KR20130077332A - Sleeve cover - Google Patents

Abstract

PURPOSE: A sleeve cover including an improved structure is provided to install a sleeve to an accurate position and to be stably connected to a waterproof layer of the upper part of a slab. CONSTITUTION: A sleeve cover (90) including an improved structure comprises a down-extension unit (91), an expansion protrusion (92), an insertion hole, a guide unit (94), an induction unit, and a plurality of reinforcing bars. The down-extension unit is formed on the outside of the sleeve cover and accommodates the upper end of a sleeve (80). The expansion protrusion unit is formed on the lower end of the down-extension unit. The insertion hole is formed on the center of the sleeve cover, and a screw shaft (10) is inserted into the insertion hole. The guide unit has an inner diameter which coincides with the insertion hole and is formed on the bottom surface of the sleeve cover in order to protrude downwards. The induction unit is formed on the bottom surface of the sleeve cover in order to protrude downwards and is inserted into the sleeve. The reinforcing bars connect the bottom surface of the sleeve cover, the guide unit, and the induction unit.

Description

Sleeve cover with improved structure {Sleeve cover}

The present invention relates to a cover for reinforcing a top surface of a sleeve (drain, etc.) embedded in a slab of a reinforced concrete structure, and more particularly, at the time of embedding of a sleeve using a sleeve assembly, the center of the sleeve while wrapping the top of the sleeve By forming a vertical guide tube and forming an extension jaw on the bottom outside, the sleeve is installed correctly in the correct position, and at the same time, the adhesion and bonding to the waterproof layer on the upper part of the slab can be made firm. In order to install the waterproofing layer by cutting the part that interferes with the waterproofing layer construction by placing an incision groove on the outside of the upper part of the retaining cover, the upper surface is left until the completion of the subsequent construction and the upper hole of the sleeve It is about.

In general, a multi-layer reinforced concrete structure is formed with a slab (Slab) that separates the layers from each other, and the slab formed between the lower layer and the upper layer acts as a component of the lower ceiling and the upper floor. .

In such a slab, a tube for connecting the upper layer and the lower layer is to be buried. The tube is called a sleeve and the sleeve penetrates the slab. Accordingly, it is possible to perform piping work and wiring work for various pipes connecting the upper layer and the lower layer using the sleeve.

In addition, the sleeve includes a drain for drainage purposes in addition to piping and wiring work, and the drain is divided into a floor drain for draining wash water such as a toilet or a balcony.

In this way, the sleeves containing various types of drains are made of concrete in the form of plywood. As the aluminum foam is widely used in the case, the sleeve construction method using the sleeve assembly which can be repeatedly used in the recent years is widely applied.

Here, looking at the description and construction process of the schematic structure of the sleeve assembly as described above, as shown in Figure 1, provided with a fixing installation unit 110 is fixed through the aluminum foam 100, the fixed installation The upper side of the sphere 110 is coupled to form a vertical screw shaft (120), the upper surface of the aluminum foam (100) the sleeve 130 and the maintenance cover 140 to accommodate the screw shaft 120 inwardly In position, as the screw shaft 120 is coupled to the pressing foot 150 and the pressing lever 160 inserted through the screw shaft 120, the downward rotation of the pressing lever 160 and the pressing foot 150 Due to the downward pressing force by the sleeve 130 is to be tightly fixed to the upper surface of the aluminum foam (100).

At this time, the screw shaft 120 is contaminated during the concrete pouring process by combining the pollution prevention pipe 170 and the pollution prevention cap 180 coupled to the screw shaft 120 to the upper side of the pressure lever 160. It is to prevent things.

Accordingly, the curing of the slab through the casting of concrete in a state in which the sleeve is firmly installed on the aluminum foam using the sleeve assembly as described above, the aluminum foam 100 and the screw shaft 120 are separated from the slab and As the dismantled, the sleeve 130 is buried on the slab.

However, the existing sleeve embedding method using the sleeve assembly as described above has a problem that the correct installation on the sleeve is not made and the adhesion and bonding with the waterproof layer is not excellent.

That is, the sleeve assembly as described above has a structure in which the sleeve on the aluminum foam is tightly fixed by the rotational force of the pressure lever coupled to the screw shaft and the pressing force of the presser foot. It will be judged to be in close contact with the foam, and the press lever will be rotated due to interference with the sleeve even when the sleeve is inclined, in which case the operator will be mistaken that the sleeve is correctly installed.

This is because the screw shaft insertion hole formed in the center of the cover is located in the center of the sleeve is larger and thinner than the outer diameter of the screw shaft, the inner diameter of the screw shaft insertion hole is larger than the screw shaft, Due to the small cross section of the retaining cover, the clearance (A) from the screw shaft to the sleeve itself as well as the retaining cover is very severe, and such a clearance causes the sleeve to be inclined or fail to be installed in the intended position.

Therefore, when concrete is poured in a state where the sleeve is inclined as described above, as shown in FIG. 2, a gap B may occur between the upper surface of the aluminum foam and the bottom of the sleeve, and concrete may flow into the sleeve. The upper surface of the sleeve may not be level or the position of the sleeve may not be properly installed, and thus the work of refilling the sleeve may need to be performed.

Furthermore, such a rework of the sleeve embedding is very inefficient and economical since it is necessary to carry out a parchment operation or a position correction operation using a core drill for the cured slab.

In addition, in the case of a sleeve such as a drain, it is necessary to form a waterproof layer on the upper surface of the slab, and the conventional recuperation cover as described above does not cover the upper portion of the sleeve, so that the concrete (C) and the outer surface (D) of the sleeve Inflow of foreign matters prevents efficient construction of the waterproofing layer, and additionally, a parchment (scavenging) on the slab outside the sleeve to increase the adhesion and bonding force by expanding the ground area of the waterproofing mortar before forming the waterproofing layer. There is a problem that the work is extremely inefficient because it must be performed.

The present invention is to improve the problem as described above, to improve the structure of the cover to be coupled to the top of the sleeve, the cover is to have a shape surrounding the top of the sleeve, the bottom of the cover is less than the concrete pour surface By forming an extension protrusion protruding downward, and forming a downwardly extending guide portion in the center of the maintenance cover, by configuring an incision groove that can be cut in advance to interfere with the waterproof layer construction,

It is an object of the present invention to provide a sleeve maintenance cover having a feature that reasonably overcomes all the problems caused by the sleeve construction method and the maintenance cover by the existing sleeve combination.

The present invention for achieving the object as described above, the anti-fouling cap and the anti-fouling tube and the pressure lever and the presser foot is sequentially inserted from the top of the screw shaft and the fixing fixture for fixing to the aluminum foam at the bottom of the screw shaft is coupled In the sleeve cover is embedded in the slab using a sleeve assembly consisting of, but is located in the upper portion of the sleeve for embedding as described above,

The retaining cover forms a downward extension to accommodate the upper end of the sleeve, and forms an outward extension protrusion at the lower end of the downward extension, and forms an insertion hole into which a screw shaft is fitted in the center of the recuperation cover. The bottom surface of the recuperation cover is formed by extending the guide portion of the same inner diameter as the insertion hole downward, and forming a cutting groove that can be cut in advance to interfere with the waterproof layer construction.

The present invention provides a rework for an inadequate construction of a sleeve by allowing the sleeve to be in close contact with the correct position on the aluminum foam at right angles, as well as the sleeve, from a screw shaft installed vertically by the vertical guide of the recuperation cover. It is possible to eliminate the closed end, and since the slab is constructed with the cover to cover the top of the sleeve, it is possible to prevent contamination of the waterproof layer coupling part and drain cover settlement part of the sleeve tip by the concrete, which is excellent in work efficiency. The expansion groove on the slab to increase the adhesive area between the slab and the sleeve and the waterproof layer is naturally created by the retaining cover, so no additional parching work is required, so that the working time can be shortened and the uniform quality can be maintained. Part of the cover can be cut to interfere with the pre-installed waterproofing layer This can be constructed, and the upper surface of the left cover on Energy, which will be soothing to the sleeve can be consistently top surface in the subsequent construction further improve performance.

1 is an overall view of a conventional sleeve assembly
2 is an incorrect construction state of the sleeve by the conventional sleeve assembly
3 is an overall view of a sleeve assembly having a replenishment lid in accordance with the present invention.
4 is a perspective view of the recuperation cover according to the present invention
5 is a bottom perspective view of the recuperation cover according to the present invention
6 is a cross-sectional view of the combination of the maintenance cover and the sleeve according to the present invention
7 is a cross-sectional view of the construction by the sleeve assembly having a renovation cover according to the present invention
8 is a cross-sectional view of the sleeve assembly is removed from the slab according to FIG.
9 is a cross-sectional view of the waterproof layer formed on the slab of FIG.
10 is an enlarged cross-sectional view showing another embodiment of the recuperation cover according to the present invention;

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is an overall view of the sleeve assembly having a recuperation cover according to the present invention, Figure 4 is a perspective view of the recuperation cover according to the present invention, Figure 5 is a bottom perspective view of the recuperation cover according to the present invention, Figure 6 A cross-sectional view of the retaining cover and the sleeve according.

The replenishment cover 90 according to the present invention is to be coupled to the top of the sleeve 80 including the drain. At this time, the maintenance cover 90 is used when the sleeve 80 is not mounted at the completion of construction of the sleeve 80, but is used when the sleeve 80 is embedded in the slab, and in particular, the sleeve is embedded using a sleeve assembly having a screw shaft. It is valid for poetry.

The sleeve assembly is a pressurized lever 40 and the presser foot 50 and the screw shaft which is screwed to the anti-fouling cap 20 and the anti-fouling tube 30 from the top with respect to the vertical screw shaft 10 as shown It consists of a fixing installation 70 is coupled to the lower end of the (10), the sleeve (80) to accommodate the screw shaft 10 is located below the presser foot 50 is the sleeve 80 At the top of the) is to be combined with the cover 90 of the present invention.

Here, the recuperation cover 90 is a circular plate formed through the insertion hole 93 in the center is a downward extension 91 is formed on the outer side of the recuperation cover 90, the downward extension of the 91 Outwardly extending protrusions 92 are formed at the bottom, and the guide portion 94 having an inner diameter corresponding to the insertion hole 93 protrudes downward on the bottom surface of the restoring cover 90 where the insertion hole 93 is located. The guide portion 96 inserted into the inner surface of the sleeve 80 protrudes downward on the bottom surface of the replenishment cover 90, and the guide portion 94 and the guide portion 96 of the bottom surface of the recuperation cover 90. Is having a form that is connected to each other by a plurality of reinforcement (97).

At this time, the downward extension 91 has an internal diameter corresponding to the outer diameter of the upper end of the sleeve 80 so that the upper end of the sleeve 80 can be accommodated in the downward extension 91. The expansion protrusions 92 are to allow the expansion grooves 20 to be naturally formed on the upper surface of the slab 200 around the sleeve 80 by the expansion protrusions 92 in the curing process of the slab by concrete pouring. Insertion hole 93 is for the screw shaft 10 is inserted, the guide portion 94 is inserted into the screw shaft 10 guide plate 90 from the vertical screw shaft 10 is always in a horizontal state To keep it.

In addition, the guide portion 96 is the tip of the sleeve 80 is inserted between the downward extension 91 and the guide portion 96 of the maintenance cover 90, the maintenance cover 90 and the sleeve 80 is the correct position It serves to be combined with the state, and the reinforcing rod 97 is intended to increase the rigidity for the reinforcement cover 90 itself.

Accordingly, when the construction process for the installation of the sleeve using the sleeve assembly as described above is outlined, the aluminum foam 60 in the state of inserting and fixing through the fixing installation device 70 in the formwork made of aluminum foam (60). On the upper surface of the sleeve 80 and the replenishment cover 90 will be placed sequentially.

Subsequently, the pusher foot 50, the pressure lever 40, and the contamination prevention tube 30 with respect to the screw shaft 10 while the lower end of the screw shaft 10 is screwed to the fixing installation hole 70. And the pollution prevention cap 20 is to be combined and inserted sequentially.

At this time, the mounting and assembly order for the sleeve assembly may be changed in various ways depending on the situation of the site or the convenience of the operator.

Therefore, when the pressure lever 40 is rotated and lowered in the assembled state as described above, the presser foot 50 will be lowered along the screw shaft 10 by the lowering of the pressure lever 40, and the presser foot 50 ) Presses the replenishment cover (90) while at the same time tightly press the sleeve 80 to maintain a horizontal state on the aluminum foam (60).

At this time, the sleeve 80 will be in a state that the front end is coupled to the maintenance cover 90, the maintenance cover 90 is always a constant horizontal state with the screw shaft 10 by the guide portion 94 In the end, the sleeve 80 is also tightly fixed to the upper portion of the aluminum foam 60 in a vertical position without being inclined from the screw shaft 10.

Therefore, in this state, when the concrete is poured on top of the aluminum foam 60 as shown in FIG. 7, the concrete is laid on the top of the aluminum foam 60 including the outer surface of the sleeve 80, and has a predetermined thickness. The slab 200 will be formed.

Subsequently, when the curing for the slab 200 as described above is terminated, as shown in FIG. 8, the screw shaft 10 is removed and the aluminum foam 60 is dismantled and the outer portion of the restoring cover 90 interfered with the waterproof layer construction. The sleeve 80 is embedded in the slab 200 by separating and removing it into several pieces by a linear incision groove 98 of the upper surface of the replenishment cover 90 and a straight incision groove 99 extending into the expansion protrusion 92. Will be obtained.

At this time, the sleeve 80 is the tip is protruding from the upper surface of the slab 200 is to have a purpose for forming a waterproof layer for the upper surface of the slab (200).

In addition, an extension groove 201 is naturally generated in the upper surface of the slab 200 by the above-mentioned reinforcement cover 90 with respect to the outer side of the sleeve 80, and the extension groove 201 is retained. It is generated by the expansion protrusions 92 of the cover 90, the expansion protrusions 92 should be located below the concrete pour surface in the end, the expansion protrusions 92, the upper surface is in the same position as the concrete pour surface It must be formed.

Therefore, the expansion groove 201 is formed on the upper surface of the slab 200 in the form corresponding to the expansion protrusion 92 in the curing process of the slab 200 after concrete pouring, the expansion groove 201 is a screw The outer portion of the shaft 10 and the replenishment cover 90 is exposed to the upper side of the slab 200 through removal by the circular incision groove 98 and the linear incision groove (99).

In addition, the upper portion of the sleeve 80 by the downward extension portion 91 of the recuperation cover 90 as described above is accommodated into the inside of the recuperation cover 90, the lower side with respect to the downward extension portion 91 above. The length of the furnace should be formed to accommodate the waterproof coupling groove 81 formed on the upper outer side of the drain sleeve (80). Accordingly, the sleeve 80 embedded in the slab 200 in the state in which the recuperation cover 90 is coupled to the circular incision groove 98 and the straight incision groove 99 in the outer portion of the recuperation cover 90. When removed by the expansion groove 201 of the upper surface of the slab 200 is exposed while the waterproof coupling groove 81 formed on the upper outer side of the sleeve 80 as it is.

In particular, since the concrete is poured in a state in which the waterproof coupling groove 81 of the sleeve 80 is concealed by the downward extension portion 91 of the maintenance cover 90 as the waterproof coupling groove 81 as the above. The concrete can not be introduced to prevent the waterproof coupling groove 81 is contaminated, and the upper surface of the sleeve 80 is also cast because the concrete is concealed and protected in a state that the entire cover 80 is embedded by the cover 90 (80) It is not necessary to perform additional cleaning work on the upper surface or to remove contaminants.

Therefore, as shown in FIG. 9, when the waterproof layer 202 is formed of the waterproof mortar on the upper surface of the slab 200, the waterproof mortar includes the entire upper surface of the slab 200, and the upper outer side of the sleeve 80. The waterproof coupling groove 81 and the slab 200 of the expansion groove 201 of the upper surface while being filled with a solid and tight construction can be made.

In particular, as shown in FIG. 10, the sleeve 80 is formed by forming a repetitive uneven portion 95 having a triangular shape or a square shape in a waveform or cross section with respect to the bottom surface of the expansion protrusion 92 of the recuperation cover 90. If it is buried to have a shape corresponding to the concave-convex portion 95 and the expansion groove 201 can be produced, as the coupling groove with the waterproof layer 202 is generated with the concave-convex pattern in the expansion groove 201 It can be raised further.

Therefore, when the sleeve 80 is embedded in the slab 200 by using the reinforcement cover 90 of the present invention, the construction may be performed in the correct position with respect to the sleeve 80, so that the sleeve 80 is incorrectly installed. In this case, subsequent reworking is unnecessary, and since the tip of the sleeve 80 in the buried state is not contaminated, a separate cleaning operation is unnecessary, and an expansion groove 201 is formed around the sleeve 80 to increase the bonding force of the waterproof layer. It is not necessary to work for, and the part interfering with the waterproof layer to be constructed is separated into several pieces by the circular incision groove 98 and the linear incision groove 99, so it can be easily removed and installed, the upper part of the sleeve 80 The cotton can remain in maintenance until completion of the subsequent construction, so that the construction is very economical and reasonable.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

10: screw shaft
20: pollution prevention cap
30: pollution prevention tube
40: pressure lever
50: press foot
60: aluminum foam
70: fixed installation port
80: sleeve 81: waterproof coupling groove
90: maintenance cover 91: downward extension
92: expansion protrusion 93: insertion hole
94: guide portion 95: uneven portion
96: guide portion 97: reinforcement
98: circular incision groove 99: straight incision groove
200: slab 201: expansion groove
202: waterproof layer

Claims (6)

The contamination prevention cap 20, the contamination prevention tube 30, and the pressure lever 40 and the presser foot 50 are sequentially inserted from the upper portion of the screw shaft 10, and an aluminum foam is formed at the lower end of the screw shaft 10. The sleeve 80 is embedded in the slab 200 by using the sleeve assembly formed by fixing the fixing fixture 70 to be fixed to the 60, and is located on the upper portion of the sleeve 80 to be embedded as described above. In the maintenance cover 90 is formed by forming a downward extension 91 to accommodate the upper end of the 80,
The insertion hole 93 into which the screw shaft 10 is fitted is formed in the center of the replenishment cover 90, but the bottom surface of the recuperation cover 90 in which the insertion hole 93 is located is the same as the insertion hole 93. Sleeve retaining cover of the improved structure, characterized in that formed by extending the guide portion 94 of the inner diameter downward.
The method of claim 1,
Downward extension portion (91) is a sleeve maintenance cover of the improved structure, characterized in that formed by forming an outward expansion protrusion (92) at the bottom.
The method of claim 2,
Expansion protrusions 92 is a sleeve maintenance cover of the improved structure, characterized in that formed by forming a concave-convex portion 95 in the bottom.
The method of claim 1,
The replenishment cover 90 is a sleeve maintenance cover of the improved structure, characterized in that the bottom protruding downwardly formed guide portion 96 is inserted into the inner surface of the sleeve (80).
The method of claim 1,
The replenishment cover 90 is an improved sleeve sleeve cover of the improved structure, characterized in that formed by forming a reinforcing rod 97 is connected to the guide portion 94 and the guide portion 96 on the bottom.
The method of claim 1,
An improved sleeve sleeve cover of the improved structure, characterized in that the circular cut groove (98) and the straight cut groove (99) formed on the upper side of the replenishment cover (90).

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