simultaneously enclose the double shear wall of the outer branch frame 13 are designed Vent-shaped building. The method according to any one of claims 2 to 5,
The generation boundary wall 30 positioned in the middle of the shear wall of the outer branch frame 13 is designed to be omitted, so that the generation and the outer branch frame 13 occupying both spaces of the core frame 10 through the wall section 11 at the same time. A double-walled building with a unit generation cross-window structure, characterized in that the generations surrounding the double shear walls of the a) are designed to be integrated into one generation. 6. The method according to any one of claims 1 to 5,
The vertical shaft is a U-shaped building having a unit ventilation system, characterized in that it is designed to be located on the outer surface of the shear wall along the shear wall of the core frame (10). 6. The method according to any one of claims 1 to 5,
Cores planned in the core frame (10) is a U-shaped building having a unit generation buttwind structure, characterized in that it is designed to be arranged in parallel with respect to each of the double shear wall in the same direction.

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