JP2005344382A - Connecting ring body - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To properly connect an indoor and an outdoor sections together by means of a smaller number of types of connecting rings, in a structure wherein a distance between an end surface of a concrete structure section and an indoor side end surface of an indoor side wall section is not kept constant. <P>SOLUTION: An extension ring 1 comprises a sleeve connecting part 1A which is fitted and inserted into a sleeve embedded in the concrete structure, and a connecting ring part 1B which is provided in such a manner as to continue into the sleeve connecting part 1A. Thin-walled parts 2A, 2B and 2C are formed in such a manner as to be constituted as a V-shaped cross-section groove in the circumferential direction of the connecting ring part 1B; an unnecessary part is removed by using any one of the thin-walled parts 2A, 2B and 2C as a cutting part according to a difference between the width of the concrete structure and that of the indoor side wall section, so that the width of the connecting ring part 1B can be set at a proper dimension; and the sleeve and an indoor member such as a ventilating hole member, provided on the indoor side, are connected together by using the extension ring 1. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a structure of a connection ring body for connecting to a sleeve embedded in a concrete structure part constituting a wall part or a floor part of a concrete structure.

  In concrete structures such as apartments, condominiums, and office buildings, the structure is constructed against concrete structures such as walls and floors in order to ensure external ventilation, power cords for air conditioners, and installation of drain pipes. There are not a few sleeves that are embedded in the interior and exterior of the space.

  FIG. 5 shows a conventional configuration of a sleeve embedded in the cocrete structure and various indoor mounting members. Reference numeral 20 denotes a sleeve, which is embedded in a concrete structure portion 21 such as a wall portion. Since the sleeve 20 needs to be arranged so that the end portion thereof abuts against a panel for forming a concrete placement space when the concrete is placed, the end edge 20a of the sleeve 20 is formed of the concrete structure portion 21. It is located on the same plane as the end face 21a. That is, it is not possible to place concrete in a state where the edge 20 a of the sleeve 20 protrudes from the end surface 21 of the concrete structure 21.

  In view of such a configuration, an extension ring 22 commonly referred to as a sleeve ring is fitted and inserted into an end surface 20a which is an indoor side end surface of the sleeve 20. Reference numeral 23 denotes a member arranged on the indoor side. For example, when the sleeve 20 is used for inserting an air conditioner electric wire or drain pipe, the member becomes a member called an air conditioner cap or a cooler cap. When not installed, it is used as a cap for closing the opening, and when inserting the electric wire or drain pipe, it is used for removing the closing portion and inserting them. Further, when the sleeve 20 is used as a ventilation hole, the member 23 functions as a ventilation hole. In the following, the members having different purposes will be collectively referred to as indoor members unless it is necessary to limit their functions including the embodiments.

In the figure, reference numeral 24 denotes a heat insulating material provided on the concrete structure 21 side, and reference numeral 25 denotes a wall on the indoor side such as a gypsum board.
Here, the width W1 from the end surface 21a of the concrete structure portion 21 to the surface portion of the indoor side wall portion 25 varies considerably depending on the purpose of use of each room, even if it is the same structure. Further, the width W is expected to be further different in the future in order to exert an effect according to the purpose. For example, when high heat insulation and soundproofing are required for a specific section or room, it is expected that the width W1 will be further increased by filling with a soundproofing material. On the other hand, this width W1 is used in bathrooms and toilets. It is not so big.

Based on such circumstances, FIG. 5 will be further described.
The extension ring 22 and the connection ring portion 23a of the indoor member 23 are connected to each other with an overlapping portion having a width W2 as shown in the figure. For this reason, when W1 becomes large, the width W2 cannot be obtained and the connection between the two becomes impossible.

  As a first method for enabling this connection, it is conceivable to extend the connection ring portion 22 a of the extension ring 22. If configured in this way, it is possible to cope with the case where W1 is large. However, when W1 is small, the edge of the connection ring portion 22a abuts against the back surface of the indoor side wall portion 25, and the indoor side wall portion 25 is set to a predetermined value. The problem that it becomes impossible to arrange | position in the position of arises.

  As a second method, a method of setting the connection ring width W4 of the indoor member 23 large can be considered. This method can cope with a case where W1 is large, but when W1 is small, the end edge portion of the connection ring 23a abuts on the step portion 22b of the extension ring 22, and as a result, the indoor member 23 becomes indoors. It protrudes from the side wall portion 25 into the room.

  Eventually, since the above method cannot be applied when W1 is small, a plurality of extension rings 22 having different widths W3 of the connection ring portion 22a are prepared in advance to identify the difference in the size of the width W1. The extension ring 22 of the size of is selected and used. Although it is theoretically possible to provide a plurality of indoor members 23 having different widths W4 of the connection ring 23a, a plurality of indoor members 23 having a complicated structure compared to the extension ring 22 and having a high unit price are provided. To do is very uneconomical and unrealistic.

  From the above viewpoint, another small diameter sleeve whose outer diameter is equal to the inner diameter of the sleeve is inserted into one sleeve inner diameter portion, and the entire length of the sleeve is expanded and retracted by inserting and removing the small diameter sleeve with respect to the outer sleeve. What has been configured to do so has been proposed.

If these telescopic sleeves are used, it is not necessary to use a plurality of types of extension rings having different widths. However, the cement often infiltrates into the gap between the outer sleeve and the inner small-diameter sleeve at the time of placing the cementate, and there are often situations where the small-diameter sleeve slides extremely poorly or does not slide at all after the cement is solidified.
JP-A-5-195620 JP 2004-194790 A

  Conventionally, in order to cope with the difference in the distance between the concrete structure and the indoor wall, it is necessary to use a plurality of types of extension rings or use a telescopic sleeve with poor operation reliability. There was no member that reliably connected the sleeve and the indoor member.

The present invention is configured to solve the above problems.
That is, in the first configuration of the present invention, one or more groove-like thin portions are formed in the circumferential direction of the connection ring portion connected to the sleeve, and a predetermined thin portion is used by using an instrument such as a plier at the construction site. It is an extension ring configured to be able to form an extension ring of a predetermined width by breaking off an unnecessary portion of the connection ring so as to be a cutting portion or by cutting it with a knife such as a knife.

  According to a second configuration of the present invention, the configuration of the connection ring portion of the extension ring is formed in the connection ring portion of the indoor member, and the extension ring portion cut to a predetermined width is directly inserted into the sleeve. It is an indoor member that does not require the extension ring itself.

  By configuring the present invention as a connecting ring portion of an indoor member such as an extension ring or a ventilation portion for an air conditioner, the connecting ring can be used regardless of the width between the concrete structure portion such as the wall surface of the concrete structure and the indoor side wall surface. Since the width of the portion can be easily adjusted at the construction site, it is possible to deal with a wide range of construction without preparing a plurality of types of extension rings or indoor members having different widths of the connection ring portion.

  A groove-shaped thin portion having a substantially V-shaped cross section is formed on the outer peripheral wall of the connecting ring portion of the extension ring or the connecting ring portion of the indoor member, and the thickness of the thin portion is made of the material constituting the connecting ring portion The strength is determined according to the strength, and the strength of the connection ring portion is maintained, and a simple tool such as pliers, pliers, or a knife can be easily cut to a predetermined width at a construction site.

Embodiments of the present invention will be specifically described below with reference to the drawings.
1 and 2 show a first embodiment of the present invention, in which the configuration of the present invention is applied to an extension ring.

  Reference numeral 1 denotes an extension ring. The extension ring 1 as a whole has a sleeve connecting portion 1A that is fitted and arranged in the inner diameter portion of the sleeve 20 (see FIG. 5), a diameter larger than that of the sleeve connecting portion 1A, and the inner member 23 The basic configuration is the same as that of the conventional extension ring 22 in that the connection ring portion 23a (see FIG. 5) is configured by the connection ring portion 1B into which the connection ring portion 23a is inserted and arranged.

  One or more thin portions that reduce the thickness of the connection ring portion 1B in the circumferential direction are formed on the outer peripheral wall of the connection ring portion 1B of the extension ring. Reference numerals 2A, 2B, and 2C denote this thin portion. These thin portions are formed as grooves having a substantially V-shaped cross section as shown in FIG. The thin-walled portions 2A to 2C have a strength sufficient for the connection ring portion 1B to maintain the connection when the indoor member and the connection ring portion 1B are connected, and a specific thin-walled portion at the construction site. Therefore, the thickness is determined so that the unnecessary portion can be easily cut.

  For example, when the material for forming the extension ring 1 is ABS resin, the inner diameter of the connection ring portion 1B is 95 mm, and the thickness T1 is 2 mm, the thickness T2 of the thin portion is 0.2 to 0.3 mm. Thus, it is possible to easily cut the thin-walled portion while maintaining the strength of the entire connection ring portion 1B [see FIG. 2C]. Note that the strength of the connection ring portion 1B is sufficient even if the thickness T2 of the thin portion is reduced in this way, because the connection ring portion 1B is annular as the name suggests, and is added to the connection ring portion 1B. This is because the stress is distributed in the circumferential direction and the stress is not concentrated in part.

  In using the extension ring 1 having the above configuration, in order to adjust the overall length of the connection ring portion 1B of the extension ring 1, a part of the connection ring B is cut at any of the predetermined thin portions 2A, 2B, 2C, As a result, the width of the connection ring portion 1B is adjusted (naturally, there is a case where it is not necessary to cut at all). Cutting can be performed easily at the construction site by cutting along a predetermined thin wall with a knife or other cutting tool, or by cutting the vicinity of the predetermined thin wall with pliers, pliers, etc. Adjustments can be made.

In FIG. 2B, when none of the thin-walled portions 2A to 2C of the connection ring portion 1B is cut, the total length of the connection ring portion 1B is the maximum W5, and when cutting at 2A, the total length is reduced to W6. When cutting at 2B, the total length decreases to W7, and when cutting at 2C, the total length decreases to the minimum W8. In this way, the extension ring 1 is attached to the sleeve side by fitting the sleeve connection portion 1A of the extension ring 1 with the width of the connection ring portion 1B set to a predetermined size into the predetermined sleeve, thereby connecting the indoor members. Prepare.

3 and 4 show a second embodiment.
In this embodiment, the connection ring portion of the indoor member is configured in the same manner as the connection ring portion of the extension ring so that the extension ring itself is not required.

Reference numeral 3 denotes an indoor member, which includes a main body portion 4 that is directly connected to the sleeve, and a cap portion 6 that is screwed into or inserted into the main body portion 4.
The main body 4 includes a connection ring portion 4A corresponding to the connection ring portion 1B of the extension ring 1 and a cap engagement portion 4B which is connected to the connection ring portion 4A and is located on the indoor wall surface.

  Reference numerals 5A to 5C are thin-walled portions formed in the circumferential direction of the outer peripheral wall of the connection ring portion 4A, and have the same configuration as that formed in the connection ring portion 1B of the extension ring 1. With this configuration, the width of the connection ring portion 4A of the indoor member 3 is determined in accordance with the distance W1 between the indoor surface of the indoor side wall portion 25 and the end edge portion of the sleeve 20 shown in FIG.

  That is, when none of the thin-walled portions 5A to 5C is cut, the total length of the connection ring portion 4A is W9 which is the maximum, and when cutting at 5A, the total length is reduced to W10. Similarly, when cutting at 5B, the total length is W11. When cut at 5C, the total length decreases to the minimum W12.

  Based on the above points, the width of the connection ring portion 4A is determined. Incidentally, since this connection ring portion 4A has its end portion (right side in FIG. 3) directly fitted into the sleeve 20 (see reference numeral 5), the width of the connection ring portion 4A extends from the end portion of the sleeve 20 to the interior side wall portion 25. It is necessary to make the inner side wall surface larger than the width W1. For example, when the width of the connection ring portion 4B is set to W10 by cutting the thin portion 5A, W10> W1 must be satisfied.

  The structure of the present invention can be used for a small-scale structure such as a detached house in addition to a large-scale structure such as an apartment house such as an apartment or a condominium or an office building.

It is a perspective view of an extension ring showing the 1st example of the present invention. (A) is a front view of the extension ring shown in FIG. 1, (B) is a partially broken side view of the extension ring, and (C) is an enlarged view of a part A in (B). It is a partially broken side view of the indoor member showing the second embodiment of the present invention. FIG. 4 is a view taken along line AA in FIG. 3. It is sectional drawing of the concrete structure part and indoor side wall part which show the connection state of the sleeve and indoor member using the conventional extension ring. It is a perspective view of the conventional extension ring.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Extension ring 1A Sleeve connection part 1A (extension ring) Connection ring part 2A, 2B, 2C Thin part 3 Indoor member 4 Body part 4A (indoor member) Connection ring part 5A 5B, 5C Thin wall part 6 Cap part 20 Sleeve 21 Concrete structure part 21a End surface of concrete structure part 25 Indoor side wall part

Claims (4)

A member for connecting at least a part of a space portion between a sleeve having one end opened at an end surface of a concrete structure and an indoor wall portion positioned with a predetermined width from the end surface of the concrete structure, Is configured as a ring member that is inserted and inserted into the sleeve, and one or more thin portions are formed in the circumferential direction of the outer peripheral wall of the ring member, and the width of the ring member is reduced by cutting and removing unnecessary portions in the thin portion. A connection ring body configured to be adjustable. One end of the ring body is configured as a sleeve connection portion that is fitted and inserted into the sleeve, and the connection ring portion is connected to the sleeve connection portion, and one or more thin portions in the circumferential direction of the outer peripheral wall of the connection ring portion The connecting ring body according to claim 1, wherein the whole is configured as an extension ring. One end of the ring body is configured as a connection ring portion that serves as a sleeve connection portion that is fitted into the sleeve, and the other end of the connection ring portion is configured as a cap engagement portion that is positioned on the indoor surface of the indoor side wall portion. 2. The connecting ring body according to claim 1, wherein one or more thin portions are formed on the outer peripheral wall of the portion, so that the whole is configured as an indoor member. The connection ring body according to any one of claims 1 to 3, wherein a cross-sectional shape of the thin portion is substantially V-shaped.

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