WO2013058437A1

WO2013058437A1 - Floor panel system

Info

Publication number: WO2013058437A1
Application number: PCT/KR2011/009805
Authority: WO
Inventors: 정오철
Original assignee: (주) 온유
Priority date: 2011-10-17
Filing date: 2011-12-19
Publication date: 2013-04-25
Also published as: JP2014534365A; JP5802837B2; KR101168891B1

Abstract

The present invention relates to a floor panel system, and in particular, to a floor panel system constructed to enable cooling and heating. The floor panel system of the present invention includes: a connection unit including a pipe connecting part; and a plurality of pipe panels having pipes laid in a line along the connection unit in order to form one floor together with the connection unit, and including an inflow unit and an outflow unit which have the pipes flowing in and out at parts thereof connected to the connection unit so as to be interconnected with each other through the pipe connecting part.

Description

Floor Panel System

The present invention relates to a floor panel system, and more particularly to a floor panel system that is constructed to enable cooling, heating and the like.

1 and 2 are FIGS. 5 and 6 of the Republic of Korea Patent Registration 10-0857075, respectively, in the case of the prior art, by installing a plurality of tatami panels on the floor pipes through which hot or cold water flows can be installed in a floor structure It is starting to do.

However, the prior art as described above is a structure in which the inlet of the pipe of each tatami panel is connected to each other by the outlet of the pipe of the neighboring tatami panel and the coupler or the valve, the following problems can be pointed out.

That is, it may be pointed out that a gap is generated between the tatami panel and the tatami panel due to the coupler or the valve.

In addition, in order to connect the pipes of the tatami panel with a coupler or a valve, the connection part is formed so that the inlet and the outlet of the pipe can be exposed to the outside, and the structure of the tatami panel is constructed by opening and closing the connection part by the opening and closing part. Complex problems can be pointed out.

The present invention has been made in order to solve the above problems, the pipe panel and the connection unit is installed to form a single floor with each other, to provide a bottom panel system so that pipes piped to the pipe panel can be connected through the connection unit. For that purpose.

The present invention to solve the above problems the connection unit having a pipe connection; The pipes are installed in a line with each other so as to form one floor together with the connection unit, and the pipes are piped, and an inlet and a discharge part in which the pipe is introduced and discharged is provided at a portion connected to the connection unit. It is possible to provide a floor panel system, characterized in that the pipes comprise a plurality of pipe panels interconnected via the pipe connection.

The connecting unit is installed on one of the plurality of pipe panels along a vertical direction in a row direction of the plurality of pipe panels, and an inlet and an outlet of the pipe panel are located along the line of the plurality of pipe panels. Can be provided side by side.

The pipe panel may include a pipe layer in which the pipe is piped, a heat insulation layer provided on the lower side of the pipe layer, and a skin layer formed on an upper surface of the pipe layer.

The piping layer may be made of sawdust.

The pipe panel is installed between at least one of the pipe layer and the skin layer and between the pipe layer and the heat insulating layer, and further comprises a moisture absorbing layer made by manufacturing a sawdust capable of absorbing moisture as a foam (form). Can be.

The pipe panel is installed between the pipe layer and the skin layer, it may further include a conductive layer made of copper plate.

The pipe panel may further include a reinforcing layer installed under the heat insulating layer to support the pipe layer and maintain the overall shape of the pipe panel.

The connection unit may be formed integrally with respect to the plurality of pipe panels or may be divided into a plurality of partitions formed to be separated from each other.

The connection unit may include a connection unit panel having a pipe connection space in which the pipe connection part is installed and a through part through which the pipe is formed.

The connection unit panel covers the pipe connection space and has an upper surface formed at one plane with the upper surface of the pipe panel, and is installed below the upper panel to form the pipe connection space with the upper panel. It may include a support for supporting the top panel.

The support part may be formed of a support neck, and may be divided into a plurality of parts based on the through part of the connection unit panel to form the through part of the connection unit panel.

Pipes of the pipe panel are connected to each other via a pipe connection line, the connection unit may include an inlet pipe and an outlet pipe connected to the inlet and outlet of the pipe line, respectively through the pipe connection. .

The pipe connection part may include a coupler to which the pipes are respectively coupled, and a connection pipe installed between the coupler and the coupler.

The coupler may have a '-' shape.

The pipe connection part is formed such that the pipes are connected in a 'c' shape, and the pipe may be connected to the pipe connection part in a straight line along the connection direction of the pipe panel and the connection unit.

The floor panel system according to the present invention is constructed such that the pipes in which the pipes are piped and the connection unit having the pipe connection are constructed together to form a single floor structure so that the pipes of the pipe panel are connected to each other in the pipe and the connection unit of the adjacent pipe panel. By being connected, there is no interference element such as a pipe, a pipe connecting portion, etc. between the pipe panel and the pipe panel can have an effect that the pipe panel and the pipe panel can be closely adhered to each other.

In addition, since the bottom panel system according to the present invention can be connected to each other in the pipe and the connecting unit of the pipe of the neighboring pipe panel, it is possible to omit elements such as the connector, the cover for connecting the pipe to the pipe panel. There is an effect that the structure of the pipe panel can be made simple.

In addition, the floor panel system according to the present invention has the effect that the pipe of the pipe panel can be connected to each other in the pipe and the connection unit of the neighboring pipe panel, it can be made easy to connect and disconnect the pipe and the pipe. have.

In addition, in the floor panel system according to the present invention, since a plurality of pipe panels are connected to each other in a row and the connection units can be connected to the pipe panels in the vertical direction of the row, the floor panel system is minimized to the edge of the floor structure. It can be arranged, the structure of the connection unit and the pipe panel is monotonous can have the effect that the construction can be easily made.

In addition, the floor panel system according to the present invention has an effect that the connection unit panel of the connection unit is configured as a cover, so that the installation and separation of the connection unit panel can be easily connected and disconnected pipe and pipe work. have.

1 is a conceptual diagram showing an example according to the prior art.

Figure 2 is a plan view showing a floor structure made as an example of Figure 1;

Figure 3 is a plan view showing a part of the construction state of the floor panel system according to an embodiment of the present invention.

4 is a plan view illustrating a disassembled state of each unit of FIG. 3.

5 is a cross-sectional view taken along the line A-A of FIG.

Figure 6 is a bottom view of the connection unit of the bottom panel system according to an embodiment of the present invention.

7 is a cross-sectional view taken along the line B-B in FIG.

8 is a plan view showing a part of the construction state of the floor panel system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 to 8, the bottom panel system according to an embodiment of the present invention may include a main unit 10 and at least one connection unit 50.

The main unit 10 is installed in line with each other along the connection unit 50 to form a bottom with the connection unit 50, the pipe 20 is piped, the pipe connected to the connection unit 50 Each of the inlet 20 and the inlet 20 of which the inlet and the outlet are discharged may be provided with a plurality of pipe panels 30 in which the pipes 20 are connected to each other through a pipe connection of the connection unit 50 in a single pipe line. have.

The pipe panel 30 may be formed in various shapes, and preferably may be formed of a rectangular panel.

The piping panel 30 is installed on the piping layer 32 to which the pipe 20 is piped, the heat insulation layer 34 provided below the piping layer 32, and the upper surface of the piping layer 32, and the mat 36a is provided. It may include a skin layer 36 consisting of.

The piping layer 32 includes a pipe line 32b for piping the pipe 20, and the pipe layer member 32a constituting the pipe layer 32 is divided into a plurality of pipe lines 32b around the pipe line 32b, or the pipe Grooves or holes forming the conduit 32b in the layer member 32a may be processed. The pipe layer member 32a may be formed of one panel, or several panels may be stacked up and down, and the pipe layer member 32a may be formed by manufacturing sawdust as a foam.

The heat insulation layer 34 is to block heat transfer to the lower side of the pipe layer 32 so that cold water, hot air, and warm air flowing along the pipe 20 can be transmitted only to the skin layer 36, such as styrofoam. It may be made of one or a plurality of layers by a heat insulating material of various materials.

The skin layer 36 forms the surface of the floor panel system according to the present invention, and various configurations are possible depending on the use of the floor panel system according to the present invention. For example, the epidermal layer 36 may include a mat 36a made of a tatami mat, a royal bone, a ripple, or the like, to form a tatami mat. The skin layer 36 may be covered with a stage 36b formed of a material such as silk, burlap, cotton, or the like corresponding to the edge of the pipe panel 30.

Meanwhile, the pipe panel 30 may further include a moisture absorbing layer 38.

The water absorbing layer 38 is installed between at least one of the pipe layer 32 and the skin layer 36 and between the pipe layer 32 and the heat insulating layer 34, and is manufactured like foam by sawdust having good water absorption and discharge. Can be.

In addition, the pipe panel 30 may further include a conductive layer 40.

The conductive layer 40 is for allowing cold water, hot air, and warm air flowing along the pipe 20 to be efficiently transferred to the skin layer 36, and installed between the piping layer 32 and the skin layer 36. And it can be made of a copper plate excellent in thermal conductivity.

In addition, the pipe panel 30 may further include a reinforcing layer 42.

The reinforcing layer 42 is provided below the heat insulation layer 34 to maintain the overall shape of the pipe panel 30 while supporting the pipe layer 32. The reinforcement layer 42 has strength for maintaining the shape as much as the main purpose is to maintain the shape. Any member can be used. For example, plywood made of wood, plastic cardboard, or the like can be used.

In addition, the pipe panel 30 is a floor finishing layer 44 made of one or more layers by various materials such as styrofoam 44a, nonwoven fabric 44b for the bottom protection and aesthetics of the pipe panel 30, etc. It may further include.

Such a pipe panel 30 may be a plurality of layers are integrally coupled to each other by an adhesive, but more preferably by sewing the binding strap 46 avoiding the pipe 20 piped to the pipe layer 32. It can be combined integrally.

The inlet and the outlet of the pipe panel 30 are connected only to one side of the pipe panel 30 along the vertical direction in the line direction of the plurality of pipe panels 30, and the pipe panel ( Connection unit 50 of the connection unit 30 may be provided side by side along the line direction of the plurality of pipe panels 30 to each other. That is, when the pipe panel 30 is formed in a rectangular shape and the vertical side is installed to be in contact with the vertical side of the adjacent pipe panel 30, the side of the pair of horizontal sides of the pipe panel 30 is connected to the connection unit 50 side. Inlet and outlet of the pipe panel 30 may be configured side by side. Both ends of the conduit 32b formed in the pipe panel 30 may be inlets and outlets of the pipe panel 30, respectively. Each inlet and outlet of the pipe panel 30 may be configured one by one for each pipe panel 30, it may be configured in plurality, if necessary.

On the other hand, the pipe 20 may be made of a variety of materials, such as a plastic material such as polyethylene or a metal material such as copper plate so as to efficiently transmit cold air, warmth, etc. to the skin while cold water, hot water and the like flows inside.

The pipe 20 may protrude toward the outside of the pipe panel 30, that is, the connection unit 50, through the inlet and the outlet of the pipe panel 30 so as to be connected to the pipe connection part.

In particular, the pipe 20 may protrude in a straight line along the vertical direction in the above-described line direction through the inlet and the outlet of the pipe panel 30 to be connected to the pipe connection.

Therefore, as the main unit 10 is configured as described above, the following operational effects can be obtained.

Since there is no interference between the pipe panel 30 and the pipe panel 30 such as the pipe 20 or the pipe connection part, the pipe panel 30 and the pipe panel 30 can be precisely attached to each other without gaps and installed. Construction of the unit 10 may be easier.

In addition, since the connection work of the pipe 20 and the pipe 20 is made in the connecting unit 50, the pipe panel 30 does not have to be provided with a connector and a covering member for connecting the pipe 20 to the pipe. The structure of the panel 30 can be simplified.

In addition, since the connection work of the pipe 20 and the pipe 20 can be made in the connection unit 50, which is a relatively wider space, instead of the narrow gap between the pipe panel 30 and the pipe panel 30, the pipe 20 ) And the pipe 20 may be easier to connect.

The plurality of pipe panels 30 may be installed to be connected in a line, and the connection unit 50 may be installed to be connected to the main unit 10 in a vertical direction of a line of the plurality of pipe panels 30 with respect to the bottom surface. . Accordingly, since a large number of pipe panels 30 can be connected to one connection unit 50, the majority of the floor structure can be constructed as the main unit 10 by minimizing the number of connection units 50. have. In addition, the connection unit 50 may be disposed at the edge of the floor structure, so that the central portion of the floor structure may be constructed by the main unit 10. In addition, since the arrangement structure between the plurality of main units 10 and the connection unit 50 is monotonous, construction of the floor structure may be easily performed.

The connection unit 50 may be integrally formed with respect to the plurality of pipe panels 30. Alternatively, the connection unit 50 may be formed in a split type formed into a plurality of face-divided to be separated from each other. The plurality of connection units 50 may be installed to be connected in a line or other structure with each other, or may be installed apart from each other.

The connection unit 50 may include a pipe connection unit and a connection unit panel 70 covering the pipe connection space 70a in which the pipe connection unit is installed.

Pipe connection is for connecting the pipes 20 of the main unit 10 in a single pipe line, as long as the pipe 20 and the pipe 20 can be any connection, any coupler or valve is used Can be.

In addition, the pipe connection may be connected to the pipe 20 of the main unit 10 in a variety of structures, such as 'b' shape, 'c' shape, 'T' shape, it can be configured in various ways. For example, the pipe connection may be made of only a joint to which the plurality of pipes 20 may be connected together so that the pipes 20 may be directly connected. In addition, the pipe connection portion, as shown, the pipe connection portion '60' connected to each pipe 20, so as to connect the pipe 20 of the main unit 10 in the 'c' shape (60) And, it may include a connecting pipe 62 is installed between the '60' shaped joints (60). That is, the pipe 20 of one pipe panel 30, the '60' shaped joint 60, the connecting pipe 62, another 'A' shaped joint 60, and the adjacent pipe panel 30 Pipe 20 may be connected in order.

On the other hand, the connection unit 50 further includes an inlet pipe 64 and an outlet pipe 66 which are connected to the inlet and the outlet of the piping line consisting of the pipes 20 of the main unit 10 through the joints of the pipe connection units, respectively. It may include. That is, hot water or cold water flows in through the inlet pipe 64 and flows into the pipes 20 of the main unit 10, and flows out along the pipes 20 of the main unit 10 and the discharge pipe 66. It can be discharged to the circulation pump or the outside through. In this case, the inflow pipe 64 and the discharge pipe 66 are long in length, or when the connecting unit 50 is divided into a plurality, etc., are divided into a plurality in the longitudinal direction and integrally coupled by a coupler or a valve 68 or the like. Can be.

The connection unit panel 70 may be formed in various structures, and as described above, the plurality of pipe panels 30 connected in a line to each other may be formed in a long straight structure.

The connection unit panel 70 covers the pipe connection space 70a and the upper surface panel 72 forms a plane with the upper surface of the piping panel 30, and the pipe connection space 70a together with the upper panel 72. It may include a support portion 74 is installed on the lower side of the upper panel (70a) to support the upper panel (72).

The upper panel 72 may be configured to cover the inside of the connection unit 50 so as not to be exposed to the outside. More preferably, the upper panel 72 may include a main body layer 72a that is manufactured like a foam by sawdust to maintain shape and secure strength, and to smoothly absorb and discharge moisture, and the upper surface of the main body layer 72a. It may be configured to further include an epidermal layer 72b made of a mat for the surface of the upper panel 72 is made by the royal bone, the ridge. The skin layer 72b of the top panel 72 may be covered with a step 72c formed of a material such as silk, burlap, and cotton in a portion corresponding to the edge of the top panel 72. In addition, the upper panel 72 is to protect the main body layer (72a) and the skin layer (72b), end 72c and the main body layer (72a) of the upper panel 72 can be easily integrated integrally by sewing the binding straps. To this end, it may further include an auxiliary layer 72d made of styrofoam or nonwoven fabric and disposed below the main body layer 72a.

Support portion 74 is to support the upper panel 72 may be made of a support neck (74a). The support neck 74a may be installed to support the upper panel 72 on both sides of the upper panel 72 along the connection direction of the piping panel 30 and the connecting unit 50, and the upper panel 72 and the nail. It can be combined integrally by.

The support neck 74a may be connected to the inlet and outlet of the pipe panel 30 to form a through part 70b through which the pipe 20 of the main unit 10 penetrates. It may be processed or may be made to be divided into a plurality around the through portion 70b of the connection unit 50 for ease of manufacture of the base 74a.

In addition, the support portion 74 may be implemented in a variety of ways, such as a box-shaped top surface open to be covered by the top panel 72.

The connection unit panel 70 may be detached and covered as a cover to conceal the pipe connection, and thus the connection unit panel 70 or the upper surface from the floor constructed by the floor panel system according to the present invention. Only the panel 72 can be easily connected and disconnected from the pipe 20 and the pipe 20 in the lifted state.

Although the preferred embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to these specific embodiments, and may be appropriately changed within the scope described in the claims.

Claims

A connection unit having a pipe connection;

The pipes are installed in a line with each other so as to form one floor together with the connection unit, and the pipes are piped, and an inlet and a discharge part in which the pipe is introduced and discharged is provided at a portion connected to the connection unit. A floor panel system, characterized in that the pipes comprise a plurality of piping panels interconnected through the pipe connections.
The method according to claim 1,

The connection unit is installed on either one of the plurality of pipe panels along the vertical direction of the line of the plurality of pipe panels,

The bottom panel system, characterized in that the inlet and outlet of the pipe panel is provided side by side along the line direction of the plurality of pipe panels with each other.
The method according to claim 1 or 2,

The pipe panel is a bottom panel system, characterized in that it comprises a pipe layer to which the pipe is piped, a heat insulating layer provided on the lower side of the pipe layer, the skin layer is provided on the upper surface of the pipe layer consisting of a mat.
The method according to claim 3,

The pipe layer is a bottom panel system, characterized in that consisting of sawdust.
The method according to claim 3,

The pipe panel is a floor panel system, characterized in that further installed between at least one of the pipe layer and the skin layer and between the pipe layer and the heat insulating layer, the moisture absorbing layer made of sawdust capable of absorbing moisture.
The method according to claim 3,

The pipe panel is installed between the pipe layer and the skin layer, bottom panel system, characterized in that it further comprises a conductive layer made of a copper plate.
The method according to claim 3,

The pipe panel further comprises a reinforcing layer installed on the lower side of the heat insulating layer to support the pipe layer while maintaining the overall shape of the pipe panel.
The method according to claim 1 or 2,

The connection unit is a bottom panel system, characterized in that made of a plurality of partitions formed integrally with the plurality of pipe panels or divided into a plurality of possible separation.
The method according to claim 1 or 2,

The connection unit has a pipe connection space in which the pipe connection is installed, the bottom panel system, characterized in that it comprises a connection unit panel formed with a through portion through which the pipe passes.
The method according to claim 9,

The connection unit panel covers the pipe connection space and has an upper surface formed on one surface with the upper surface of the pipe panel, and is installed below the upper panel so as to form the pipe connection space together with the upper panel. A bottom panel system comprising a support for supporting a top panel.
The method according to claim 10,

The support part is made of a support neck, the bottom panel system, characterized in that divided into a plurality around the through part of the connection unit panel to form a through part of the connection unit panel.
The method according to claim 1 or 2,

Pipes of the pipe panel are connected to each other through a pipe line in a pipe line,

The connection unit is a bottom panel system, characterized in that it comprises an inlet pipe and an outlet pipe connected to the inlet, outlet of the pipe line through the pipe connection, respectively.
The method according to claim 1 or 2,

The pipe connection part comprises a coupler to which the pipes are coupled, and a bottom panel system, characterized in that it comprises a connection pipe installed between the coupler and the coupler.
The method according to claim 13,

The coupler is a bottom panel system, characterized in that consisting of '-' shape.
The method according to claim 1 or 2,

The pipe connecting portion is made such that the pipes are connected in a '' 'shape,

The pipe is a bottom panel system, characterized in that connected to the pipe connection in a straight line along the connecting direction of the pipe panel and the connection unit.