CN220014620U - Novel Chinese pavilion with internal structure free of corner brace installation - Google Patents

Abstract

The utility model provides a novel Chinese pavilion with an internal structure free of corner brace installation, which comprises the following components: the support columns are four in rectangular distribution, one end of each support column is fixedly arranged on the ground, each support column is hollow, and the other end of each support column is provided with a containing groove penetrating through the wall thickness of the support column in the first direction and the second direction; two main beam frames, each main beam frame is placed in the accommodating grooves of the two support columns along the first direction; the auxiliary beam frames are arranged in the accommodating grooves of the two support columns along the second direction and are intersected with the main beam frames. The pavilion has the characteristics of saving corner codes and improving the erecting efficiency of the pavilion.

Description

Novel Chinese pavilion with internal structure free of corner brace installation

Technical Field

The utility model relates to the technical field of pavilions, in particular to a novel Chinese pavilion with an internal structure free of corner brace installation.

Background

The existing pavilion is built by adopting a plurality of sectional materials (beam frames) which are intersected and erected in the longitudinal and transverse directions, then a plurality of corner brackets are arranged on the side surfaces of the sectional materials which are longitudinally and transversely arranged, and a plurality of screws penetrate through the corner brackets to fixedly connect the sectional materials which are longitudinally and transversely arranged, so that the sectional materials in the two directions are fixedly connected. Because the number of corner codes needed for building the pavilion is large, the time for building the pavilion is too long; and the mode of setting the angle code, its and the section bar snap-in force of arranging vertically and horizontally is lower, and the security in the aspect of structural connection is not firm.

Disclosure of Invention

In order to solve the problems, the utility model provides a novel Chinese pavilion with an internal structure free of corner brace installation.

In order to achieve the above object, the novel Chinese pavilion with the internal structure free of corner brace installation provided by the utility model comprises:

the support columns are rectangular, one end of each support column is fixedly arranged on the ground, each support column is hollow, and the other ends of the support columns are provided with accommodating grooves penetrating through the wall thickness of the support column in the first direction and the second direction;

two main beam frames, each of which is placed in the accommodating grooves of two support columns along a first direction;

the auxiliary beam frames are arranged in the accommodating grooves of the two support columns along the second direction, and are intersected with the main beam frames.

Optionally, the main beam frame and the auxiliary beam frame are hollow, a plurality of erecting grooves which are arranged at intervals are penetrated on the main beam frame along the second direction, and a plurality of erecting grooves which are arranged at intervals are penetrated on the auxiliary beam frame along the first direction;

wherein, each accommodating groove is respectively provided with a lapping groove, and part of the auxiliary beam frames are positioned in the accommodating grooves and the lapping grooves.

Optionally, an upper buckling root and a lower buckling root are arranged on the upper part of the inner wall of the main beam frame, and the inner structure of the auxiliary beam frame is the same as that of the main beam frame;

the reinforcing piece is arranged in the main beam frame and the auxiliary beam frame and is buckled with the upper buckling root and the lower buckling root in the main beam frame and the auxiliary beam frame.

Optionally, the reinforcement is shaped like a "convex" with the upper root nearer to the upper portion of the reinforcement and the lower root nearer to the lower portion of the reinforcement.

Optionally, the system further comprises a plurality of first reinforcing beams arranged between the two auxiliary beam frames along a first direction and a plurality of second reinforcing beams arranged between the two main beam frames along a second direction;

the ends of the first reinforcing beams are located in the erecting grooves, the ends of the second reinforcing beams are located in the erecting grooves, and the first reinforcing beams and the second reinforcing beams intersect in the first direction and the second direction.

Optionally, an open slot is formed in the upper portion of the middle section of the first reinforcing beam, the second reinforcing beam is formed by two oppositely arranged sectional materials, and protruding sections erected in the open slot are arranged at opposite ends of the two sectional materials.

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

through being equipped with the storage tank at the support column to let main beam frame, auxiliary girder frame set up the constitution this wayside pavilion along first, the crossing arrangement of second direction above that, can save the angle sign indicating number and improve the efficiency of setting up of this wayside pavilion, need not to adopt the angle sign indicating number to connect the section bar in two directions (crisscross) like traditional mode of setting up-need.

For a better understanding and implementation, the present utility model is described in detail below with reference to the drawings.

Drawings

FIG. 1 is an exploded schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of the overall construction assembly of the present utility model;

FIG. 3 is a schematic side view of a portion of a main beam of the present utility model;

FIG. 4 is a schematic side view of a portion of a secondary beam of the present utility model;

FIG. 5 is a schematic cross-sectional view of a main beam of the present utility model;

FIG. 6 is an enlarged schematic view of the structure shown at A in FIG. 5;

FIG. 7 is an enlarged schematic view of the structure at B in FIG. 1;

FIG. 8 is a schematic side view of a second reinforcing beam of the present utility model;

fig. 9 is a schematic top view of a portion of the structure of a support column according to the present utility model.

In the figure: 1. a support column; 11. a receiving groove; 2. a main beam frame; 21. a frame building groove; 22. a root is buckled; 23. a lower buckling root; 3. an auxiliary beam frame; 31. erecting a groove; 4. a reinforcing member; 5. a first reinforcing beam; 51. an open slot; 6. a second reinforcing beam; 61. protruding segments.

Detailed Description

For a clearer understanding of technical features, objects and effects of the present utility model, a specific embodiment of the present utility model will be described with reference to the accompanying drawings, but the scope of the present utility model is not limited to the following.

Referring to fig. 1-9, a new chinese kiosk with an internal structure free of corner brace installation, comprising: the support columns 1 are four rectangular, one end of each support column 1 is fixedly arranged on the ground, each support column 1 is hollow, and the other end of each support column 1 is provided with a containing groove 11 penetrating through the wall thickness of the support column 1 in the first direction and the second direction;

two main beam frames 2, wherein each main beam frame 2 is placed in the accommodating grooves 11 of the two support columns 1 along the first direction;

the number of the auxiliary beam frames 3 is two, and each auxiliary beam frame 3 is placed in the accommodating groove 11 of the two support columns 1 along the second direction and is intersected with the main beam frame 2.

The novel Chinese pavilion with the internal structure free of corner brace installation is characterized in that the supporting column 1 is provided with the containing groove 11, so that the main beam frame 2 and the auxiliary beam frame 3 are arranged and erected on the supporting column along the first direction and the second direction in an intersecting way to form the pavilion, the corner brace is saved, the erection efficiency of the pavilion is improved, and the traditional erection mode, namely the section bar in the two directions (crisscross) is not needed to be connected by adopting the corner brace.

Further, the main beam frame 2 and the auxiliary beam frame 3 are hollow, a plurality of erecting grooves 21 are arranged on the main beam frame 2 at intervals along the second direction, and a plurality of erecting grooves 31 are arranged on the auxiliary beam frame 3 at intervals along the first direction;

wherein, a lapping groove 21 is arranged in each accommodating groove 11, and part of the auxiliary beam frames 3 are positioned in the accommodating grooves 11 and the lapping grooves 21.

Specifically, the main beam frame 2 is provided with a frame-lapping groove 21, so that the auxiliary beam frame 3 is placed in the frame-lapping groove 21, and the main beam frame 2 and the auxiliary beam frame 3 can intersect in the first direction and the second direction. In the concrete implementation, the intersection of the main beam frame 2 and the auxiliary beam frame 3 is fixedly connected with the intersection joint of the main beam frame 2 and the auxiliary beam frame by adopting a fastener (a screw, etc.), so as to improve the structural strength of the pavilion.

Further, the upper part of the inner wall of the main beam frame 2 is provided with an upper buckling root 22, and the upper buckling root 22 is arranged at the lower part of the inner wall, and the inner structure of the auxiliary beam frame 3 is the same as that of the main beam frame 2;

the novel beam frame further comprises a reinforcing piece 4 arranged inside the main beam frame 2 and the auxiliary beam frame 3, and the reinforcing piece 4 is buckled with the upper buckling root 22 and the lower buckling root 23 inside the main beam frame 2 and the auxiliary beam frame 3.

Specifically, be equipped with reinforcement 4 in girder frame 2, auxiliary girder frame 3 inside to with the last root 22, last root 22 lock joint of buckling of girder frame 2, auxiliary girder frame 3 inside, can improve the structural strength and the steadiness of this wayside pavilion.

Further, the reinforcement 4 is shaped like a "convex" with the upper root 22 being closer to the upper portion of the reinforcement 4 and the lower root 23 being closer to the lower portion of the reinforcement 4.

Specifically, the shape of the reinforcing member 4 approximates to a "convex" shape, so that the structure at the intersection of the sub-beam frame 3 and the main beam frame 2 is stable, and the assembly convenience is improved—it can be understood that a part of the sub-beam frame 3 is placed in the frame-building groove 21, and a part of the sub-beam frame 3 is built on the reinforcing member 4 in the frame-building groove 21.

Further, it further comprises a plurality of first reinforcing beams 5 arranged between the two sub-frames 3 in a first direction, and a plurality of second reinforcing beams 6 arranged between the two main frames 2 in a second direction;

the ends of the first reinforcing beams 5 are located in the bridging grooves 31, and the ends of the second reinforcing beams 6 are located in the bridging grooves 21, and the first reinforcing beams 5 and the second reinforcing beams 6 intersect in the first direction and the second direction.

Specifically, the first reinforcing beam 5 and the second reinforcing beam 6 can strengthen the structural strength of the pavilion. It should be appreciated that the end of the first reinforcing beam 5 is located in the set up groove 31 and is connected to the secondary beam 3, the stiffener 4 located in the secondary beam 3, using fasteners to improve the connection integrity of the nodes. Similarly, the second reinforcing beam 6 and the main beam 2 are similar to those described above, and will not be described in detail herein.

Further, the upper portion of the middle section of the first reinforcing beam 5 is provided with an open slot 51, the second reinforcing beam 6 is formed by two oppositely arranged sectional materials, and the opposite ends of the two sectional materials are respectively provided with a protruding section 61 which is erected in the open slot 51.

Specifically, two oppositely arranged profiles form the second reinforcing beam 6, and the protruding sections 61 of each profile are all erected in the open slot 51, that is, on the first reinforcing beam 5, so that the first reinforcing beam 5 and the second reinforcing beam 6 intersect in two directions. In particular embodiments, the intersections of the first and second reinforcing beams 6 are fixedly connected to one another using fasteners.

The foregoing disclosure is merely illustrative of the preferred embodiments of the present utility model and is not intended to limit the scope of the claims herein, as equivalent changes may be made in the claims herein without departing from the scope of the utility model.

Claims (6)

1. Novel chinese pavilion of angle sign indicating number installation is exempted from to inner structure, its characterized in that includes:

the support columns are rectangular, one end of each support column is fixedly arranged on the ground, each support column is hollow, and the other ends of the support columns are provided with accommodating grooves penetrating through the wall thickness of the support column in the first direction and the second direction;

two main beam frames, each of which is placed in the accommodating grooves of two support columns along a first direction;

the auxiliary beam frames are arranged in the accommodating grooves of the two support columns along the second direction, and are intersected with the main beam frames.

2. The new chinese pavilion with internal structure free of corner fitting according to claim 1, wherein: the main beam frame and the auxiliary beam frame are hollow, a plurality of erecting grooves which are arranged at intervals are penetrated on the main beam frame along the second direction, and a plurality of erecting grooves which are arranged at intervals are penetrated on the auxiliary beam frame along the first direction;

wherein, each accommodating groove is respectively provided with a lapping groove, and part of the auxiliary beam frames are positioned in the accommodating grooves and the lapping grooves.

3. The new chinese pavilion with internal structure free of corner fitting according to claim 2, wherein: the upper part of the inner wall of the main beam frame is provided with an upper buckling root and a lower buckling root arranged at the lower part of the inner wall, and the inner structure of the auxiliary beam frame is the same as that of the main beam frame;

the reinforcing piece is arranged in the main beam frame and the auxiliary beam frame and is buckled with the upper buckling root and the lower buckling root in the main beam frame and the auxiliary beam frame.

4. A new chinese pavilion with internal structure free of corner fitting according to claim 3 wherein: the reinforcement is shaped like a "convex" with the upper root nearer to the upper portion of the reinforcement and the lower root nearer to the lower portion of the reinforcement.

5. The new chinese pavilion with internal structure free of corner fitting according to claim 2, wherein: the system further comprises a plurality of first reinforcing beams arranged between the two auxiliary beam frames along a first direction and a plurality of second reinforcing beams arranged between the two main beam frames along a second direction;

the ends of the first reinforcing beams are located in the erecting grooves, the ends of the second reinforcing beams are located in the erecting grooves, and the first reinforcing beams and the second reinforcing beams intersect in the first direction and the second direction.

6. The new chinese pavilion with internal structure free of corner fitting according to claim 5, wherein: the upper part of the middle section of the first reinforcing beam is provided with an open slot, the second reinforcing beam is composed of two sections which are oppositely arranged, and the opposite ends of the two sections are respectively provided with a protruding section which is erected in the open slot.