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JP-2026075520-A - Sliding structure and sliding damper joining method

JP2026075520AJP 2026075520 AJP2026075520 AJP 2026075520AJP-2026075520-A

Abstract

[Problem] To provide a sliding structure and a sliding damper joining method that make it easier to secure a large space for the pressure-contact sliding mechanism in a sliding damper. [Solution] A sliding structure comprising one member, another member, and a sliding damper having a pressure-contact sliding mechanism in which a first one-side sliding plate, another-side sliding plate, and a second one-side sliding plate are pressed against each other and slide, wherein the sliding damper has a one-side sliding damper connection portion, and the first one-side sliding plate and a first one-side joining plate connecting a one-side mounting portion and a one-side sliding damper connection portion on the side of the first one-side sliding plate are continuously integrated at the same level in the sliding direction, and the second one-side sliding plate and a second one-side joining plate connecting a one-side mounting portion and a one-side sliding damper connection portion on the side of the second one-side sliding plate are superimposed. [Selection Diagram] Figure 3

Inventors

  • 向中野 泰行
  • 内海 良和
  • 富居 勝宏

Assignees

  • 株式会社大林組

Dates

Publication Date
20260508
Application Date
20241022

Claims (3)

  1. One of the members, The other member, A sliding damper having a pressure-contact sliding mechanism provided between one member and the other member, wherein a first one-side sliding plate belonging to the one member, a other-side sliding plate belonging to the other member, and a second one-side sliding plate belonging to the one member, sandwiching the other-side sliding plate between the first one-side sliding plate, are pressed against each other and slide. A sliding structure having, The sliding damper is connected to a one-side mounting portion belonging to one of the members and has a one-side sliding damper connection portion provided with the first one-side sliding plate and the second one-side sliding plate. The first one-sided sliding plate and the first one-sided connecting plate, which connects the one-sided mounting portion and the one-sided sliding damper connecting portion on the side of the first one-sided sliding plate, are integrated together at the same level in the sliding direction. A sliding structure in which the second one-sided sliding plate and the second one-sided connecting plate, which connects the one-sided mounting portion and the one-sided sliding damper connecting portion on the side of the second one-sided sliding plate, are superimposed.
  2. The sliding structure according to claim 1, wherein the one-side sliding damper connection portion has an overlapping portion in which the second one-side sliding plate and the second one-side joining plate are superimposed on the one-side sliding damper connection portion, and a non-overlapping portion in which the second one-side sliding plate is superimposed on the one-side sliding damper connection portion, but the second one-side joining plate is not superimposed.
  3. A sliding damper joining method for joining the sliding damper between one member and the other member according to claim 1 or 2, The sliding damper is pre-installed with a first one-side sliding plate, a first one-side connecting plate that connects the one-side mounting portion and the one-side sliding damper connecting portion on the side of the first one-side sliding plate, an integrated plate in which these are continuously integrated at the same level in the sliding direction, and a second one-side sliding plate. A sliding damper joining method in which the second one-sided sliding plate and the second one-sided joining plate, which connects the one-sided mounting portion and the one-sided sliding damper connecting portion on the side of the second one-sided sliding plate, are superimposed, thereby joining the one-sided mounting portion and the one-sided sliding damper connecting portion.

Description

This invention relates to a sliding structure and a method for joining sliding dampers. As a vibration damping mechanism for reducing vibrations in a building's frame, a pressure-contact sliding mechanism is known in which a first sliding plate belonging to one member, a sliding plate belonging to the other member, and a second sliding plate belonging to one member, which sandwiches the other sliding plate between the first sliding plate and the other sliding plate, are pressed against each other and slide (see, for example, Patent Document 1). Japanese Patent Publication No. 2021-162038 This is a conceptual diagram showing an example of the arrangement when a sliding structure is provided on the brace of a frame in one embodiment of the present invention.This is a conceptual diagram showing another example of the arrangement when the sliding structure shown in Figure 1 is installed on the brace of the frame.Figure 1 is an external view of the sliding structure.Figure 3 is an external view showing the sliding damper in the sliding structure as it is assembled at the factory.This is an external view showing a first modified example of the sliding damper shown in Figure 4.This is an external view showing a second modified example of the sliding damper shown in Figure 4.This is an external view showing a third modified example of the sliding damper shown in Figure 4.This is an external view of a sliding structure as a comparative example.Figure 8 is an external view showing the sliding damper in the sliding structure as it is assembled at the factory.This is an enlarged view of section A in Figure 3.This is an enlarged view of section B in Figure 8. The following describes embodiments of the present invention with reference to the drawings. As shown in Figure 1, in one embodiment of the present invention, the sliding structure 1 comprises one member 2, another member 3, and a sliding damper 4 provided between the one member 2 and the other member 3. In this embodiment, the sliding structure 1 is a vibration damping structure that dampens vibrations generated in the building's frame 5 during earthquakes, etc., and is provided on the brace 5a of the frame 5. One member 2 is a brace piece located on one side as viewed from the sliding damper 4, and the other member 3 is a brace piece located on the other side. One or both of the one member 2 and the other member 3 may be composed of multiple members divided in the longitudinal direction, and these multiple members may be connected at the site where the sliding damper 4 is installed. As an example, a conceptual diagram when the other member 3 is composed of multiple members is shown in Figure 2. The black circles in Figure 2 indicate the connection portion 5a1. Note that the sliding structure 1 is not limited to being provided on the brace 5a of the frame 5. As shown in Figure 3, the sliding damper 4 has a pressure-contact sliding mechanism 9 in which a first sliding plate 6 belonging to one member 2, a second sliding plate 7 belonging to the other member 3, and a second sliding plate 8 belonging to one member 2, which sandwiches the second sliding plate 7 vertically between the first sliding plate 6 and the second sliding plate 8, are pressed together vertically and slide horizontally. In this embodiment, for the sake of explanation, the direction in which the sliding damper 4 slides is referred to as the left-right direction, with one side being referred to as the left side and the other side as the right side. The direction in which the first sliding plate 6, the other sliding plate 7, and the second sliding plate 8 are pressed against each other is referred to as the up-down direction. The direction from the web side (described later) toward the other sliding plate 7 side is referred to as the up side, and the opposite side is referred to as the down side. The left-right direction and the up-down direction are perpendicular to each other. Furthermore, the direction perpendicular to both the left-right direction and the up-down direction is referred to as the front-back direction. The sliding damper 4 has a one-side sliding damper connection portion 10 connected to a one-side mounting portion 2a belonging to one member 2 on one side (left side), and provided with a first one-side sliding plate 6 and a second one-side sliding plate 8; and a other-side sliding damper connection portion 12 connected to a other-side mounting portion 3a belonging to the other member 3 on the other side (right side), and provided with a other-side sliding plate 7. The sliding structure 1 includes a first one-side connecting plate 13 connecting the one-side mounting portion 2a and the one-side sliding damper connection portion 10 on the side of the first one-side sliding plate 6, a second one-side connecting plate 14 connecting the one-side mounting portion 2a and the one-side sliding damper connection portion 10 on the side of the second one-side sliding plate 8, a first other-side c