JP3198237U - Reinforcing equipment for concrete structures - Google Patents

Abstract

An apparatus for reinforcing an existing concrete structure that has deteriorated over time is provided. The reinforcing steel plate is fixed and held by a plurality of spike bond anchors 20 having a short perforation length so that the surface of the existing concrete structure 40 and the plane of the reinforcing steel plate 10 are horizontal, and the existing concrete is fixed. A space between the surface of the structure 40 and the reinforcing steel plate 10 is filled with a grout 30, a lattice reinforcing bar, an iron ball, or the like. Further, in order to positively apply tension, a plurality of anchor holes 11 are formed in the reinforcing steel plate 10, and the existing concrete structure 40 is aligned with the anchor holes 11, and the surface of the spike bond anchor 20 is the existing concrete structure 40. The spike bond anchor 20 is buried and fixed so as to be horizontal with the surface of [Selection] Figure 2

Description

  The present invention relates to an apparatus for reinforcing an existing concrete structure that has deteriorated over time.

  To reinforce the existing concrete structure against aging deterioration of the concrete structure, for example, clean the surface of the existing concrete structure, install the post-installed anchor bolts, and fix the steel plate to it, between the concrete and the steel plate There is a method of injecting grout into the space.

  JP-A-8-291631

  As shown in this example, the conventional existing concrete reinforcing method has problems in construction characteristics as described below, and is a limitation in use.

  1) In order to repair and reinforce existing concrete structures by conventional methods, the purpose cannot be achieved unless they are installed on a large number of anchor bolt structures. Since it takes 6 to 7 minutes to drill the post-installed anchor, it takes a long time to work the anchor bolt for holding the steel plate. The size of the steel plate is determined according to the scale to be reinforced, and in order to reinforce the entire structure accordingly, a considerable amount of steel plate, a precise anchor bolt at the construction position, and a steel plate in which the corresponding hole is precisely processed Need a large scaffold to install. Since the grout is injected throughout, the anchor bolt and the steel plate need to be adjusted, and a scaffold that takes into account this long working time is required, which increases the cost of the scaffold.

  2) When this conventional method is adopted, the hole position of the steel plate is determined in advance, so the construction accuracy of the post-construction anchor is important. Since the depth of drilling of the post-installed anchor is deep, the accuracy of hitting the reinforcing bars and aggregates of the structure is worse than the accuracy of the holes drilled in advance in the steel plate. For this reason, a hole position will shift | deviate and it will become impossible to join with the hole of the steel plate decided beforehand, and the steel plate hole needs to be reworked in many cases. Due to the reworking of the steel sheet, the construction time becomes longer, which may make the construction impossible.

  3) It cannot be implemented especially in the case of railways or highway tunnels where construction time is limited.

  An object of the present invention is to solve the above problems and provide a reinforcing device for an existing concrete structure (slab).

  A reinforcing device for an existing concrete structure, in which the reinforcing steel plate is fixed and held by a plurality of spike bond anchors so that the surface of the existing concrete and the plane of the reinforcing steel plate are horizontal, and the existing concrete surface and the reinforcing steel plate The space between the steel plates is filled with grout (claim 1).

  In the reinforcing apparatus for an existing concrete structure according to claim 1, a spike bond anchor, a spring washer and a nut are installed between the reinforcing steel plate and the existing concrete structure in order to positively apply tension (claim). Item 2).

  In the reinforcing apparatus for an existing concrete structure according to claim 1, for the purpose of seismic reinforcement, the space between the reinforcing steel plate and the existing concrete structure is filled and installed with grout and lattice reinforcing bars ( Claim 3).

  The reinforcing device for an existing concrete structure according to claim 1, wherein a grout and an iron ball are mixed and filled in a space between the reinforcing steel plate and the existing concrete structure such as a manhole in order to prevent floating. (Claim 4).

  FIG. 7 shows the structure of a spike bond anchor (see Utility Model Registration No. 3136058 for details) used as a connecting member between an existing concrete structure and a reinforcing steel plate in this device. In this figure, a spike bond anchor 20 is composed of a metal cap 201 and a bolt 202. A bolt is formed by attaching a groove to an existing concrete structure (not shown) and adhering it to concrete with the surface area of the cap 201 and welding the cap 201 to the concrete. At 202, post-installed anchor bolts that inject grout to obtain support.

  The reinforcement device for an existing concrete structure using the spike bond anchor of the present invention has the following effects as compared to the conventional device (see comparison of conventional anchor bolt and spike bond anchor in Table 1).

  1) By using spike bond anchors, the groove to be drilled can be set at a portion shallower than the cover thickness of the reinforcing bar (thickness from the surface of the concrete structure to the reinforcing bar). It can be kept accurate (accuracy is within 2 millimeters), and the construction time is short (within 1 minute).

  2) Since the reinforcing steel plate 10 can be accurately installed in a short time since the spike bond anchor 20 can be installed with high accuracy even if holes are formed in advance. This eliminates the need for reworking of the reinforcing steel sheet 10, so that the construction time can be greatly improved.

  3) Since it is not necessary to construct the existing concrete structure 40 as a whole, it can be constructed by limiting the damaged part, and the installation range can be determined and installed in a short period of time. If a mobile scaffold (high rider, etc.) is used, the temporary scaffold is not required.

  4) If the spring washer 23 is installed on the spike bond anchor 20 at the center, and the existing concrete structure 40 is injected with the reinforcing steel plate 10 and the grout 30, they can be strengthened as one piece with the leveled concrete. (Fig. 3 shows a building flat roof reinforcing device.)

  5) In the existing concrete structure reinforcing apparatus, a grid-like reinforcing bar can be installed 31 between the existing concrete structure 40 and the reinforcing steel plate 10 in addition to the grout 30 and used as a building seismic reinforcing apparatus. (Fig. 4 shows the building seismic reinforcement device.)

  6) If a steel ball 32 is mixed into the grout 30 between the existing concrete structure 40 and the reinforcing steel plate 10 in the reinforcement device for the existing concrete structure, the difference in specific gravity between the concrete aggregate (stone) and the iron ball is used. Can be used as an anti-lifting device for existing manholes due to liquefaction during earthquakes. (The manhole floating prevention device is shown in FIG. 5.)

  7) Since the drilling depth is deep, the accuracy of hitting the reinforcing bars and aggregates contained in the structure is worse than the hole position accuracy of the steel plate to be joined. The spike bond anchor (utility model registration No. 3136058) used in this device has a shallow groove, so that the hole position can be accurately constructed, and since it does not differ from the steel plate hole position accuracy, it can be joined to the steel plate. Reworking the holes in the steel plate is unnecessary. For this reason, construction time is short and it can install correctly in a plan position.

Reinforcing device for existing concrete structure of the present invention (Example 1) Sectional view of a reinforcing device for an existing concrete structure of the present invention (Example 1) Example 1 Reinforcing device for existing concrete structure of the present invention applied to an architectural flat roof (Example 1) Reinforcing device for existing concrete structure of the present invention applied to road bridge deck (Example 1) Reinforcing apparatus for existing concrete structure of the present invention applied to improve the earthquake resistance of building columns (Example 2) Reinforcing device for existing concrete structure of the present invention applied to the prevention of manhole lift (Example 3) Structure of spike bond anchor

  1 to 4 show an embodiment of claims 1 and 2. 1 and 2, a plurality of anchor holes 11 are formed in the reinforcing steel plate 10, the existing concrete structure 40 is aligned with the anchor holes 11, and the surface of the spike bond anchor 20 is parallel to the surface of the existing concrete structure 40. The spike bond anchor 20 was embedded and fixed so that the spacer 22 was provided in the vicinity of the anchor hole 11, and the reinforcing steel plate 10 was fastened with the nut 21 to fix the reinforcing steel plate 10. The grout 30 is injected and filled into the space between the existing concrete structure 40 and the reinforcing steel plate 10 from the air holes 12. The existing concrete structure 40 is composed of the reinforcing steel plate 10, the spike bond anchor 20, and the grout 30 to complete the reinforcing device. FIG. 3 shows an application to the building roof reinforcement. Here, the reinforcing steel plate 10 is fastened with a spring washer 23 and a nut 21 to fix the reinforcing steel plate 10, so that the reinforcing steel plate 10 and the existing concrete structure 40 are fixed. Is actively giving tension. FIG. 4 shows an example of road bridge floor plate reinforcement, in which asphalt concrete is placed on the reinforcing steel plate after the above-described reinforcement.

  FIG. 5 shows an embodiment of claim 3. In this example of a building strut seismic device, a space between the reinforcing steel plate 10 and a strut 60 of an existing concrete structure is filled and installed with a grout 30 and a lattice reinforcing bar 31.

  FIG. 6 shows an embodiment of claim 4. In this example of the manhole lifting prevention device, the grout 30 and the iron ball 32 are mixed and filled in the space between the reinforcing steel plate 10 and the manhole 70 of the existing concrete structure.

  As a reinforcement device for existing concrete structures, the building roof (Fig. 3), road bridge deck (Fig. 4), building support with improved seismic resistance (Fig. 5), and prevention of lifting are shown in the above example. In addition to the manhole (Fig. 6), it can be used in existing concrete structures in a wide range of fields.

10 Steel plate for reinforcement 11 Hole for anchor 12 Air hole 20 Spike bond anchor 21 Nut 22 Spacer 23 Spring washer 30 Grout 31 Lattice rebar 32 Steel ball 40 Existing concrete structure 50 Road bridge 51 Floor slab 52 Asphalt concrete 60 Existing strut 70 Manhole 201 metal cap 202 bolt

2. The apparatus for reinforcing an existing concrete structure according to claim 1, wherein a plurality of anchor holes are formed in the reinforcing steel plate in order to positively apply tension, and the existing concrete structure is aligned with the anchor holes, and the surface of the spike bond anchor is provided. Spike bond anchors are buried and fixed so that is level with the surface of the existing concrete structure, spacers are provided near the anchor holes, the reinforcing steel plates are tightened with nuts, and the reinforcing steel plates are fixed, and the reinforcing steel plates are provided. Grout is injected and filled into the space between the existing concrete structure and the reinforcing steel plate through the air holes (claim 2).

Claims (4)

A reinforcing device for an existing concrete structure, in which the reinforcing steel plate is fixed and held by a plurality of spike bond anchors so that the surface of the existing concrete and the plane of the reinforcing steel plate are horizontal, and the existing concrete surface and the reinforcing steel plate An apparatus for reinforcing an existing concrete structure, characterized in that grout is filled in the space between the steel plates. The reinforcing apparatus for an existing concrete structure according to claim 1, wherein a spike bond anchor, a spring washer and a nut are installed between the reinforcing steel plate and the existing concrete structure in order to positively apply tension. Reinforcing equipment for existing concrete structures. The reinforcing device for an existing concrete structure according to claim 1, characterized in that a grout and a lattice reinforcing reinforcing bar are filled and installed in a space between the reinforcing steel plate and the existing concrete structure for seismic reinforcement. Reinforcing equipment for existing concrete structures. The reinforcing device for an existing concrete structure according to claim 1, wherein a grout and an iron ball are mixed and filled in a space between the reinforcing steel plate and the existing concrete structure such as a manhole in order to prevent floating. An apparatus for reinforcing an existing concrete structure characterized by the above.

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