JPH0871267A - Manufacture of seat body - Google Patents

Abstract

PURPOSE: To facilitate the covering work of a skin material to a cushion body by providing an adhesive layer on the seat face of the cushion body, setting the cushion body in the outer frame of a die, mounting the skin material on the cushion body and heating and pressing it with an upper die, and pressing an undercut shape portion with a sliding edge. CONSTITUTION: A cushion body 11 prepared in advance and having a prescribed shape and a skin material 1 are mounted via an adhesive 5 on the seat face section of a lower die 6 constituted of a lower die base section 13 and an outer frame 7 coinciding with the outer shape of the cushion body 11 and at least partially having an undercut shape. The skin material 1 and cushion body 11 are heated and stuck by an upper die 8 having an outer frame 10 located on the outside of the outer frame 7 of the lower die 6 when both dies are closed. The unstuck portion of the skin material 1 is set to the tensile state when the lower die 6 and upper die 8 are closed. The skin material 1 is pressed to the lower die 6 by a sliding edge 14 inserted into a through hole 10' formed on part of the outer frame 10 of the upper die 8, and the skin material 1 is formed into the undercut shape.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing a seat body used for automobiles, railway cars, furniture and the like.

[0002]

2. Description of the Related Art Conventionally, these seat bodies have been manufactured by the following method. (1) A method of applying an adhesive to at least the seating surface of the cushion body 11 formed in a predetermined shape in advance, and then applying the skin material 1 by hand or by using an auxiliary device together. (2) The skin material 1 is sewn into a shape close to the surface shape or appearance shape of the cushion body 11, or a process such as hot press molding is performed using a concave-convex shape to form a bag, and then adhesive, hog ring,
A method of covering the cushion body 11 with the skin material 1 by means of a surface fastener or the like. (3) A method of vacuum-molding a skin material 1 in which an impermeable film or the like is laminated according to the material of the surface material 2 using a concave mold having a seat body shape, injecting an unfoamed stock solution into the mold, and foam-hardening and integrating them. . (4) A method in which the skin material 1 is formed into a bag shape by means of sewing or the like, and then the unfoamed stock solution is injected into the bag shape to foam-harden and integrate. And so on. However, the above method has the following problems.

In contrast to (1), in order to cover the cushion body 11 at the small R portions such as the corners of the cushion body 11 so that the skin material 1 does not get close to wrinkles, the cushion body 11 has a relatively large elongation. It is necessary to use the surface material 2, and the material of the surface material 2 is restricted. Further, since a relatively large tension is applied to the corner portion of the cushion body 11 when covering, the cushion body 1
The corner shape of No. 1 is crushed, the desired shape cannot be covered, and the appearance is likely to be damaged. Therefore, since the work requires skill, mass productivity is poor and the labor cost for coating is high. In addition, it is difficult to express a concavo-convex design or the like on the seat surface or the like.

For (2), it is necessary to sew or form the skin material 1 in the previous step, which complicates the working process and increases the product cost. Even when the cushion body 11 is covered, the size and elongation of the bag-shaped skin are likely to vary, especially for sewn products, and therefore wrinkles or the like tend to damage the appearance. Also, (1),
In any of the methods of (2), particularly, covering the cushion body having the undercut shape with the skin material complicates the working process and becomes a very difficult work.

For (3), in order to utilize vacuum forming, an impermeable material is used for the surface material 2, or an impermeable film is laminated on the back surface of the permeable material. There was a need. Therefore, the completed seat body is uncomfortable because the skin material 1 is not breathable and does not absorb moisture due to sweating or the like when sitting for a long time.
Moreover, unless the surface material 2 having a large elongation is used, the shape of the corner portion of the cushion body 11 cannot be made sharp, and the surface material 2 to be used is restricted. In addition, equipment such as molding dies became expensive, which was a factor of increasing the product cost.

In contrast to (4), in the case of the skin material 1 in which the wadding material 3 is laminated on the surface material 2, if the breathable surface material 2 is used, the texture will be generated due to the spotting of the injection foaming stock solution.
The appearance and breathability are impaired, and the feel of the seat body is impaired by the solidified layer formed by impregnating the injection foaming stock solution. In order to prevent this impregnation, for example, it is necessary to form a film on the back surface and to make the wadding material 3 have a high density of 40 kg / m ³ or more and a thickness of 10 mm or more, which is a factor of increasing the material cost. Further, defects are likely to occur due to variations in sewing, variations in the setting of the bag-shaped skin material 1 to the foaming mold, and the like. In addition, since the cushion body 11 and the skin material 1 are bonded and integrated not only on the seating surface but on almost the entire surface, wrinkles are formed at the same position on the side part of the seating body at each sitting, and by using for a long time, Permanent wrinkles and breakage of the skin material 1 tend to occur, and there was a problem in terms of durability. Also,
In (3) and (4), it is actually difficult to form an undercut shape on the skin material, and even if it is implemented, the skin material is selected in consideration of physical properties such as elongation,
The molding die must be split, which is difficult in terms of workability and cost.

The present invention has been made against the background of such problems of the conventional manufacturing method, and the cushion body 11 of the skin material 1 is provided.
A seat with an undercut shape that is easy to cover, has a superior manufacturing cost compared to other manufacturing methods, and has excellent quality stability, design, cushioning, and durability. It is intended to manufacture the body.

[0008]

A method of manufacturing a seat body according to the present invention comprises a lower mold including an outer peripheral frame which substantially conforms to the outer peripheral shape of a cushion body and at least a part of which has an undercut shape and a lower mold base. , A cushion body and a skin material having a predetermined shape, which are prepared in advance, are placed on the seat surface portion via an adhesive layer, and an upper mold having an upper mold outer frame located outside the lower mold outer frame when the mold is closed. And, in the lower mold, the skin material and the cushion body are heated and pressure-bonded, and the unbonded portion of the skin material is tensioned by closing the molds of the lower mold and the upper mold, and is formed on a part of the upper mold outer frame. A method of manufacturing a seat body in which a skin material is pressed into a lower mold by a sliding blade inserted through the through hole to shape the skin material into an undercut shape.

The mold used in the present invention is composed of upper and lower molds.
It is composed of a mold and a sliding blade attached to one of them. It is preferable that the material is partially or wholly made of a metal having good thermal conductivity, and, for example, iron, aluminum, brass or the like can be used.

The lower die 6 of the molding die has a lower die outer peripheral frame 7 for holding the cushion body 11, and the cushion body 11 is set in the lower die outer peripheral frame 7. . The height of the lower mold outer peripheral frame 7 is equal to the thickness of the cushion body 11 corresponding to the desired thickness of the seat body, or
It is preferably within -10 mm. If the lower mold outer peripheral frame 7 is too low, the distortion due to the pressure bonding of the cushion body 11 becomes large at the time of thermocompression bonding, and the skin material 1 may not have a desired shape. If it is too high, the adhesion between the skin material 1 and the cushion body 11 may be hindered, and at the same time, the desired shape may not be obtained. The height does not need to be uniform all around, and may vary depending on the shape of the desired seat body. For example, when the seat body has a thickness of 50 mm at the right end and 100 mm at the left end and the side surface has a substantially trapezoidal shape, the height may be changed according to the shape. The lower mold outer peripheral frame 7 is provided on the lower mold base. For example, when the seat surface of the cushion body is smaller than the bottom surface and the side surface between the seat surface and the bottom surface is, for example, a curved surface, the lower mold outer peripheral frame 7 has an end shape of the cushion body. Further, it may have a curved shape. At this time, it is not necessary for the upper die outer peripheral frame 10 to have a corresponding shape. Although the thickness of the lower mold outer peripheral frame 7 is not particularly limited, it is usually about 1 to 10 mm, and preferably about 1 to 3 mm from the viewpoint of shapeability, mold durability and the like.

The upper die 8 has an upper die outer peripheral frame 10 located outside the lower die outer peripheral frame 7 when the upper die 8 and the lower die 6 are closed. The upper mold 8 also has an upper mold crimping mold 9 that presses the skin material 1 and the cushion body 11 with its seat surface when the mold is closed.
In addition, the upper die 8 is a design press blade 9'for shaping the skin material 1 and bonding it on the seating surface, and at the same time, for imprinting uneven shapes on the seating surface.
May be provided, or an engraved shape may be formed by engraving or the like.
The length of the design pressing blade 9 ′ and the depth of the engraving design are set depending on the desired uneven shape, the hardness of the cushion body 11, the material of the skin material 1, the configuration, and the like. When the uneven shape is hot-formed on the seat surface, the skin material 1 in which the wadding material 3 is laminated on the surface material 2 is used, or the backing cloth 4 is further used.
By stacking on the back surface of, the unevenness design is further emphasized, which is preferable. When the seating surface of the cushion body 11 is previously formed with an uneven shape, the upper mold 8 may be configured to press the entire seating surface so that the skin material 1 is bonded to the uneven shape.

Further, the upper die outer peripheral frame is provided with a cutout portion so that the sliding blade penetrates. The sliding blade is pushed out from the cut portion by the pressing pressure and presses the skin material. The sliding press device can use a hydraulic cylinder, an air cylinder, a half-motion clamp, or the like.
The sliding press device may be attached to either the upper mold 8 or the lower mold 6.

The height of the upper die peripheral frame 10 is set so as to be in contact with the base of the lower die 6, but it is preferable that the height of the skin material 1 can be about ± 2 mm when the die is closed. By closing the upper and lower molds, the skin material is tensioned, and then when the sliding blade presses against the undercut shape base, even if a surface material with a small elongation is used,
The surface material is shaped without breaking. Also, since the device of the sliding press portion does not require a large pressure, it becomes compact. Further, the thickness of the upper mold outer peripheral frame 10 and the sliding blade 14 is not particularly limited as in the lower mold outer peripheral frame 7, but is usually
It is about 1 to 10 mm, and preferably about 3 to 7 mm from the viewpoint of shapeability, mold durability and the like. The upper mold outer peripheral frame 10 does not have to be a continuous frame, and for example, plate-shaped or rod-shaped objects may be arranged at regular intervals. Any shape may be used so that the skin material 1 has a desired shape when pressure-bonded to the lower mold 6.

It is preferable to set the clearance of the shortest part between the upper mold outer peripheral frame 10 and the lower mold outer peripheral frame 7, which are closed at the time of pressure bonding, within 10 mm with respect to the thickness of the skin material 1. For example, when the skin material 1 has a thickness of 10 mm, the clearance is in the range of 10 to 20 mm. When this clearance is small, the surface of the skin material 1 is rubbed by the upper mold outer peripheral frame 10, and phenomena such as hair fall, whitening, and melting occur.
It may cause poor appearance. If the clearance is 10 mm or more with respect to the thickness of the skin material 1,
In some cases, the shape of the skin material 1 may be insufficient, and this may cause a defective appearance such as a crushed shape or a dullness of the skin material 1.

As the skin material 1, only the surface material 2 or a laminated body of two layers, three layers or the like including the surface material 2 and the wadding material 3 and the back cloth 4 is used. In the present invention, this skin material is usually used as it is in a flat shape, but it may be used in a substantially bag shape. As the elongation rate of the surface material 2, a material that is normally used as a seat body can be used, but it is 1 at the time of breaking.
It is preferably about 5 to 100%. If the surface material 2 having almost no elongation is used, the appearance may be impaired due to breakage or wrinkling during shaping.

Further, as the surface material 2, the function of the seat body,
Although it is appropriately selected depending on the structure, when breathability is required, synthetic fibers such as polyester, nylon, acrylic, polypropylene, natural fibers such as wool, silk, cotton, or a knitted or woven fabric made by blending these , Non-woven fabric, etc. are used. Also, PVC leather, synthetic leather, natural leather, etc. may be used.

As the wadding material 3, synthetic resin foam such as polyethylene, polypropylene or polyvinyl chloride, cotton made of natural fiber or synthetic fiber (eg, polyester cotton) can be used. A flexible polyurethane foam is suitable in consideration of laminating workability, cut-to-length cutting property, thermoforming property, cushioning property, etc., and its physical properties and heat distortion temperature depend on the material of the surface material 2 used and the desired performance of the seat body. It is selected appropriately. Further, the thickness is preferably 3 to 15 mm from the viewpoint of formability, and is selected depending on the desired unevenness of the design. The backing cloth 3 is not always necessary, but is used for the purpose of reinforcing the wadding material 3 at the side portion of the skin material 1 during the press molding, and is used for the purpose of reinforcement. Etc. can be used.

The cushion body 11 is preferably made of soft polyurethane foam in terms of durability such as sagging and cushioning properties. A foam block cut into the desired shape, or a soft or semi-rigid polyurethane foam that has been foam-molded into the desired shape, or a soft polyurethane foam chip is blended with a binder and filled into the mold. Then, a cured chip mold or the like can be used. Other than polyurethane foam, synthetic resin foams, fiber aggregates, etc. may be used as long as the required performance of the seat body is satisfied. The shape and thickness of the cushion body are not particularly limited. The cushion body preferably has an undercut shape, and the undercut shape may be a taber shape or a curved surface shape. Further, the shape of the other portion of the cushion body may be such that the seating surface has irregularities, or the shape may be a truncated cone shape, a truncated pyramid shape, or the like. When using a cushion body having unevenness on the seat surface, it is preferable that the upper die crimping die 9 conforms to the uneven shape, and the skin material is adhered to the cushion body according to the uneven shape. It becomes possible to do. For thickness,
Usually, a seat having a thickness of the seat used can be used, but a seat having a thickness of 20 to 200 mm is preferably used. The effect of the present invention may not be obtained unless the cushion body 11 has a great difference from the thickness of the skin material 1. Further, if it is extremely thick, wrinkles may easily occur on the side surface of the seat body depending on the skin material 1.

The adhesive for adhering the skin material 1 and the cushion body 11 at the seat surface portion thereof is provided on the seat surface of the cushion body and the skin material 1. However, considering workability, safety, environment, etc., acrylic resin, urethane A resin, a polyolefin resin, a synthetic rubber or the like or an aqueous emulsion adhesive of these copolymer resins, or a hot melt adhesive is preferable.
The application of the adhesive to the seating surface of the cushion body 11 can be performed by means such as coating with a roll or spraying. When using a sheet or web-shaped hot melt, even if it is laminated on the skin material in advance or placed between the cushion body and the skin material, it is heated and adhered to the cushion seat surface in advance. You can leave it.

The mold is usually heated in the range of 80 to 200 ° C., preferably 100 to 180 ° C. If the temperature is low, the adhesion between the cushion body and the skin material may be insufficient, or the skin material may be imperfectly shaped. On the other hand, if it is too high, the surface material 2 may have problems such as discoloration and melting. Further, the heating temperatures of the upper mold and the lower mold may be different. For example, the upper mold temperature that acts on the adhesion between the skin material and the cushion body and is in direct contact with the seat surface of the skin material is set to the working temperature of the adhesive or below the heat resistant temperature of the surface of the skin material, and the lower mold contacting the back surface of the skin material is used. It is possible to set a higher temperature at which the wadding material can be shaped.

The pressure-bonding time by the upper and lower molds and the sliding blade is usually about 0.5 to 5 minutes, which is determined by the material of the skin material, the laminated construction, the design of the seating surface unevenness, the type of adhesive, etc. It Further, since it is related to the heating temperature of the molding die, it is possible to set the heating temperature and time with good work efficiency.
The end portion of the skin material is sandwiched between the base portion of the lower die and the outer peripheral frame 10 of the upper die, and the skin material 1 is shaped.
The skin material and the cushion body are adhered to each other on the seat surface portion, and the skin material is tensioned between the upper end portion of the lower die outer peripheral frame 7 and the upper die outer peripheral frame 10 and pressed against the lower die outer peripheral blade by the sliding blade. The side surface of the cushion body is heated. Therefore, the mold closing state may be adjusted so that the tensioned skin material of the upper mold and the lower mold does not break due to the pressing of the sliding blade or the like. When using a surface material having a low elongation, the surface material may be broken if the tension of the skin material between the upper mold and the lower mold is too strong. Therefore, by adjusting the clearance between the outer peripheral frame of the upper mold and the base of the lower mold, the elongation rate of the surface material can be dealt with, and various surface materials can be used. Usually, this clearance is preferably about ± 2.0 mm in thickness of the surface material.

[0022]

The skin material 1 cut into a predetermined shape is placed on the cushion body 11 set in the lower mold 6, and the mold is closed to form the skin material by the upper mold outer peripheral frame 10 and the lower mold outer peripheral frame 7. The skin material 1 in a portion corresponding to the side portion of the seat body in a shape along the outer peripheral shape of the cushion body 11 is heat-shaped by the interaction of being tense and then being pressed by the sliding blade 14. Further, the skin material 1 and the cushion body 11 are firmly adhered to each other at the seat surface portion. When the upper die 8 has an uneven shape, a desired uneven shape is simultaneously heat-shaped on the seat surface portion. The cushion body 11 and the lower mold outer peripheral frame 7 have substantially the same shape, and the cushion body 11 is present in the outer peripheral frame of the lower mold 6 when the skin material 1 and the cushion body 11 are bonded and when the skin material 1 is heat-molded. Therefore, the heat shaping of the skin material 1 can be performed without being affected by the distortion or the like due to the compression of the cushion body 11. Therefore, the heat shaping is made almost faithful to the cushion body 11, and the shape of the corner portion becomes sharp.

As described above, the covering work is facilitated, the skill of the operator is not required, and the molding die is less expensive than the conventional one, so that the quality is improved and the designability and cushioning durability are improved. Excellent and low cost seat body.

[0024]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIGS. 1, 2 and 3 are sectional views of a seat body manufactured according to an embodiment of the present invention.

The lower die outer peripheral frame 7 is made of an iron strip having a thickness of 1.2 mm, and the side surface shape of the cushion body 11 whose two sides are undercut is bent to form the back surface shape of the cushion body 11. It was attached to a cushion body receiving mold 13 ′ having a. A 6 mm-thick iron strip is used for the upper mold outer frame 10, and is bent in a shape substantially conforming to the outer peripheral shape of the cushion body 11 so that the minimum clearance between both outer peripheral frames becomes 8 mm when the mold is closed. Arranged. Further, the upper die outer peripheral frame is provided with a through hole 10 ′ for the sliding blade 14. Furthermore, in the upper mold 8, an upper mold crimping mold 9 having a shape along the seating surface of the cushion body 11 shown in FIGS. 1 to 4 is made of aluminum, and is placed in the lower mold outer frame when the mold is closed. The cushion seat 9 and the upper die crimping die 9 are arranged so that the clearance between them is approximately 0 mm. The sliding blades 14 that press the undercut-shaped base portions 13 on the two side surfaces are made of an iron strip having a thickness of 4.5 mm, and are rods of the air cylinder of the sliding press device 15 attached to the lower die 6. It is integrated with. Further, the sliding blade 14 is arranged so as to be closed outside the upper mold outer peripheral frame until the upper mold outer peripheral frame 10 reaches a predetermined position, and then to operate.

The skin material 1 has a polyester knit as the surface material 2, a wadding material 3 having a density of 25 kg / m ³ , a hardness of 10 kg, and a rebound resilience of 35%. Cloth 4
A nylon non-woven fabric having a basis weight of 30 g / m ² was used, and three sheets were laminated integrally with an ethylene-vinyl acetate copolymer resin emulsion, which is an aqueous adhesive, and a sheet cut to a standard size was used.

The cushion body 11 has a density of 40 kg /
A block of a flexible polyurethane foam having physical properties of m ³ , hardness of 15 kg, and impact resilience of 45% was cut into a desired seat body shape and used.

The cushion body 11 is set in the lower mold outer peripheral frame 7 heated to 150 ° C. with the seat surface portion facing upward, and as shown in FIG. 1, on the back cloth 4 side corresponding to the seat surface portion of the skin material 1. An acrylic resin emulsion having a solid content of 55% was spray-coated so that the coating amount was 60 g / m ² . continue,
Before the adhesive is completely solidified, this skin material 1 is placed so that the back cloth 4 side is in contact with the cushion body 11, and is pressed by the upper mold 8 heated to 100 ° C. Was in a tense state.

Next, air is fed into the two air cylinders 15, and as shown in FIG. 3, the sliding blade 14 heated to 150 ° C. is actuated through the through hole 10 'of the upper die outer peripheral frame to bring the tension state. The skin material 1 of No. 3 was pressed against the outer peripheral frame 7 of the lower mold for 3 minutes. After returning the sliding blade 14 to the original position, the mold was opened and the mold was released to obtain a semi-finished product shown in FIG. Next, the side end of the skin material 1 was wound around and fixed to the back surface of the cushion body 11 to form a seat body. In this embodiment, the backing material 16 is 15 mm thick on the back surface of the cushion body 11.
6 was obtained by adhering the plywood of 4 and fixing the end of the skin material 1 with a U-shaped pin.

[0030]

EFFECT OF THE INVENTION Cushion body 11 covered with skin material 1
Is set in the lower die outer frame 7, so there is no problem caused by workability variations such as positional deviation. It is possible to shape the skin material 1 up to the small corner shape and the undercut shape of the cushion body 11, and the skill is not required for covering, and the work is completed in a short time. Therefore, since it is possible to mass-produce with stable quality, it is possible to achieve superiority in product cost. In the seat body, the cushion body 11 and the skin material 1 are firmly adhered to each other on the seat surface portion, and the side portions are assembled with the skin material 1 in a state where they are not adhered to the cushion body 11. It is possible to obtain a seat body excellent in design. Since the material of the surface material 2 can be selected without being restricted by stretchability, air permeability, etc., variations in the design of the seat body also increase.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a molding die according to an embodiment of the present invention.

FIG. 2 is a sectional view of an embodiment of the present invention during thermocompression bonding.

FIG. 3 is a cross-sectional view at the time of thermocompression bonding of an undercut portion according to an example of the present invention.

FIG. 4 is a plan view of a molding die according to an embodiment of the present invention.

FIG. 5 is a cross-sectional view of a semi-finished product after completion of thermocompression bonding according to an example of the present invention.

FIG. 6 is a sectional view of a seat body according to an embodiment of the present invention.

[Explanation of symbols]

 1 skin material 2 surface material 3 wading material 4 backing cloth 5 adhesive application surface 6 lower mold 7 lower mold outer peripheral frame 8 upper mold 9 upper mold crimping mold 10 upper mold outer peripheral frame 10 'through hole 11 cushion body 12 backing material 13 Undercut base 13 'Cushion body receiving type 14 Sliding blade 15 Sliding blade pressing device 16 Backing material

Claims (4)

[Claims] 1. A cushion body and a skin material having a predetermined shape prepared in advance in a lower mold including an outer peripheral frame substantially conforming to the outer peripheral shape of the cushion body and at least a part of which is an undercut shape and a lower mold base. Is placed on the seat surface portion via an adhesive layer, and an upper die having an upper die outer peripheral frame located outside the lower die outer peripheral frame when the die is closed, and a skin material and a cushion body in the lower die. While heat-pressing, the unbonded part of the skin material is put into a tension state by closing the lower mold and the upper mold, and the skin material is inserted by the sliding blade that is inserted into the through hole formed in a part of the upper mold outer frame. A method for manufacturing a seat body, in which the skin is pressed into the lower mold to shape the skin material into an undercut shape. 2. The upper mold having an uneven shape in the outer peripheral frame of the upper mold, wherein the skin material and the cushion body are heated and pressure-bonded, and at the same time, the uneven shape is formed on the seat surface. 1. A method for manufacturing a seat body claimed in claim 1. 3. The clearance between the outer peripheral frames of the upper mold and the lower mold when the mold is closed is equal to the thickness of the skin material used plus 10
The method for manufacturing a seat body according to claim 1 or 2, wherein the method is within mm. 4. The clearance between the outer peripheral frame of the upper mold and the base of the lower mold when the mold is closed is within ± 2 mm of the thickness of the skin material to be used. A method for manufacturing a seat body claimed in claim.