KR102183322B1 - Expandable joint for concrete structure - Google Patents

Abstract

A flexible joint member capable of easily shaping into a desired shape is provided so as to absorb the pressure received from the joint portion. A flexible joint member (1) made of a flexible material disposed over the joint portion (3) between the concrete structures (2, 2), and push portions (4) on both sides and pressed against the concrete structures (2, 2) , The folded portion 5 is disposed between the push portions 4 on both sides and is folded to absorb the pressure received from the joint portion 3, and the folded portion 5 is a folded portion processed to facilitate folding. It is characterized by having a processing unit (7).

Description

Expansion joint for concrete structures{EXPANDABLE JOINT FOR CONCRETE STRUCTURE}

The present invention relates to a flexible joint member used in an expansion joint for a concrete structure, and in particular, to a flexible joint member made of a flexible material disposed over a joint portion between concrete structures. .

The inside and outside of the joint portion, which is a connection portion such as a culvert or the like constructed in the underground, such as a water channel or a hollow groove, which is a concrete structure constructed of concrete, is performed to water the inside and outside. In this case, the concrete structures on both sides unevenly subside or the gap between the concrete structures on both sides between the joints is shifted due to the influence of an earthquake, etc. To allow these shifts, an expansion joint for concrete structures is adopted. Has become. As such an expansion joint for concrete structures, Patent Document 1 is known, for example. In the expansion joint for concrete structures, a flexible joint member made of a flexible material disposed over a joint portion between concrete structures is used.

In general, a flexible joint member includes a push portion pressed against the concrete structure on both sides, and a folded portion disposed between the push portions on both sides and folded to absorb the pressure received from the joint portion.

Usually, the folded portion is formed by bending into a bellows shape, for example. 6 shows a folded portion 25 formed by bending into a bellows shape and a cover rubber 26 disposed thereon. The pressure received from the joint portion is absorbed by the folded portion 25 being elongated. The pressure received increases as much as the gap between the joints increases. In the case of applying a bellows-shaped bent portion to a joint portion having a constant width, for example, in order to absorb a greater pressure, the expanded flexible joint member needs to form a larger space, It is conceivable that the bellows make the number of bends constant and the bend height high, or the bend height is made constant and the bellows increase the number of bends, thereby increasing the actual length of the folded portion.

Japanese Patent Laid-Open Publication No. 2010-150807

However, when the number of bends of the bellows is constant and the bend height is increased, the height of the peak of the bellows is increased, and it is necessary to increase the frame device for shaping the bent portion of the bellows shape. , There is a problem that the frame device becomes expensive. In addition, when the bend height is constant and the number of bends of the bellows is increased, the bend interval of the bellows is shortened, the flexible material is bent sharply at a right angle, and there is a problem that the flexible material cannot be safely bent and shaped. In either case, there is a limit to making the flexible joint member have a bellows-shaped bent portion.

Here, the present invention solves the problems of the prior art and provides a flexible joint member that can be easily shaped into a desired shape so as to absorb pressure received from the joint portion.

In order to solve the above problems, the flexible joint member according to the present invention is a flexible joint member made of a flexible material disposed over a joint portion between concrete structures, and push portions on both sides and pressed against the concrete structure, and both sides It is characterized in that it comprises a folding portion between the push portion and arranged to be folded to absorb the pressure received from the joint portion, the folded portion is characterized in that it has a folding processing portion treated to facilitate folding.

In addition, the folding treatment portion is characterized in that the thickness is formed thinner than the adjacent portion.

Further, the folding treatment portion is characterized in that it is chemically treated so that it is easier to fold than the adjacent portion.

In addition, the folded portion is characterized in that each of the side portions is formed in an S-shape and an inverted S-shape so that the bottom portion becomes thinner in a state in which the folded portion is folded and arranged as viewed in cross section.

In addition, the folding processing unit is characterized in that it is located in the S-shaped and inverted S-shaped bent portions of the side portion.

In addition, the expansion joint for a concrete structure according to the present invention includes a flexible joint member made of a flexible material disposed over the joint portion between the concrete structures, and a fixing portion for pressing and fixing the flexible joint member to the concrete structure. , The flexible joint member includes push portions on both sides and pressed against the concrete structure, and a folded portion disposed between the push portions on both sides and folded to absorb pressure received from the joint portion, and the folded portion It is characterized in that it has a folding treatment unit treated to be easy to fold.

According to the configuration of the present invention, since the flexible joint member has a folding treatment portion treated to be easily folded, it is possible to easily shape the flexible joint member into a desired shape so that the pressure received from the joint portion can be absorbed by bending at the folding processing portion. .

1 is a cross-sectional view showing a shape at the time of shipment from a factory showing an embodiment of a flexible joint member according to the present invention.
2 is a view showing a shape in a folded state in order to install a flexible joint member on site.
3 is a view showing a shape in a state in which the flexible joint member is inflated by receiving pressure from the joint portion after installing the flexible joint member at the site.
4 is a view showing an example in which the flexible joint member according to the present invention is applied to an expansion joint for a concrete structure.
5 is a plan view showing an expansion joint for a concrete structure corresponding to FIG. 4.
6 is a view showing a conventional folded portion.

An embodiment of a flexible joint member according to the present invention will be described with reference to FIGS. 1 to 4.

Fig. 1 is a cross-sectional view showing a flexible joint member 1 at the time of shipment from a factory before being placed in a joint portion 3 between concrete structures 2 and 2. The flexible joint member 1 is formed of a flexible member such as rubber material so as to be water-repellent, and has block-shaped push portions 4 and 4 on both sides and pressed against the concrete structures 2 and 2 And, it is provided between the push portions 4 and 4 on both sides, and is provided with a folding portion 5 in the shape of a thin plate that is folded and arranged to absorb the pressure received from the joint portion 3.

The folding part 5 has a plurality of folding treatment parts 7 that have been treated to make folding easier. The folding part 5 has two folding processing parts 7a on the center side and two folding processing parts 7b on the outside. In this embodiment, the folding processing part 7 is processed so that the thickness may be formed thinner than the adjacent part. For example, the thickness of the folded portion 7 is 6 mm, while the thickness of the adjacent portion is 8 mm. Each of the folding treatment portions 7 is processed over a length range of 10 mm to 20 mm. The distance between the adjacent folding processing portion 7a and the folding processing portion 7b is about 30 mm, and the interval between one folding processing portion 7a and the other folding processing portion 7a is about 13 mm. The flexible joint member 1 has a length from the push part 4 to the push part 4, for example, about 450 mm.

FIG. 2 is a cross-sectional view showing the flexible joint member 1 in a folded state in order to be disposed in the joint portion 3 between the concrete structures 2 and 2. The flexible joint member 1 is formed symmetrically with respect to the center line 9. In the folded state shown in Fig. 2, when viewed from a cross-section, the left portion is formed as an S-shaped portion 5a so that the bottom portion 5c of the flexible joint member 1 is thinner than the upper portion, and the right portion is reversed S. It is formed by the shape part 5b. The top (5d) is formed almost flat. The folding part 7a is located in the bent part of the upper part of the S-shaped part 5a, and the folding part 7b is located in the bent part of the lower part. Similarly, the folding part 7a is located in the bent part of the upper part of the inverted S-shaped part 5b, and the folding part 7b is located in the bent part of the lower part. The flexible joint member 1 is formed with an S-shaped portion 5a and an inverted S-shaped portion 5b on both sides, and is largely constricted so as to overlap with the bottom portion 5c and the top portion 5d.

Unlike the flexible joint member 1 shown in FIG. 2 that is repeatedly folded back in a bellows shape over a plurality of times, the folded portion over the joint portion 3 is simplified into one, and a folding treatment portion 7 is formed. As a result, it can be easily bent in the folding processing unit 7, and there is no need to use a frame device, and it is possible to bend efficiently and easily.

3, the flexible joint member 1 shown in FIG. 2 is placed in the joint part 3 between the concrete structures 2 and 2, and then expanded from the folded state by the pressure received from the joint part 3 It shows the flexible joint member (1) changed to the state.

Although the folded portion of the flexible joint member 1 shown in FIG. 2 is simplified into one, an S-shaped portion 5a and an inverted S-shaped portion 5b are formed on both sides, and the bottom portion 5c and the top portion ( Since it is largely constricted so as to overlap with respect to 5d), as shown in Fig. 3, the flexible joint member 1 in an expanded state is a semicircular circumferential portion whose diameter is the distance between the pushing portions 4 and 4 on both sides. It is possible to form a wide space capable of absorbing pressure, which is composed of linear portions on both sides.

Next, a second embodiment of the flexible joint member 1 of the present invention will be described.

In the present embodiment, the folding treatment portion 7 is chemically treated so that it is easier to fold than its adjacent portion. As a chemical treatment, there is a chemical treatment in which the folded portion 7 has a greater elasticity in a rubbery state compared to the adjacent portion. Further, the folding treatment unit 7 may be made into, for example, a sponge shape to further reduce density. In addition, as a chemical treatment, oil or the like may be applied to the folded portion 7 in order to chemically treat the folded portion 7 so that it is more easily deformed than the adjacent portion. In addition, the folding treatment portion 7 may be formed of a material different from the adjacent portion, and may be integrated with the adjacent portion.

Next, an example in which the above-described flexible joint member 1 is applied to an expansion joint for a concrete structure will be described with reference to FIGS. 4 and 5.

The expansion joint 20 for a concrete structure includes a flexible joint member 1 made of a flexible material disposed over the joint portion 3 between the concrete structures 2 and 2, and the flexible joint member 1 with a concrete structure 2 , It is provided with a plurality of fixing portions 9 for pressing and fixing 2).

The flexible joint member (1) is between the push parts (4) on both sides and pressed against the concrete structure (2) and the push parts (4) on both sides to absorb the pressure received from the joint part (3). The folded portion 5 is provided to be folded and disposed, and the folded portion 5 has a folding portion 7 processed so as to be easily folded.

The fixed part 9 includes a contact part 6 having a'U'-shaped cross-section that can be covered over the lengthwise direction of the push part 4, a contact part 6 covering the push part 4, and a contact part 6 A plurality of fixing units 10 are provided for pressing and fixing the concrete structures 2 and 2 at a plurality of locations at intervals in the longitudinal direction of the.

The fixing unit 10 includes a pressing portion 11 capable of covering the contact portion 6 having a cross-sectional deformation'C' shape, and a pressing portion 11 on the contact portion 6 covering the pushing portions 4 and 4. An anchor bolt nut (14) consisting of a bolt (12) and a nut (13) for pushing the pressing part (11) to the concrete structure (2) in the covered state and pushing the push part (4) to the concrete structure (2) Have. The bolt 12 is embedded in the concrete structure 2, and the nut 13 is fastened to the bolt 12 at the top side of the bolt 12 through a washer 18 placed on the pressing part 11.

The contact part 6 covered with the push part 4 is located on the joint part 3 side with respect to the bolt 12 in cross section, and in FIG. 4, the contact part 6 on the right is to the bolt 12 on the right. On the other hand, it is located on the side of the joint part 3, and the contact part 6 on the left is located on the side of the joint part 3 with respect to the bolt 12 on the left.

A protruding projection 4b is formed on the lower surface of the main body 4a of the pushing portion 4. When the push portion 4 is pressed against the surface 2a of the concrete structure 2, the protrusion 4b is compressed and deformed, and the sealing property becomes more reliable.

The cover rubber 19 is covered above the flexible joint member 1, and the end 19a of the cover rubber 19 is wound between the pushing portion 4 and the contact portion 6.

5 is a plan view showing an expansion joint 20 for a concrete structure. As shown in FIG. 5, a plurality of fixing units 10 are arranged in the longitudinal direction of the contact part 6 at intervals, and the contact part 6 covering the push part 4 is made into concrete by an anchor bolt nut 14. It is fixed by pushing it onto the structure (2).

When pressure is received from the joint portion 3, the cover rubber 19 is elongated, and the flexible joint member 1 enters an expanded state shown in FIG. 3 to form a wide space capable of absorbing pressure.

According to the present embodiment, since the flexible joint member 1 has a folding treatment portion treated to be easily folded, the flexible joint member 1 is bent in the folding treatment portion without relying on the frame device. ) It becomes possible to assemble.

1: flexible joint member
2: concrete structure
3: Joint part
4: push
5: fold
6: contact
7: folding processing unit
5a: S-shaped part
5b: inverted S-shaped part
10: fixed unit
11: pressurization part
12: bolt
13: nut
14: anchor bolt nut
19: cover rubber
20: expansion joint for concrete structures

Claims (6)

A flexible joint member made of a flexible material disposed over the joint portion between concrete structures,
A fixing part for pressing and fixing the flexible joint member to the concrete structure
And,
The flexible joint member,
Pushing portions on both sides and pressed against the concrete structure,
And a folded portion disposed between the pushing portions on both sides and folded to absorb the pressure received from the joint portion,
The folded portion has a folding treatment portion treated to facilitate folding, and the fixing portion pushes the contact portion to the concrete structure with a contact portion having a'C' shape in a cross-section opening downward while covering each push portion from above. An expansion joint for a concrete structure, characterized in that it has a fixing unit for attaching and fixing. The method of claim 1,
The folding treatment portion is an expansion joint for a concrete structure, characterized in that the thickness is formed thinner than the adjacent portion. The method of claim 1,
The expansion joint for a concrete structure, wherein the folding treatment part is chemically treated to make it easier to fold than the adjacent part. The method of claim 1,
The folded portion, when viewed from the cross-section, in a state that is folded and arranged, each of both side portions is formed in an S-shape and an inverted S-shape so that the bottom portion becomes thinner. The method of claim 4,
The folding treatment unit is an expansion joint for a concrete structure, characterized in that located in the bent portion of the S-shaped and the inverted S-shaped. delete

Images