KR101054360B1 - Supports for Flooring Materials - Google Patents

Abstract

The present invention is to support the floor surface of the building by arranging the support sphere consisting of a heterogeneous coupling structure that combines a high hardness composite member and a low hardness composite member to the bottom of the floor construction material installed on the floor surface of the building under the floor construction material In accordance with the present invention, there is provided a support for a flooring material, characterized in that the elasticity and viscous force is appropriately applied to the support, which effectively blocks interlayer noise. Unlike the use of the support, which combines different composite members with different hardness, it effectively blocks floor ringing caused by the impact force and prevents noise between floors. Characteristics of the elastic and viscous forces The advantage is that it can be permanently maintained above the appropriate level.

Flooring material, supporter, composite member, elastic force, viscous force.

Description

Supporting structure for floor construction materials {Supporting structure for floor construct device}

The present invention relates to a support for a floor construction material, and more particularly, a support structure consisting of a heterogeneous coupling structure combining a high hardness composite member and a low hardness composite member at the bottom of the floor construction material installed on the floor surface of the building. By supporting the floor surface of the building by arranging the lower portion of the flooring material, the elasticity and viscous force is appropriately applied to the support, and the support for the flooring material, characterized in that it can effectively block the inter-layer noise.

In general, the flooring materials used for the flooring of buildings should be designed to have sound insulation effect between floors. In particular, when constructing a residential building such as an apartment or a house, it is necessary to construct a pleasant living space by effectively blocking noise generated between floors for convenience of living.

On the other hand, when looking at the base of the flooring materials applied to improve the sound insulation effect of the building as described above, "Building floor construction materials" of Republic of Korea Patent Publication No. 10-0371500 is shown in Figure 1 In the case of installing the flooring material by inserting and fixing the cushioning material 14 in the concave groove 12 of the protrusion 10 protruding downward from the bottom, when the base surface 16 and the buffering material 14 of the floor contact, the elastic force of the flooring material A technology having a soundproofing effect is disclosed as a cushioning effect, and the Republic of Korea Patent Publication No. 10-0734611 "foam bottom construction material" is a balance member 20 protruding in the downward direction of the floor construction material as shown in FIG. ) Is composed of a cylindrical upper balance member (a) having an upper support (22) and a lower balance member (b) having an interruption support (24) and a lower support (26).Support the dakmyeon may construction the floor construction material to a flat height, and discloses a technique with a sound insulation.

However, since the support holes of the prior art installed in the lower direction of the floor construction material as described above is formed of a synthetic resin material of high hardness, the elastic force is too high, so that when the impact is applied to the floor surface, the ringing phenomenon is increased, which does not effectively block the interlayer noise. There was a problem.

Therefore, the present inventors form the upper plate 32, the intermediate plate 34, the lower plate 36 by using a synthetic resin in order to improve the above problems, and then connected to each of the plurality of partitions 38, the lower plate On the bottom of 36, the support protrusion 40 is formed in the form of convex embossing in contact with the floor of the building to develop a technology that can effectively block the interlayer noise as compared to the conventional floor construction material. 0765178 has already been registered as a patent, but in the case of the patent as shown in Figure 3, the plate body 32, 34, 36 is formed in a multi-layer structure, so that some noise between the floors, but high hardness in contact with the building floor surface When strong impact is applied due to the support protrusion 40 of the interlayer noise was not completely blocked.

Therefore, the present invention as a way to solve the above problems, while securing the elasticity and viscous force of the support base for supporting the floor construction material more than a suitable level, a new type of floor to maintain the characteristics of cushioning the concrete floor permanently The purpose is to provide support for construction materials.

Particularly, the present invention combines a high hardness composite member with excellent elastic force and a low hardness composite member with excellent viscous force to have a heterogeneous coupling structure, so that the elastic force and the viscous force of the support are properly maintained so that the ringing phenomenon is different from the conventional support. It is an object of the present invention to provide a support for a new type of flooring material that can effectively block the noise caused by the interlayer.

The present invention provides a support for the floor construction material laminated between the concrete floor of the building floor surface,

The support base is a support for the flooring material, characterized in that it consists of a heterogeneous coupling structure of a high hardness composite member having excellent elastic force and a low hardness composite member having excellent viscosity as a means of solving the problem.

The composite member of the high hardness in the support for the floor construction material according to the present invention is characterized in that the hardness is 40 ~ 70 Shore C-type (Shore C Type).

The composite member of the low hardness in the support for the floor construction material according to the present invention is characterized in that the hardness is 20 to 40 Shore C-type (Shore C Type).

In the support for the flooring material according to the present invention, the composite member is a synthetic rubber, butadiene rubber (BR), neoprene rubber (NR), chloroprene rubber (CR), styrene butadiene styrene rubber (SBS), styrene isoprene styrene Rubber (SIS), butyl rubber (IIR), nitrile rubber (NBR), styrenebutadiene rubber (SBR), ethylene propylene rubber (EPDM), acrylic rubber, fluorinated rubber, silicone rubber (MQ), urethane rubber, polychlorinated as synthetic resin It is characterized by using one or more selected from vinyl resin, polystyrene resin, polyethylene resin, polypropylene resin, acrylic resin and nylon.

In the support for the floor construction material according to the present invention as described above, the support is characterized in that the inner space penetrating downward in the member located on the upper side.

In the support for the floor construction material according to the present invention as described above, the support is characterized in that the coating layer is formed on the surface.

In the support for the floor construction material according to the present invention, the high hardness composite member has an inner space that is formed continuously in the longitudinal direction, the low hardness composite member is formed by filling the inner space It is done.

The present invention by the above problem solving means is to produce a support for the flooring material with a heterogeneous coupling structure of a high hardness composite member having a high elastic force and a low hardness composite member having a high viscous force, so that the conventional supporters have a high hardness. Unlike using synthetic resins, it effectively blocks sounding phenomena caused by strong impact force and prevents inter-floor noise, so that a comfortable living space can be maintained, and the characteristics of elasticity and viscous force buffering concrete floor are more than appropriate. The advantage is that it can be kept permanent.

When described in detail with reference to the accompanying drawings, the present invention devised to achieve the above problems are as follows.

4 is a view showing a state of use of the base for the flooring material according to a preferred embodiment of the present invention, 5a and 5b is a high hardness composite member of the base for the flooring material according to a preferred embodiment of the present invention; A diagram showing a separated state of the low hardness composite member.

Referring to Figure 4 and 5b, the present invention in the base of the floor construction material laminated between the concrete layers of the building floor surface,

The support is characterized by consisting of a heterogeneous coupling structure of a high hardness composite member having excellent elastic force and a low hardness composite member having excellent viscosity.

The support 100 of the floor construction material of the present invention is a high hardness composite member 110 and the high elastic force so as to secure the elastic force and viscous force to permanently maintain the characteristics of cushioning the impact force of the concrete floor while supporting the floor construction material It is composed of heterogeneous coupling structure of low hardness composite member 120 with high viscous force and effectively blocks interlayer noise due to interaction between elastic force and viscous force. Unlike conventional support, soundproofing for preventing interlayer noise caused by ringing phenomenon due to impact There is an advantage to being able to maximize the effect.

In the present invention, the high hardness composite member 110 has excellent elasticity to mitigate impact, and has excellent mechanical properties due to durability, chemical resistance, as well as high hardness, thereby playing a role of relieving ringing due to impact. The hardness of the composite member 110 is preferably Shore C-type (Shore C Type) is 40 ~ 70. When the hardness is less than 40, there is a concern that the impact force is difficult to absorb due to the decrease in the elastic force of the composite member, when the hardness exceeds 70 there is a fear that the repulsive force is generated by the high elastic force of the composite member.

In the present invention, the low hardness composite member 120 not only has high viscous force but also serves to relieve the impact force due to the high viscous force when the impact is applied to the wear material and the friction heat with excellent self strength. And the hardness of the composite member 120 is preferably Shore C-type (Shore C Type) is 20 to 40. When the hardness is less than 20, the viscous force of the composite member is so high that it is difficult to play a role as a support, and when the hardness exceeds 40, there is a fear of difficulty in relieving the impact force due to the decrease in the viscous force of the composite member.

And the composite member is a synthetic rubber butadiene rubber (BR), neoprene rubber (NR), chloroprene rubber (CR), styrene butadiene styrene rubber (SBS), styrene isoprene styrene rubber (SIS), butyl rubber (IIR), nitrile rubber (NBR), styrene butadiene rubber (SBR), ethylene propylene rubber (EPDM), acrylic rubber, fluorinated rubber, silicone rubber (MQ), urethane rubber, synthetic resin, polyvinyl chloride resin, polystyrene resin, polyethylene resin, polypropylene resin, It is preferable to use one or more selected from acrylic resin and nylon, but may be appropriately selected and used if the physical properties equivalent to those of the composite member are maintained according to the needs of the consumer or the needs of the manufacturer.

On the other hand, the composite material means a synthetic rubber or a synthetic resin or a mixture of these materials.

And the method of bonding between the high hardness composite member 110 and the low hardness composite member 120 is configured as described above is not particularly particular, the composite of the high hardness of Figure 5a using an adhesive in accordance with a conventional method The member 110 and the low hardness composite member 120 of FIG. 5B may be closely adhered to each other.

The base 100 for the floor construction material constructed as described above is formed of a high hardness composite member 110 having excellent elasticity on the upper side, and a low hardness composite member 120 having excellent viscosity on the lower side. Formed and configured. Of course, the vertical relationship between the high hardness composite member 110 and the low hardness composite member 120 can be changed. And such a support 100 may be to have a variety of forms in accordance with the floor construction material to be used. For example, the support 100 according to a preferred embodiment of the present invention is to form a locking groove 112 on the upper side to have a structure that is inserted into the floor construction material. Of course, such a structure of the support 100 is to set the structure to reflect the design according to the needs of the user, design according to the floor construction material.

On the other hand, Figure 6a to 6c relates to a view showing various forms of the base for the floor construction material.

Supporting hole 100 for the floor construction material according to a preferred embodiment of the present invention, as shown in Figure 6a, the inner space 130 is penetrated downward to the lower side of the high hardness composite member 110 To form. By forming the air layer as described above, the internal space 130 realizes the noise prevention effect by the air layer while alleviating the impact force due to the elastic force and the viscous force between different materials. And, as shown in Figure 6b, the support protrusion 132 is formed in the low hardness composite member 120 is installed on the lower side is inserted into the inner space 130 to support the high hardness composite member 110 of the upper side. By doing so, it is possible to effectively secure the supporting force, and as shown in Figure 6c, by being fully coupled to the inner space 130, it is possible to increase the supporting force even more. Of course, the configuration of the internal space 130 and the support protrusion 132 may be formed in various forms according to the height, the structure of the base 100.

And when the support sphere 100 is combined with the floor construction material there is a risk of deformation in the form of the reaction with the reaction material of the concrete, as shown in Figures 6a to 6c synthetic high hardness on the surface of the composite member The coating layer 124 may be formed by selecting one of rubber, synthetic resin, or adhesive, but such coating layer 124 may be appropriately selected if the physical properties equivalent to or higher than those of the coating agent are maintained according to a user's request or a manufacturer's needs. Can be used.

In addition, Figure 7a is a view showing the cross-sectional shape of the base for the floor construction material according to another preferred embodiment of the present invention, Figure 7b is a structure of the longitudinal direction of the base for the floor construction material according to another preferred embodiment of the present invention It relates to a drawing for explaining.

Referring to Figure 7a and 7b, the support for the floor construction material 100 according to the present invention is a high hardness composite member 110 and a low hardness composite member 120 is molded by an extruder, respectively. The composite member 110 of high hardness that is molded as described above has an internal space 130 that is continuously formed in the longitudinal direction, and is molded as described above. The low hardness composite member 120 is inserted into the inner space 130 of the high hardness composite member 110 to mold the support 100. The support hole 100 formed as described above may further improve the bearing capacity when the floor construction is performed, thereby relieving the impact force due to the elastic force and the viscous force between the dissimilar materials to implement the noise prevention effect by the air layer. And it is possible to use the various types of support port by cutting the support base 100 formed in this way at appropriate intervals in the longitudinal direction according to the characteristics of the floor construction material.

On the other hand, the longitudinal direction in the above means that the base member is continuously molded by extrusion molding by filling a low hardness composite member in the inner space of the high hardness composite member.

For reference, looking at the method of coupling the support 100 with the floor construction material, the support 100 is coupled to the floor construction material so that the floor construction material is coupled to the locking groove 112 of the support port 100. . At this time, the locking groove 112 is formed on the high hardness composite member 110 when the high hardness composite member 110 is positioned on the upper side (combined position of the flooring material), the low hardness composite member 120 If the upper side is to be formed on the low hardness composite member 120. When the support 100 is coupled to the flooring material, the flooring material is spaced apart from the floor (slab) by a certain distance, thereby forming an air layer between the floor surface and the flooring material, the soundproof effect by the air layer can be expected To help.

Supporting base 100 of the floor construction material of the present invention configured as described above is composed of a heterogeneous coupling structure of a high hardness composite member 110 having excellent elastic force and a low hardness composite member 120 having excellent viscous force to the concrete floor It can maintain the cushioning property permanently and by combining different kinds of composite members with excellent elasticity and viscous force without using synthetic resin of high hardness, unlike conventional supporting ball, there is an advantage that can effectively block interlayer noise even when strong impact force is generated. .

As described above, the base for the floor construction material according to the present invention is to effectively block the noise between floors compared to the base bar that has been proposed through the technology registered by the present inventor, the base for the preferred floor construction material of the present invention Although described with reference to the accompanying drawings, this is only an example and will be understood by those skilled in the art that various changes and modifications can be made without departing from the spirit of the present invention.

1 is a view showing a protrusion formed in the bottom direction of the conventional floor construction material;

2 is a view showing a balance member provided in the lower portion of a conventional foam flooring material;

3 is a view showing a perspective view of a conventional building floor construction material;

Figure 4 is a view showing the state of use of the base for the floor construction material according to a preferred embodiment of the present invention;

5a and 5b is a view showing a separated state of the high hardness composite member and the low hardness composite member of the base for the floor construction material according to a preferred embodiment of the present invention;

6a to 6c is a view showing the various forms of the base for the flooring material according to a preferred embodiment of the present invention;

7A illustrates a cross-sectional shape in accordance with another preferred embodiment of the present invention;

 7B is a view for explaining a longitudinal structure according to another preferred embodiment of the present invention;

Explanation of symbols on the main parts of the drawings

100: base 110: high hardness composite member

112: locking groove 120: low hardness composite member

124: coating layer 130: internal space

132: support protrusion

Claims (7)

In the base of the flooring material laminated between the concrete floor of the building floor surface, The support is, The hardness is Shore C type (Shore C Type) 40 ~ 70, the composite member having elastic force, The hardness is Shore C type (Shore C Type) is 20 ~ 40, and consists of heterogeneous coupling structure of composite member with viscous force, Supporting port for the flooring material, characterized in that the coating layer consisting of one kind of synthetic rubber, synthetic resin or adhesive on the surface is formed. delete delete The method of claim 1, The composite member is a synthetic rubber, butadiene rubber (BR), neoprene rubber (NR), chloroprene rubber (CR), styrene butadiene styrene rubber (SBS), styrene isoprene styrene rubber (SIS), butyl rubber (IIR), nitrile rubber ( NBR), styrene-butadiene rubber (SBR), ethylene propylene rubber (EPDM), acrylic rubber, fluorinated rubber, silicone rubber (MQ), urethane rubber, polyvinyl chloride resin, polystyrene resin, polyethylene resin, polypropylene resin, acrylic as urethane rubber Supporting pad for the flooring material, characterized in that one or more of the resin, nylon can be selected and used. The method of claim 1, The support is a support for the floor construction material, characterized in that the inner space is formed through the member is located in the upper direction penetrating downward. delete The method of claim 1, The high hardness composite member has an inner space that is formed continuously in the longitudinal direction, The low hardness composite member is a base for the flooring material, characterized in that formed by filling the inner space.

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