KR100464991B1 - Flame-retardant Seat - Google Patents

Abstract

PURPOSE: A flame-retardant seat is provided to maximize flame-retardancy of the seat upon firing, to minimize generation of fumes or poisonous fumes, to minimize loss of property and human life, and to increase productivity of the seat. CONSTITUTION: The flame-retardant seat(1) includes a seat portion(10), a support frame(20) for supporting the seat portion, and an engaging member for fixedly engaging the seat portion and the support frame. The seat portion includes a silicone foam formed in a certain thickness, a plate material disposed at an lower surface of the silicone foam and a sheath enclosing the silicone foam and joined to an inner surface of the plate material. The silicone foam is formed by crosslinking a silicone polymer having two double bonds and a polyorganosiloxane as a curing agent.

Description

Flame-retardant Chair

The present invention relates to a flame retardant chair, and more particularly, to a flame retardant chair capable of minimizing damage to life and property due to fire by maximizing the flame retardancy of the chair when a fire occurs in a place where the chair is installed.

In general, the chair is composed of a seat portion and a support frame for supporting the seat portion. When the seat portion is made of a general material rather than a flame retardant material, the seat portion burns easily to a fire in case of a fire, so that the fire transition can proceed quickly and toxic Gases can cause major accidents, including valuable life and property damage.

In view of the above, recently, a proposed flame retardant pack chair for railroad cars of Registered Utility Model 20-0327624 and a chair seat cushion of a non-combustible structure of Registered Utility Model 20-0321818 have been proposed.

However, the flame retardant pack chair for railroad cars of the Utility Model 20-0327624 is configured to include the flame retardant base layer, the upper plate and the lower glass fiber layer, and the upper lower shape paper layer of the seat of the seat portion, the above invention is the respective layers constituting the seat portion It is required to use the impregnated base material subjected to the flame retardant treatment with the flame retardant resin impregnation liquid, there is a problem that the manufacturing process is extremely complicated and the productivity is low.

In addition, the chair seat cushion of the non-combustible structure of the registered utility model 20-0321818 has a wire mesh, a flame-retardant cushioning material, a first support plate, a first fiberglass, a second fiberglass, a covering material, etc. in the seat cushion constituting the chair. Although the present invention also comprises a wire mesh or a plurality of fiberglass and a cushioning material laminated in a multi-layer inside the seat cushion to configure a non-combustible sheet portion, the composition of the sheet portion is extremely complicated and each layer is laminated in multiple layers The production process is cumbersome and complicated, resulting in a decrease in productivity.

The present invention has been made to solve the above-mentioned problems, the object is to maximize the flame retardancy of the chair when a fire occurs in the place where the chair is installed to minimize the generation of fire or smoke and toxic gas It is to provide a flame retardant chair that can minimize the damage to human life and property by.

Another object of the present invention is to provide a flame retardant chair for improving the productivity of the chair to form a seat portion of the chair in a simple structure.

A flame retardant chair according to the present invention for achieving the above object is formed with a silicon foam having a predetermined thickness, a plate disposed on the lower surface of the silicon foam, and at least a portion of the inner surface of the plate covering the silicone foam A sheet portion comprising an outer shell to be joined; A support frame for supporting the seat portion; And coupling means for fixedly coupling the seat portion and the support frame.

In addition, the silicone foam used in the flame retardant chair of the present invention is based on a silicone polymer (A) having at least two double bonds, and a polyorganosiloxane is used as a curing agent (B). It is characterized in that it is prepared by crosslinking ().

In addition, the silicone foam used in the flame retardant chair of the present invention is preferably blended to have 60 to 150 parts by weight of the curing agent (B) based on 100 parts by weight of the main body (A).

In addition, the coupling means used in the flame-retardant chair of the present invention includes a male member inserted into the through hole of the plate disposed on the lower surface of the seat portion and fixed to the plate so that the seat portion and the support frame can be separated and coupled to each other. It is possible to use a fastener made of a female member inserted into the through hole formed in the upper surface of the support frame and fixed to the support frame.

In addition, the flame-retardant chair of the present invention preferably further comprises a buffer layer formed by inserting at least one flame-retardant cushioning material between the lower surface of the seat portion and the upper surface of the support frame.

1 is an overall perspective view of the present invention,

2 is an exploded perspective view of a flame retardant chair according to the present invention;

3 is a cross-sectional view showing a cut part of the seat of the flame retardant chair of the present invention,

Figure 4 is an external perspective view of the plate applied to the seat portion of the flame retardant chair of the present invention, Figure 5a is an external perspective view of the male member of the fastener according to the present invention,

5b is an external perspective view of the arm member of the fastener according to the present invention;

Figure 6 is a cross-sectional view showing a state of fastening the seat portion and the support frame of the flame retardant chair according to the present invention,

7 is an exploded perspective view of another embodiment of a flame retardant chair according to the present invention.

<Description of Symbols for Major Parts of Drawings>

1: chair 10: seat

20: support frame 30: male member

40: arm member 50: cushioning material

Hereinafter, a flame retardant chair according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7 is a view of a flame retardant chair according to the present invention, Figure 1 is an overall perspective view of the present invention, Figure 2 is an exploded perspective view of the flame retardant chair according to the present invention, Figure 3 is a flame retardant chair of the present invention 4 is an external perspective view of a plate applied to the seat of the flame retardant chair of the present invention. FIG. 5A is an external perspective view of the male member of the fastener according to the present invention, and FIG. Figure 6 is an external perspective view of the arm member of the fastener according to the present invention, Figure 6 is a cross-sectional view showing a state of fastening the seat frame and the support frame of the flame retardant chair according to the present invention, Figure 7 is an exploded perspective view of another embodiment according to the present invention to be.

As shown in FIGS. 1 and 2, the flame retardant chair 1 according to the present invention supports a seat part 10, a support frame 20 for supporting the seat part 10, and the seat part 10 and a support. It comprises a coupling means for fixedly coupling the frame 20.

2 and 3, the sheet part 10 includes a silicon foam 11 having a predetermined thickness, a plate material 12 disposed on a lower surface of the silicon foam 11, and the silicon foam. It comprises the outer shell 13 which wraps up to at least one inner surface of the said board | plate material 12, enclosing (11).

The silicone foam 11 is made of a silicone polymer having at least two double bonds as a main body (A), and crosslinked with a polyorganosiloxane as a curing agent (B). by crosslinking.

In the present invention, when the main ingredient (A) is 100 parts by weight, the curing agent (B) is preferably blended to have 60 to 150 parts by weight. When the hardener (B) is added to 60 parts by weight or less, the hardness of the silicone foam is so low that not only the cushion function as a cushion material requiring a constant repulsive force is remarkably degraded, but also a hardening reaction does not occur properly, so that molding into a desired shape cannot be performed. When 150 weight part or more of hardening | curing agents (B) are added, unreacted substance remains and it becomes difficult to shape | mold to a desired shape.

On the other hand, there are various characteristics that determine the suitability of the cushioning material used in the flame retardant chair, among which the oxygen index (expressed as oxygen index, OI), the specific optical density of smoke or smoke density (Ds), The toxic gas index (indicated by R) is one of the most important characteristics.

Oxygen index is a numerical value of the oxygen content remaining when a certain amount of test object is combusted in a certain space for a certain period of time. The higher the value, the smaller the oxygen consumption is when the test object is combusted. In other words, the larger the oxygen index, the poorer the combustion, which is determined to have excellent flame retardancy. The smoke density is a numerical value of the degree of darkening of the visual field caused by the smoke generated when a test object is burned under a certain condition in a certain space. The larger the smoke density value, the more smoke is generated when the test object is burned. The smaller the smoke density value, the better the flame retardancy. The toxicity index is a standard value that determines the toxicity of smoke generated when a test object is combusted under certain conditions. The toxicity index is numerically determined based on the generation of various toxic gases harmful to the human body and its content. There are many ways to measure these characteristics. Currently, the most widely used method is ISO 4589-2 for oxygen index, ASTM E662 for smoke density, and BS 6853.B2 for toxicity index. It is recognized as a way.

In the silicone foam 11 according to the present invention, the main polymer (A) is a polyolefin-based double bond of a silicone polymer having two or more, and the curing agent (B) by mixing the polysiloxane in a volume ratio of 1: 1 by the size of the inner space Was injected into a mold of 430 mm x 430 mm x 2 cm and maintained at 20 to 30 ^o C for about 20 minutes. As a result of testing the molded silicone foam according to the above-mentioned internationally recognized test standard, it is 36% for the oxygen index (OI), 4.5 for the Ds in flaming mode Ds (1.5min), The gas toxicity index (R) was measured to be less than 0.18, and the above values were 17.6 to 20.2, smoke density Ds (1.5min) 50.77 to 187.65, measured on polyurethane foam, which is widely used as a cushion for a chair. Compared to the indexes 2.67 to 4.17, the characteristic values were excellent. (The polyurethane foam was prepared from polyol and isocyanate by the general method. The test results related to the polyurethane foam were the polyurethane foam. Was tested using a high pressure foaming machine having a discharge pressure of 150 bar).

As shown in FIG. 3, the plate 12 is disposed on the bottom surface of the silicon foam 11, and the silicon foam 11 having a predetermined thickness may be directly bonded to the support frame 20. Therefore, the silicon foam 11 is used as a bonding medium for firmly coupling the support frame 20, and a stainless steel sheet which requires corrosion resistance and durability according to an environment in which a flame retardant chair is installed or light weight and oxidation resistance is required. An aluminum plate or a flame retardant plastic can be selected and used. In addition, the plate member 12 may be formed with one or more through-holes 14 to be separated or combined by fasteners F, which are described later, as shown in FIG. 4. The outer shell 13 is a portion for covering the silicon foam 11 layer, and as shown in FIG. 3, the inner surface of at least a portion of the plate 12 is entirely enclosed by the silicon foam 11 and the plate 12. It is coated so as to bond to, and the flame-retardant cloth can be used by impregnating, applying or spraying a flame retardant on the surface of the shell (13).

As described above, the sheet portion 10 made of the silicon foam 11, the plate 12, and the outer shell 13 has an extremely simple structure, and thus, the manufacturing process is very simple, thereby improving productivity. Since it is made of non-flammable material, very excellent flame retardant effect can be obtained.

On the other hand, the support frame 20 is a frame for supporting the seat portion 10, as shown in Figure 1, the lower frame 20a is fixed along the wall or floor of the place where the flame retardant chair is installed, and the lower It may be composed of an upper frame (20b) is installed on the frame 20a, the support frame 20 is modified in a different form according to the environment and the application is installed, for example, the lower frame (20a) ) And the upper frame 20b may be manufactured in various ways, such as deforming into a single body. In addition, the support frame 20 has one or more through-holes 21 as shown in FIG. 2 so as to be separated or coupled by fasteners F, which will be described later. It may be formed at a position corresponding to one or more through holes 14 formed in the plate member 12 constituting the.

The coupling means is a means for fixedly coupling the support frame 20 and the seat portion 10, the fastener (F) to securely combine the two by a bolting (bolting) method, or to enable separation or combination of both And the like can be used.

The fastener F fastens the sheet unit 10 and the support frame 20 to be separated from each other and can be coupled to each other, and as shown in FIG. 5A, the plate member 12 disposed on the lower surface of the sheet unit 10. The male member 30 is inserted into and fixed to the through hole 14 of FIG. 5B, and the female member 40 is inserted into and fixed to the through hole 21 formed on the upper surface of the support frame 20 as shown in FIG. 5B. Is done.

The male member 30 includes a head portion 31, a shaft portion 32 extending from the bottom surface of the head portion 31, and one or more locking protrusions 33 for fixing to the outer circumferential surface of the shaft portion 32. ) The arm member 40 is composed of a hollow body portion 41 having a predetermined height, and a head portion 42 protruding from the upper outer surface of the body portion 41, the body portion 41 ) Is one or two or more incisions (43) are formed so as to be contracted by its elasticity when inserted into the through hole (14) formed in the seat portion 10, the body portion 41 of the The inner circumferential surface includes one or more locking grooves 44 engaged with and engaged with the locking projections 33 of the male member 30.

When combining the seat part 10 and the support frame 20 by using the male member 30 and the arm member 40 as described above, the male is first formed in the through hole 14 formed in the seat portion 10. The head portion 31 of the member 30 is inserted, and then the body portion 41 of the arm member 40 is inserted into the through-hole 21 formed in the support frame 20 to apply pressure to the sheet. The male member 30 and the female member 40 are fixed to the part 10 and the support frame 20, respectively, and in this state, the preparation of the coupling between the seat part 10 and the support frame 20 is completed. . Next, the shaft frame 32 of the male member 30 to match the hollow portions formed in the body portion 41 of the arm member 40 to apply a force to the upper surface of the seat portion 10 to the support frame When pressed toward the 20, the locking protrusions 33 and the locking grooves 44 of the arm member 40 of the shaft portion 32 of the male member 30 are fitted, respectively, and the seat unit 10 and the support frame ( The combination of 20) is simply completed as shown in FIG.

In addition, when the sheet portion 10 and the support frame 20 are to be separated, a predetermined force is applied to the sheet portion 10 in a direction perpendicular to the surface of the sheet portion 10. ) As the locking protrusion 33 is separated from the locking groove 44 of the support frame 20, the seat part 10 may be easily separated from the support frame 20.

On the other hand, the flame retardant chair according to the present invention, unlike the above embodiment, it is more preferable to insert a flame-retardant cushioning material 50 between the seat portion 10 and the support frame 20 as shown in FIG.

The cushioning material 50 prevents flame propagation from the lower portion of the support frame 20 to the upper seat portion 10 when a fire occurs, and also occurs as the seat portion 10 and the support frame 20 directly contact each other. It performs a buffer function to mitigate possible noise and vibration, and the same silicone foam as the silicone foam 11 inserted into the seat 10 may be used.

The buffer member 50 is the shaft portion 32 of the male member 30 of the fastener (F) used to couple the seat portion 10 and the support frame 20 is the arm of the upper support frame 20 The through hole 14 may be formed to be smoothly inserted into the hollow portion formed in the body portion 41 of the member 40.

As described above, the flame retardant chair according to the present invention minimizes damage to life and property due to fire because the chair is installed to maximize the flame retardancy of the chair in the event of fire, thereby minimizing the generation of fire or smoke and toxic gas. In addition, since the seat portion of the chair can be formed in a simple structure, the productivity of the chair can be greatly improved.

Although the present invention has been described with reference to the embodiments illustrated in the accompanying drawings, this may be regarded as exemplary, and a person skilled in the art may conceive various modifications and equivalent embodiments therefrom. Such equivalent embodiments should also be considered to be within the scope of the claims of the present invention. Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

Claims (5)

A silicon foam formed with a predetermined thickness, A plate member disposed on the bottom surface of the silicone foam, A sheet portion including an outer shell covering the silicone foam and bonded to at least a portion of an inner surface of the plate; A support frame for supporting the seat portion; Flame retardant chair comprising a; coupling means for fixedly coupling the seat portion and the support frame. The method of claim 1, The silicone foam is crosslinked using a silicone polymer having at least two double bonds as a main body (A), and a polyorganosiloxane as a curing agent (B). Flame retardant chair characterized in that it is manufactured. The method of claim 2, The silicone foam is blended to have 60 to 150 parts by weight of the curing agent (B) based on 100 parts by weight of the main body (A). The method of claim 1, The coupling means includes a male member inserted into a through hole of the plate disposed on the bottom of the sheet portion and fixed to the plate so that the seat frame and the support frame can be separated from each other and coupled to each other. A flame retardant chair comprising a fastener made of a female member inserted into the formed through hole and fixed to the support frame. The method of claim 1, A flame retardant chair further comprising a buffer material layer formed by inserting at least one buffer material between the bottom surface of the seat portion and the top surface of the support frame.