JP2020204378A - Anchor plate - Google Patents

Abstract

To provide an anchor plate which is easily attached to concrete and can expect improvement of workability of overall construction, and to provide a fixing method of the anchor plate.SOLUTION: An anchor plate includes: a flat bottom part 1; a cylindrical part 2 which is erected from a center of the bottom part 1 and in which an inner periphery is threaded; an outer wall part 3 erected from a peripheral edge of the bottom part 1; and reinforcement wall parts 4 which are erected from the bottom part 1 over an area ranging from the cylindrical part 2 to the outer wall part 3. The outer wall part 3 is formed into a square shape in a plan view so as to have plane parts 31 and corner parts 32. The reinforcement wall parts 4 are radially formed from the cylindrical part 2 to the plane parts 31 and the corner parts 32.SELECTED DRAWING: Figure 1

Description

The present invention relates to an anchor plate for fixing an anchor bolt for suspending a ceiling to be installed on, for example, precast concrete (hereinafter, also referred to as “PC”), and a method for fixing the anchor plate.

Conventionally, in buildings such as apartment houses, in order to install structures such as columns and slabs and non-structural members such as ceilings on concrete such as PCs, anchor bolts are made of concrete so as to protrude by a predetermined length. It was fixed. In general, anchor bolts are fixed by tightening bolts to a temporary metal anchor plate or pierced directly into concrete.

Further, when the anchor plates are temporarily installed, if the heights of the anchor plates are different, the lengths of the protruding portions of the anchor bolts may vary. Therefore, a technique for adjusting the height of an anchor plate for each anchor bolt by a laser to perform a series of height adjustment and fixing is disclosed (see Patent Document 1). Further, a method of adhering wiring and piping supports associated with the ceiling to the ceiling is also disclosed (see Patent Document 2).

Japanese Unexamined Patent Publication No. 2011-106228 Japanese Patent No. 4780731

However, the above-mentioned known techniques do not improve the workability of the anchor plate installation itself. In other words, if the temporary installation of the conventional anchor plate on the formwork or the like becomes unnecessary, the work such as height adjustment becomes unnecessary, and further improvement in workability can be expected. Further, if the anchor bolts can be fixed without directly piercing the concrete, it is possible to avoid damage not only to the concrete but also to the steel wires and pipes embedded in the concrete.

In particular, when anchor bolts are fixed to concrete in order to suspend the ceiling from concrete, workability is clearly improved if the anchor plates can be fixed to concrete without trouble. In addition, although drive-in type anchor bolts that need to be installed before concrete is placed are used for interior ceilings and hanger doors, events such as forgetting to hit, mistakes in hitting, falling, and burial may occur, and floor plans may occur. Due to the change, it may become unusable, and the anchor bolt may have to be re-strike. Examples of the use of drive-in type anchor bolts are ceiling materials (16.14 kg), wall doors (25 kg), triple hangard doors (75 kg), triple aluminum frame doors (120 kg), and kitchen hanging cabinets (150 kg / m). ² x loading area).

From such a viewpoint, the inventor reviewed the material, shape, and fixing method to concrete, and came up with the idea of a new anchor plate that solves the problems associated with the conventional anchor plate. That is, the anchor plate for the ceiling is used to remove the anchor bolts to be installed later, aiming at facilitating process control as well as the above-mentioned event. Furthermore, the aim is to improve the ability to respond to work associated with design changes, after-sales repair work after delivery of the living room, and remodeling work with many restrictions such as management rules. In addition, it can be expected to avoid noise that tends to occur in the above construction.

Therefore, an object of the present invention relates to an anchor plate and a method of fixing the anchor plate, which are easy to attach to concrete and can be expected to improve the workability of the overall construction.

That is, the present invention is an anchor plate made of a thermoplastic resin or a metal, which rises from a flat bottom, a cylindrical portion that rises from the center of the bottom and is threaded to the inner circumference, and a peripheral edge of the bottom. It is characterized by including an outer wall portion and a reinforcing wall portion rising from the bottom portion from the cylindrical portion to the outer wall portion.

The outer wall portion is formed in a substantially square shape in a plan view so as to have a flat portion and a corner portion, and the reinforcing wall portion is formed radially from the cylindrical portion toward the flat portion and / or the corner portion. It is desirable to have.
Further, it is desirable that the outer wall portion is formed in a substantially circular shape in a plan view, and the reinforcing wall portion is formed radially from the cylindrical portion toward the inner wall surface of the outer wall portion.

It is desirable to have an adhesive strength of 1.0 N / mm ² or more with respect to the base material attached via the adhesive.

It is desirable that the adhesive is made of a modified silicone resin.

The adhesive contains 30-40% by weight of modified silicone, 60-70% by weight of inorganic filler, 0.1-1% by weight of silica, and 0.1-5% by weight of tin and tin compounds. It is desirable to be there.

Further, the present invention is a method of fixing an anchor plate to a base material, in which the back surface of the bottom portion and the base material are bonded with the above adhesive and cured in a 23 ° C., 50% RH environment for one week. It is characterized in that it adheres at 1.0 N / mm ² or more to an external force of 3 mm / min applied to the anchor plate.

The external force pulls the bolt screwed to the cylindrical portion substantially perpendicular to the base material in the vertical direction, or the root of the bolt screwed to the cylindrical portion substantially horizontal to the base material in the vertical direction. It is desirable that the force is pushing from.

According to the anchor plate in the present invention, it is easy to attach to concrete, and improvement in overall workability of construction can be expected.

It is (a) plan view and (b) front view of the anchor plate in one Embodiment of this invention. It is a bottom view of the said anchor plate. It is a right side view of the said anchor plate. It is the AA end view in the (a) plan view of the anchor plate. It is a BB end view in the CC part in the (a) plan view of the anchor plate. It is (a) plan view and (b) bottom view of another anchor plate in one Embodiment of this invention.

Hereinafter, the structure and fixing method of the anchor plate according to the embodiment of the present invention will be described with reference to FIG.
In these figures, there is a part in which only one part is numbered for the same part that exists in the plurality of parts. For convenience of explanation, a predetermined part and this leader line are shown by a hidden line (broken line) or an imaginary line (two-dot chain line), and a cross-sectional part is shown by hatching. 2 to 5 supplement FIG. 1 in order to clarify the shape of the anchor plate.

The anchor plate P shown in FIG. 1 is made of a thermoplastic resin, for example, PVC (polyvinyl chloride), PC (polycarbonate), PMMA (acrylic), PE (polyethylene), PP (polypropylene), PS (polystyrene), ABS ( It is made of acrylonitril, butadiene, styrene), AS (acrylonitrile, styrene), PBT (polybutylene terephthalate), PET (polyethylene terephthalate), and CF (carbon fiber). According to this, weight reduction can be expected as compared with metal. Further, in the case of a transparent material such as PC (polycarbonate), the filling state of the adhesive can be visually observed at the time of attachment, so that a desired degree of adhesion can be obtained.
The anchor plate P corresponds to an acrylic plate cut into the above-mentioned shape and lightened, or a plate molded into the above-mentioned shape by injection or the like, and the molding method is not limited as long as it has a desired rigidity.

As shown in FIG. 1, the anchor plate P includes a flat bottom portion 1, a cylindrical portion 2 rising from the center of the bottom portion 1 and threaded to the inner circumference, an outer wall portion 3 rising from the peripheral edge of the bottom portion 1, and a cylindrical portion. It is provided with a reinforcing wall portion 4 rising from the bottom portion 2 from 2 to the outer wall portion 3. The back surface of the bottom portion 1 has a recess 11 formed by abutting an injection for injecting a thermoplastic resin at the time of molding the anchor plate P. The outer wall portion 3 is formed in a square shape in a plan view so as to have the flat surface portion 31 and the corner portion 32, and the reinforcing wall portion 4 is formed radially from the cylindrical portion 2 toward the flat surface portion 31 and the corner portion 32. There is. According to this, not only further weight reduction but also desired rigidity can be obtained. The cylindrical portion 2 does not penetrate the bottom portion 1 in order to maintain the adhesive strength and to prevent the adhesive from entering the cylindrical portion 2 and obstructing the movement of the bolt.
The bottom portion 1 and the outer wall portion 3 may be formed in a rectangular shape or a circular shape in a plan view. The depth and diameter of the recess 11 may be any as long as the desired adhesive strength between the bottom portion 1 and the base material can be exhibited.

The anchor plate P has an adhesive strength of 1.0 N / mm ² or more with respect to the base material attached via the adhesive.
The adhesive corresponds to, for example, a modified silicone resin, in detail, 30 to 40% by weight of the modified silicone, 60 to 70% by weight of the inorganic filler, 0.1 to 1% by weight of silica, tin and Those containing 0.1 to 5% by weight of a tin compound are applicable.
As the base material, for example, concrete and deck slab are applicable, and in the case of concrete, standard one, misaligned one, junker repaired one, and one with a predetermined coating material applied to the surface. Also includes.
If the adhesive strength is lower than 1.0 N / mm ² , the adhesive strength is too weak and there is a risk of peeling from the concrete.

As a method of fixing the anchor plate P to the base material, the back surface of the bottom 1 and the base material are bonded to each other with an adhesive, and after curing in an environment of 23 ° C. and 50% RH for one week, 3 mm added to the anchor plate P. Adhere at 1.0 N / mm ² or more against an external force of / min.
The external force is a force that pulls the bolt screwed to the cylindrical portion 2 substantially perpendicular to the base material in the vertical direction or pushes the root of the bolt screwed to the cylindrical portion 2 substantially horizontal to the base material from the vertical direction. Force is applicable.

Next, the adhesive strength test of the anchor plate to the base material will be described.

≪Premise of examination≫
Anchor plates are attached to the adhesive applied to the base material and cured in a 23 ° C. and 50% RH environment for 1 week to prepare a test piece. The adhesive contains 30 to 40% by weight of modified silicone, 60 to 70% by weight of an inorganic filler, 0.1 to 1% by weight of silica, and 0.1 to 5% by weight of tin and tin compounds. Use what you have. The anchor plate measures 40 mm × 40 mm × 10 mm and has a 3/8 tap (semi-penetrating) in the center and a tap portion for bolt joining in the center.

≪Plane tensile test≫
○ Contents After curing, tighten the bolt with two hexagon nuts attached to the screw hole of the cylindrical part of the anchor plate, which is the test piece, loosen it by half a circumference, fix the hexagon nut with a testing machine, and pull the tensile speed from the vertical direction 3 mm / I pulled it with min.
○ Base material Concrete: Standard, misalignment (3 mm), repaired junker (Polymer mix # 30 manufactured by Nihon Kasei), with coating film (New Belan coat manufactured by Nihon Kasei)
Deck slab: lined with mortar

≪Shear tensile test≫
○ Contents After curing, with the bolt with the hexagon nut attached to the root in the screw hole of the cylindrical part of the anchor plate, which is the test piece, change the direction of the test piece so that the bolt is almost horizontal, and then use the above bolt. It was pushed from the direction perpendicular to the root at a shear rate of 3 mm / min.
○ Base material Concrete: Standard, junker repaired (Nihon Kasei Polymer Mix # 30)

≪Test result≫

Table 1 shows the results of the plane tensile test. With standard concrete, the highest adhesive strength of 1.54 N / mm ² was obtained. On the other hand, with the wrong concrete, the lowest adhesive strength of 1.01 N / mm ² was obtained. In general, in the flat tensile test, the adhesive strength tends to decrease as the thickness of the adhesive increases. Therefore, the adhesive strength is higher in the wrong concrete than in the standard concrete because the thickness of the adhesive is increased. It may have decreased. In addition, the concrete with the junker repaired had an adhesive strength of 1.35 N / mm ² , which was lower than that of the standard concrete, and interfacial fracture of the base material was also observed. It is possible that the components contained in the polymer cement mortar used for repairs migrated to the interface and affected the adhesiveness. The concrete and the deck slab with the coating, the resulting adhesive strength of 1.44N / mm ² and 1.30N / mm ² which slightly inferior than standard concrete.

Table 2 shows the results of the shear test. Adhesive strength of 1.54 N / mm ² is obtained for standard concrete and 1.37 N / mm ² for concrete that has been repaired with a junker, and these factors are considered to be the same as those of the results of the plane tensile test.

When the above-mentioned plane tensile test was performed by inserting spacers having a predetermined thickness between the four corners of the anchor plate and the base material, the thicker the spacer, the lower the adhesive strength, but even with a spacer of maximum 2.0 mm, 1 An adhesive strength of .32 N / mm ² was obtained.

According to such an anchor plate and the anchor plate fixing method, improvement in workability such as removal of unnecessary inserts and support by post-construction anchors, reduction of concrete defects by inserts, and load for changing floor plans in new and existing constructions. It can be expected to be effective in dealing with anchor installation, which is a problem related to remodeling such as noise reduction due to drilling work and load on the skeleton.

It should be noted that the anchor plate shown in FIG. 6 has the same or similar action and effect as the anchor plate shown in FIGS. 1 to 5 except that the shape in a plan view is different, and detailed description thereof will be omitted.

P Anchor plate 1 Bottom 11 Recess 2 Cylindrical part 3 Outer wall 31 Flat part 32 Square part 4 Reinforcing wall part

Claims (7)

Flat bottom and
A cylindrical part that rises from the center of the bottom and is threaded to the inner circumference,
The outer wall that rises from the periphery of the bottom and
A reinforcing wall portion rising from the bottom portion from the cylindrical portion to the outer wall portion,
Anchor plate characterized by being equipped with. The outer wall portion is formed in a substantially square shape in a plan view so as to have a flat portion and a corner portion.
The anchor plate according to claim 1, wherein the reinforcing wall portion is formed radially from the cylindrical portion toward the flat surface portion and / or the corner portion. The outer wall portion is formed in a substantially circular shape in a plan view.
The anchor plate according to claim 1, wherein the reinforcing wall portion is formed radially from the cylindrical portion toward the inner wall surface of the outer wall portion. The anchor plate according to any one of claims 1 to 3, wherein the anchor plate has an adhesive strength of 1.0 N / mm ² or more with respect to a base material attached via an adhesive. The anchor plate according to any one of claims 1 to 4, wherein the adhesive is made of a modified silicone resin. A method of fixing the anchor plate according to any one of claims 1 to 5 to a base material.
The back surface of the bottom and the base material are bonded together with the adhesive.
A method for fixing an anchor plate, which comprises bonding at 1.0 N / mm ² or more to an external force of 3 mm / min applied to the anchor plate after curing for one week in an environment of 23 ° C. and 50% RH. The external force pulls the bolt screwed to the cylindrical portion substantially perpendicular to the base material in the vertical direction, or the root of the bolt screwed to the cylindrical portion substantially horizontal to the base material in the vertical direction. The method for fixing an anchor plate according to claim 6, wherein the force is a pushing force from the bolt.

Images