KR20150140468A - Manufacturing equipment of foam material with flame retardant polystyrene batch-type - Google Patents

Abstract

The present invention relates to a condenser for refrigeration air conditioning which increases the width of a pin. More particularly, a process for additionally mixing and agitating foamed EPS beads and a flame-retardant solution is eliminated as the flame-retardant solution is inserted while the foamed EPS beads are transferred, and then is transferred and applied to coat the foamed beads at the same time. Therefore, a work process is simplified. A plurality of modulated coating units and a first drying unit transfer a large amount of the foamed EPS beads to a second drying unit in a batch manner, so a large amount of the foamed EPS beads can be sequentially processed and productivity can be increased. Time when the foamed EPS beads remain in the drying unit can be adjusted by selecting a plurality of drying supply lines branched from the drying unit. Accordingly, the flame-retardant solution, applied to the surfaces of the foamed EPS beads, is uniformly adsorbed to the foamed EPS beads; the foamed EPS beads are uniformly coated with the flame-retardant solution; and the foamed EPS beads coated with the flame-retardant solution are supplied to a molding device. Consequently, a flame-retardant performance of a foamed polystyrene material can be enhanced.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flame-retardant polystyrene batch-type flame retardant polystyrene,

The present invention relates to an apparatus for manufacturing a foam material using a batch type flame retarding expanded polystyrene, and more particularly, to a method of manufacturing a foam material by using a EPS foamed bead, The process of separately stirring the beads and the flame retardant solution is reduced to simplify the work process and a plurality of modularized coating portions and first drying portions are delivered to the second drying portion as a batch type so that a large amount of EPS foam beads are sequentially processed And the productivity can be improved. By selecting a plurality of dry supply lines branched from the drying part, it is possible to control the time during which the EPS foam beads are retained in the drying part, so that the flame retardant applied on the surface of the EPS foam beads is uniformly A batch type in which the flame retardant performance of expanded polystyrene foam material is improved by being adsorbed and supplied to the molding machine It relates to a foam material manufacturing apparatus using the flame-retardant expanded polystyrene.

The EPS foam insulation is produced for the purpose of insulation at a use temperature of 70 ° C or lower. The product foam-molded by using a bead or bead modified with an additive or the like is preheated and firstly foamed, A bead method in which the material is aged for a certain period of time, then filled in a plate-shaped mold, heated again and fused by secondary foaming, and extruded by a method in which the raw material is heated and melted and continuously extruded and foamed.

In the bead method, the particles on the surface are firmly fused to form a flat surface, and the extrusion method is composed of a plurality of uniform fine bubbles, and the surface forms a flat surface.

Specifically, an example of a method for producing a flame-retardant insulating plate impregnated with a thermosetting resin in the pores of a high-expansion polystyrene foam is a method of adding a polystyrene foam to a impregnation tank and lowering the air pressure in the impregnation tank by using a vacuum pump, .

In this method, it is difficult to control the time for impregnation by mixing the thermosetting resin and the curing agent, and at the same time, it is difficult to control the time for impregnation due to the chemical reaction, and since the flame retardant and the curing agent permeating between the particles and the particles of the polystyrene foam are not uniformly distributed, The problem was not found.

In order to uniformly impregnate the foamed polystyrene foam with a coating agent as a coating agent, the coating agent is allowed to permeate randomly into the pores between the porous article particles by a forced method such as vacuum suction, There is a method of uniformly dispersing a coating agent permeated between porous article particles. However, such a method has a problem that the impregnation time becomes long and a large amount of polystyrene foam can not be applied even during the inhalation process, It is difficult to dry the impregnated flame retardant, so that the drying time is relatively long.

Korean Registered Patent No. 10-825203 Korean Patent Publication No. 10-542050 Korean Patent Registration No. 10-699350

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

In the course of feeding EPS foam beads, the flame retardant solution is injected and the flame retardant is coated on the foam beads at the same time of conveyance, so that the process of separately stirring the EPS foam beads and the flame retardant solution is reduced, The present invention provides an apparatus for manufacturing a foamed material using a batch type flame retardant expanded polystyrene which is delivered to a second drying unit as a batch type and a first drying unit and a large amount of EPS foamed beads are successively processed to improve productivity There is a purpose.

Further, by selecting a plurality of dry supply lines branched from the drying part, it is possible to control the time during which the EPS foamed bead is retained in the drying part, so that the flame retardant applied to the surface of the EPS foamed bead is uniformly adsorbed and coated, Another object of the present invention is to provide an apparatus for producing a foamed material using a batch-type flame-retardant expanded polystyrene in which the flame retardancy of foamed polystyrene foam material is improved.

In order to accomplish the above object, the present invention provides a method for manufacturing an EPS foamed bead, in which a pre-expanded EPS (epandable polystyrene) bead, a flame retardant liquid and a curing agent are put through a charging port, Wealth;

The EPS foaming bead coated and transported in the coating part is dried by hot air. When dried, hot air flows to the surface of the EPS foam bead through rotation of a plurality of stirring blades A first drying unit to be delivered;

And a plurality of gates are formed at one end to selectively open any one of the plurality of gates so that the EPS foamed beads are allowed to stay in the coating portion, A partition wall portion for adjusting a time to be performed;

And a second drying unit connected to the first drying unit to introduce the primary dried EPS foamed beads and to dry the introduced EPS foamed beads by hot air,

Wherein the coating unit and the first drying unit are modularized in a single case, the modularized coating unit and the first drying unit are formed in a plurality of and connected to the second drying unit, respectively, and each of the modulated coating unit and the first drying unit Wherein the EPS foam beads are delivered to the second drying unit in a batch type, and the EPS foam beads are delivered to the second drying unit.

As described above, the apparatus for manufacturing a foam material using the batch-type flame retarding expanded polystyrene according to the present invention is characterized in that a flame retardant is injected in the course of feeding EPS foam beads, The process of separately stirring the beads and the flame retardant solution is reduced to simplify the work process and a plurality of modularized coating portions and first drying portions are delivered to the second drying portion as a batch type so that a large amount of EPS foam beads are sequentially processed So that the productivity can be improved.

Further, by selecting a plurality of dry supply lines branched from the drying part, it is possible to control the time during which the EPS foamed bead is retained in the drying part, so that the flame retardant applied to the surface of the EPS foamed bead is uniformly adsorbed and coated, The flame retardant performance of the expanded polystyrene foam material is improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing an apparatus for producing a foam material using a batch type flame retarding expanded polystyrene according to an embodiment of the present invention,
2 is a schematic view showing an apparatus for producing a foam material using flame retardant expanded polystyrene as a whole according to an embodiment of the present invention.

The present invention has the following features in order to achieve the above object.

The present invention relates to a method for manufacturing an EPS foamed bead, which comprises applying a pre-expanded EPS (Epandable polystyrene) bead, a flame retardant and a curing agent through a charging port and applying a flame retardant to the surface of the EPS foam bead through rotation of a plurality of stirring blades;

The EPS foaming bead coated and transported in the coating part is dried by hot air. When dried, hot air flows to the surface of the EPS foam bead through rotation of a plurality of stirring blades A first drying unit to be delivered;

And a plurality of gates are formed at one end to selectively open any one of the plurality of gates so that the EPS foamed beads are allowed to stay in the coating portion, A partition wall portion for adjusting a time to be performed;

And a second drying unit connected to the first drying unit to introduce the primary dried EPS foamed beads and to dry the introduced EPS foamed beads by hot air,

Wherein the coating unit and the first drying unit are modularized in a single case, the modularized coating unit and the first drying unit are formed in a plurality of and connected to the second drying unit, respectively, and each of the modulated coating unit and the first drying unit And the EPS foam beads are transferred to the second drying unit in a batch type.

The present invention having such characteristics can be more clearly described by the preferred embodiments thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Before describing in detail several embodiments of the present invention with reference to the accompanying drawings, it is to be understood that the present invention is not limited to the details of construction and the arrangement of components shown in the following detailed description or illustrated in the drawings will be. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front," "back," "up," "down," "top," "bottom, Expressions and predicates used herein for terms such as "left," " right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. Also, terms such as " first "and" second "are used herein for the purpose of the description and the appended claims, and are not intended to indicate or imply their relative importance or purpose.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 1 is a schematic view showing an apparatus for producing a foam material using a batch type flame retardant expanded polystyrene according to an embodiment of the present invention. FIG. 2 is a schematic view of a foam material using flame retarded expanded polystyrene of the overall arrangement type according to an embodiment of the present invention. Fig.

As shown in FIGS. 1 and 2, an apparatus for producing a foam material using a batch-type flame retarding expanded polystyrene according to the present invention comprises an inorganic flame retardant, a binder and a curing agent on the surface of an EPS (epandable polystyrene) The first drying section 20, the partition wall section 30 and the second drying section 40 so that the flame-retardant liquid 4 mixed at an appropriate ratio is entirely subjected to the adsorption-coated flame retardant treatment .

At this time, the kind of the inorganic flame retardant is not limited and may be, for example, at least two of expanded graphite, borax, boric acid, phosphate, ammonium salt, magnesium hydroxide and aluminum hydroxide.

As shown in FIG. 1, the coating part 10 is filled with an EPS foamed bead, a flame retardant liquid 4 and a curing agent 5, and the surface of the EPS foamed bead The flame-retarding liquid 4 is uniformly applied.

The EPS foam beads are injected into the interior of the hopper 12 through the hopper 12. The flame retardant 4 and the curing agent 5 are stored in the storage tank 1 and are discharged to the discharge pipe 2 to the inside of the coating portion 10. At this time, the injection amount of the flame-retardant liquid 4 and the curing agent 5 is adjusted by adjusting the constant-volume discharge valve 3.

A plurality of the stirring blades 11 are vertically or horizontally provided in the coating part 10 so that the surface of the EPS foamed beads charged through the rotation is uniformly buried in the flame retardant liquid 4 and the curing agent 5, To be applied to the entire surface of the substrate.

As shown in FIG. 1, the first drying unit 20 is dried by hot air on the EPS foamed beads which are coated and transported in the coating unit 10, and when the drying is performed, the rotation of the plurality of stirring blades 21 The hot air is uniformly conveyed to the surface of the EPS foam bead, and the drying is performed quickly and uniformly.

A plurality of the stirring blades 21 are provided vertically or horizontally in the first drying unit 20 to rotate the flame retardant 4 and the curing agent 5 coated on the surface of the EPS foam bead .

The first drying unit 20 has a structure in which hot air or the like is connected to a heat source device (not shown) to flow hot air into the inside of the first drying unit 20, and the hot air is at a temperature of about 60 ° C.

The case 50 of the coating unit 10 and the case 50 of the first drying unit 20 are formed integrally with each other. That is, the coating unit 10 and the first drying unit 20 are integrally formed Is formed in the case 50 and is modularized.

The coating unit 10 and the first drying unit 20 are formed in the modular case 50 so as to be divided into a coating unit 10 and a first drying unit 20, A plurality of gates 31 are formed at one end of the partition 30 to selectively open one of the plurality of gates 31 so that the EPS foamed bead is separated from the coating portion 10, And adjusts the time of stay.

That is, the EPS foamed bead coated by the stirring vane 11 is provided at the lower end of the coating unit 10. At this time, the plurality of gates 31 of the partition wall 30 are selectively opened, The time for coating the EPS foamed bead and the amount of coating can be controlled by controlling the time of staying in the coating part 10.

A plurality of gates 22 are provided on one end surface of the first drying unit 20, that is, one end surface connected to the second drying unit 40. In accordance with the plurality of gates 22, It is possible to control the time during which the beads are retained in the first drying unit 20 so that the optimum condition efficiency can be exhibited.

As shown in FIG. 2, the modular coating unit 10 and the first drying unit 20 are formed in a plurality of units, respectively, and are connected to the second drying unit 40. The respective modular coating units 10 and The first drying unit 20 is a batch type in which the EPS foam beads are continuously transferred to the second drying unit 40.

As shown in FIGS. 1 and 2, the second drying unit 40 is connected to the first drying unit 20 so that the first dried EPS foamed beads are introduced, and the introduced EPS foamed beads are heated Secondly, it is dried.

In this case, the second drying unit 40 is formed so that a plurality of diaphragms 41 are alternately stacked in the case, and the diaphragm 41 can be adjusted by sliding the diaphragm 41, It is possible to control the amount of time that the EPS foam bead stays and the amount of the discharged EPS by each section by the diaphragm 41 while inducing hot air between the spaces.

The second drying unit 40 and the first drying unit 20 are connected by the interconnecting pipe 6 to selectively connect the gate 22 of the plurality of gates 22 of the first drying unit 20. [ And EPS foam beads are injected into the second drying unit 40 through the connection pipe 6. [

Thus, the foam molding is completed by the general molding method in which the EPS foam beads dried up to the second order in the second drying unit 40 are injected into the block molding machine 7 and compressed at a high temperature and steam is injected, .

10 kg of EPS foam beads are charged into the hopper 12 of the coating part 10 per minute and the flame retardant 4 is injected at a rate of 10 kg per minute and the stirring blades 11 are rotated at a speed of 160 rpm And dried in the first and second drying sections 20 and 40 at a temperature of about 60 for 3 to 5 minutes, and the block molding machine 7 was used.

(W / m 占,) of 0.043 or less, a density (g / cm2) of 0.015 or more, a flexural fracture load (N) of 20 or more, The compressive strength (N / cm < 2 >) is 5 or more. (MJ / ㎡) is less than 8 and the time (s) in which the heat release rate exceeds 200kW / m2 continuously is less than 10 seconds, and the room through the test specimen There are no harmful cracks, holes and melting (all melting and disappearing of the core material), and the behavior stopping time (min) is 9 minutes or more.

1: storage tank 2: discharge pipe
3: Quantitative discharge valve 4: Flame retardant liquid
5: Hardener 6: Connector
7: Block molding machine 8: Block dryer
10: coating part 11,21: stirring blade
12: hopper 20: first drying section
22, 31: Gate 30:
40: second drying section 41: diaphragm
50: Case

Claims (3)

The EPS foamed bead, the flame retardant liquid 4 and the curing agent 5 are charged through the inlet and the flame retardant liquid 4 is supplied to the surface of the EPS foam bead through rotation of the plurality of stirring vanes 11 A coated portion 10 to be applied;
The case 50 is formed integrally with the case 50 of the coating unit 10 and the EPS foamed bead coated and transported in the coating unit 10 is dried by hot air and dried, A first drying unit 20 in which hot air is uniformly transferred to the surface of the EPS foamed bead through rotation of the EPS foam bead 21;
A space is formed between the case 50 of the coating unit 10 and the case 50 of the first drying unit 20 and a plurality of gates 31 are formed at one end to form a plurality of gates 31 A partition wall portion 30 for controlling the time during which the EPS foamed bead is retained in the coating portion 10 by selectively opening any one of the EPS foam beads;
And a second drying unit (40) connected to the first drying unit (20) to introduce the EPS foam beads, which are primarily dried, and to dry the inflow EPS foam beads by hot air,
The coating unit 10 and the first drying unit 20 are modularized in a single case 50 and the modularized coating unit 10 and the first drying unit 20 are formed in a plurality, The modular coating unit 10 and the first drying unit 20 are connected to the drying unit 40 so that EPS foam beads are delivered to the second drying unit 40 as a batch type Wherein the flame retarding foamed polystyrene is a flame retardant foamed polystyrene.
The method according to claim 1,
A plurality of gates 22 are provided on one end surface of the first drying unit 20 connected to the second drying unit 40. The EPS foam beads are applied to the first drying unit 20. A method of manufacturing a foamed material using a batch type flame retardant foamed polystyrene, the method comprising the steps of:
The method according to claim 1,
The second drying unit 40 is formed in the case so that a plurality of diaphragms 41 are alternately stacked and the degree of sliding and opening and closing of the diaphragm 41 can be adjusted, Wherein the hot foaming is induced and the amount of time the EPS foamed bead stays and the amount of the discharged foamed bead can be adjusted for each section by the diaphragm (41).

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