KR101902441B1 - Multi-Hardness Multi-Elasticity Polyurethane Foam Manufacturing Method by using Batch-typed forming process - Google Patents

Abstract

The present invention relates to a manufacturing method for multi-hardness and multi-elasticity polyurethane foam using a batch-typed foaming process, which can implement personalized optimum body pressure distribution and body shape maintaining effects not by individually manufacturing, assembling, or attaching polyurethane foam mattresses having different hardness and elasticity by area according to body characteristics and conditions of an individual person but by forming an integrated polyurethane foam mattress. In addition, the manufacturing method for multi-hardness and multi-elasticity polyurethane foam comprises: a step (a) of preparing a mold which has a foam molding space in a fixed size therein by at least the bottom unit and side wall units, and in which a plurality of partitions to divide the bottom surface of the foam molding space into a plurality of areas are formed by being vertically extended at a fixed length from the bottom surface of the foam molding space; a step (b) of regulating intervals among the plurality of partitions to desired intervals; a step (c) of spraying (foaming) a plurality of polyurethane foaming solutions having different hardness and elasticity from one another below the height of the partition in a lump in order to correspond to the plurality of areas divided by the plurality of partitions, respectively; and a step (d) of forming integrated polyurethane foam having different hardness and elasticity by areas because a plurality of polyurethane foaming bodies having different hardness and elasticity are entangled with one another and grow above the partitions in the plurality of areas.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-hardness multi-elastic polyurethane foam manufacturing method using a batch type foaming process,

The present invention relates to a polyurethane foam suitable for use as a mattress and a method for producing the same. More specifically, the present invention provides a polyurethane foam mattress having different hardness and elasticity for each region according to the physical characteristics and conditions of an individual, The present invention relates to a multi-ply, multi-elastomeric polyurethane foam using a batch-typed foaming process, which enables optimal pressure dispersion and body-holding effect (to lower electromyography and improve blood flow).

In general, the lifestyle of modern people is changing drastically due to changes in transportation, self-driving, computer use, TV viewing, competitive study, and simple repetitive tasks, and cervical spine and spinal diseases are rapidly increasing.

As an alternative to this, the choice of bedding to help maintain a good posture during sleep is highlighted. It is important to develop a mattress that can relax the rigid back muscles and ligaments during the day, relax the stressed bone, and properly hold the shape of the skeleton. Therefore, a mattress having different hardness and elasticity for each region of the mattress is being actively developed in consideration of the body shape characteristics of each part of the human body.

When the hardness and elasticity of each part of the mattress are set differently according to the body shape of each part of the human body, the optimum electromotive force value can be maintained by ideally supporting the lumbar and thoracic bending, the hip is compressed and elastically supported, By inducing the body pressure distribution and body shape retention of the thighs and thighs and calves, it is possible to naturally correct and correct the factors causing musculoskeletal diseases caused by the wrong posture as well as the sleeping state, Maintenance can relieve muscular rigidity during the day and relieve muscle flexibility by loosening the depressed skeleton during daytime activities.

1 (a) and 1 (b), a unit member 10 made of a polyurethane slab foam having different hardness and elasticity, as shown in Figs. 1 (a) and 1 (b) A mattress has been proposed in which the protrusions 11 and the insertion grooves 22 corresponding to the protrusions 21 are formed to allow the respective unit members 20 to be assembled.

However, in the case of the conventional art as shown in FIG. 1, not only the unit members are easily separated by the load of the body but also the protrusions and the insertion grooves are worn out when they are used for a long time, In addition, since each unit member is molded and assembled one by one, the manufacturing method is complicated and the production time is increased.

Korean Registered Patent No. 10-1205824 (November 22, 2012)

The object of the present invention is to provide a polyurethane foam mattress which can have different hardness and elasticity for each region according to the physical characteristics and conditions of an individual, And a method of manufacturing the same by using a batch type foaming process capable of realizing an optimum body pressure distribution and body shape retention effect for individual by lowering electromyography and improving blood flow, will be.

In order to accomplish the above object, the present invention provides a method of manufacturing a polyurethane multi-layered polyurethane foam using a batch type foaming process according to one aspect of the present invention, comprising the steps of: (a) Preparing a mold in which a plurality of diaphragms for dividing a bottom surface of the foam molding space into a plurality of regions are formed by extending a predetermined length vertically from a bottom surface of the foam molding space; (b) adjusting an interval between the plurality of diaphragms at a desired interval; (c) injecting (foaming) a plurality of polyurethane foamed liquids having different hardnesses and elasticities at a height of the partition plate so as to respectively correspond to the plurality of areas separated by the plurality of partition plates; And (d) growing a plurality of polyurethane foams having different hardnesses and elasticities on the plurality of regions on the diaphragm to form an integral polyurethane foam having different hardness and elasticity for each region (E) separating (demolding) the integrally formed polyurethane foam formed from the mold, adhering a gap formed by the diaphragm to one (bottom) surface of the separated integral polyurethane foam to remove The method comprising the steps of:

The method may further include forming a release agent layer on the inner surface of the mold in the step (a), and adjusting the height of the partition plate to a desired height in the step (b) The height of the diaphragm can be variably adjusted based on the thickness of the polyurethane foam to be produced, and the size of the foam molding space of the mold can be made to correspond to the size of the polyurethane foam to be produced.

According to another aspect of the present invention, there is provided a multi-layered polyurethane foam produced by the process for producing a multi-branched polyurethane foam by the above-described batch-type foaming process.

As described above, according to various aspects of the present invention, it is possible to manufacture polyurethane foam mattresses having different hardness and elasticity according to individual body characteristics and conditions, So that it is possible to reduce the electromyogram and improve the blood flow by implementing optimal body pressure dispersion and body shape retention effect for each individual.

It is possible to control the physical properties (hardness, elasticity, density, ventilation, etc.) of polyurethane foam mattress by body parts, so that it is possible to manufacture customized mattresses of small quantity according to individual body structure, .

If necessary, the total width, length, thickness, and width of each polyurethane foam mattress can be manufactured by freely adjusting the size of the width and the number of regions.

It is possible to have visual confirmation and publicity effect by inputting color of various physical properties.

It can be used as a single mattress of polyurethane foam, and it can be used on various structures other than spring. Therefore, a memory foam single mattress can overcome the disadvantages of high cost and heavy weight.

1 shows a polyurethane foam mattress according to the prior art,
FIG. 2 is a view showing a system for producing a polyurethane multi-elastic polyurethane foam using a batch type foaming process according to an embodiment of the present invention,
3 is a flow chart illustrating a method of producing a multi-layered polyurethane foam using a batch type foaming process according to an embodiment of the present invention.
4 is a view for explaining a process for producing a multi-layered polyurethane foam using a batch type foaming process according to an embodiment of the present invention,
5 is a perspective view of a multi-layered, multi-ply polyurethane foam produced according to a method of making a multi-ply multi-ply polyurethane foam using a batch-type foaming process according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals are used to denote like elements in the drawings, even if they are shown in different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 2 is a view showing a system for producing a multi-layered polyurethane foam using a batch type foaming process according to an embodiment of the present invention. As shown in the drawing, a single mold 20 and a plurality of foaming machines 31-35).

The mold 20 has a foam molding space of a predetermined size formed therein at least by the bottom portion 21 and the side wall portion 23 and the bottom surface of the foam molding space is divided into a plurality of regions (for example, e) is formed to extend from the bottom surface of the foam molding space by a length that is relatively smaller than the length of the side wall portion 23 vertically.

The plurality of diaphragms 25 according to the present embodiment can adjust the interval between adjacent diaphragms 25 to a desired value and can adjust the height of the diaphragm 25 to a desired height. Accordingly, when manufacturing an integral polyurethane foam (mattress) having different hardnesses and elasticity for each region, the total width, length, thickness, and width of the polyurethane foam (mattress) of the corresponding polyurethane foam Etc. can also be freely adjusted.

For example, the size of the foam molding space of the mold 20 corresponds to the size of the mold 20 when the mattress having a length of 2 m and the thickness of 300 to 1000 mm is manufactured. The interval between the diaphragms 25, that is, And the height of the side wall portion 23 is about 1200 mm, the height of the diaphragm 25 may be about 5 to 30 mm and the thickness of the diaphragm 25 may be about 0.5 to 1 mm. , And the height of the diaphragm 25 is variable so as to correspond to the thickness of the polyurethane foam to be produced.

Furthermore, a release agent layer may be formed on the inner surface of the mold 20 to facilitate separation (demolding) of the mold 20 and the polyurethane foam molded in the mold 20.

The plurality of foaming machines 31 to 35 according to this embodiment are for collectively spraying / foaming a plurality of polyurethane foamed liquids having different hardness and elasticity into the mold 23, The heads of the plurality of vapor generators 31 to 35 are positioned so as to correspond to the plurality of regions a to e in the mold 23 divided by the partition plates 25, (Foam) a plurality of elastic polyurethane foam liquids.

3 is a flow chart illustrating a method for producing a multi-layered polyurethane foam using a batch type foaming process according to an embodiment of the present invention.

First, the mold 23 of FIG. 2 is prepared (S301), the gap between the plurality of partition plates 25 in the mold 23 and / or the height of the partition plate 25 is adjusted as necessary (S303) 23 (S305).

For example, in step S301, the mold 23 is prepared so that the size of the foam molding space in the mold 23 corresponds to the size of the polyurethane foam to be produced. In step S303, the interval between the diaphragms 25 and / The width of the polyurethane foam (mattress), the length of the polyurethane foam (mattress), the thickness of the polyurethane foam (mattress), the width of the area, and the number of areas to be divided. In this embodiment, the height of the diaphragm 25 is preferably adjusted so as to correspond to the thickness of the polyurethane foam to be produced.

The heads of the plurality of vapor generators 31 to 35 are positioned so as to correspond to the plurality of areas a to e in the mold 23 divided by the plurality of diaphragms 25, A plurality of polyurethane foamed liquids having different hardnesses and elasticities are sprayed (foaming) (S307).

4, a plurality of polyurethane foams 40a to 40e having different hardnesses and elasticities are foamed and reacted to form the diaphragm 25 in the plurality of regions a to e, as shown in Fig. 4, according to the polyurethane foaming in Step S307. The neighboring foams are grown together (S309).

Finally, in step S309, a plurality of polyurethane foams 40a to 40e having different hardnesses and elasticities are separated from the mold 20 (step S311), aged (step S313) and mattressed (S315), and the polyurethane foam mattress 40 in which a plurality of polyurethane foams 40a to 40e having different hardness and elasticity for each of the regions a to e are integrated as shown in Fig. 5 is manufactured (S317).

On the other hand, on the bottom surface of the integral polyurethane foams 40a to 40e separated from the mold 20 in step S311, a plurality of polyurethane foams 40a to 40e are formed by the partition plates 25 of the mold 20 The gap may be easily removed by a method of bonding using a urethane bond or the like. In some cases, the size of the gap may be smaller than the thickness of the entire mattress, so that the performance of the mattress is not hindered.

As described above, according to the method for producing a multi-branched polyurethane foam using the batch-type foaming process of the present invention, a polyurethane foam mattress having different hardness and elasticity according to individual body characteristics and conditions It is possible to reduce the electromyogram and improve the blood flow by implementing the individual body pressure distribution and the body holding effect by making it possible to individually form the body and the body separately so that they can be formed integrally without being assembled or adhered. Accordingly, the physical properties of the polyurethane foam mattress (Hardness, elasticity, density, air permeability, etc.) can be freely adjusted, so that it is possible to manufacture customized mattresses of small quantity and various kinds according to individual body structure,

In addition, the polyurethane foam mattress can be manufactured by freely adjusting the overall width, length, thickness, and width of each region and the number of regions of the polyurethane foam mattress. Further, the polyurethane foam mattress can be visually confirmed and promoted by various color inputs, It can be used as a single mattress of polyurethane foam, and it can be used on various structures other than spring. Therefore, a memory foam single mattress can overcome the disadvantages of high cost and heavy weight.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

20: Mold
25: diaphragm
31 to 35:
40: Multipurpose multi-elastic polyurethane foam

Claims (7)

(a) a plurality of diaphragms for dividing the bottom surface of the foam molding space into a plurality of regions are formed vertically from the bottom surface of the foam molding space by at least a bottom portion and a side wall portion, Preparing a mold having a length extended by a length relatively smaller than a length of the side wall portion;
(b) adjusting an interval between the plurality of diaphragms at a desired interval;
(c) spraying (foaming) a plurality of polyurethane foamed liquids having different hardnesses and resiliency collectively below the height of the partition so as to correspond respectively to the plurality of areas separated by the plurality of partitioning plates ;
(d) growing a plurality of polyurethane foams having different hardnesses and elasticities on the plurality of regions on the diaphragm to form an integral polyurethane foam having different hardness and elasticity for each region; And
(e) demolding the formed integral polyurethane foam from the mold, and removing a gap formed by the partition on the one (bottom) side of the separated integral polyurethane foam by an adhesive method;
Wherein the polyurethane foam is a polyurethane foam. delete The method according to claim 1,
Further comprising forming a release agent layer on the inner surface of the mold in the step (a). ≪ Desc / Clms Page number 20 > The method according to claim 1,
Further comprising the step of adjusting the height of the diaphragm to a desired height in step (b). ≪ Desc / Clms Page number 20 > 5. The method of claim 4,
Wherein the height of the diaphragm is varied and controlled based on the thickness of the polyurethane foam to be produced. The method according to claim 1,
Wherein the size of the foam molding space of the mold corresponds to the size of the polyurethane foam to be produced. delete

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