KR20090011880U - Joint of supporting plate for shock-absorbing connecting part - Google Patents

Abstract

The present invention provides a support plate connecting member for connecting a plurality of buffer layers comprising a buffer portion and a support plate formed to protrude from the edge of the buffer portion while covering the upper portion of the buffer portion, the upper plate portion covering an upper portion of the support plate of the adjacent buffer layer; A connection part formed at the center lower part of the upper plate part; The center is connected to the connection portion, the upper surface is a lower plate portion located below the support plate of the adjacent buffer layer; consisting of, the support plate connecting member of the buffer layer connection portion, the upper plate portion, the connection portion, the lower plate portion selected from polyethylene, polypropylene, polyvinyl chloride It is formed of any one or manufactured by mixing two or three kinds of raw materials, or characterized in that the engineering plastics material, the lower plate is formed on both sides of the inclined upward relative to the connection point connecting portion, between the upper plate and the lower plate end The distance is characterized in that corresponding to the thickness of the support plate.

According to the present invention, by interlocking and fixing the support plate at the connection portion of the adjacent buffer layer having the protruding support plate, it is possible to prevent the adjacent buffer layer from being separated or recessed when the operator steps on the buffer layer at the top of the buffer layer during the installation of the buffer layer. The stability and durability of the waterproof taping during and after the waterproof taping work are improved.

 Buffer layer, support plate, connection, waterproof, reinforcement

Description

Support plate connecting member of buffer layer connection {JOINT OF SUPPORTING PLATE FOR SHOCK-ABSORBING CONNECTING PART}

The present invention is a support plate connecting member for connecting a plurality of buffer layers consisting of a buffer portion and a support plate formed to protrude beyond the edge of the buffer portion covering the upper portion of the buffer portion, the support plate at the connecting portion of the adjacent buffer layer having a protruding support plate By fixing, it is possible to prevent the adjacent buffer layer from being separated or recessed when the operator steps on the buffer layer at the top of the buffer layer during the installation of the buffer layer, and improves the stability and durability of the waterproof tape at the time of waterproof taping and after the work. It relates to a support plate connecting member.

The buffer layer of the building floor is formed on the concrete floor layer of the building floor or on top of the light-bubble concrete layer on the top of the concrete floor layer, the finishing mortar layer or light-bubble concrete layer is located on the top.

Such a buffer layer serves to block the floor impact sound by lowering the dynamic modulus of elasticity, and the technology related to the buffer layer, the method of manufacturing a dustproof rubber foam body and the dustproof rubber foam body produced therefrom invented by the inventor of the present invention. (Korean Registered Patent Publication No. 10-0504148) has been published.

Such a technique improves the buffering effect by lowering the vibration transfer rate by mixing a plurality of materials in a state in which it is difficult to thicken the floor thickness sufficiently, such as an apartment house.

These buffer layers are arranged on the concrete floor layer by adjoining a plurality of them in the horizontal direction.

By the way, the buffer layer is formed of a material having elasticity in nature, and when the local compressive force is applied to one side of the buffer layer connected to each other, the local settlement deformation occurs at the portion where the compressive force is applied.

As such, when the settlement deformation occurs on one side, the finishing mortar formed on the upper portion of the buffer layer is broken, which causes a problem of seeping moisture into the lower portion.

In particular, in view of the fact that the buffer layer is formed of a large amount of the foam material, the penetration of the moisture into the buffer layer, such as to deteriorate the buffer characteristics or to cause problems such as forming mold on the buffer layer and the concrete floor layer.

In order to solve the problem of the local load as described above, in forming the buffer layer, it is preferable to form a buffer by mixing the buffer material or the heat insulating material, respectively, and to provide a support plate having a low elasticity and high strength thereon.

However, even if the support plate is provided on the upper portion of the buffer unit as described above, when one side of the adjacent buffer layer is stepped on, the buffer layer on one side cannot be completely prevented from being deformed locally.

That is, even if there is a support plate, compressive deformation occurs in the buffer layer due to the compressive load generated when the worker moves for the work in the state of laying several buffer layers on the floor adjacent thereto, thereby deteriorating the tapping workability. there was.

In addition, if the local compressive force is repeatedly applied due to the person coming and going in the workplace even after the taping operation, there was a problem that the tape falls from the buffer layer.

As such, when the tapes connecting the buffer layers to each other fall, it becomes an environment in which moisture can penetrate the buffer layers.

The support plate connecting member of the buffer layer connecting part of the present invention is intended to solve the problems caused in the prior art and to construct a better quality buffer layer. In particular, in forming the connection part of the buffer layer provided with the support plate and the support plate By connecting the to prevent the falling of the waterproof tape to be installed on the top of the connection to minimize the water penetration phenomenon.

More specifically, it is to minimize the water penetration through the buffer layer connection by increasing the stability and durability of the waterproof tape after the waterproof tape construction by preventing the adjacent buffer layer is separated from each other even if the operator stepped on the buffer layer in the upper buffer layer during the construction of the buffer layer.

In the support plate connecting member of the buffer layer connecting portion of the present invention, in order to solve the above problems, in the support plate connecting member for connecting a plurality of buffer layers consisting of a buffer portion and a support plate protruding from the edge of the buffer portion covering the upper portion of the buffer portion, An upper plate portion covering an upper portion of a support plate of an adjacent buffer layer; A connection part formed at the center lower part of the upper plate part; The center is connected to the connecting portion, the upper surface is a lower plate portion located below the support plate of the adjacent buffer layer; is configured to include.

In addition, the upper plate portion, the connecting portion, the lower plate portion is formed of any one selected from polyethylene, polypropylene, polyvinyl chloride or a mixture of two or three kinds of raw materials, or characterized in that the engineering plastics material.

In addition, the lower plate portion is characterized in that both ends are formed to be inclined upward relative to the connection point connecting point, wherein the distance between the upper plate portion and the lower plate end is characterized in that the thickness of the support plate.

According to the present invention, it is possible to prevent the adjacent buffer layer from being separated or recessed when the operator steps on the buffer layer in the buffer layer installation operation by mutually fixing the support plate at the connection portion of the adjacent buffer layer having the protruding support plate.

In addition, the stability and durability of the waterproof taping during and after the waterproof taping work is improved.

As a result, it is intended to minimize the water penetration phenomenon by preventing the waterproof tape constructed on the connection of the adjacent buffer layer falling.

The support plate connecting member 100 of the buffer layer connection unit of the present invention includes a buffer unit 20 and a plurality of buffer layers including a support plate 10 formed to protrude from the edge of the buffer unit 20 while covering the upper portion of the buffer unit 20. A support plate connecting member (100) for connecting, comprising: an upper plate portion (110) covering an upper portion of a support plate (10) of an adjacent buffer layer; A connection part 130 formed at the center lower portion of the upper plate part 110; The center is connected to the connecting portion 130, the upper surface is a lower plate portion 120 which is located below the support plate 10 of the adjacent buffer layer; is configured to include.

Hereinafter, described in more detail through the accompanying drawings attached to the support plate connecting member 100 of the buffer layer connection of the present invention as follows.

The transfer material in which the connection member 100 of the present invention is used is used when interconnecting the buffer layer having the support plate 10 and the buffer part 20 under the support plate 10 as shown.

Here, the buffer layer is possible in various embodiments from (A) of Figure 4 to Figure 5 (H), specifically, the upper support plate 10, the lower portion of the cushioning material 21 and the heat insulating material 22 is installed in various forms It is composed.

In detail, (A) of FIG. 4, the support plate 10 is formed at an upper portion thereof, and the buffer member 21 is installed at the lower portion of the buffer plate 20.

4B is a form in which the support plate 10 is formed at an upper portion thereof, and a strip bar type or a buffer protrusion type buffer member 21 is installed at a lower portion thereof to lower the dynamic modulus of elasticity.

4 (C) is configured as shown in (B) of FIG. 4, but the heat permeability is somewhat lower than that of FIG. 4 (B) with a structure in which a plate-shaped buffer material 21 is installed between the support plate 10 and the buffer protrusion. It is structurally more stable.

4D is a structure in which a support plate 10 is formed at an upper portion thereof, a strip bar type or a buffer protrusion type buffer member having a hollow portion is provided at a lower portion thereof, and a heat insulating material 22 is provided at the lower portion thereof.

Here, although not shown, instead of the heat insulator 22, the buffer 21 may be installed.

Such a structure is designed not only to lower the dynamic modulus of elasticity of the entire buffer layer, but also to improve thermal insulation performance by lowering the thermal permeability.

4 (E) is configured as shown in FIG. 4 (D), but the structural stability is increased by installing a cushioning material 21 between the support plate 10 and the strip bar or the buffer projection, due to the buffer material 21 The dynamic modulus of elasticity was further improved.

5 (F) is a support plate 10 is installed on the upper portion, the cushioning material 21 is installed at the bottom, the buffer 21 and the configuration to have a hollow portion in the configuration to have a hollow portion, while the manufacturing is simple but lower the elastic modulus of elasticity Configuration.

5 (G) to 5 (H) shows a form in which the buffer layer is stacked in multiple, and the upper hollow portion is not in contact with the lower lightweight foam concrete layer or the concrete floor layer by the lower buffer layer, thereby satisfying heat insulation performance. By lowering the dynamic modulus of elasticity by the hollow portion, the vibration blocking effect is good.

It is apparent that various buffer layers may be applied to the idea of the present invention in addition to the embodiments described above, but it is preferable to apply a buffer layer that satisfies both the vibration blocking performance or the vibration blocking performance and the thermal insulation performance as described above.

In such a configuration, the support plates 10 and 11 can be formed by using one to three kinds of polypropylene, polyvinyl chloride, and polyethylene.

In addition, it may be formed of any one selected from plywood, a pressurized molding plate to which a binder is added, a pressurized molding plate to which a binder is added, a pressurized molding plate to which a binder is added, and a powdered wood powder and an inorganic powder. And

The thickness of the support plates 10, 11 is preferably formed to a thickness between 0.5 mm and 50 mm.

If it is thinner than 0.5 mm, not only the supporting function is deteriorated but also local deformation occurs, so that the upper lightweight foam concrete layer or the finishing mortar layer cannot be supported well.

In addition, when the thickness is larger than 50 mm, not only economic efficiency is low, but also there is a problem of narrowing the space for installing a member such as the shock absorbing material 21.

The support plates 10 and 11 should be kept as thin as possible while maintaining the strength, and economic considerations should be taken into account.

Therefore, although it may be formed in the form of a general flat plate, it is more preferable to form in a multi-wall form having a column using a member having a high strength.

To this end, a flat plate portion is formed on the upper and lower portions, and a wall portion is formed in the form of a multi-walled portion therebetween, so that even if an expensive member having a high strength is used, less material is added, so that an economical member can be used.

At this time, the shape of the wall portion may be formed in a straight line, a triangle, a quadrangle, a polygon such as a hexagon, a cylinder, or the like in addition to the lattice shape to further improve the structural strength.

On the other hand, the cushioning material 21 and the heat insulating material 22 is preferably foamed using a natural rubber or synthetic rubber as a raw material, or foamed by using a mixed material of natural rubber and synthetic rubber as a raw material.

In addition, a foamed product can be used as a raw material of polyurethane, polyolefin, polyethylene, polypropylene, polyvinyl chloride, ethylene vinyl acetate, or a mixed material of these two to six kinds.

In addition, it is also possible to use a mixture of one to eight kinds of foamed grinding materials selected from natural rubber, synthetic rubber, polyurethane, polyolefin, polyethylene, polypropylene, polyvinyl chloride, and ethylene vinyl acetate.

Moreover, a polyester nonwoven fabric layer can also be used.

In addition, the strip bar type or the buffer projection type buffer member may be adjusted in diameter, width, thickness, contact area, etc. in consideration of the material, the total area, the required thickness of each member.

The connection member 100 of the present invention includes an upper plate portion 110 covering an upper portion of the support plate 10 of the adjacent buffer layer as shown in FIG. 1; A connection part 130 formed at a center lower portion of the upper plate part 110; The center is connected to the connecting portion 130, the upper surface is a lower plate portion 120 which is located below the support plate 10 of the adjacent buffer layer;

This configuration is such that the support plate 10 is fitted into the groove 140 between the upper plate 110 and the lower plate 120 so that the support plate 10 of the adjacent buffer layer is inserted into the groove 140 so as to be loaded on one side of the support plate 10. When this is applied, the support plate 10 of the adjacent buffer layer is integrated so that only one buffer layer is not deformed separately.

Therefore, when the waterproof tape 200 is attached to or after the local load is applied to the upper portion as shown in FIG. 2, the waterproof tape 200 may not fall.

Meanwhile, in the present invention, the upper plate 110, the connecting unit 130, and the lower plate 120 may be formed of any one selected from polyethylene, polypropylene, and polyvinyl chloride, or may be prepared by mixing two or three kinds of raw materials. Can be.

In addition, the upper plate 110, the connecting portion 130, the lower plate 120 may be formed of an engineering plastic material.

In the present invention, the lower plate portion 120 is preferably formed such that both ends are inclined upward relative to the connection point of the connection portion 130, as shown in Figure 3, wherein the upper plate portion 110 and the lower plate portion 120 between the ends The distance may correspond to the thickness of the support plate 10.

In this case, after inserting the support plate 10 into the groove 140, the end of the lower plate portion 120 is in a state of pressing the support plate 10, and the lower plate portion 120 is supported by the elasticity of the material itself. Since 10) is prevented from being separated, the support plate 10 is stably fixed without a separate adhesive.

On the other hand, after installing the connection member 100 of the present invention as shown in Figure 2 can be a waterproof tape work on the upper, as shown in Figure 2 in the lower portion of the subject innovation connection member 100 as needed A shock absorbing material or heat insulating material 300 may be provided.

In addition, when installing the connection member 100 of the present invention may be fixed by using an adhesive material to be more firmly fixed.

The connection member of the present invention configured as described above is characterized in that it is used for the construction of the buffer layer, and in particular, it will be characterized in that it is used when connecting the buffer layer having a support plate on top of each other.

1 is a cross-sectional view showing a support plate connecting member of the buffer layer connection of the present invention.

Figure 2 is a cross-sectional view showing a state in which the adjacent buffer layer construction after installing the support plate connecting member of the buffer layer connecting portion of the present invention.

Figure 3 is a cross-sectional view showing a support plate connecting member of another buffer layer connection of the present invention.

4 to 5 are cross-sectional schematic diagrams showing examples of various buffer layers in which the support plate connecting member of the buffer layer connecting portion of the present invention is installed.

<Detailed Description of Major Symbols in Drawing>

10, 11: support plate 20: buffer part

21: cushioning material 22: insulation

100: connecting member 110: upper plate

120: lower plate 130: connecting portion

140: groove 200: waterproof tape

300: cushioning material or insulation

Claims (5)

In the support plate connecting member for connecting a plurality of buffer layers consisting of a buffer unit 20 and a support plate 10 protruding from the edge of the buffer unit 20 while covering the upper portion of the buffer unit 20, An upper plate part 110 covering an upper portion of the support plate 10 of the adjacent buffer layer; A connection part 130 formed at a center lower portion of the upper plate part 110; The center is connected to the connecting portion 130, the upper surface is a lower plate portion 120 which is located below the support plate 10 of the adjacent buffer layer; configured including, Support plate connection member of the buffer layer connection. The method of claim 1, The upper plate portion 110, the connecting portion 130, the lower plate portion 120 is formed of any one selected from polyethylene, polypropylene, polyvinyl chloride or is characterized in that manufactured by mixing two or three kinds of raw materials, Support plate connection member of the buffer layer connection. The method of claim 1, The upper plate 110, the connecting portion 130, the lower plate 120 is characterized in that the engineering plastics material, Support plate connection member of the buffer layer connection. The method of claim 1, The lower plate portion 120 is characterized in that both ends are formed to be inclined upward relative to the connection point 130, Support plate connection member of the buffer layer connection. The method of claim 4, wherein The distance between the end of the upper plate 110 and the lower plate 120 is characterized in that corresponding to the thickness of the support plate 10, Support plate connection member of the buffer layer connection.

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