KR100808489B1 - Apparatus for injecting noninflammables into filler of sandwich panel - Google Patents

Abstract

Disclosed is a flame retardant injector for sandwich panel fillers. A system for injecting a flame retardant into a filler for a sandwich panel, comprising: at least one nozzle for injecting a flame retardant on a surface of the filler, a housing in which the nozzle is coupled, and a passage through which the flame retardant is supplied to the nozzle; And a pump coupled to the piping unit and pressurizing the flame retardant, wherein the flame retardant is injected at a pressure of 10 kgf / cm 2 to 100 kgf / cm 2, and a flame retardant injector for sandwich panel filling is provided by a simple process of spraying the flame retardant. By penetrating the flame retardant deeply into the internal structure of the sandwich panel filler to increase the flame resistance of the filler as a whole, it is possible to reduce the physical damage caused by the fire by suppressing the propagation of the combustion and the flame in the event of a fire, Damage can also be reduced.

Flame Retardant, Sandwich Panel, Filling Material

Description

Apparatus for injecting noninflammables into filler of sandwich panel}

1 is a side view showing a flame retardant injection device for a sandwich panel filler according to an embodiment of the present invention.

Figure 2 is a front view showing a flame retardant injection device for sandwich panel filler in accordance with a preferred embodiment of the present invention.

Figure 3 is a plan view showing a nozzle of the flame retardant injection apparatus according to an embodiment of the present invention.

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

1: Filler 10: Transfer Device

20: flame retardant injection device 22: nozzle

24: housing 26: piping

The present invention relates to a flame retardant injection device, and more particularly to a flame retardant injection device for sandwich panel filler.

The sandwich panel is a filler made of a synthetic resin foam such as styrofoam or polyurethane foam between a pair of outer panels made of a metal material, and after manufacturing the filler and the outer panel separately, bonding the outer panel on both sides of the filler. It may be produced by a method of filling, or by filling a filling material between two outer panels.

However, since the fillers used in the sandwich panel are made of a foamed synthetic resin material as described above, both the material and the tissue structure are inevitably vulnerable to fire. Accordingly, a structure made of a conventional sandwich panel has a great damage in a short time due to the spread of flames very quickly when a fire occurs, and in particular, there is a problem of generating a large amount of toxic gas while burning, causing serious casualties.

The present invention injects a flame retardant into the sandwich panel filler to increase the flame resistance of the sandwich panel to delay the propagation of the flames in the event of a fire to reduce the damage of the sandwich panel structure and toxic gas generated by the combustion of the filler sandwich panel It is to provide a flame retardant injection device for filler.

According to an aspect of the present invention, in a system for injecting a flame retardant into a filler for a sandwich panel, at least one nozzle for injecting a flame retardant on the surface of the filler, the nozzle is coupled, the housing forming a passage for supplying the flame retardant to the nozzle And, the pipe portion is coupled to the housing, and coupled to the pipe portion, including a pump for pressurizing the flame retardant, flame retardant injection device for a flame retardant sandwich panel filler is injected at a pressure of 10kgf / ㎠ to 100kgf / ㎠ Is provided.

The nozzle preferably has a characteristic of going straight without spreading as the liquid flame retardant is injected. The nozzle includes a slot having a long hole shape, and the length of the slot preferably corresponds to the width of the filler. The pump is preferably a hydraulic diaphragm system capable of delivering a liquid flame retardant.

Hereinafter, a preferred embodiment of a flame retardant injector for sandwich panel filler according to the present invention will be described in detail with reference to the accompanying drawings, in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals. And duplicate description thereof will be omitted.

1 is a side view showing a flame retardant injection device for a sandwich panel filler material according to an embodiment of the present invention, Figure 2 is a front view showing a flame retardant injection device for a sandwich panel filler material according to an embodiment of the present invention, Figure 3 Is a plan view showing a nozzle of a flame retardant injection apparatus according to an embodiment of the present invention. 1 to 3, a filler 1, a transfer device 10, a flame retardant injection device 20, a nozzle 22, a housing 24, and a pipe part 26 are illustrated.

Sandwich panel fillers are usually synthetic resin foams such as styrofoam.In order to improve the flame resistance of such fillers, a method of injecting a flame retardant into the filler, a method of applying a flame retardant to the surface of the filler, a method of precipitating the filler to the flame retardant, etc. There is this.

The method of coating a flame retardant on the surface of the filler or precipitating the filler on the flame retardant is not an effective method of improving flame resistance because the flame retardant is applied only to the surface of the filler. In order to inject the flame retardant to the inside of the filler, a method of drilling a flame retardant injection hole or the like on the surface of the filler and injecting the flame retardant through the injection hole.

However, the method of injecting a flame retardant after forming the flame retardant injection hole is complicated in that the injection hole forming step and the flame retardant injection step must be sequentially performed, and a type of groove, such as an injection hole, must be formed on the surface of the filler. there is a problem. The present invention is improved, it is characterized in that the flame retardant is injected into the filler in a simple process without forming an injection hole on the surface of the filler.

To this end, first, the filler for the sandwich panel is transferred to the flame retardant injection device, and the flame retardant injection device injects the flame retardant into the interior of the filler by spraying the flame retardant at a pressure of 10 kgf / cm 2 to 100 kgf / cm 2 on the surface of the transferred filler. Inject.

Injection of the flame retardant is made by a flame retardant injection device, the system for injecting a flame retardant into the filler for sandwich panels according to the present invention, a nozzle for injecting the flame retardant to the surface of the filler, a pump for applying pressure to the flame retardant is injected through the nozzle It is configured to include.

A plurality of nozzles may be installed depending on the type of filler to be flame retardant injection target, the number, arrangement interval and shape of the plurality of nozzles determines that the flame retardant is efficiently injected into the filler. For example, if the number of nozzles is too small, it is difficult to spray the flame retardant evenly over a large area of filler, and if the number of nozzles is too large, a large capacity pump must be used to inject the flame retardant at a predetermined pressure for each nozzle.

The spacing of the nozzles is limited to narrow the spacing due to the diameter of the member itself used as the nozzle. If the spacing is too wide, the flame retardant is not injected tightly, and thus the flame retardant performance of the filler cannot be sufficiently secured.

In this embodiment, as shown in FIG. 3, a plurality of nozzles are arranged in correspondence with the width of the filler, so that the flame retardant may be injected as a whole while the filler is transferred in one direction. Moreover, in order to solve the problem that the space | interval between nozzles cannot be narrowed enough by the diameter of the member used as a nozzle, it arrange | positioned in the zigzag form.

The flame retardant pressurized by the pump is supplied to each nozzle through the housing via a pipe portion consisting of a pipe, a connecting member, a valve, and the like. The housing is to combine a plurality of nozzles so that the flame retardant is injected to each nozzle at a uniform pressure, it is possible to use a pipe sufficiently larger in diameter than the nozzle.

The construction of a pipe or the like for supplying the flame retardant pressurized from the pump to the nozzle is obvious to those skilled in the art, and thus detailed description thereof will be omitted.

The present invention omits all the steps of forming the injection hole on the surface of the filler and injecting the flame retardant through it, and by injecting a high-pressure flame retardant directly on the surface of the filler to be injected to the inside of the filler.

That is, the flame retardant injection process according to the present invention is carried out by spraying the flame retardant sent by the high pressure pump through one or more nozzles. In order for the injected flame retardant to be injected into the filler, the flame retardant must be sprayed at a predetermined pressure or more, and the flame retardant is sprayed at a pressure of about 10 kgf / cm 2 or more, preferably about 50 kgf / cm 2.

As such, when the flame retardant is injected at a high pressure, a fine injection hole is formed on the surface of the filler by the spraying force, and the flame retardant penetrates into the filler through this. On the other hand, if the injection pressure of the flame retardant is too high, the filler may be damaged, so that the flame retardant is injected at an appropriate pressure in consideration of the degree of injection of the flame retardant within a range in which the filler is not structurally damaged.

However, the flame retardant injection pressure according to the present invention is not necessarily limited to the above-described numerical range, and the flame retardant may be injected at other numerical range pressures within a range in which the flame retardant penetrates into the filler and the surface of the filler is not damaged. Of course.

Generally, when the liquid is injected through the nozzle, the liquid may be sprayed in a straight line, but in some cases, the liquid may be sprayed in a conical shape spreading at a predetermined angle from the discharge port of the nozzle.

In the present invention, when the flame retardant injected through the nozzle is spread in a conical shape, the pressure applied per unit area on the surface of the filler is reduced than the pressure at the discharge port of the nozzle. In this case, since the pressure designed in advance for injecting the flame retardant into the filler does not reach the filler, the flame retardant may not be injected.

Therefore, it is preferable that the nozzle used in this embodiment has a characteristic of going straight without spreading as the liquid flame retardant is injected. Here, the 'straightness characteristic' is not limited to drawing a path of light or a mathematical straight line in a strict sense, and a substantially liquid column is formed so that the flame retardant injected from the nozzle can form an injection hole in the filler. Forming.

As such, in order to form the injection hole on the surface of the filler by the injection of the flame retardant, the diameter of the nozzle should be formed sufficiently small. Usually, a nozzle having a discharge port diameter of 1 mm or less is used, but of course, the present invention is not necessarily limited to the above-described numerical range.

As described above, when the flame retardant injected into the nozzle is spread in a conical shape, the pressure per unit area applied to the filler is reduced to prevent the flame retardant from penetrating into the filler. In order to solve this problem, even if the flame retardant injection pressure is increased, since the flame retardant is randomly collided with the surface of the filler, an injection hole may not be formed and the surface of the filler may be damaged.

Therefore, in order to make the flame retardant be injected into the filler while forming the injection hole on the surface of the filler by simply injecting the flame retardant, an appropriate nozzle is used within a range that is obvious to those skilled in the art so that the liquid column of the flame retardant discharged from the nozzle has a straightness. Good to do.

Although a nozzle for spraying a flame retardant is generally formed with a point-shaped discharge port, the present invention is not necessarily limited thereto. That is, in addition to the point-type nozzle described above, a slot-type nozzle of a slot shape may be used.

The flame retardant is sprayed by forming a slot with a thickness thin enough to allow the injected flame retardant to penetrate into the filler, and the length of the slot may be formed corresponding to the width of the filler to be injected.

For example, when the width of the filler is A, the length of the slot for flame retardant injection is A or nA. When the length of the slot is equal to the width of the filler (when the length of the slot is A), the flame retardant injection process is completed by moving the slot in the longitudinal direction of the filler, and when the slot is formed in multiples of the width of the filler. If the slot length is nA, the flame retardant injection process can be applied to several (n) fillers at the same time, thereby improving work efficiency.

The point-type nozzle according to the present invention can be compared to the needle and the slot-type nozzle to the knife in that the flame retardant is injected to the inside of the filler. As such, in order to form a fine injection hole on the surface of the filler by injecting a liquid flame retardant, the size of the discharge port of the nozzle should be sufficiently small, the discharge pressure should be large enough, and the injection shape of the flame retardant discharged should be straight without spreading.

After the flame retardant injection process is complete, the process of injecting a flame retardant into the filler is completed by washing the filler using a washing solution (120), and drying the filled filler by heat (130). In order to sufficiently remove the flame retardant remaining on the surface of the filler, the aforementioned washing and drying steps may be repeated two or more times.

Since the flame retardant according to the present invention is a liquid pressurized by a pump and sprayed through a nozzle, a liquid flame retardant may be used, and more preferably, liquid sodium silicate (Na ₂ SiO ₃ ) may be used. However, the present invention is not limited to the above components as components of the flame retardant, and of course, other types of liquid flame retardants may be used within a range apparent to those skilled in the art.

As shown in FIG. 1, the filler 1 is moved by a transfer device 10 such as a roller, and the flame retardant injector 20 has a plurality of nozzles so as to spray the flame retardant from both sides of the moving filler 1. (22) is provided. Although not shown, the nozzle 22 of the flame retardant injector 20 is connected to a high pressure pump to spray the flame retardant at high pressure.

As the pump used for the flame retardant injection device 20 according to the present invention, it is preferable to use a product capable of discharging a flame retardant such as resins or liquid sodium silicate at high pressure. Conventional high pressure pumps are for discharging pure liquids such as water or oil and are not suitable for discharging flame retardant liquids as in the present invention.

In order to discharge the flame retardant liquid at a high pressure, a hydraulic diaphragm type pump driven by hydraulic pressure is suitable, and more preferably a 'hydra-cell' type pump. However, the present invention is not necessarily limited to the pump described above, and other types of pumps may be used within a range apparent to those skilled in the art.

The flame retardant injected from the nozzle 22 collides with one side or both sides of the filler 1 transferred to the flame retardant injection device 20. In the nozzle 22, the flame retardant is injected into the shape of a liquid column having a fine diameter, so that the flame retardant penetrates into the filler 1 while forming an injection hole in the surface of the filler 1. Thereby, the process of injecting a flame retardant into the inside of the filler 1 is completed only by the simple process of injecting a flame retardant into the surface of the filler 1.

As described above, the nozzle used in the flame retardant injector may be a slot type nozzle as well as a point type as shown in FIG. 3. The filling material 1, in which the flame retardant is injected, is transferred to an apparatus (not shown) that performs the corresponding function for washing and drying.

Although the technical spirit of the present invention has been described in detail according to the above-described embodiments, the above-described embodiments are for the purpose of description and not of limitation, and a person of ordinary skill in the art will appreciate It will be understood that various embodiments are possible within the scope.

According to the present invention having the above configuration, the flame retardant is deeply penetrated to the internal structure of the sandwich panel filler by only a simple step of injecting the flame retardant, thereby increasing the filler flame retardancy as a whole, thereby suppressing the propagation of the flame and the propagation of the flame when the fire occurs. It can reduce the physical damage caused by, and can also reduce the life damage caused by the generation of toxic gases during combustion.

In addition, since the flame retardant injection process is completed only by injecting a flame retardant, the existing process can be greatly reduced, and since the flame retardant of a predetermined volume is precisely injected, it penetrates into the filling material, thereby reducing the cost, and Compared to the technique of mechanically forming the injection hole, the surface is clean and only penetrates the portion to be injected with the flame retardant, thereby reducing the leakage of the penetrated flame retardant.

Claims (4)

In the system for injecting a flame retardant into the filler for sandwich panels, At least one nozzle for spraying a flame retardant on the surface of the filler; A housing coupled to the nozzle to form a passage through which the flame retardant is supplied to the nozzle; A pipe part coupled to the housing; A pump coupled to the pipe and pressurizing the flame retardant; The flame retardant is sprayed at a pressure of 10kgf / ㎠ to 100kgf / ㎠, The nozzle includes a slot having a slot shape, the length of the slot is a flame retardant injector for sandwich panel filler, characterized in that corresponding to n times (n is a natural number) of the width of the filler. The method of claim 1, The nozzle is a flame retardant injection device for a sandwich panel filler having a characteristic of going straight without being spread as the liquid flame retardant is injected. delete The method of claim 1, The pump is a flame retardant injector for sandwich panel filling material of the hydraulic diaphragm (diaphragm) method that can send a liquid flame retardant.

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