JP2003222108A - Eccentric spacer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an eccentric spacer which enables a fastened body to be stably fixed on the prescribed position by employing two spacer elements only, irrespective of a position of a bolt provided to the base. <P>SOLUTION: In order to fix the fastened body 3 in the prescribed position on a base 1 in which a bolt 2 is planted through the spacer inserted through a fastening circular through hole 4 in which a fastened body 3 is loosely fitted, the eccentric spacer has a circular shape whose dimension made by adding the radius r<SB>1</SB>of the bolt 2 to the radius r<SB>2</SB>of the fastening circular through hole 4 is taken as a diameter (r<SB>2</SB>+r<SB>1</SB>). The spacer is configured by combining the first spacer element 5A having a circular section shape in which the circular cross-sectional area of the bolt 2 is eliminated so as to be inscribed with the outer peripheral surface of the shape, and the second spacer element 5B having a circular section shape in which the circular cross-sectional area whose diameter is (r<SB>2</SB>+r<SB>1</SB>) is eliminated so as to inscribe the outer peripheral surface while circumscribing the inner peripheral surface of the through hole 4. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an eccentric spacer used for fixing a fastened body (block) having a circular through hole for fastening which is loosely fitted to a foundation on which a bolt is planted. It is about. Here, with the eccentric spacer, a hole corresponding to the center of the fastening circular through hole is formed, and in many cases, a hole eccentric from the center of the fastening circular through hole is formed. Refer to the spacers.

[0002]

2. Description of the Related Art FIG. 4 is an explanatory view of mounting a block on a conventional foundation.

In this figure, 101 is a foundation, 102 is an anchor bolt embedded and embedded in the foundation 101, 103 is a block (body to be fastened), and 104 is a through hole for fastening in which the anchor bolt 102 is loosely fitted. 105 are washers, and 106 are nuts screwed onto the anchor bolts 102. Note that 101A is a position on the plane of the base 101 where the block 103 should be fastened.

For example, a fastening through hole 104 is provided in an upper portion of a foundation 101 on which a guideway side wall of a floating railway is installed.
Block 103 (the object to be fastened which is the fastening portion of the guideway side wall) 103 is located, and the anchor bolt 102 for mounting which is erected on the foundation 101 is passed through the fastening through hole 104 to remove the washer 105. Through the nut 1
It is structured to be fastened with 06.

At the time of this attachment, the block 103 must be properly installed at the position 101A to be fastened to the foundation 101, but some deviation in the installation position of the anchor bolt 102 is unavoidable. Since it is necessary to change the position 101A after the block 103 is installed at the position 101A, it is necessary to provide a play in the fastening through hole 104 of the block 103, and it is necessary to completely fit the anchor bolt 102. However, the fastening through hole 104 is provided with a gap with respect to the anchor bolt 102.

However, as described above, the anchor bolt 10
If there is a gap between the fastening bolt 1 and the fastening through hole 104, the anchor bolt 1 may be in use while in use, for example, in the case of a guideway side wall of a levitation railway, due to vibration during passage of the train.
If the nut 106 that is screwed with 02 should be loosened,
There is a risk of rattling or damage of the block 103.

In order to prevent rattling and damage of the block 103 due to the loosening of the nut 106, the fastening through hole 10 between the anchor bolt 102 and the block 103 is also provided.
A spacer (stuffing) is required between the four.

[0008]

However, when a spacer is provided between the anchor bolt and the through hole for fastening the block, the shape of the spacer depends on the place where the anchor bolt is planted. There was a problem that a spacer had to be prepared.

It is also possible to use a mortar or resin instead of the spacer, and then to pour a solidified filling material. In such a case, the filling material may be fixed to the anchor bolt. However, there is a problem that it is difficult to replace or readjust blocks because it takes time to set.

As described above, there is a demand for a spacer that can easily fill the periphery of the anchor bolt regardless of the position of the circular fastening through hole, and can be removed when necessary. It

In view of the above situation, the present invention is capable of stably fixing an object to be fastened to a predetermined position regardless of the position of the bolt provided on the foundation by using only two spacer elements. The purpose is to provide a spacer.

[0012]

In order to achieve the above object, the present invention provides [1] an eccentric spacer for fastening in which a fastened body is loosely fitted to a foundation on which bolts are planted. In order to fix the body to be fastened at a predetermined position with respect to the foundation through the spacer in the circular through hole, the circular shape has a diameter that is the radius of the through hole plus the radius of the bolt. ,
A first spacer element having a cross-sectional shape in which the circular cross-sectional shape of the bolt is removed so as to be inscribed in the circular outer peripheral surface, and circumscribes the inner peripheral surface of the through hole,
A circular cross-sectional shape of the first spacer element has a cross-sectional shape removed so as to be inscribed in the outer peripheral surface, and no matter where the bolt is located in the through hole, the gap between the through hole and the bolt is It is configured by combining with a second spacer element that can be filled up.

[2] In the eccentric spacer described in [1], the bolt is an anchor bolt embedded in a foundation, and the fastened body is a block.

[3] In the eccentric spacer according to the above [2], the block is a concrete structure and is a fastening portion of a side wall of a guideway of a floating railway.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail below.

FIG. 1 is an exploded perspective view of a structure having an eccentric spacer according to an embodiment of the present invention.

In this figure, 1 is a foundation, 2 is a bolt provided on the foundation, 3 is a block as a fastened body,
4 is a circular through hole for fastening in which the bolt 2 is loosely fitted, and 5 is a first
An eccentric spacer consisting of the spacer element 5A and the second spacer element 5B, 6 is a circular through hole for a bolt corresponding to the bolt 2 formed by the combination of the first spacer element 4A and the second spacer element 5B, 7 is a washer, 8
Is a nut screwed onto the bolt 2. In addition, 1A is a position where the block 3 on the plane of the foundation 1 is to be fastened.

FIG. 2 is an explanatory view showing the structure of an eccentric spacer showing an embodiment of the present invention.

In this example, the bolt 2 and the fastening through hole 4 are each circular, the bolt 2 is located at the center of the fastening circular through hole 4, and the radius of the bolt 2 is r ₁ (diameter is 2r ₁ ). , The radius of the fastening circular through hole 4 is r
₂ (diameter is 2r ₂ ).

Therefore, the first spacer element 5A and the second spacer element 5B constituting the eccentric spacer 5 will be described.

[0021] First, the first spacer element. 5A, which has a circular shape that the radius r ₁ of the added dimensions of the bolt 2 in the radial r ₂ of the fastening circular through hole 4 (r ₂ + r ₁₎ and a diameter, Bolt 2 to be inscribed on this circular outer peripheral surface
Has a circular cross-sectional shape from which the cross-sectional area of is removed. In other words, the circular cross-sectional area of the bolt 2 is removed from the circular cross-sectional shape having a diameter of (r ₂ + r ₁ ) so as to be inscribed on the outer peripheral surface of this shape, thus forming a substantially lunar eclipse shape.

On the other hand, the second spacer element 5B is circumscribed on the inner peripheral surface of the fastening circular through hole 4 and is removed so that the circular sectional shape of the first spacer element 5A is inscribed on the outer peripheral surface. Have a shape. In other words, the second spacer element 5B has a substantially lunar eclipse shape in which the circular cross section having the diameter of (r ₂ + r ₁ ) is removed from the circular cross section of the fastening circular through hole 4.

For example, the diameter 2r _{2 of the} circular through hole 4 for fastening
Is 10 cm and the diameter 2r _{1 of the} bolt 2 is 3 cm, when the bolt 2 is at the center of the fastening circular through hole 3,
The diameter (r ₂ + r ₁ ) of the first spacer element 5A is 6.5.
cm, the diameter 2r ₂ of the second spacer element 5B is 10 cm
Is.

The eccentric spacer 5 thus constructed is
As shown in FIG. 1, it is desirable that the thickness be the same as the thickness of the block 3 as the object to be fastened, but the thickness can be changed according to the degree of fastening demand.

FIG. 3 is a plan view showing a mounted state of an eccentric spacer showing an embodiment of the present invention, and FIG. 3 (a) shows a first mode (a bolt is located substantially at the center of a circular through hole for fastening). FIG. 3B is a plan view showing a second mode (a mode in which the bolt is located at an eccentric position on the upper right of the circular through hole for fastening).

As shown in FIG. 3A, when the bolt 2 is located substantially at the center of the fastening circular through hole 4 of the block 3, the bolt 2 has a first spacer element 5A and a second spacer element. 5B are combined.

As shown in FIG. 3 (b), when the bolt 2'is in the eccentric position at the upper right of the fastening circular through hole 4 of the block 3, the bolt 2'is provided with the first spacer element 5A. The second spacer elements 5B are combined.

As described above, no matter where the bolt exists in the fastening circular through hole, the bolt and the fastening circular through hole are formed by the two first spacer elements 5A and the second spacer elements 5B. You can fill the gap with the hole.

Therefore, there is no gap between the bolt and the fastening circular through hole, and it is possible to prevent rattling and damage of the fastening body. Even if the bolt is present at any position of the fastening circular through hole, The fastened body can be stably fixed at a predetermined position.

In particular, when the block to be fastened is a concrete structure and is a fastening portion of the side wall of the guideway of the levitation railway, the nuts are attached as the frequency of vibrations by passing trains increases. Even in the case of loosening, the eccentric spacer of the present invention can stably fix the block at a predetermined position.

In the above embodiments, the guideway side wall of the levitation railway was mainly described, but the present invention can be applied to a wide range of purposes such as fixing mechanical parts. Moreover, even if the bolts are not planted in advance, the invention can be applied to the case where the foundation is provided with screw holes.

The present invention is not limited to the above embodiments, and various modifications can be made based on the spirit of the present invention, which are not excluded from the scope of the present invention.

[0033]

As described above in detail, according to the present invention, the following effects can be obtained.

(A) Only by using the two spacer elements, the fastened body can be stably fixed at a predetermined position regardless of the positions of the bolts provided on the foundation.

(B) Regardless of the position of the fastening circular through hole where the bolt is eccentric, it is possible to fill the periphery of the bolt and remove it when necessary.

(C) The block as the member to be fastened can be firmly fixed by the eccentric spacer combined with the strong anchor bolt.

(D) In particular, when the block is a concrete structure and is a fastening portion of the side wall of the guideway of the floating railway, the nut loosens as the frequency of vibrations due to passage of the train increases. Even in such a case, the block can be stably fixed at a predetermined position.

(E) By making the thickness of the eccentric spacer equal to the thickness of the fastened body, the fastened body can be firmly and stably fixed to the foundation.

[Brief description of drawings]

FIG. 1 is an exploded perspective view of a structure having an eccentric spacer according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing a configuration of an eccentric spacer showing an embodiment of the present invention.

FIG. 3 is a plan view showing a mounted state of an eccentric spacer showing an embodiment of the present invention.

FIG. 4 is an explanatory diagram of attachment of a block to a conventional foundation.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Foundation 2 and 2'Bolt provided in foundation 3 Block 4 as an object to be fastened Circular through hole 5 for fastening 5 Eccentric spacer 5A First spacer element 5B Second spacer element 6 Bolt formed by two spacer elements Circular through hole for use 7 Washer 8 Nut

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Makoto Ueno             38-8, Hikarimachi, Kokubunji, Tokyo 38 Foundation             Corporate Railway Technical Research Institute (72) Inventor Noriji Abe             38-8, Hikarimachi, Kokubunji, Tokyo 38 Foundation             Corporate Railway Technical Research Institute (72) Inventor Masaaki Miyamoto             1-4, Mei Station, Nakamura-ku, Nagoya City, Aichi Prefecture               Tokai Passenger Railway Co., Ltd. (72) Inventor Masaki Saito             1-4, Mei Station, Nakamura-ku, Nagoya City, Aichi Prefecture               Tokai Passenger Railway Co., Ltd. F term (reference) 3J001 FA02 GA07 GB01 HA02 HA07                       KA15 KB04

Claims (3)

[Claims] 1. To fix the body to be fastened at a predetermined position with respect to the foundation through a spacer in a circular through hole for fastening in which the body to be fastened is loosely fitted in a foundation having bolts planted therein. A circular shape having a diameter equal to the radius of the through hole plus the radius of the bolt, and a cross-sectional shape in which the circular cross-sectional shape of the bolt is removed so as to be inscribed in the outer peripheral surface of the circular shape. The first spacer element and the inner peripheral surface of the through hole are circumscribed, and the circular sectional shape of the first spacer element has a cross sectional shape removed so as to inscribe the outer peripheral surface. An eccentric spacer characterized by comprising a combination of a second spacer element capable of filling a gap between the through hole and the bolt regardless of the position of the bolt. 2. The eccentric spacer according to claim 1,
The eccentric spacer, wherein the bolt is an anchor bolt embedded in a foundation, and the fastened body is a block. 3. The eccentric spacer according to claim 2,
The eccentric spacer, wherein the block is a concrete structure and is a fastening portion of a side wall of a guideway of a floating railway.