KR101347079B1 - Sleeve for air duct and it's construction method - Google Patents

Abstract

The present invention relates to a socket integrated sleeve and an air duct construction method using the same. A technical main idea of the present invention reduces production costs and improves workability by combining a socket integrated sleeve to a construction hole of bottom concrete formed on each layer and inserting the socket integrated sleeve into a vertical standpipe as a socket shape and bonding the socket integrated sleeve with silicon and making a sleeve performs as a role of layer separation and as a connection pipe at the same time when an air duct constructed in an apartment house is combined to multiple vertical standpipes. The present invention secures durability even if the transformation of a duct pipe is generated according to the air current thermal expansion and lifespan of a building with an individual connection method between layers and improves housing safety by completely blocking damp between layers when a fire breaks out.

Description

Sleeve for air duct and it's construction method using a socket integrated sleeve and the socket integrated sleeve

According to the present invention, the air duct constructed in the common house is coupled to a plurality of vertical risers, and the socket-integrated ribs are integrally coupled to the construction holes of the floor concrete formed in each floor to be fitted with the vertical risers as sockets. It is then bonded by silicon, which allows the ribs to act as interlayer compartments and at the same time as connectors, thereby improving cost reduction and workability, and ducts according to airflow thermal expansion and construction life through independent connection methods between layers. Even if the pipe is deformed, durability is secured, and in particular, it relates to a socket-integrated sleeve and an air duct construction method using the socket-integrated sleeve, characterized in that the safety of the housing is greatly improved by completely preventing interlayer leakage during fire protection.

In general, the dry air duct ventilation system of the related art is installed on one side of the kitchen side and the bathroom side of an apartment house such as an apartment in order to normally exhaust the odor generated from the kitchen side and the bathroom side as shown in FIG. Promotes the exhaust and ventilation of gases.

This dry air duct ventilation system (DRY AIR DUCT SYSTEM) is formed to connect the air ducts using the PVC or galvanium galvalume (aluminum galvanized) material in each layer to be naturally or forced exhaust from the rooftop.

Thus, the above-described dry air duct ventilation system is installed by connecting the air duct (granular duct) in the up and down direction of the building, connected to one side of the air duct and to the flexible duct 3 of the kitchen or bathroom side The saddle 4 is installed to be fixed. The top layer of the air duct is provided with an exhaust punching plate 5, and an exhaust fan 6 is installed above the exhaust punching plate 5.

At this time, the upper and lower connection end of the air duct is connected and fixed by a connection band (8) or a coupling. That is, the connection band 8 is encouraged so that the air ducts are connected in a straight line up and down in a joint house composed of a plurality of floors or more multilayers.

The connection band 8 is formed to form a general circular ring shape according to the shape of the outer circumferential surface of the air duct.

However, in the related art, as shown in FIG. 5, a construction hole for connecting the air ducts is formed for each floor of the floor concrete, while the sleeve 7 is fitted therein to provide a separate supporter 20. It is formed to fix it stably.

This, in turn, requires a separate refractory filler or a refractory sealant to prevent flow due to interlayer compartment problems when the air duct is installed in the sleeve. There arises a problem that productivity is lowered such as cost increase.

The present invention is to solve the above-mentioned problems, the technical gist of the air ducts are installed in a common house is coupled to a plurality of vertical riser, the socket-integrated ribs are integrated in the construction hole of the floor concrete formed for each floor It is connected to the vertical granules in the form of sockets, and then bonded by silicon, which allows the ribs to serve as interlayer compartments and at the same time as connectors, thereby reducing cost and workability. Independent connection method between floors ensures durability even when the duct pipe is deformed according to airflow thermal expansion and building lifespan, and particularly, it is possible to completely prevent leakage of floors during fire prevention, thereby greatly improving residential safety. The purpose is to provide an air duct construction method using the sleeve.

In order to achieve the above object, the socket integrated sleeve of the present invention is a hollow tube 110 having upper and lower openings, and a support jaw 120 protruding from an inner surface is formed on a longitudinal upper line of the hollow tube 110. The lower end of the granular duct 10 is formed to be hooked or seated, and the synthetic jaw 130 protruding from the outer surface is formed on the lower line, while the hollow tube 110 has a construction of the interlayer bottom concrete 20 having an outer circumference. It is comprised so that it may be cured integrally in the hole 21.

On the other hand, in the air duct construction method using the socket-integrated sleeve of the present invention, the socket-integrated rib 100 in the construction hole 21 to have a vertical transfer passage of the granular duct 10 in the process of pouring the floor concrete 20 The socket-integrated rib 100 is a hollow tube 110 having an upper and a lower opening, and the support jaw 120 protruding from an inner surface on a longitudinal line of the hollow tube 110 in a longitudinal direction. When the lower end portion of the granular duct 10 is formed and inserted or caught, it is constructed to prevent the leakage by sealing the inserted gap by the silicon 30.

At this time, in the construction method, the socket-integrated rib 100 is lifted up and inserted into the upper granular duct 10-1 in a state where it is coupled to the construction hole 21-1 of the upper floor concrete 20-1. The end is sealed by the silicone 30, but the lower end of the upper figurine duct 10-1 is made to be jointly coupled through the V-band 40 and the upper end of the divided figurine duct 10.

In addition, the granular duct (10, 10-1) is preferably to be installed independently for each layer.

In addition, it is preferable that the granular duct 10-10-1 coupled with the socket-integrated rib 100 to seal the layers completely from leakage by completely removing the air duct penetration gap between the layers.

Thus, in the present invention, the air ducts constructed in the common house are combined into a plurality of vertical risers, the socket-integrated ribs are integrally coupled to the construction holes of the floor concrete formed in each floor, and thus the vertical risers are formed as sockets. It is made to be bonded by silicon after being fitted together, which improves cost reduction and workability by allowing the rib itself to act as an interlayer compartment and at the same time as a connector, and improves airflow thermal expansion and construction life as an independent connection method between layers. Accordingly, durability is secured even when deformation occurs in the duct pipe, and in particular, there is an effect that the safety of the housing is greatly improved because the interlayer leakage is completely blocked during fire protection.

1 is an exemplary side view showing that the socket-integrated rib according to the present invention is constructed,
2 is a side cross-sectional view of the socket-integrated rib according to the present invention;
Figure 3 is a side cross-sectional view showing another embodiment of a socket-integrated sleeve according to the present invention;
4 to 5 is an exemplary view showing a conventional rib structure.

Next, the present invention will be described in more detail with reference to the accompanying drawings.

First, as shown in FIGS. 1 to 3, the socket-integrated sleeve 100 of the present invention is a hollow tube 110 having an upper and a lower opening, and protrudes from an inner surface on a longitudinal upper line of the hollow tube 110. The support jaw 120 is formed so that the lower end of the granular duct 10 is hooked or seated, and the synthetic jaw 130 protruding from the outer surface is formed on the lower line, while the hollow tube 110 is formed on the outer circumference. It is configured to be cured integrally in the construction hole 21 of the interlayer floor concrete 20.

That is, when the granular duct is inserted into the hollow tube of the socket-integrated rib, it intersects the orthogonal corner of the support jaw and is formed to achieve a solid support fixing by simple insertion.

At this time, in order to prevent leakage, silicon is sealed to maintain the airtightness of the outer end gap of the rib in which the granular duct is inserted.

In addition, the cross-sectional area formed in the base jaw and the composite jaw is a concave or convex hemisphere or similar shape, it is formed so that a more stable and stable synthesis when the construction of the floor concrete and the composite.

Thus, as shown in Figure 3, the socket-integrated rib 100 is preferably formed to minimize the collision area with the rising air flow is formed in the vertical surface of the support jaw rather than the curved surface.

On the other hand, in the air duct construction method using the socket-integrated sleeve of the present invention, the socket-integrated rib 100 in the construction hole 21 to have a vertical transfer passage of the granular duct 10 in the process of pouring the floor concrete 20 It is formed to cure by pouring it integrally.

Accordingly, the socket-integrated rib 100 is a hollow tube 110 having upper and lower openings, and a support duct 120 protruding from an inner surface of the hollow tube 110 is formed on a longitudinal upper line of the hollow tube 110. If the lower end of the 10) is interposed or seated after insertion, the gap is inserted to seal the silicon 30 to prevent leakage.

Thus, in the construction method, the socket-integrated rib 100 is lifted up and inserted into the upper granular duct 10-1 in a state in which it is coupled to the construction hole 21-1 of the upper floor concrete 20-1. The end is formed to be sealed by silicon 30.

At this time, the lower end of the upper figurine duct 10-1 is made to be coupled to the upper end of the divided figurine duct 10 through the V-band (40).

In addition, the granular duct (10, 10-1) is preferably to be installed independently for each layer.

This independent construction method is formed to provide the operator with improved construction and easy workability.

In addition, it is preferable that the granular duct 10-10-1 coupled with the socket-integrated rib 100 to seal the layers completely from leakage by completely removing the air duct penetration gap between the layers.

That is, in the related art, the ribs serve as through-holes due to vertical connection of the granular ducts, and the leakage generated in the upper and lower layers due to the gap between the inner and outer diameters of the ribs and the granular ducts generated during installation flows through the diameter gaps. As a result of the problem, the construction method of the present invention has the feature that the above-described socket-integrated sleeve has solved such a problem.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100 ... socket integrated sleeve 110 ... hollow tube
120 ... Base jaw 130 ... Composite jaw

Claims (5)

A hollow tube 110 having an upper and a lower opening is formed, and a support jaw 120 protruding from an inner surface is formed on the upper line in the longitudinal direction of the hollow tube 110 so that the lower end of the granular duct 10 is hooked or seated. On the lower side, a synthetic jaw 130 protruding from the outer surface is formed, while the hollow tube 110 has a socket-integrated rib for curing the outer periphery integrally in the construction hole 21 of the interlayer floor concrete 20. To
The support jaw 120 is formed to minimize the collision area with the rising air flow is formed in the vertical plane rather than the curved surface cross-sectional shape, and the granular duct sealingly coupled with the socket-integrated sleeve (10-10-1) ) Is a socket-integrated sleeve, characterized in that the air duct penetration gap is completely removed between each floor so that each floor is completely partitioned from leakage. In the process of pouring the bottom concrete 20, the socket-integrated rib 100 is integrally placed in the construction hole 21 so as to provide a vertical transfer passage of the granular duct 10, thereby curing the socket-integrated rib 100. Is a hollow tube 110 having an upper and a lower opening, and the support jaw 120 protruding from the inner surface is formed on the upper line in the longitudinal direction of the hollow tube 110 so that the lower end of the granular duct 10 is inserted or The seated gap is formed to seal the gap by the silicon 30 to block leakage, and the socket-integrated rib 100 is connected to the construction hole 21-1 of the upper floor concrete 20-1 in the upper state Lifting up and inserting the granular duct 10-1 is formed so that the upper end is sealed by the silicone 30, the lower end of the upper granular duct 10-1 is the upper end of the divided granular duct 10 and It is formed to be jointed through the V-band 40 The granular ducts 10 and 10-1 may be installed independently for each layer, but the seal-coupled granular ducts 10-10-1 are completely removed from each other by leaking through the air duct through each layer. Air duct construction method using a socket-integrated sleeve, characterized in that to be completely partitioned.
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