JP3267540B2 - Fiber cushion body molding method and hot air molding device - Google Patents
Fiber cushion body molding method and hot air molding deviceInfo
- Publication number
- JP3267540B2 JP3267540B2 JP29475897A JP29475897A JP3267540B2 JP 3267540 B2 JP3267540 B2 JP 3267540B2 JP 29475897 A JP29475897 A JP 29475897A JP 29475897 A JP29475897 A JP 29475897A JP 3267540 B2 JP3267540 B2 JP 3267540B2
- Authority
- JP
- Japan
- Prior art keywords
- hot air
- housing
- lower molds
- molded
- mold
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Nonwoven Fabrics (AREA)
- Paper (AREA)
- Dry Formation Of Fiberboard And The Like (AREA)
- Blow-Moulding Or Thermoforming Of Plastics Or The Like (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は、車両用座席や事務
用椅子、あるいはヘッドレストやアームレスト等の緩衝
ないしはクッション材として有用な繊維クッション体の
成形方法及び熱風成形装置に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for forming a fiber cushion body useful as a cushioning or cushioning material for a vehicle seat, office chair, headrest or armrest, and the like.
【0002】[0002]
【従来の技術】図3はこの種の繊維クッション体例を示
している。この繊維クッション体50は、メイン部50
aの両側に位置する上下部50b,50cが立ち上が
り、メイン部50aの内側にフレームが配置される。原
料の繊維系原材料は高融点素材に低融点素材を混合した
ものである。低融点素材は、例えば、リサイクル性に優
れた熱可塑性のものであり、繊維間ないしは繊維同士の
バインダーとして機能する。2. Description of the Related Art FIG. 3 shows an example of such a fiber cushion body. The fiber cushion body 50 includes a main part 50.
The upper and lower portions 50b and 50c located on both sides of the main portion 50a rise, and the frame is arranged inside the main portion 50a. The raw fiber material is a mixture of a high melting material and a low melting material. The low melting point material is, for example, a thermoplastic material having excellent recyclability, and functions as a binder between fibers or between fibers.
【0003】図4はその成形に使用された熱風成形装置
の主要部である成形型例を示している。この成形型60
は、上下型61,62の型締め状態で形成される型成形
部63に加熱送風手段を介して熱風を通過しながら熱処
理する構造である。そのため、上下型61,62は、型
成形部63を形成している気体透過性の型成形部分61
A,62Aと、各型成形部分61A,62Aの外側にそ
れぞれ設けられている空洞部64,65とを有し、上型
61が下型62内に型締めされる。また、下型62に
は、前記加熱送風手段を介して圧送されてくる熱風を空
洞部65内に導入する入口66が設けられている。上型
61には、空洞部65から型成形部63を通って空洞部
64内に達した熱風を排気する出口67が設けられてい
る。この出口67から排気された熱風は、前記加熱送風
手段に導かれ再び定温度に加温されて入口66へ送られ
循環される。FIG. 4 shows an example of a molding die which is a main part of a hot air molding device used for the molding. This mold 60
Has a structure in which heat treatment is performed while hot air is passed through a mold blowing section 63 formed in a closed state of the upper and lower dies 61 and 62 through a heating blower. Therefore, the upper and lower dies 61 and 62 are formed of the gas-permeable mold part 61 forming the mold part 63.
A, 62A, and cavities 64, 65 provided outside the molded portions 61A, 62A, respectively, and the upper die 61 is clamped in the lower die 62. In addition, the lower die 62 is provided with an inlet 66 for introducing hot air pressure-fed through the heating air blowing means into the cavity 65. The upper die 61 is provided with an outlet 67 for exhausting hot air that has reached the cavity 64 from the cavity 65 through the mold forming part 63. The hot air exhausted from the outlet 67 is guided to the heating blower, heated to a constant temperature again, sent to the inlet 66 and circulated.
【0004】そして、繊維クッション体50を成形する
場合は、下型62の型成形部分62A内に繊維系原材料
を配置した後、上型61を下型62に収容するように移
動して繊維系原材料の圧縮を伴って型締めする。その状
態から、型成形部63内の繊維系原材料は、前記した熱
風が空洞部65から型成形部63を介して空洞部64へ
所定時間通過されるのに伴って低融点素材を溶融して繊
維間ないしは繊維同士を結合し、その後、冷却されると
型成形部63に応じた形状に保形される。When the fiber cushion body 50 is formed, the fibrous raw material is placed in the molded portion 62A of the lower mold 62, and then the upper mold 61 is moved to be accommodated in the lower mold 62 to move the fibrous material. The mold is clamped with the compression of the raw materials. From that state, the fibrous raw material in the molded part 63 melts the low melting point material as the hot air passes from the cavity 65 to the cavity 64 via the molded part 63 for a predetermined time. When the fibers or the fibers are bonded together, and then cooled, the shape is maintained in a shape corresponding to the molded portion 63.
【0005】[0005]
【発明が解決しようとする課題】上述した成形方法で
は、繊維系原材料として、例えば、開繊されて綿状のも
のを適宜な大きさに切り込んで、計量された必要量を下
型62の型成形部分62A内に配置して、型締めにより
圧縮した状態から熱処理するものである。このような、
成形方法にあっては、加熱不足や過剰が部分的に起こる
と品質に直接することから、型成形部63内にセットさ
れている繊維系原材料の全体が均一に熱処理されること
を前提としている。そして、設計上は、熱風が型内に均
等に流れるよう型形態等に細心の注意がなされると共
に、加熱送風手段の加熱能率や送風圧等にも配慮されて
いる。しかし、実際上は型成形部63の容積が比較的大
きくなったり、複雑な形状になるほど温度差が生じ易
い。典型例としては、下型62の型成形部分62Aと上
型61の型成形部分61Aとの温度差である。この温度
差は、型成形部63の容積等によっても異なるが、例え
ば、座席用の繊維クッション体程度の大きさになると約
10〜30℃に達することもある。このように、型成形
部63の温度差が大きくなると、成形の進行度合いが不
均一になるばかりでなく、過剰な溶融や溶融不足等を部
分的に生じて所定の品質を維持できなくなる。In the above-mentioned molding method, for example, a fibrous raw material which has been opened and cut into cotton is cut into an appropriate size, and the measured required amount is reduced to the lower die 62. The heat treatment is carried out from the state where it is arranged in the molded portion 62A and compressed by mold clamping. like this,
In the molding method, if the heating is partially or insufficiently performed, the quality is directly adjusted. Therefore, it is assumed that the entire fiber-based raw material set in the molding unit 63 is uniformly heat-treated. . In designing, careful attention is paid to the form and the like so that hot air flows evenly in the mold, and consideration is also given to the heating efficiency and blowing pressure of the heating and blowing means. However, in practice, the temperature difference tends to occur as the volume of the molded portion 63 becomes relatively large or the shape becomes more complicated. A typical example is the temperature difference between the molded portion 62A of the lower die 62 and the molded portion 61A of the upper die 61. This temperature difference varies depending on the volume of the molded portion 63 and the like, but for example, it may reach about 10 to 30 ° C. when the size becomes about the same as a fiber cushion body for a seat. As described above, when the temperature difference of the molded portion 63 becomes large, not only the degree of progress of molding becomes non-uniform, but also excessive melting or insufficient melting occurs partially, so that predetermined quality cannot be maintained.
【0006】本発明は以上のような背景に鑑みなされた
ものである。その目的は、型成形部内の温度をより均一
化できるようにして、成形品の品質と信頼性を更に向上
できるようにした繊維クッション体の成形方法及び熱風
成形装置を実現することある。更に他の目的は、以下に
説明する内容の中で順次明らかにして行く。The present invention has been made in view of the above background. It is an object of the present invention to provide a method of forming a fiber cushion body and a hot-air molding apparatus capable of making the temperature in a molded portion more uniform and further improving the quality and reliability of a molded product. Still other objects will be sequentially clarified in the contents described below.
【0007】[0007]
【課題を解決するための手段】上記目的を達成するため
本発明方法は、図1から図3に例示される如く、型成形
部分2A,3Aが気体透過性に形成されている上下型
2,3を用いて、上下型2,3で形成される型成形部4
内に保形用低融点素材と高融点素材の混合された繊維系
原材料を配置した後、上下型2,3を型締めし、上下型
2,3の外側から型成形部4内に熱風を通過しつつ、前
記繊維系原材料を加熱成形する繊維クッション体の成形
方法において、前記上下型2,3をハウジング5に回転
可能に内蔵し、前記熱風をハウジング5の上側又は下側
の何れか一方に設けられた入口9から圧送し、型成形部
4内を通して前記他方に設けられた出口10に向かう熱
風流路をハウジング5内に形成して、該熱風流路内で上
下型2,3を回転しながら熱処理するよう構成したもの
である。In order to achieve the above-mentioned object, the method of the present invention is, as illustrated in FIGS. 1 to 3, a method of forming upper and lower dies 2, 2, in which molded parts 2 A, 3 A are formed to be gas-permeable. 3, a molded part 4 formed by upper and lower dies 2, 3
After arranging the fibrous raw material in which the low-melting material and the high-melting material are mixed, the upper and lower molds 2 and 3 are closed, and hot air is blown into the mold forming section 4 from outside the upper and lower molds 2 and 3. In the method of forming a fiber cushion body, the upper and lower molds 2 and 3 are rotatably built in a housing 5 while passing the hot air, and the hot air is blown into either the upper side or the lower side of the housing 5. A hot air flow path is fed from an inlet 9 provided in the housing 5 and directed to an outlet 10 provided on the other side through the inside of the molded part 4 in the housing 5, and the upper and lower dies 2 and 3 are formed in the hot air flow path. The heat treatment is performed while rotating.
【0008】また、本発明装置は、上下型2,3が型成
形部2A,3Aを気体透過性にそれぞれ形成しており、
型成形部4内に低融点素材と高融点素材の混合された繊
維系原材料を配置し、加熱送風手段17,16により型
成形部4の一方側から型成形部4内を通って他方側へ熱
風を通過しつつ、前記繊維系原材料を熱成形する繊維ク
ッション体用の熱風成形装置1において、上下型2,3
により内部を上下に区分し、かつ上下型2,3を回転可
能に配置しているハウジング5と、上下型2,3を回転
するモータ14等の回動手段13と、ハウジング5の下
側に設けられた入口9及び上側に設けられた出口10と
を少なくとも備え、加熱送風手段17,16から入口9
を通じてハウジング5内に圧送される熱風により、出口
10に向かう一方向の熱風流路をハウジング5内に形成
し、該熱風流路内で上下型2,3を回転しながら熱処理
可能にした構成である。In the apparatus of the present invention, the upper and lower dies 2 and 3 respectively form the molded portions 2A and 3A so as to be gas permeable.
A fibrous raw material in which a low-melting-point material and a high-melting-point material are mixed is arranged in the molding part 4, and the heating and blowing means 17 and 16 pass through the molding part 4 from one side to the other side. In the hot air forming apparatus 1 for a fiber cushion body for hot forming the fibrous raw material while passing hot air, the upper and lower dies 2, 3
The housing 5 divides the inside into upper and lower parts and the upper and lower dies 2 and 3 are rotatably arranged; the rotating means 13 such as a motor 14 for rotating the upper and lower dies 2 and 3; At least an inlet 9 provided and an outlet 10 provided on the upper side.
A hot air flow path toward the outlet 10 is formed in the housing 5 by hot air that is pressure-fed into the housing 5 through the housing 5, and heat treatment can be performed while rotating the upper and lower dies 2, 3 in the hot air flow path. is there.
【0009】以上の本発明方法は、この種の熱風成形に
おいて、型成形部4内の温度差を極力形成しない手法と
してハウジング5内に一方向の熱風流路を形成し、その
熱風流路内で上下型2,3を回転させることにより、上
下型2,3が座席用の繊維クッション体程度の大きさに
なる場合にも、各型成形部分2A,3A間に生じる温度
差を緩和し、全体がより均一に加温されるようにしたも
のである。この構造では、上下型2,3を構成している
各型成形部分2A,3Aが熱風流路内で回転されて、熱
風流路の上流又は導入側と下流又は排出側とに交互に位
置移動することから、図4の如く各型成形部分が位置的
に固定されている従来構造と比較して、加熱度合いが局
部的に片寄る虞を構造的に解消し、型成形部4の内部の
繊維系原材料をより均一に熱処理することが可能にな
る。According to the above-described method of the present invention, in this type of hot air molding, a one-way hot air flow path is formed in the housing 5 as a method of minimizing a temperature difference in the mold forming section 4 and the hot air flow path is formed. By rotating the upper and lower dies 2 and 3 in the above manner, even when the upper and lower dies 2 and 3 are about the size of a fiber cushion body for a seat, the temperature difference generated between the molded parts 2A and 3A is reduced, The whole is heated more uniformly. In this structure, the molded parts 2A and 3A constituting the upper and lower dies 2 and 3 are rotated in the hot air flow path, and are alternately moved to the upstream or the introduction side and the downstream or the discharge side of the hot air flow path. Therefore, as compared with the conventional structure in which each molded part is fixed in position as shown in FIG. 4, the possibility that the degree of heating is locally deviated is structurally eliminated, and the fiber inside the molded part 4 is removed. It becomes possible to heat-treat the system raw material more uniformly.
【0010】装置構造的には、従来構造に対し、上下型
2,3を回転可能に支持する機構と、回動手段13等を
必要とするが、何れも公知手段を利用できることから、
機器類に要する経費増も少なく、上下型2,3自体の形
状を専用ハウジング5を用いることで単純化することも
可能となる。In terms of the structure of the apparatus, a mechanism for rotatably supporting the upper and lower dies 2 and 3 and a rotating means 13 are required as compared with the conventional structure.
The increase in cost required for the equipment is also small, and the shape of the upper and lower dies 2 and 3 themselves can be simplified by using the dedicated housing 5.
【0011】本発明の繊維系原材料としては、例えば、
ポリエステル系等の低融点繊維と、反発性・圧縮耐久性
に優れたポリエステル系ポリマー等の高融点繊維とを混
合したものである。要は、低融点素材(繊維等)だけを
溶融可能な温度にて熱処理して、その低融点素材をバイ
ンダーとして繊維間ないしは繊維同士を結合し、成形型
の成形部形状に対応した成形体形状に保形できるもので
あればよい。この場合、低融点素材と高融点繊維は、融
点差が大きいほど成形効率的に好ましいが、通常、40
度以上であればクッション物性的に充足される。混合形
態的には、低融点素材と高融点繊維とを所定の混率で混
綿するが、この場合、熱接着性を持つ捲縮繊維等の芯鞘
型や偏芯鞘型を用いることが優クッション構造体を得る
上で好ましい。型詰め形態としては、例えば、低融点繊
維と高融点繊維とを混綿した後、カード等により開繊さ
れたウェブを適宜な大きさに切り込んだもの、又は低融
点繊維と高融点繊維とを混綿した後、カーディング作用
を与えると共に所定の厚さに重ねてウェブ積層体を形成
しそれを適宜な大きさに切り込んだもの等が用いられ
る。[0011] As the fiber raw material of the present invention, for example,
It is a mixture of a low melting point fiber such as a polyester type and a high melting point fiber such as a polyester type polymer having excellent resilience and compression durability. In short, heat treatment is performed at a temperature at which only the low-melting material (fiber, etc.) can be melted, and the low-melting material is used as a binder to bond between fibers or between fibers to form a molded body corresponding to the shape of the molding part of the mold. Any shape can be used. In this case, the lower melting point material and the higher melting point fiber are preferable in terms of molding efficiency as the difference in melting point is larger.
If it is above the degree, the cushion is physically satisfied. In the mixing mode, the low-melting-point material and the high-melting-point fiber are mixed at a predetermined mixing ratio. In this case, it is preferable to use a core-sheath type or an eccentric sheath type such as a crimped fiber having thermal adhesiveness. It is preferable in obtaining a structure. As the filling form, for example, after mixing low-melting fiber and high-melting fiber, the web opened by a card or the like is cut into an appropriate size, or low-melting fiber and high-melting fiber are mixed. After that, a web laminate is formed by applying a carding action and superimposing the laminate to a predetermined thickness, and the web laminate is cut into an appropriate size.
【0012】[0012]
【発明の実施の形態】以下、本発明の好適な形態を添付
図面に基づいて詳細に説明する。なお、以下に述べる形
態は、技術的に好ましい種々の限定が付されているが、
本発明の範囲を制約するものではない。Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings. In addition, although the form described below has various technically preferable limitations,
It does not limit the scope of the invention.
【0013】図1は本発明を適用した熱風成形装置例を
示す要部の概略構成断面図であり、図3に示した繊維ク
ッション体50を成形するために用いられたものであ
る。図1において、熱風成形装置1は、上下型2,3
と、上下型2,3を回転可能に内蔵しているハウジング
5と、上下型2,3を所定の速度で回転させる回動手段
13と、加熱送風手段17などにより構成されている。FIG. 1 is a schematic sectional view of a main part showing an example of a hot air forming apparatus to which the present invention is applied, which is used for forming the fiber cushion body 50 shown in FIG. In FIG. 1, the hot air forming apparatus 1 includes upper and lower dies 2, 3
And a housing 5 having the upper and lower dies 2 and 3 rotatably built therein, a rotating means 13 for rotating the upper and lower dies 2 and 3 at a predetermined speed, a heating and blowing means 17 and the like.
【0014】上下型2,3は、型成形部分2A,3Aが
主体となり、型締め状態で型成形部分2A,3Aの間に
型成形部4を区画形成する。型成形部4は繊維クッショ
ン体50に対応している。このうち、上型2は、外周部
を除いて型成形部分2Aつまり上型成形面を構成し、そ
こが気体透過性(パンチングメタル構成)に形成され、
多数の透孔2aが規則正しく設けられている。下型3
は、上開口した容器状をなしており、容器状の開口周囲
部を除いた部分が型成形部分3Aつまり下型成形面を構
成し、そこが気体透過性(パンチングメタル構成)に形
成され、多数の透孔2aが同様に設けられている。容器
状の両側には、立ち上がり基部外面に取付部3b,3c
が設けられ、各取付部3b,3cに対し後述するシャフ
ト13A,13Bの対応端部が固定されるようになって
いる。なお、以上の上下型2,3は、下型3に上型2を
型締めした状態において、両外周部分が従来と同様に固
定具により拘束される。この固定具は符号B1,B2にて
模式的に示している。The upper and lower dies 2, 3 are mainly formed by the molded parts 2A, 3A, and form a molded part 4 between the molded parts 2A, 3A in a clamped state. The molded part 4 corresponds to the fiber cushion body 50. Of these, the upper die 2 constitutes a molded part 2A, that is, an upper molded surface except for the outer peripheral part, and is formed to be gas-permeable (punched metal structure).
A large number of through holes 2a are provided regularly. Lower mold 3
Has a container shape with an upper opening, and the portion excluding the periphery of the container-like opening constitutes a molding portion 3A, that is, a lower molding surface, which is formed to be gas-permeable (punching metal configuration), Numerous through holes 2a are similarly provided. On both sides of the container, mounting portions 3b, 3c are provided on the outer surface of the rising base.
Are provided, and corresponding ends of shafts 13A and 13B described later are fixed to the mounting portions 3b and 3c. In the above upper and lower dies 2 and 3, both outer peripheral portions are restrained by fixtures in a state where the upper die 2 is clamped to the lower die 3 as in the conventional case. This fixture is schematically indicated by reference numerals B1 and B2.
【0015】ハウジング5は、本体部6及び開閉蓋7か
らなり、上下型2,3を水平方向に余裕を持つて配置可
能な大きさとなっている。本体部6には下側部に入口9
が設けられてると共に、開閉蓋7には略中央部に出口1
0が設けられている。本体部6の内部には、下型3が前
記したシャフト13A,13Bを介して略中間に位置
し、水平方向に配置されている。シャフト13Aの自由
端側は、本体部6の対応側部に設けられた軸受け8Aを
通じて外部へ突出されている。シャフト13Bの自由端
側は、本体部6の対応側部に設けられた軸受け8Bに支
持されている。そして、本体部6は、両内側に仕切板1
1A,11Bを取り付けることにより、下型3及び各仕
切板11A,11Bを介在した状態で、内部空間を上下
の空洞部5A,5Bに区分している。なお、各仕切板1
1A,11Bは下型3の回転を損なわないよう設けら
れ、図1の前後に延びている。The housing 5 comprises a main body 6 and an opening / closing lid 7 and has a size that allows the upper and lower dies 2 and 3 to be arranged with a margin in the horizontal direction. The main body 6 has an entrance 9 on the lower side.
The opening and closing cover 7 has an outlet 1 at a substantially central portion.
0 is provided. Inside the main body 6, the lower mold 3 is located substantially at the center via the shafts 13A and 13B, and is arranged in the horizontal direction. The free end side of the shaft 13A protrudes outside through a bearing 8A provided on the corresponding side of the main body 6. The free end side of the shaft 13B is supported by a bearing 8B provided on the corresponding side of the main body 6. The main body 6 is provided with partition plates 1 on both inner sides.
By attaching 1A, 11B, the internal space is divided into upper and lower hollow portions 5A, 5B with the lower mold 3 and the respective partition plates 11A, 11B interposed therebetween. In addition, each partition plate 1
1A and 11B are provided so as not to impair the rotation of the lower mold 3, and extend in the front and rear directions in FIG.
【0016】回動手段13はモータ14及び減速ギア列
15等から構成されている。減速ギア列15は、図では
模式的に示しているが、モータ14の駆動軸側とシャフ
ト13Aの自由端側との間に大小のギアを介在すること
により、モータ14の回転を減速してシャフト13Aに
伝達するものである。この構造自体は、下型3を低速回
転可能であればよく、公知のギア機構が必要に応じて適
用されるものである。他の構造としては、回動手段13
をハウジング5の本体部6内に配置する等して、モータ
14の駆動力を、シャフト13Aの回転と共に、後述す
る加熱送風手段17の構成要素であるファン機構16の
回転を兼用できるようにしてもよい。The rotating means 13 comprises a motor 14, a reduction gear train 15, and the like. Although the reduction gear train 15 is schematically shown in the drawing, the rotation of the motor 14 is reduced by interposing a large or small gear between the drive shaft side of the motor 14 and the free end side of the shaft 13A. This is transmitted to the shaft 13A. The structure itself only needs to be able to rotate the lower mold 3 at low speed, and a known gear mechanism is applied as necessary. As another structure, the rotating means 13
Is disposed in the main body 6 of the housing 5 so that the driving force of the motor 14 can be used not only for the rotation of the shaft 13A but also for the rotation of the fan mechanism 16 which is a component of the heating and blowing means 17 described later. Is also good.
【0017】これに対し、加熱送風手段17は、従来と
同様のものを用いることができ、図1に例示される如
く、成形温度まで加熱する不図示の加熱機構と、ファン
機構16等からなり、熱風を配管18aを通じて入口9
から空洞部5Bへ圧送するものである。通常は、出口1
0に対し配管18bを介して接続されており、出口10
から排気された熱風を再び加熱機構により定温度まで加
温して、それをファン機構16等を通じて入口9に循環
する方式となっている。再循環に際し、熱風から不純物
を除く濾過部材等を有している。また、加熱機構を停止
させると常温の冷風を循環できることは勿論である。On the other hand, the heating and blowing means 17 can be the same as the conventional one, and includes a heating mechanism (not shown) for heating to the molding temperature, a fan mechanism 16 and the like as shown in FIG. Hot air through the pipe 18a to the inlet 9
From above to the cavity 5B. Usually exit 1
0 through a pipe 18b, and an outlet 10
The hot air exhausted from the heater is heated again to a constant temperature by a heating mechanism and circulated to the inlet 9 through a fan mechanism 16 or the like. When recirculating, it has a filtering member or the like for removing impurities from hot air. When the heating mechanism is stopped, it is needless to say that cold air at normal temperature can be circulated.
【0018】次に、以上の熱風成形装置を用いる場合の
成形方法の要領を詳述する。なお、使用される繊維系原
材料は、例えば、低融点繊維素材と高融点繊維素材とを
混綿したものである。型詰め形態としては、混綿した状
態から、所定厚さのウェブ積層体に重ねたものを、適当
な大きさにカットしたもの、又は、混綿されて開繊され
た綿状ウェブを適当な大きさにカットしたものである。Next, the outline of the molding method when using the above-described hot air molding apparatus will be described in detail. The fiber raw material used is, for example, a mixture of a low-melting fiber material and a high-melting fiber material. As the form of the mold filling, a material obtained by overlapping a web laminate having a predetermined thickness from a mixed state and then cut into an appropriate size, or a cotton-like web which has been mixed and opened is set to an appropriate size. It is cut into pieces.
【0019】型セット作業では、先ず、開閉蓋7及び上
型2が移動機構により取り除かれて、下型3内に上記し
た繊維系原材料が型詰めセットされる。その後、上型2
を型締めする。この操作では、上型2が下型3の上部内
に移動しつつ所定の押圧力を伴って配置される。そし
て、上下型2,3は固定具B1,B2にて着脱可能に固定
される。なお、このような操作において、下型3はシャ
フト13Aを介して減速ギア列15で動きを拘束されて
いるが、必要に応じて空洞部5B等に仮保持手段を設け
ておき、繊維系原材料のセット及び上型2の型締めが完
了するまでその仮保持手段により保持してもよい。更
に、各シャフト13A,13Bに対し下型3を着脱方式
により連結して、繊維系原材料のセット及び型締めがな
された状態から、本体部6内に入れシャフト13A,1
3Bに連結するようにしてもよいものである。In the mold setting operation, first, the opening / closing lid 7 and the upper mold 2 are removed by the moving mechanism, and the above-mentioned fiber-based raw material is set in the lower mold 3 by mold packing. Then, upper mold 2
Close the mold. In this operation, the upper mold 2 is arranged with a predetermined pressing force while moving into the upper part of the lower mold 3. The upper and lower dies 2, 3 are detachably fixed by fixtures B1, B2. In such an operation, the movement of the lower mold 3 is restrained by the reduction gear train 15 via the shaft 13A. However, if necessary, provisional holding means may be provided in the hollow portion 5B or the like, and the fibrous raw material may be provided. May be held by the temporary holding means until the setting of the upper mold 2 and the clamping of the upper mold 2 are completed. Further, the lower mold 3 is connected to each of the shafts 13A and 13B by a detachable method, and is put into the main body 6 from a state where the fiber-based raw materials are set and the mold is clamped, and the shafts 13A and 13
It may be connected to 3B.
【0020】以上の型締め状態から、加熱送風手段17
が作動される。加熱機構が作動されると、ファン機構1
6はその加熱された気体を入口9から空洞部5B内に圧
送する。空洞部5Bに圧送された熱風は、所定圧に達す
ると、型成形部4内に透孔3aを通じて侵入し、繊維系
原材料内を上に向けて通過しつつ、繊維系原材料を熱処
理する。繊維系原材料を通過した熱風は、透孔2aを通
じて上型2から空洞部5Aに達し、出口10から排出さ
れる。そして、通常はハウジング5の内部にそのような
一方向の熱風通路が形成された後、モータ14が動作さ
れる。すると、上下型2,3は、モータ14の駆動軸,
減速ギア列15,シャフト13Aを通じて一体的に回転
され、図1と図2に示す如く各空洞部5A,5Bに対し
順次に逆転されながら、前記熱風通路を横切る。同時
に、熱風は透孔2a,3aを通じて型成形部4内に吸排
気される。なお、上下型2,3の回転時期は加熱送風手
段17の作動と同時に行ってよい。From the above mold clamping state, the heating and blowing means 17
Is activated. When the heating mechanism is activated, the fan mechanism 1
6 pumps the heated gas from the inlet 9 into the cavity 5B. When the hot air sent to the cavity 5B reaches a predetermined pressure, it enters the molded part 4 through the through-hole 3a, and heat-treats the fibrous raw material while passing upward through the fibrous raw material. The hot air that has passed through the fibrous raw material reaches the cavity 5A from the upper die 2 through the through-hole 2a and is discharged from the outlet 10. Then, usually, after such a one-way hot air passage is formed inside the housing 5, the motor 14 is operated. Then, the upper and lower dies 2, 3 are driven by the drive shaft of the motor 14,
It is rotated integrally through the reduction gear train 15 and the shaft 13A, and crosses the hot air passage while being sequentially reversed with respect to each of the cavities 5A and 5B as shown in FIGS. At the same time, the hot air is sucked and exhausted into the molded part 4 through the through holes 2a and 3a. The rotation timing of the upper and lower dies 2 and 3 may be performed simultaneously with the operation of the heating and blowing means 17.
【0021】以上の熱処理が所定時間行われると、繊維
系原材料を構成している低融点素材が次第に溶融して繊
維間ないしは繊維同士を結合し、型成形部4に応じた一
体ものの繊維クッション体50が成形される。その後、
加熱機構の作動を停止し、ファン機構16を介して常温
の冷風を同様に循環して、繊維クッション体50を冷却
する。これにより、繊維クッション体50は、その形状
が保形されるので開閉蓋7が移動されると共に上型7も
取り除かれ、脱型される。When the above-mentioned heat treatment is performed for a predetermined time, the low melting point material constituting the fibrous raw material gradually melts and bonds between the fibers or between the fibers to form an integral fiber cushion body corresponding to the molded portion 4. 50 are molded. afterwards,
The operation of the heating mechanism is stopped, and the cold air of normal temperature is circulated through the fan mechanism 16 to cool the fiber cushion body 50. As a result, the shape of the fiber cushion body 50 is maintained, so that the open / close lid 7 is moved, the upper mold 7 is also removed, and the fiber cushion body 50 is removed.
【0022】このような、熱処理構造は次のような加熱
作用を有効に利用するものである。第1に、ハウジング
5に形成された熱風流路内で上下型2,3を回転し、型
成形部分2A,3Aを各空洞部5A,5Bを順次に位置
移動していることから、従来の如く座席用の繊維クッシ
ョン体程度の大きであっても、全体が均一に加熱され、
局部的に温度差が形成されるのを効率的に防ぐことがで
きる。第2に、上下型2,3の回転速度は比較的低速に
設定されるが、最適な回転速度を選定することにより、
型成形部4内に入り込んだ熱風の蓄熱作用も得られるこ
とである。これは、透孔2a,3aを通じて型成形部4
内に侵入した熱風が再び透孔2a,3aから排出される
軌跡を想定すると、従来の如く上下型が固定されている
構造ではその熱風の移動軌跡が熱風通路の風圧等により
おおよそ決まることに対し、上下型2,3が回転してい
る構造では型成形部4内から排出しようとする熱風部分
が新たに侵入する熱風部分によりその排出力を減衰ない
しは弱めるべく作用されるからである。Such a heat treatment structure effectively utilizes the following heating action. First, since the upper and lower dies 2 and 3 are rotated in the hot air flow path formed in the housing 5 and the molded parts 2A and 3A are sequentially moved in the respective cavities 5A and 5B, the conventional dies are formed. Even if it is as large as a fiber cushion body for a seat, the whole is heated uniformly,
It is possible to efficiently prevent a local temperature difference from being formed. Second, the rotation speeds of the upper and lower dies 2 and 3 are set to be relatively low, but by selecting the optimum rotation speed,
The heat storage effect of the hot air that has entered the molded portion 4 is also obtained. This is because the molded part 4 is formed through the through holes 2a and 3a.
Assuming a locus in which the hot air that has entered the inside is again discharged from the through-holes 2a and 3a, the moving locus of the hot air is roughly determined by the wind pressure of the hot air passage and the like in a conventional structure in which the upper and lower molds are fixed. This is because, in the structure in which the upper and lower dies 2 and 3 are rotating, the hot air portion to be discharged from the inside of the mold forming portion 4 acts to attenuate or weaken the discharging force by the newly entering hot air portion.
【0023】したがって、この熱風成形装置1を用いた
場合は、従来加熱不足となり易かった上型2の型成形部
分2A側を下型3と同程度に効率的に加熱し、繊維系原
材料の局部的な熱過剰や不足を防いで、熱処理の均一性
を確保し、熱成形的に極めて良好なものとなる。これに
より、成形される繊維クッション体50は、従来成形品
に対し局部的な過剰な溶融や溶融不足がなく、品質的に
より安定している。また、上記した蓄熱作用を制御する
ことにより成形時間の短縮化も可能となる。Therefore, when the hot-air molding apparatus 1 is used, the molding portion 2A of the upper mold 2 which is liable to be insufficiently heated is heated as efficiently as the lower mold 3 so that the local heating of the fibrous raw material is performed. This prevents heat excess and shortage, ensures uniformity of heat treatment, and is extremely good in thermoforming. Thereby, the molded fiber cushion body 50 is more stable in terms of quality without local excessive melting or insufficient melting with respect to the conventional molded product. Further, by controlling the above-mentioned heat storage effect, it is possible to shorten the molding time.
【0024】なお、以上の形態は本発明の基本例であ
り、例えば、ハウジング1内に上下型2,3を保持する
構造、回動手段13や加熱送風手段17の具体的構造等
については上下型2,3の具体的な大きさ及び量産規模
等に応じて、公知の技術を適用して種々変形されるもの
である。The above embodiment is a basic example of the present invention. For example, the structure for holding the upper and lower dies 2 and 3 in the housing 1 and the specific structure of the rotating means 13 and the heating and blowing means 17 are the same as those of the first embodiment. According to the specific size and mass production scale of the molds 2 and 3, various modifications can be made by applying a known technique.
【0025】[0025]
【発明の効果】以上説明したとおり、本発明によれば、
熱風流路内で上下型を回転させて、型成形部分に生じ易
い温度差を緩和し、全体がより均一に加熱されるように
したことから、型成形部分が位置的に固定されている従
来構造に対し、加熱度合いが片寄る虞がなく成形品の品
質と信頼性をより向上できる。また、型成形部に吸排気
される熱風の蓄熱作用も期待できることから、熱処理時
間を短縮して成形効率も向上できる。As described above, according to the present invention,
By rotating the upper and lower molds in the hot air flow path to reduce the temperature difference that tends to occur in the molded part, and to heat the whole more evenly, the molded part is conventionally fixed in position. The quality and reliability of the molded product can be further improved without the possibility that the degree of heating is deviated from the structure. Further, since a heat storage effect of the hot air sucked and exhausted by the molding part can be expected, the heat treatment time can be shortened and the molding efficiency can be improved.
【図1】本発明に係る熱風成形装置例を示す要部の概略
構成断面図である。FIG. 1 is a schematic cross-sectional view of a main part showing an example of a hot air forming apparatus according to the present invention.
【図2】前記熱風成形装置の作動例を示す図である。FIG. 2 is a view showing an operation example of the hot air forming apparatus.
【図3】本発明対象の繊維クッション体例を示す断面図
である。FIG. 3 is a cross-sectional view showing an example of a fiber cushion body of the present invention.
【図4】従来の熱風成形装置のうち、成形型例を示す概
略構成断面図である。FIG. 4 is a schematic sectional view showing an example of a molding die in a conventional hot air molding device.
2…上型、3…下型、2A…下型の型成形部分 3A…上型の型成形部分、4…型成形部 5…ハウジング、5A,5B…空洞部 9…入口、10…出口、13…回動手段 16…ファン機構、17…加熱送風手段 2 upper mold, 3 lower mold, 2A lower mold molded part 3A upper mold molded part, 4 molded part 5 housing, 5A, 5B hollow part 9 inlet, 10 outlet, 13: rotating means 16: fan mechanism, 17: heating and blowing means
フロントページの続き (56)参考文献 特開 平6−192952(JP,A) 特開 平2−95838(JP,A) 特開 平6−294061(JP,A) 特開 平4−311410(JP,A) 特開 平5−280689(JP,A) 特開 平6−141957(JP,A) 特開 平9−85759(JP,A) 特開 平9−84973(JP,A) 特開 昭56−37373(JP,A) (58)調査した分野(Int.Cl.7,DB名) D04H 1/00 - 18/00 B27N 1/00 - 9/00 B68G 1/00 - 15/00 Continuation of the front page (56) References JP-A-6-192952 (JP, A) JP-A-2-95838 (JP, A) JP-A-6-294061 (JP, A) JP-A-4-31114 (JP) JP-A-5-280689 (JP, A) JP-A-6-141957 (JP, A) JP-A-9-85759 (JP, A) JP-A-9-84973 (JP, A) JP 56-37373 (JP, A) (58) Fields investigated (Int. Cl. 7 , DB name) D04H 1/00-18/00 B27N 1/00-9/00 B68G 1/00-15/00
Claims (2)
る上下型を用いて、前記上下型で形成される型成形部内
に保形用低融点素材と高融点素材の混合された繊維系原
材料を配置した後、前記上下型を型締めし、前記上下型
の外側から型成形部内に熱風を通過しつつ、前記繊維系
原材料を加熱成形する繊維クッション体の成形方法にお
いて、 前記上下型をハウジングに回転可能に内蔵し、前記熱風
を前記ハウジングの上側又は下側の何れか一方に設けら
れた入口から圧送し、前記型成形部内を通して前記他方
に設けられた出口に向かう熱風流路を前記ハウジング内
に形成して、該熱風流路内で前記上下型を回転しながら
加熱処理する、ことを特徴とする繊維クッション体の成
形方法。1. A fiber system in which a low-melting material for shape retention and a high-melting material are mixed in a molded part formed by the upper and lower molds using an upper and lower mold having a molded part formed to be gas-permeable. After arranging the raw materials, the upper and lower molds are clamped, and a hot air is passed from outside the upper and lower molds into the mold forming portion, and the fiber cushion material is molded by heating. The housing is rotatably incorporated in the housing, the hot air is pressure-fed from an inlet provided on one of the upper side and the lower side of the housing, and a hot air flow path toward an outlet provided on the other side through the inside of the molded part is formed. A method of forming a fiber cushion body, wherein the method is formed in a housing and heat-treated while rotating the upper and lower molds in the hot air flow path.
れ形成しており、前記型成形部内に低融点素材と高融点
素材の混合された繊維系原材料を配置し、加熱送風手段
により前記型成形部の一方側から型成形部内を通って他
方側へ熱風を通過しつつ、前記繊維系原材料を熱成形す
る繊維クッション体用の熱風成形装置において、 前記上下型により内部を上下に区分し、かつ前記上下型
を回転可能に配置しているハウジングと、前記上下型を
回転するモータ等の回動手段と、前記ハウジングの下側
に設けられた入口及び上側に設けられた出口とを少なく
とも備え、 前記加熱送風手段から前記入口を通じて前記ハウジング
内に圧送される熱風により、前記出口に向かう一方向の
熱風流路を前記ハウジング内に形成し、該熱風流路内で
前記上下型を回転しながら熱処理可能にした、繊維クッ
ション体用の熱風成形装置。2. The upper and lower molds each have a molded portion formed to be gas permeable, and a fibrous raw material in which a low-melting material and a high-melting material are mixed is disposed in the molded portion. In a hot air molding apparatus for a fiber cushion body that thermoforms the fibrous raw material while passing hot air from one side of the molding section to the other side through the inside of the molding section, the interior is vertically divided by the upper and lower molds. And a housing in which the upper and lower molds are rotatably arranged, rotating means such as a motor for rotating the upper and lower molds, and at least an inlet provided on the lower side of the housing and an outlet provided on the upper side. Forming a one-way hot air flow path toward the outlet in the housing by hot air that is pressure-fed into the housing through the inlet from the heating blower means, and forms the upper and lower molds in the hot air flow path. Rolling while was heat treatable, hot molding apparatus for fibrous cushion body.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP29475897A JP3267540B2 (en) | 1997-10-28 | 1997-10-28 | Fiber cushion body molding method and hot air molding device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP29475897A JP3267540B2 (en) | 1997-10-28 | 1997-10-28 | Fiber cushion body molding method and hot air molding device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH11131398A JPH11131398A (en) | 1999-05-18 |
| JP3267540B2 true JP3267540B2 (en) | 2002-03-18 |
Family
ID=17811929
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP29475897A Expired - Fee Related JP3267540B2 (en) | 1997-10-28 | 1997-10-28 | Fiber cushion body molding method and hot air molding device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3267540B2 (en) |
Families Citing this family (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106079389B (en) * | 2016-06-20 | 2019-08-09 | 上海航天精密机械研究所 | Resinae plate multiple spot thermal forming device and method |
| SE540754C2 (en) | 2016-11-30 | 2018-10-30 | Ikea Supply Ag | Molding of fiber blanks into three-dimensional fiber block |
-
1997
- 1997-10-28 JP JP29475897A patent/JP3267540B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH11131398A (en) | 1999-05-18 |
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