KR20100121757A - Hollow membrance for slab - Google Patents

Abstract

PURPOSE: A hollow member for a slab is provided to block noise and vibration between layers and to improve durability by inserting compressed air into a body. CONSTITUTION: A hollow member for a slab is composed as follows. The hollow members are installed between truss bars of a pre-assembled slab form in a line. The hollow member forms a body(100) by rolling up a plastic composite sheet. The front and rear ends of the body are sealed using caps(200). The body is composed of a drain mat and a bubble sheet.

Description

Hollow membrance for slab}

The present invention relates to a slab hollow member, and more particularly, is installed in the slab formwork pre-assembled truss muscle for the production of hollow slab having a dust-proof sound insulation performance, the body is composed of a plastic sheet to meet the price conditions, workability It relates to a slab hollow member easily configured.

Interlayer vibration and noise generated in a multi-storey apartment, office building, etc. are emerging as a social problem, and a hollow slab structure for inter-floor dust-proofing has been introduced.

Since the hollow slab saves the concrete as much as the volume of the hollow part, the self-weight of the entire building is reduced and the seismic effect can be expected. In addition, since the noise and vibration of the upper layer passes through the hollow portion, it is possible to reduce the noise and vibration of the lower layer. In addition, due to the reduction of ready-mixed concrete requirements, CO ₂ The amount of generation can also be reduced.

However, conventionally introduced hollow members are not economical because a separate mold was required as a metal or plastic member manufactured by extrusion molding or injection molding, and it was difficult to give variability according to construction conditions.

The present invention is to solve the above problems, an object of the present invention is to provide a slab hollow member that satisfies both economical efficiency, workability and durability.

The present invention relates to a hollow member fabricated to introduce a dustproof and sound insulation effect to the slab.

The present invention provides a slab hollow member manufactured by using a ready-made plastic sheet to solve the above problems, rubber packer or spring to ensure the construction (durability) of the slab hollow member, durability and external pressure (resilience) It can be configured to reinforce and support the inner surface of the hollow member body. In addition, the fastening ring may be formed on the body of the slab hollow member to secure the coating thickness between the slab hollow member and the reinforcing bar and stabilize the installation state.

According to the present invention has the following effects.

1. Provide a hollow member that is applied to the slab structure to block the vibration and noise between floors of the building.

2. The slab hollow member according to the present invention is economical because it can be produced by simple processing such as gluing, fusion by using a ready-made plastic sheet as a raw material.

3. The slab hollow member according to the present invention can enhance the durability against external working load by expanding the rubber packer inserted into the body, reinforcing the inside of the body with a spring, or injecting compressed air into the body.

4. The slab hollow member according to the present invention is to form a fastening ring on the outer side of the body by tying the fastening ring and the truss muscle with a cable tie to control the rise of the hollow member according to slab concrete casting to cover the truss and upper reinforcement bar The thickness can be maintained.

The present invention is a hollow member that is installed side by side in one direction between the truss root of the prefabricated slab formwork, the slab hollow characterized in that the plastic sheet rolled up to form a body, sealing the front and rear ends of the body Provide the member.

In addition, the present invention provides a slab hollow member, characterized in that the cap is inserted into the front and rear ends of the body sealed.

In addition, the present invention provides a slab hollow member characterized in that the front and rear ends of the body is sealed by gluing or fusion.

In another aspect, the present invention provides a slab hollow member composed of a drain mat.

In addition, the present invention provides a slab hollow member consisting of the body of the bubble sheet.

In addition, the present invention provides a slab hollow member, characterized in that the body consists of a laminated composite sheet of a plastic sheet and a thin aluminum sheet.

In addition, the present invention provides a slab hollow member, characterized in that the fastening ring is formed on the outer portion of the body.

In addition, the present invention provides a slab hollow member, characterized in that further comprises a flow bead administered in the body.

In addition, the present invention provides a slab hollow member, characterized in that the rubber packer is configured to reinforce and support the inner surface of the body by inserting a rubber packer into the body to blow air.

In addition, the present invention provides a slab hollow member, characterized in that the spring is inserted into the body is configured to reinforce, support the inner surface of the body.

In addition, the present invention provides a slab hollow member, characterized in that the compressed air is filled in the body.

In the present invention, the term 'plastic sheet' generally encompasses mats, sheets, and films that are classified according to thickness, and converts ready-made products, such as a drain mat and a bubble sheet, into components of a hollow member. It is large, and waste plastic can be recycled to the body of the hollow member.

The flow bead is a member that converts the noise and vibration transmitted from the upper floor of the building into kinetic energy to be consumed. That is, the floor noise and vibration of the building is to realize the dust-proof performance through a mechanism that is reduced and absorbed through the flow beads. Therefore, in order for the interlaminar noise and vibration to be transferred to the flow beads and consume more in the form of kinetic energy, it is preferable to fill the slab hollow member with 40 to 60 vol% of the slab hollow member, rather than to fill the slab hollow member. In addition, the flow bead may be applied to a solid composition consisting of any one or more of artificial earth, natural earth, loess, such as lava aggregate, natural aggregate, pearlite (artificial earth expanded vermiculite at high temperature). In addition, by manufacturing any one or more of waste Schiropol, waste tire shredded material, waste fibers, waste paper, it can contribute to waste recycling.

Hereinafter, the present invention will be described in detail with the accompanying drawings.

One. First embodiment

Figure 1 shows the manufacturing process of the slab hollow member first embodiment.

In the first embodiment, the plastic sheet laminated in two layers is rolled up to form a body 100, the cap 200 is inserted into the front end of the body, and the cap 200 is sealed. ) Is sealed.

2. Second embodiment

Figure 2 shows the manufacturing process of the slab hollow member second embodiment.

The second embodiment is different from the above-described first embodiment in that the rubber packer 400 is inserted and expanded in the body 100 to reinforce and support the inner surface of the body 100. By reinforcing the body 100 by the rubber packer 400, it is possible to reinforce the durability against the external load applied to the slab hollow member in the construction process. In the second embodiment, although the flow beads are not illustrated, the flow beads may be placed in the rubber packer.

3. Third embodiment

Figure 3 shows the manufacturing process of the slab hollow member third embodiment.

In this third embodiment, a thick plastic sheet is rolled up to form a body, and a cap is inserted into the front end to seal the body. Then, the spring 500 is inserted into the body to reinforce and support the inner surface of the body. It is configured, the flow bead 300 is put in the body, and the cap 200 is inserted into the rear end to seal. Like the rubber packer 400 described above, the spring 500 is a component added to enhance durability against external load applied to the slab hollow member during construction.

4. Fourth embodiment

Figure 4 shows the manufacturing process of the slab hollow member third embodiment.

This fourth embodiment is characterized in that the body 100 of the slab hollow member is configured as a drain mat. The drain mat is a ready-made product used for retaining walls and basic drainage facilities of buildings, and such a drain mat is economical because it can be easily and cheaply obtained on the market. In Figure 4 it is shown that the flow bead 300 is administered inside the body 100 and the front and rear ends of the body is closed with a cap 200.

5. Fifth Embodiment

Figure 5 shows the manufacturing process of the fifth embodiment of the slab hollow member.

In the fifth embodiment, the body 100 is formed of a bubble sheet. The bubble sheet is generally composed of a PE film formed of a flat PE film and a plurality of air caps are fused to each other, and is widely used as a packaging material for articles, but is also recently used as a member for curing concrete insulation. The bubble sheet can be obtained easily and inexpensively on the market and is economical, and may be configured to form a hollow member by rolling a bubble sheet stacked in multiple layers thickly. However, in the fifth embodiment, the bubble sheet is rolled up, and then both sides and the front and rear ends are heat-sealed, and as shown in FIG. 5, the rubber packer is inserted and the rubber packer 400 is inserted into the fifth embodiment. ) Can be configured to reinforce and support the body by injecting and inflating air into the body.

6. Sixth embodiment

Figure 6 shows the manufacturing process of the sixth embodiment of the slab hollow member.

The sixth embodiment is the same as the fifth embodiment and the configuration of the body, except that the closing end of the body by inserting the flow beads before the sealing or fusion sealing.

7. Seventh embodiment

7 shows the manufacturing process of the seventh embodiment of the slab hollow member.

The seventh embodiment of the present invention is a slab hollow member in which plastic is cut into bags to form a body and blows air into the body. In the seventh embodiment, the outer portion of the body has a fastening ring 600 is formed, by tying the fastening ring and the truss muscle with a cable tie 700 to control the rise of the hollow member according to the slab concrete placing the truss muscle and the upper It is possible to maintain the coating thickness of the reinforcing bars. The seventh embodiment of the cable tie 700 connected to the truss root is shown in FIG. 8.

8. Eighth Embodiment

9 shows a manufacturing process of the eighth embodiment of the slab hollow member.

In the eighth embodiment, the bubble sheet is cut into a bag to form a body. The rubber packer reinforces and supports the inside of the body by injecting air into the rubber packer by inserting and installing a rubber packer inside the body. Embodiment is configured to complete the form of the slab hollow member. The eighth embodiment also has a fastening ring is formed on the outer side of the body, Figure 10 shows a state in which the eighth embodiment of the slab hollow member connected to the truss root.

The sixth to eighth embodiments may inflate the body by injecting compressed air into the body, thereby enhancing the resistance to external pressure.

Although the present invention has been described with reference to the accompanying drawings as mentioned above, various modifications and variations are possible without departing from the spirit of the present invention, and may be used in various fields. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

Figure 1 shows the manufacturing process of the slab hollow member first embodiment.

Figure 2 shows the manufacturing process of the slab hollow member second embodiment.

Figure 3 shows the manufacturing process of the slab hollow member third embodiment.

Figure 4 shows the manufacturing process of the fourth embodiment of the slab hollow member.

Figure 5 shows the manufacturing process of the fifth embodiment of the slab hollow member.

Figure 6 shows the manufacturing process of the sixth embodiment of the slab hollow member.

Figure 7 shows the manufacturing judgment of the seventh embodiment of the slab hollow member.

8 shows a state in which the seventh embodiment of the slab hollow member is connected to the truss root.

9 shows a manufacturing process of the eighth embodiment of the slab hollow member.

FIG. 10 shows a state in which the eighth embodiment of the slab hollow member is connected to the truss root.

<Description of the symbols for the main parts of the drawings>

100: body 200: cap

300: fluid ball 400: rubber packer

500: spring 600: fastening ring

700: cable tie

Claims (11)

Hollow members are installed side by side in one direction between the truss root of the prefabricated slab formwork, Rolled plastic composite sheet to form a body, and the slab hollow member characterized in that the front and rear ends of the body is sealed. In claim 1, Slab hollow member, characterized in that the front and rear ends of the body by sealing the cap. In claim 1, Front and rear ends of the body is a slab hollow member, characterized in that the sealing by fusion or fusion. In claim 1, Slab hollow member, characterized in that the body consists of a drain mat. In claim 1, The slab hollow member, characterized in that the body consists of a bubble sheet. In claim 1, The body is a slab hollow member, characterized in that consisting of a laminated composite sheet of plastic sheet and aluminum foil. In claim 1, Slab hollow member, characterized in that the fastening ring is formed on the outer portion of the body. The method according to any one of claims 1 to 7, Slab hollow member, characterized in that further comprises a flow bead administered in the body. The method according to any one of claims 1 to 7, Slab hollow member, characterized in that the rubber packer is configured to reinforce, support the inner surface of the body by inserting a rubber packer in the body to blow air. The method according to any one of claims 1 to 7, Slab hollow member, characterized in that the spring is inserted into the body is configured to reinforce, support the inner surface of the body. The method according to any one of claims 1 to 7, The slab hollow member, characterized in that the compressed air is filled in the body.

Images