JP2013245522A - Frame - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a frame capable of forming an indoor space by one kind of units.SOLUTION: A frame 1 comprises a plurality of units. Each of the units includes: a first shaft-like member 12A and a second shaft-like member 13A which are set to be equal to each other in length, and respective tips of which are connected to each other; a second shaft-like member 13A; a third shaft-like member 14A of which tip is connected to a base end of the first shaft-like member; and a fourth shaft-like member 15A which is set to be equal to the third shaft-like member in length, of which tip is connected to a base end of the second shaft-like member, and of which base end is connected to a base end of the third shaft-like member. The frame comprises a first unit 11A and a second unit 11B as a unit; the first unit and the second unit are symmetrically arranged to a reference plane S1 and tips of the first shaft-like members thereof are connected to each other; a reference line L1 passing the tip of the first shaft-like member and the base end of the third shaft-like member in the first unit is set; and the first unit and the second unit are formed in a bent shape, when viewed from a direction D which is parallel to the reference plane and orthogonal to the reference line.

Description

  The present invention relates to a frame for forming an indoor space.

Conventionally, in order to form an indoor space, frames having various configurations have been studied.
For example, in the roof frame (frame) described in Patent Document 1, a roof truss is constituted by a plurality of unit blocks. Each unit block is formed in a substantially triangular shape. A plurality of pillars are arranged below the roof truss at intervals in a predetermined direction. In the roof frame configured as described above, an indoor space is formed in a portion below the roof truss and between a plurality of pillars arranged at intervals in a predetermined direction.

On the other hand, in the roof frame described in Patent Document 2, a hut column is provided on the center part of a pair of shed beams, and a ridge beam is supported on the upper ends of the pair of shed columns. The ends of the pair of shed beams are connected by eaves beams arranged so as to be parallel to the master beam. Gradient beams are installed between the upper end of the shed pillar and both ends of the shed beam, and between the central portion of the ridge beam and the central portion of the eaves beam. The end of the shed beam is supported from below by a pillar.
The roof frame configured in this way is configured not to provide members such as beams, braces, and hut columns in the inner space. And it can be set as the structure which continues without isolating with the space below a roof frame, and the space in a roof frame can be made into a part of indoor space of the top floor.

Japanese Patent Laid-Open No. 9-72004 Japanese Patent Laid-Open No. 10-169087

  However, in order to secure an indoor space below the frame, for example, a roof truss and a pillar are used in the roof frame described in Patent Document 1, and various members such as various beams and columns are used in the roof frame described in Patent Document 2. I need it. For this reason, a great deal of labor is required for the construction of the frame, and there is a problem that the construction cost increases.

  The present invention has been made in view of such problems, and an object thereof is to provide a frame that can easily form an indoor space with one type of unit.

In order to solve the above problems, the present invention proposes the following means.
The frame of the present invention has a first shaft-like member, a second shaft-like member, and a tip connected to the base end of the first shaft-like member, the lengths of which are set to be equal to each other and connected at the tip of each other. The triaxial member and the third axial member are set to have the same length, the distal end is connected to the proximal end of the second axial member, and the proximal end is connected to the proximal end of the third axial member. A plurality of units having a fourth shaft-like member connected to each other, the unit comprising a first unit and a second unit, wherein the first unit and the second unit are relative to a reference plane. The tip of the first shaft-like member of the first unit and the tip of the first shaft-like member of the second unit are connected, and the first shaft-like shape of the first unit A base passing through the distal end of the member and the proximal end of the third shaft-shaped member The first unit and the second unit are defined in a straight line orthogonal to the reference plane when viewed from an orthogonal direction that defines a line and is parallel to the reference plane and orthogonal to the reference line, or It is characterized by being formed in a bent shape that is convex toward one side along the reference plane.

  Further, in the above frame, a plurality of the first units are arranged in the orthogonal direction, a plurality of the second units are arranged in the orthogonal direction by a number corresponding to the plurality of the first units, and a plurality of the first units are arranged. The unit is connected to a base end of the first shaft-shaped member of one of the first units adjacent in the orthogonal direction and a base end of the second shaft-shaped member of the other first unit, and In the second unit, a base end of the first shaft-shaped member of one of the second units adjacent in the orthogonal direction is connected to a base end of the second shaft-shaped member of the other second unit. More preferably.

  In the above frame, the unit includes a third unit and a fourth unit, and a base end of the third shaft-shaped member of the first unit and a tip of the first shaft-shaped member of the third unit A base end of the third shaft-shaped member of the second unit and a tip end of the first shaft-shaped member of the fourth unit are connected, and the third unit and the fourth unit are the reference The first unit, the second unit, the third unit, and the fourth unit are arranged symmetrically with respect to a plane and viewed from the orthogonal direction, or the shape orthogonal to the reference plane, or More preferably, it is formed in a bent shape that is convex toward one side along the reference plane.

  According to the frame of the present invention, an indoor space can be easily formed by one type of unit.

It is a perspective view of the frame of 1st Embodiment of this invention. It is the schematic diagram which looked at the same frame from the front. It is an expanded view of the same frame. It is a front view in area | region R1 of the same frame. It is sectional drawing of cutting line A1-A1 in FIG. It is a front view in area | region R2 of the same frame. It is sectional drawing of cutting line A2-A2 in FIG. It is a perspective view of the principal part of the frame of 2nd Embodiment of this invention. It is the schematic diagram which looked at the same frame from the front. It is the schematic diagram which looked at the frame in embodiment of the modification of this invention from the front.

(First embodiment)
Hereinafter, a first embodiment of a frame according to the present invention will be described with reference to FIGS. 1 to 7. First, an outline of the structure of the frame will be described, and a connection structure of a shaft-like member described later of the frame will be described in detail later.
As shown in FIGS. 1 and 2, the frame 1 of the present embodiment includes a basic width unit 10 in which a first unit (unit) 11 </ b> A and a second unit (unit) 11 </ b> B are paired in a longitudinal direction (orthogonal direction) D. The three basic width units 10 are connected to each other.
Since the configuration of the first unit 11A and the second unit 11B is the same, the alphabet “A” is added to the number for the configuration of the first unit 11A, and the letter “B” is added to the same number for the configuration of the second unit 11B. "To indicate. Thereby, the overlapping description is omitted.
In FIG. 1 and FIGS. 3 and 8 described later, hatching is changed for each basic width unit. 2 and later-described FIG. 9 and FIG. 10, the entire structure is schematically shown while being indicated by an end mark ◯ of a shaft-shaped member described later.

FIG. 3 is a diagram in which the frame 1 is developed in a planar shape. Hereinafter, the first unit 11A will be mainly described.
11 A of 1st units are formed using shape steels, pipes, etc., such as H-section steel and T-section steel, and the 1st shaft-like member 12A, the 2nd shaft-like member 13A, and the 3rd which were mutually set equally in length. It has a shaft-shaped member 14A and a fourth shaft-shaped member 15A. The first shaft-like member 12A and the second shaft-like member 13A are connected at the tip of each other, and the third shaft-like member 14A and the fourth shaft-like member 15A are connected at the base ends of each other. The tip of the third shaft member 14A is connected to the base end of the first shaft member 12A, and the tip of the fourth shaft member 15A is connected to the base end of the second shaft member 13A.
In the development view of FIG. 3, the first unit 11A is formed in a diamond shape.

As shown in FIGS. 1 and 2, the first unit 11A and the second unit 11B are arranged symmetrically with respect to a reference plane S1 parallel to the longitudinal direction D, and the first unit 11A The distal ends of the uniaxial member 12A and the second axial member 13A are connected to the distal ends of the first axial member 12B and the second axial member 13B of the second unit 11B.
The orientation of the first unit 11A is defined such that a reference line L1 passing through the distal end of the first shaft-like member 12A and the base end of the third shaft-like member 14A in the first unit 11A is orthogonal to the longitudinal direction D. . In other words, when the second reference plane S2 passing through the distal end of the first axial member 12A, the proximal end of the third axial member 14A, and the proximal end of the third axial member 14B is defined, the units 11A and 11B Are arranged such that the second reference plane S2 is orthogonal to the reference plane S1.
The units 11A and 11B are arranged so as to be symmetric with respect to the second reference plane S2.

In this example, a substantially cylindrical support member 21A is attached to the base ends of the third shaft member 14A and the fourth shaft member 15A of the first unit 11A. Similarly, a support member 21B having the same shape as the support member 21A is attached to the base ends of the third shaft member 14B and the fourth shaft member 15B of the second unit 11B. The support members 21A and 21B are disposed on the support surface G set in parallel to the horizontal plane.
Note that the support members 21 </ b> A and 21 </ b> B are not essential components of the frame 1. For example, the base ends of the third shaft member 14A and the fourth shaft member 15A may be arranged directly on the support surface G without the support member 21A being attached to the first unit 11A.

The units 11A and 11B as a whole are formed in a polygonal line shape that protrudes upward along one reference plane S1, that is, upward, when viewed from the longitudinal direction D shown in FIG. In other words, when an auxiliary line connecting the base end of the third shaft-like member 14A and the base end of the third shaft-like member 14B is defined, the unit 11A, 11B and the auxiliary line are bent so as to protrude upward. It is formed in a different shape.
Specifically, when viewed from the longitudinal direction D, the angle θ1 formed by the first shaft-shaped member 12A and the third shaft-shaped member 14A downward, and the third shaft-shaped member 14A and the support member 21A are defined as the reference plane S1. The angle θ2 formed on the side and the angle θ3 formed between the first shaft-shaped member 12A and the second shaft-shaped member 13B are set smaller than 180 °.

As shown in FIG. 1, the pair of first units 11A adjacent to each other in the longitudinal direction D includes a proximal end of the first shaft member 12A of the first unit 11A in the longitudinal direction D and a third shaft member 14A. Are connected to the base end of the second shaft-like member 13A of the other first unit 11A and the tip of the fourth shaft-like member 15A. Similarly, a pair of second units 11B adjacent to each other in the longitudinal direction D includes a proximal end of the first shaft member 12B and a distal end of the third shaft member 14B of one second unit 11B in the longitudinal direction D; The base end of the second shaft-like member 13B of the other second unit 11B and the tip of the fourth shaft-like member 15B are connected.
In the present embodiment, the second unit 11B is provided in a number corresponding to the first unit 11A, that is, three.

Next, a specific configuration for implementing the frame 1 will be described.
First, as shown in FIG. 1, a connection structure of a region R1 where the first unit 11A and the second unit 11B are connected will be described. In this example, the case where the shaft-shaped members 12A to 15A and 12B to 15B are formed of H-shaped steel will be described.
As shown in FIGS. 4 and 5, the first shaft-like member 12A and the second shaft-like member 13A of the first unit 11A, the first shaft-like member 12B and the second shaft-like member 13B of the second unit 11B. Is connected by a connecting member 26.
The cross-sectional shape by the plane orthogonal to the length direction of the connection member 26 is formed similarly to the H-section steel. That is, the connecting member 26 has a pair of flange portions 261 formed in a substantially X shape in plan view, and a web portion 262 that joins the flange portions 261 at the center in the width direction. The flange portion 261 and the web portion 262 are formed of steel or the like, and the flange portion 261 and the web portion 262 are joined by welding or the like. The connecting member 26 is provided with reinforcing ribs 263 that join the flange portion 261 and the web portion 262.

The connection member 26 is provided with four end portions 26a to 26d. The end portion 26a and the end portion 26c, and the end portion 26b and the end portion 26d are arranged so as to sandwich the center portion 26e of the connection member 26, respectively. Yes.
The flange portion 261 of the end portion 26 a is connected to the flange portion 121 </ b> A of the first shaft-shaped member 12 </ b> A by the high-strength bolt 32 via the reinforcing member 31. A web portion 122A of the first shaft-like member 12A is connected to the web portion 262 of the end portion 26a by a high-strength bolt 32 via a reinforcing member 33.
Similarly, the flange portion 261 and the web portion 262 of the end portion 26b are connected to the flange portion 131A and the web portion 132A of the second shaft-shaped member 13A by the reinforcing members 31 and 33 and the high-strength bolt 32. The flange portion 261 and the web portion 262 of the first shaft member 12B are connected to the flange portion 261 and the web portion 262 of the end portion 26c. The flange portion 131B and the web portion 132B of the second shaft-shaped member 13B are connected to the flange portion 261 and the web portion 262 of the end portion 26d.

  As described above, the connecting member 26 connects the four shaft-shaped members 12A, 13A, 12B, and 13B so as to have a substantially X shape in plan view.

Next, a connection structure of the region R2 (see FIG. 1) where the first unit 11A and the support member 21A are connected will be described.
As shown in FIGS. 6 and 7, the base ends of the third shaft member 14 </ b> A and the fourth shaft member 15 </ b> A of the first unit 11 </ b> A and the support member 21 </ b> A are connected by a connection member 36.
The cross-sectional shape by the plane orthogonal to the length direction of the connection member 36 is formed similarly to the H-section steel. That is, the connection member 36 has a pair of flange portions 361 formed in a substantially Y shape in a side view, and a web portion 362 that joins the flange portions 361 to each other at the center in the width direction. The connection member 36 is configured in the same manner as the connection member 26 described above.
The connecting member 36 has end portions 36a and 36c provided on the upper side by branching into two end portions 36a and 2 provided on the lower side.

21 A of supporting members are being fixed to the edge part 36a with the volt | bolt etc. which are not shown in figure.
A flange portion 141A of the third shaft member 14A is connected to the flange portion 361 of the end portion 36b by a high-strength bolt 32 via a reinforcing member 31. The web portion 362 of the third shaft-like member 14A is connected to the web portion 362 of the end portion 36a by the high-strength bolt 32 via the reinforcing member 33. Similarly, the flange portion 361 and the web portion 262 of the fourth shaft member 15A are connected to the flange portion 361 and the web portion 262 of the end portion 36c, respectively.

As described above, the connecting member 36 connects the two shaft-like members 14A and 15A and the support member 21A so as to have a substantially Y shape in a side view.
Then, as described above, the frame 1 of the present embodiment can be configured by connecting the shaft-shaped member made of H-shaped steel by appropriately using the connection member having a substantially X shape, a substantially Y shape, or the like. it can.

As described above, according to the frame 1 of the present embodiment, the basic width unit 10 is formed in a polygonal line shape that protrudes upward. For this reason, while forming the indoor space V1 (refer FIG. 2) under the basic width unit 10, the gravity which acts on the basic width unit 10 is effective in the base end of shaft-shaped member 14A, 15A, 14B, 15B. Can be supported.
In addition, since the basic width unit 10 is configured by connecting two types of units having four shaft-shaped members, the basic width unit 10 can be simply configured, and the basic width unit 10 can be easily configured. Can be constructed.

Since the frame 1 is composed of one type of unit, the appearance can be improved by providing the frame 1 with lightness and continuity.
The frame 1 is configured by arranging the three basic width units 10 in the longitudinal direction D and connecting the adjacent basic width units 10 in the longitudinal direction D. Therefore, the frame 1 can be formed long in the longitudinal direction D, and the indoor space V1 can be formed long in the longitudinal direction D.
Since the lengths of the shaft-like members 12A to 15A are set to be equal to each other, it is possible to suppress the load acting on the first unit 11A from being biased and to increase the strength of the first unit 11A with respect to the load.

(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIG. 8 and FIG. 9. However, the same parts as those of the above embodiment are denoted by the same reference numerals, and the description thereof is omitted. explain.
As shown in FIGS. 8 and 9, the frame 2 of the present embodiment has a basic structure in which a first unit 11A, a second unit 11B, a third unit (unit) 11C, and a fourth second unit (unit) 11D are combined. Three width units 40 are arranged in the longitudinal direction D and connected to each other.
The basic width unit 40 further includes units 11C and 11D in the configuration of the basic width unit 10 of the embodiment.
The third unit 11C differs from the first unit 11A only in that it is formed flat. The fourth unit 11D differs from the second unit 11B only in that it is formed flat. Since the units 11C and 11D are basically the same as the configuration of the first unit 11A, the alphabet “C” is added to the same number as the configuration of the corresponding first unit 11A for the configuration of the third unit 11C. The configuration of the fourth unit 11D is indicated by adding the letter “D” to the same number. Thereby, the overlapping description is omitted.

In the basic width unit 40, the distal ends of the first shaft member 12C and the second shaft member 13C of the third unit 11C are the base ends of the third shaft member 14A and the fourth shaft member 15A of the first unit 11A. It is connected. Similarly, the distal ends of the first shaft member 12D and the second shaft member 13D of the fourth unit 11D are connected to the base ends of the third shaft member 14B and the fourth shaft member 15B of the second unit 11B. Yes.
The third unit 11C and the fourth unit 11D are arranged symmetrically with respect to the reference plane S1. When viewed in the longitudinal direction D, the units 11A, 11B, 11C, and 11D as a whole are formed in a shape that is bent so as to protrude upward.
Specifically, when viewed from the longitudinal direction D, the angle θ4 formed by the first shaft member 12C and the third shaft member 14C of the third unit 11C and the reference plane S1 is set to 180 °.

The pair of third units 11C adjacent to each other in the longitudinal direction D includes the base end of the first shaft-like member 12C and the tip of the third shaft-like member 14C of the third unit 11C in the longitudinal direction D, and the other first unit. The base end of the second shaft-shaped member 13C of the three unit 11C and the tip of the fourth shaft-shaped member 15C are connected.
Similarly, a pair of fourth units 11D adjacent to each other in the longitudinal direction D includes a proximal end of the first shaft member 12D and a distal end of the third shaft member 14D of one fourth unit 11D in the longitudinal direction D; The base end of the second shaft member 13D of the other fourth unit 11D and the tip end of the fourth shaft member 15D are connected.

  Also in this embodiment, similarly to the frame 1 of the first embodiment, the frame 2 can be configured using a connection member having a substantially X shape or the like and a shaft-shaped member.

According to the frame 2 of the present embodiment configured as described above, the indoor space V2 can be easily formed by one type of unit.
Furthermore, the units 11C and 11D are provided, and the frame 2 is configured to be long in the direction along the units 11A and 11B with the reference plane S1 interposed therebetween, whereby the indoor space V2 can be formed wider.

As mentioned above, although 1st Embodiment and 2nd Embodiment of this invention were explained in full detail with reference to drawings, the concrete structure is not restricted to this embodiment, The structure of the range which does not deviate from the summary of this invention Changes are also included. Furthermore, it goes without saying that the configurations shown in the embodiments can be used in appropriate combinations.
For example, in the first embodiment and the second embodiment, the basic width unit as a whole is formed in a shape that is bent so as to protrude upward. However, when viewed from the longitudinal direction D, the basic width unit as a whole may be formed in a curved shape so as to protrude upward. In this case, for example, a unit or a basic width unit can be formed by using a pre-curved H-section steel.
Further, the basic width unit as a whole may be formed in a straight line perpendicular to the reference plane S1, that is, parallel to the horizontal plane. In this case, it is preferable to support both ends of the basic width unit from below with the support members 21A and 21B.
Even if the basic width unit is configured as described above, an indoor space can be formed below the basic width unit.

  Further, for example, in the frame 1 of the first embodiment, as shown in FIG. 10, the angle θ3 formed by the first shaft member 12A and the second shaft member 13B downward may be 180 °. Central portions in the length direction such as the shaft-shaped member 15A and the third shaft-shaped member 14B may be bent so that the basic width unit has a bent shape that protrudes upward.

In the first embodiment and the second embodiment, the number of units constituting the basic width unit is not limited, and may be any number as long as it is two or more.
Moreover, in the said embodiment, the basic width unit was arranged in the longitudinal direction D, and it connected mutually, and comprised the frame. However, the number of basic width units connected in the longitudinal direction D is not limited, and may be any number as long as it is one or more.
Even when the shaft-shaped member is formed using a pipe, the frame can be configured by using cast steel or the like that fixes the end of the shaft-shaped member as the connecting member.

In the embodiment, in the first unit 11A, all the shaft-like members 12A, 13A, 14A, and 15A are set to have the same length. However, the length of the shaft-shaped members 12A, 13A, 14A, and 15A is not limited to this, and the first shaft-shaped member 12A, the second shaft-shaped member 13A, and the third of the shaft-shaped members 12A, 13A, 14A, and 15A It is only necessary that the shaft-shaped member 14A and the fourth shaft-shaped member 15A have the same length.
The same applies to the other units 11B, 11C, and 11D.

1, 2 Frame 11A 1st unit (unit)
11B Second unit (unit)
11C 3rd unit (unit)
11D 4th unit (unit)
12A, 12B, 12C, 12D First shaft member 13A, 13B, 13C, 13D Second shaft member 14A, 14B, 14C, 14D Third shaft member 15A, 15B, 15C, 15D Fourth shaft member D Longitudinal Direction (orthogonal direction)
L1 reference line S1 reference plane

Claims (3)

A first shaft member, a second shaft member, the third shaft member having a distal end connected to the proximal end of the first shaft member, the lengths of which are set equal to each other and connected at the distal ends thereof; and A fourth shaft-shaped member set to the same length as the third shaft-shaped member, having a distal end connected to the proximal end of the second shaft-shaped member and a proximal end connected to the proximal end of the third shaft-shaped member A frame constructed by connecting a plurality of units having
The unit comprises a first unit and a second unit,
The first unit and the second unit are arranged symmetrically with respect to a reference plane, and the tip of the first shaft-shaped member of the first unit and the first shaft-shaped member of the second unit The tip is connected,
A reference line passing through the distal end of the first shaft-shaped member and the proximal end of the third shaft-shaped member in the first unit is defined, and viewed from an orthogonal direction that is parallel to the reference plane and orthogonal to the reference line. When
The frame is characterized in that the first unit and the second unit are formed in a linear shape orthogonal to the reference plane or a bent shape that is convex toward one side along the reference plane. A plurality of the first units are arranged in the orthogonal direction,
A plurality of the second units are arranged in the orthogonal direction by a number corresponding to the plurality of the first units,
The plurality of first units have a base end of the first shaft-shaped member of one of the first units adjacent in the orthogonal direction and a base end of the second shaft-shaped member of the other first unit. Connected,
The plurality of second units have a base end of the first shaft-shaped member of one of the second units adjacent in the orthogonal direction and a base end of the second shaft-shaped member of the other second unit. The frame according to claim 1, wherein the frame is connected. The unit includes a third unit and a fourth unit,
The base end of the third shaft-shaped member of the first unit and the tip of the first shaft-shaped member of the third unit are connected,
The base end of the third shaft-shaped member of the second unit and the tip of the first shaft-shaped member of the fourth unit are connected,
The third unit and the fourth unit are arranged symmetrically with respect to the reference plane,
When viewed from the orthogonal direction, the first unit, the second unit, the third unit, and the fourth unit are convex toward the shape orthogonal to the reference plane or one along the reference plane. The frame according to claim 1, wherein the frame is formed into a bent shape.

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