KR101023406B1 - Structure of water pipe for building - Google Patents

Abstract

The present invention is achieved by providing a drainage structure of a building for immersion of an excellent or ground water in a floor of a building, for example, a basement or a parking lot, and for treating the washing water after cleaning the water. And a drainage line installed for flooding of the washing water after submergence of groundwater or water cleaning on the floor consisting of a packing layer for smoothing operation and fixed by anchor bolts arranged equidistantly on the projected drainage route, A pair of left and right lifting and lowering bolts mounted on the upper end of each of the connecting members in a longitudinal direction and freely rotatable, and a pair of left and right lifting and lowering adjusting bolts And the elevation adjusting bolt is raised and lowered by rotating the elevation adjusting bolt in the left and right direction, Stand equipped with a number of members to be installed is mounted on the adjuster, thus the installation workpiece of the drain, as well as improve the workability.

Architecture, drainage,

Description

{Structure of water pipe for building}

The present invention relates to a drainage structure of a building for immersing an excellent or ground water in a floor of a building, for example, a basement or a parking lot, and for treating the washing water after cleaning the floor, and more particularly to a drainage structure .

The floor of the building or the parking lot is essentially provided with a drainage line for the treatment of the washing water after immersion of the groundwater or cleaning of the water. Such drainage ducts are generally arranged in the horizontal or vertical direction It has an open-ended shape that sinks down to a certain depth, and provides a drain pipe that collects inundation or washing water on the floor of the building and discharges it to the outside (septic tank).

As shown in FIG. 1A, in the drainage path construction process, the corner members 2 on both sides are fixed to the floor of the building, that is, the foundation 1, in accordance with the depth and width of the designed drainage water, (4).

Then, molds (5) for forming wall surfaces of the drainage ducts are installed on the inner surfaces of the two side edge members (2) temporarily installed using the above-mentioned construction material, and then the layers are laminated on the base (1) (1a) is poured into concrete, and a desired drainage channel is formed through a biomass process for a certain period of time.

However, in the construction of such a drainage channel, the anchor bolts 3 and the support rods 4 for installing the corner members 2 are installed through the welding operation. This welding operation takes a lot of time and labor, And there is a problem that the workability such as the installation work according to the gradient of the drainage duct is not easy.

In addition, when the curing process of the molding is completed by draining, the mold 4 described above is dismantled and the finishing work of the drainage duct is inevitably followed.

More specifically, the sidewalls of the drains formed using the dies 4 are rough, so that the smoothing and drafting of the surfaces thereof, that is, the surface treatment 6 of the sidewalls and the bottom of the drains as shown in Fig. 1B, It is necessary to have a slope which requires a floor treatment 7 with a drainage pipe having a gradient for a sufficient drainage of the washing water, that is, gradually decreases from the inlet side to the water outlet side. Such a drafting operation depends on the operator's time The gradient is not precise and the drainage is unreasonable.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide an air conditioner having a gradient control rod installed across a lift control bolt installed on a floor base, By controlling the draft by a mechanical method using an elevating control bolt, it is possible to provide a drainage structure of a building with ease of installation of a drainage channel, precision construction and drainage.

Another object of the present invention is to simplify the process management and to shorten the simultaneous air flow by simplifying the process management by constructing the water channel with the water channel member without further processing of the surface treatment or the floor treatment after curing using the sidewalls of the water channel The drainage structure of the building.

The object of the present invention is achieved by providing a drainage structure of a building for immersion of an excellent or ground water in a floor of a building, for example, underground or parking lot, and for treating the washing water after cleaning the water, An anchor bolt which is installed at the bottom of the base of a parking lot and for the smoothing work and installed for the water treatment of the washing water after immersion of ground water or water cleaning at the bottom, A pair of left and right lifting and lowering bolts that are freely rotatably mounted on the upper end of each of the connecting members in an axial direction and a pair of left and right lifting and lowering bolts, The elevating and lowering bolts are horizontally laid across the elevating control bolts to rotate the elevating and lowering adjusting bolts in the left and right directions, Stand equipped with a control for adjusting gradient and which is installed on the target is mounted channel member, thereby the installation workpiece of the drain, as well as improve the workability.

Hereinafter, the effect of the drainage structure of the present invention will be described.

The present invention is configured such that the water channel members are arranged in a row and the gradient of the water channel members is simply adjusted by a slope adjusting bar which is lifted and lowered by the elevating control bolt so that the drain channel can be easily constructed and the draft of the drain can be precisely constructed, .

In addition, the present invention can simplify the process management by simplifying the water channel by using the water channel member without further processing of the surface treatment or the bottom treatment after the curing by using the sidewalls of the water channel, thereby reducing the construction cost and shortening the simultaneous air It is effective.

Further, according to the present invention, the height of the side wall of the water channel member can be suitably cut according to the thickness of the packaging layer to be used, so that the product can be used not only in common use but also in workability.

BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of the present invention will be described in detail. 2 shows a drainage structure of a building according to the present invention in detail.

The present invention provides a drainage channel installed on the floor of a building, a parking lot, and the like, and a floor formed of a packing layer for a smoothing operation, for immersion of groundwater or cleaning water after cleaning water.

The drainage structure of the present invention is constructed by a female and male coupling structure 14 to a pair of connectors 12 installed using a pair of left and right anchor nuts 10 fixed to the foundation 1 of a building A pair of left and right lifting and lowering adjusting bolts 20 rotatably mounted on the left and right lifting and lowering adjusting bolts 20 and a pair of lifting and lowering adjusting bolts 20, And a water channel member (40) mounted on the base (30).

The lower ends of the connectors 12 are coupled to the anchor nut 10 embedded in the base 1 in a threaded manner and the upper portion thereof is engaged with a coupling structure 14 for coupling with the lift control bolts 20 Shaped female element 14a.

The elevation control bolt 20 is a male type element having a predetermined length for adjusting the depth of the water to be constructed and a male type element which is fitted to the lower end of the lift type adjustment bolt 20 by fitting the female type element 14a of the above- 14b. At this time, the lifting and lowering adjusting bolt 20 is installed on the connector 12 in the longitudinal direction of the shaft and is rotated in place. This rotation operation will perform the height adjustment function of the gradient adjuster 30 described later.

Further, the gradient adjusting bar 30 is provided laterally across a pair of the elevating control bolts 20, which are formed in a substantially large-sized large-sized elevation, and the position thereof is raised or lowered by the thread of the elevating control bolt 20.

The water channel member 40 will be mounted on the upper surface of the gradient adjuster 30 by being coupled by the female and male coupling structures 50.

On the other hand, the water channel member 40 is unitarily manufactured with a predetermined length by an extrusion molding method using waste water for convenience of transportation and construction, and the unit channel member 40 is continuously connected to constitute a channel .

The water channel member 40 includes a base element 42 forming the bottom of the water channel and a pair of side walls 44 inserted in the receiving portions 42a provided at both ends of the base element 42, .

A grating 60 is installed on the upper end of the waterway member 40 constructed as described above.

FIGS. 3A through 3E show a construction process of the drainage structure of the present invention.

3A and 3B illustrate a structure in which a pair of left and right connectors 12 are installed using anchor nuts 10 arranged at regular intervals on both sides along a predicted drainage path designed in advance in civil engineering, And the elevating and lowering adjusting bolts 20 are installed at the upper ends of the elevating and lowering elevating mechanisms 12.

FIG. 3C shows a pair of elevating control bolts 20 installed on both sides of the left and right sides, as shown by the two-dot chain line in FIG.

3d shows the base element 42 of the channel member 40 which is a constant length unit connected on the gradient adjustment bar 30 in the direction of the number of the channels intersecting the gradient adjustment bar 30 by using the coupling structure 50 It is shown that it is mounted together.

3E shows a state in which the side wall 44 is inserted into the receiving portion 42a provided at both ends of the base element 42 of the water channel member 40 to complete the assembly of the water channel member 40, The elevation of the water channel member 40 is adjusted while operating the elevation control bolts 20 of each of the elevators so that the gradient gradually decreases from the water intake side to the water outlet side. At this time, on the upper end of the water channel member 40, a space retaining band 46 is temporarily installed to prevent the upper end of the side wall 44 from contracting inward when the package layer la is to be described later.

In addition, the side wall 44 of the channel member 40 will be able to partially cut its length according to the depth of the channel and to adjust its height. After the installation of the drainage structure of the present invention is completed as described above, if the packaging layer 1a is laid on the top of the base 1, the construction will be completed.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

FIGS. 1A and 1B are explanatory views showing a construction process of a drainage hole on a floor of a conventional building.

FIG. 2 is a sectional view showing a drainage structure of the present invention constructed and completed. FIG.

FIG. 3A is a plan view showing an initial stage of the drainage structure of the present invention, FIG. 3B is a sectional view taken along line AA of FIG. 3A, and FIGS. 3C, Explanatory diagram.

DESCRIPTION OF THE REFERENCE NUMERALS

10: Anchor nut 12: Connector

20: lift control bolt 30: gradient control rod

40:

Claims (3)

It is a drainage line installed to flood ground water or clean water and to collect water of washing water on the floor made of building layer, one parking lot, etc. and a packing layer for smoothing work. A pair of left and right connectors fixed by using anchor nuts arranged at equal intervals on both sides along a predicted drainage path designed on the foundation; A pair of left and right lifting and lowering bolts coupled to the upper end of each of the connectors by a female and male coupling structure in a longitudinal direction of the shaft and rotatably installed; A pair of left and right lifting and lowering adjusting bolts installed transversely to each other and vertically installed by the lifting and lowering bolts; And And a water pipe member mounted on the gradient control unit. The method according to claim 1, Wherein said water channel member is comprised of a base element having receiving portions at both ends thereof and a pair of side walls which are inserted into the receiving portions of said base element in an insertion manner. The method according to claim 1, The drainage structure of the building having the gradient control unit and the waterway member joined together by a combined structure of the water and the water.

Images