CN213174169U - Beam column stabilizing member of assembled wood structure - Google Patents

Abstract

The utility model provides a beam column stabilizing member of assembled wood structure relates to the assembly type building field, and this beam column stabilizing member of assembled wood structure installs between post and roof beam. The connecting block is located between the column plate and the beam plate, the supporting plate is located below the connecting block, one end of the supporting plate is connected with the column plate, the other end of the supporting plate is connected with the beam plate, and the buffer mechanism is located between the connecting block and the supporting plate. The buffer mechanism is internally provided with viscous fluid. This beam column stabilizing member of assembled timber structure sets up connecting block and extension board between column plate and beam slab for improve whole stabilizing member's firm degree. And a sleeve, a piston rod and a piston are arranged between the connecting plate and the support plate, and viscous fluid is stored in the sleeve. The components are matched to generate buffering force, so that the bending deformation of the component is prevented, and the component is prevented from being broken when being subjected to bending force due to vibration.

Description

Beam column stabilizing member of assembled wood structure

Technical Field

The utility model relates to an assembly type structure technical field specifically is a beam column stabilizing member of assembled wood structure.

Background

The cross beams and the supporting columns in the building are key points for bearing the whole force of the building, and the cross beams and the supporting columns are mutually connected to build a building frame which is a keel of the building, so that the connection nodes of the beams and the columns in the building are of great importance.

For example, a Chinese patent network discloses a novel steel structure beam column node connecting member, which has the patent number of 201820861280.9. The device is provided with an upper connecting plate and a lower connecting plate, wherein the upper connecting plate is in contact with the cross beam, and the lower connecting plate is in contact with the column. The upper connecting plate and the lower connecting plate are connected through a support rod, and the upper connecting plate and the lower connecting plate are fixed between the beam columns through screws.

The above devices still suffer from some disadvantages. The device is relatively simple in structure. The above-mentioned components have no energy-absorbing buffer component. When earthquake happens, the beam column is subjected to overlarge bending force, and the whole component is broken.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a beam column stabilizing elements of assembled timber structure has solved general beam column fixed component structure fairly simple among the above-mentioned background art, does not have buffering energy dissipation function, leads to receiving the too big cracked problem of emergence of bending force because of vibrations easily.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a beam-column stabilizing member of fabricated timber construction is mounted between a column and a beam. The connecting block is located between the column plate and the beam plate, the supporting plate is located below the connecting block, one end of the supporting plate is connected with the column plate, the other end of the supporting plate is connected with the beam plate, and the buffer mechanism is located between the connecting block and the supporting plate. The buffer mechanism is internally provided with viscous fluid.

Preferably, the buffer mechanism comprises a sleeve, a piston rod and a piston, one end of the sleeve is hinged to the support plate, the other end of the buffer mechanism faces the connecting block, a cavity is formed in the sleeve and used for storing viscous fluid, one end of the piston rod is hinged to the connecting block, the other end of the piston rod extends into the sleeve and is connected with the piston, and a leakage hole is formed in the piston.

Preferably, the support plate is arc-shaped, the springs are sequentially arranged in the support plate, and the support plate is used for improving the bending resistance.

Preferably, one side of the column plate is provided with a first fixing plate, the column plate and the first fixing plate surround the column, the first fixing plate is in threaded connection with a first bolt, and the first fixing plate is connected with the column plate through the first bolt.

Preferably, one side of the beam plate is provided with a second fixing plate, the beam plate and the second fixing plate surround the beam, the second fixing plate is in threaded connection with a second bolt, and the second fixing plate is connected with the beam plate through the second bolt.

(III) advantageous effects

The utility model provides a beam column stabilizing member of assembled timber structure. The method has the following beneficial effects:

1. this beam column stabilizing member of assembled timber structure sets up connecting block and extension board between column plate and beam slab for improve whole stabilizing member's firm degree. And a sleeve, a piston rod and a piston are arranged between the connecting plate and the support plate, and viscous fluid is stored in the sleeve. The components are matched to generate buffering force, so that the bending deformation of the component is prevented, and the component is prevented from being broken when being subjected to bending force due to vibration.

Drawings

FIG. 1 is a structural working state diagram of the present invention;

FIG. 2 is a partial sectional view of the structure of the present invention;

FIG. 3 is a sectional view of the structure of the present invention;

fig. 4 is a front view of the structure of the present invention.

In the figure: the device comprises a 1 column plate, a 11 fixed plate I, a 12 bolt I, a 2 beam plate, a 21 fixed plate II, a 22 bolt II, a 3 support plate, a 31 spring, a 4 vertical plate, a 5 transverse plate, a 6 connecting block, a 61 screw rod, a 7 buffer mechanism, a 71 sleeve, a 72 piston rod, a 73 piston, a 74 leak hole, a 75 cavity, an 8 column and a 9 beam.

Detailed Description

The embodiment of the utility model provides a beam column stabilizing member of assembled timber structure, as shown in fig. 1-4, including the column plate 1 that links to each other with post 8, the beam slab 2 of being connected with roof beam 9, extension board 3, connecting block 6 and buffer gear 7. The connecting block 6 is screwed between the column plate 1 and the beam plate 2. The support plate 3 is located below the connecting block 6, one end of the support plate 3 is welded with the column plate 1, and the other end of the support plate 3 is welded with the beam plate 2. The buffer mechanism 7 is hinged between the connecting block 6 and the support plate 3. The damping mechanism 7 contains a viscous fluid. Since viscous fluids are prior art, the specific components are not described.

As can be seen from fig. 2 and 3, the damping mechanism 7 includes a sleeve 71, a piston rod 72, and a piston 73. One end of the sleeve 71 is hinged with the support plate 3, and the other end of the buffer mechanism 7 faces the connecting block 6. A cavity 75 is formed in the sleeve 71, the cavity 75 being for storing a viscous fluid. The stored viscous fluid occupies one third of the entire cavity 75. The viscous fluid is a relatively viscous fluid. Flow does not occur easily. The molecular structure of viscous fluid causes a resistance to relative movement between different flow layers, thereby affecting the normal flow of the fluid.

One end of the piston rod 72 is hinged with the connecting block 6, and the other end of the piston rod 72 extends into the sleeve 71 and is welded with the piston 73. The piston 73 is provided with a leak hole 74. In operation, when the beam 9 and the column 8 are subjected to bending force, the connecting block 6 and the support plate 3 approach each other, so that the piston rod 72 moves into the sleeve 71. The piston rod 72 pushes the piston 73 to move, bringing the piston 73 into contact with the viscous fluid. The piston 73 compresses the viscous fluid, causing the viscous fluid to slowly flow out through the orifice 74. Because of the characteristics of the viscous fluid, resistance is generated on the movement of the piston rod 72 and the piston 73, and further buffering is generated to achieve a certain energy dissipation effect.

The piston 73 is provided with a leak hole 74 which is a space passage for the viscous fluid to flow.

With reference to fig. 1 and 2, the support plate 3 is arc-shaped, and the whole support plate 3 is arch-shaped. The arc-shaped design can improve the bearing capacity of the support plate 3 and further improve the strength of the whole device. Springs 31 are arranged in the support plate 3 in sequence. Two ends of the spring 31 are respectively welded with two sides of the inner wall of the support plate 3. The internal compression resistance of the plate 3 can be improved by the springs 31, and when the plate 3 is stressed, the internal springs 31 generate reaction force to prevent the plate 3 from deforming. The support plate 3 is used for assisting in improving the bending resistance.

Compared with the prior art, the beam-column stabilizing component of the fabricated wood structure is provided with the connecting block 6 and the support plate 3 between the column plate 1 and the beam plate 2, so that the firmness degree of the whole stabilizing component is improved. And a sleeve 71, a piston rod 72 and a piston 73 are provided between the connecting plate 6 and the fulcrum plate 3, and a viscous fluid is stored in the sleeve 71. The components are matched to generate buffering force, so that the bending deformation of the component is prevented, and the component is prevented from being broken when being subjected to bending force due to vibration.

The welding has riser 4 on the column plate 1, and in 4 upper ends of riser inserted roof beam 9, the welding of roof beam board 2 has diaphragm 5, and diaphragm 5 one end is passed riser 4 and is inserted in the post 8. Forming the plug improves the security between the column panel 1 and the beam panel 2. The end part of the connecting block 6 is in threaded connection with a screw 61, one end of the connecting block 6 is in threaded connection with the vertical plate 4 through the screw 61, and the other end of the connecting block 6 is connected with the transverse plate 5.

As can be seen from fig. 1 and 4, a first fixing plate 11 is arranged on one side of the column plate 1, the column 8 is surrounded by the column plate 1 and the first fixing plate 11, a first bolt 12 is connected to the first fixing plate 11 through threads, and the first fixing plate 11 is fixed to the column plate 1 through the first bolt 12.

Referring to fig. 1 and 4, a second fixing plate 21 is arranged on one side of the beam plate 2, the beam plate 2 and the second fixing plate 21 surround the beam 9, a second bolt 22 is connected to the second fixing plate 21 through a thread, and the second fixing plate 21 is fixed to the beam plate 2 through the second bolt 22.

The working principle is as follows: in use, when the beam 9 and the column 8 are subjected to bending force, the connecting block 6 and the support plate 3 approach each other, so that the piston rod 72 moves into the sleeve 71. The piston rod 72 pushes the piston 73 to move, bringing the piston 73 into contact with the viscous fluid. The resistance to the movement of the piston rod 72 and the piston 73 is generated according to the characteristics of the viscous fluid.

In summary, the beam-column stabilizing member of the fabricated timber structure is provided with the connecting block 6 and the support plate 3 between the column plate 1 and the beam plate 2, so as to improve the firmness of the whole stabilizing member. And a sleeve 71, a piston rod 72 and a piston 73 are provided between the connecting plate 6 and the fulcrum plate 3, and a viscous fluid is stored in the sleeve 71. The components are matched to generate buffering force, so that the bending deformation of the component is prevented, and the component is prevented from being broken when being subjected to bending force due to vibration.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A beam-column stabilising member of fabricated timber construction, mounted between a column (8) and a beam (9), characterised in that: the device comprises a column plate (1) connected with a column (8), a beam plate (2) connected with a beam (9), a support plate (3), a connecting block (6) and a buffer mechanism (7), wherein the connecting block (6) is positioned between the column plate (1) and the beam plate (2), the support plate (3) is positioned below the connecting block (6), one end of the support plate (3) is connected with the column plate (1), the other end of the support plate (3) is connected with the beam plate (2), and the buffer mechanism (7) is positioned between the connecting block (6) and the support plate (3); viscous fluid is stored in the buffer mechanism (7).

2. A fabricated timber structural beam column stabilising member according to claim 1, wherein: buffer gear (7) include sleeve (71), piston rod (72) and piston (73), sleeve (71) one end is articulated with extension board (3), buffer gear (7) other end is towards connecting block (6), seted up cavity (75) in sleeve (71), cavity (75) are used for storing viscous fluid, piston rod (72) one end is articulated with connecting block (6), in piston rod (72) other end extends to sleeve (71) to link to each other with piston (73), leak hole (74) have been seted up on piston (73).

3. A fabricated timber structural beam column stabilising member according to claim 1, wherein: the support plate (3) is arc-shaped, the springs (31) are sequentially arranged in the support plate (3), and the support plate (3) is used for improving the bending resistance.

4. A fabricated timber structural beam column stabilising member according to claim 1, wherein: one side of the column plate (1) is provided with a first fixing plate (11), the column (8) is surrounded by the column plate (1) and the first fixing plate (11), the first fixing plate (11) is in threaded connection with a first bolt (12), and the first fixing plate (11) is connected with the column plate (1) through the first bolt (12).

5. A fabricated timber structural beam column stabilising member according to claim 1, wherein: and a second fixing plate (21) is arranged on one side of the beam plate (2), the beam plate (2) and the second fixing plate (21) surround the beam (9), a second bolt (22) is connected to the second fixing plate (21) in a threaded manner, and the second fixing plate (21) is connected with the beam plate (2) through the second bolt (22).

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