JP2014184535A - Annular resin product assembly method and annular resin product - Google Patents

Annular resin product assembly method and annular resin product Download PDF

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JP2014184535A
JP2014184535A JP2013062490A JP2013062490A JP2014184535A JP 2014184535 A JP2014184535 A JP 2014184535A JP 2013062490 A JP2013062490 A JP 2013062490A JP 2013062490 A JP2013062490 A JP 2013062490A JP 2014184535 A JP2014184535 A JP 2014184535A
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annular
annular body
resin product
assembly
assembled
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JP6188193B2 (en
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Katsunori Matsuki
克則 松木
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Uchiyama Manufacturing Corp
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Uchiyama Manufacturing Corp
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Abstract

PROBLEM TO BE SOLVED: To provide an annular resin product assembly method capable of assembling an annular body to a predetermined position correctly by suppressing deformation of the resin annular body at least until the annular body is assembled to an assembled body, and to provide an annular resin product.SOLUTION: Provided is the assembly method of an annular resin product 1 in which a resin annular body 10 is assembled to an assembled body 3. A reinforcement member 2 capable of being separated from the annular body 10 and the annular body 10 are molded in an integrated state, and then the annular body 10 is assembled to the assembled body 3. Then, the reinforcement member 2 is separated from the annular body 10.

Description

本発明は、環状樹脂製品の組付け方法及び環状樹脂製品に関し、より詳しくは、樹脂製の細枠状環状体を被組付体に対して、かしめや溶着、さらには圧嵌め等によって組付ける方法、及び環状樹脂製品に関する。   The present invention relates to a method for assembling a cyclic resin product and a cyclic resin product, and more specifically, a resin-made thin frame-like annular body is assembled to an assembly by caulking, welding, or press fitting. The present invention relates to a method and a cyclic resin product.

従来、カバー体と本体との接合面を密封する枠付ガスケット等の環状樹脂製品が知られている(例えば、特許文献1参照)。
また、様々な産業分野で、Oリング等の環状製品を被組付体に対して、組付けることが多くなされている(例えば、特許文献2参照)。この場合、前記環状製品を、ロボットハンド等によって把持し、被組付体の所定位置に配置し、その後、環状製品を被組付体に形成されたOリング溝に押し込むことで組付けることがなされる。
Conventionally, an annular resin product such as a gasket with a frame for sealing a joint surface between a cover body and a main body is known (see, for example, Patent Document 1).
In various industrial fields, an annular product such as an O-ring is often assembled to an assembly (see, for example, Patent Document 2). In this case, the annular product is gripped by a robot hand or the like, placed at a predetermined position of the assembly, and then assembled by pushing the annular product into an O-ring groove formed on the assembly. Made.

特開2000−257719号公報JP 2000-257719 A 特開2009−291859号公報JP 2009-291859 A

ところで、特許文献1のような環状樹脂製品を、射出成形にて製造しようとする場合、環状樹脂製品を成形型から脱型した際に、成形時の残留歪によって環状樹脂製品が歪んで変形する事態が生じるおそれがある。そして、環状樹脂製品が変形してしまうと、例えば、特許文献2のようなロボットハンドを使用して環状樹脂製品を把持する場合、環状樹脂製品の変形を考慮してロボットハンドの動作制御を行う必要がある。また、環状樹脂製品を例えば被組付体に形成された被組付溝に正しく組付ける場合には、環状樹脂製品の変形を修正した上で組付けなければならず、その組付作業が煩雑になる。   By the way, when it is going to manufacture the cyclic resin product like patent document 1 by injection molding, when removing the cyclic resin product from a shaping | molding die, a cyclic resin product will be distorted and deform | transformed by the residual distortion at the time of shaping | molding. A situation may occur. When the annular resin product is deformed, for example, when the annular resin product is gripped using a robot hand as in Patent Document 2, the operation of the robot hand is controlled in consideration of the deformation of the annular resin product. There is a need. In addition, when the annular resin product is correctly assembled, for example, in the assembly groove formed in the assembly, it must be assembled after correcting the deformation of the cyclic resin product, and the assembly work is complicated. become.

本発明は、上記実情に鑑みなされたものであり、少なくとも環状体が被組付体に組み付けられるまで樹脂製の環状体の変形を抑えることによって、環状体を所定の位置に正しく組付けることができる環状樹脂製品の組付け方法、及び環状樹脂製品を提供することを目的としている。   The present invention has been made in view of the above circumstances, and at least the annular body can be correctly assembled at a predetermined position by suppressing deformation of the resin-made annular body until the annular body is assembled to the assembly. It aims at providing the assembly method of the cyclic resin product which can be performed, and a cyclic resin product.

第1の発明に係る環状樹脂製品の組付け方法は、樹脂製の環状体を被組付体に組付ける環状樹脂製品の組付け方法において、前記環状体及び前記環状体から分離可能な補強部材を一体成形し、その後、前記環状体を前記被組付体に組付けた上で、前記補強部材を前記環状体から分離することを特徴とする。
本発明によれば、環状体が被組付体に組付けられるまで、環状体には補強部材が付いているため、環状体の変形を抑えた状態で環状体を被組付体に組付けることができる。従って、環状体を被組付体に組付ける組付け作業が煩雑化することなく、環状体を正しく被組付体の所定の位置に組付けることができる。
A method for assembling a cyclic resin product according to a first aspect of the present invention is the method for assembling a cyclic resin product in which a resin-made annular body is assembled to an assembly, and the reinforcing member separable from the annular body and the annular body. , And then, after the annular body is assembled to the assembly, the reinforcing member is separated from the annular body.
According to the present invention, since the annular body is provided with the reinforcing member until the annular body is assembled to the assembly, the annular body is assembled to the assembly with the deformation of the annular body suppressed. be able to. Therefore, the annular body can be correctly assembled at a predetermined position of the assembly without complicating the assembly work of assembling the annular body to the assembly.

本発明において、前記補強部材を支持して前記環状体を被組付体に配置し、かしめ加工を施すことによって、前記環状体を前記組付部品に組付けるようにしても良い。
本発明によれば、補強部材の存在によって環状体の変形を抑えた状態で、かしめを行うことができるため、かしめ作業を容易に行うことができる。
In the present invention, the annular body may be assembled to the assembly component by supporting the reinforcing member, arranging the annular body on the assembly, and performing caulking.
According to the present invention, since the caulking can be performed in a state where the deformation of the annular body is suppressed by the presence of the reinforcing member, the caulking work can be easily performed.

本発明において、前記環状体には、前記被組付体に設けられた複数のピンを圧入し得る複数の透孔が設けられ、前記補強部材を支持して前記被組付体に配置し、前記透孔に前記ピンを圧入させ、且つ、前記ピンを熱かしめすることによって、前記環状体を前記被組付体に組付けるようにしても良い。
本発明によれば、補強部材の存在によって、ピンと透孔との位置関係がずれることを抑制できる。従って、透孔に対してピンを圧入する作業が的確になされる。また、熱かしめする際、環状体に熱の影響が及んでも、環状体が熱変形することを抑制できる。
In the present invention, the annular body is provided with a plurality of through holes capable of press-fitting a plurality of pins provided in the assembly, and supports the reinforcing member and is disposed in the assembly. You may make it assemble | attach the said cyclic | annular body to the said to-be-assembled body by press-fitting the said pin to the said through-hole, and heat-caulking the said pin.
According to this invention, it can suppress that the positional relationship of a pin and a through-hole shift | deviates by presence of a reinforcement member. Therefore, the work of press-fitting the pin into the through hole is accurately performed. Further, when heat caulking, even if the annular body is affected by heat, the annular body can be prevented from being thermally deformed.

本発明において、前記補強部材を支持して前記環状体を前記被組付体に配置し、溶着加工を施すことによって、前記環状体を前記組付部品に組付けるようにしても良い。
本発明によれば、補強部材の存在によって、環状体の変形を抑えた状態で、溶着加工を行うことができるため、溶着作業を容易に行うことができる。
In the present invention, the annular body may be assembled to the assembly component by supporting the reinforcing member, disposing the annular body on the assembly and performing a welding process.
According to the present invention, since the welding process can be performed in a state where the deformation of the annular body is suppressed due to the presence of the reinforcing member, the welding work can be easily performed.

本発明において、前記補強部材を支持して前記環状体を前記被組付体に形成された凹所に配置し、該凹所に圧入することによって、前記環状体を前記組付部品に組付けるようにしても良い。
本発明によれば、補強部材の存在によって、環状体の変形を抑えた状態で、圧入組付けを行うことができるため、圧入作業を容易に行うことができる。
In the present invention, the annular member is disposed in a recess formed in the assembly to be assembled and supports the reinforcing member, and the annular body is assembled to the assembly component by press-fitting into the recess. You may do it.
According to the present invention, the press-fit operation can be easily performed because the press-fit assembly can be performed in a state where the deformation of the annular body is suppressed due to the presence of the reinforcing member.

本発明において、前記補強部材には、前記環状体よりも前記環状体の軸方向に突出する突起部が形成され、前記環状体及び前記補強部材を一体成形した後、前記突起部を他の環状体の補強部材に当接するようにして複数の前記環状体を整列し、その後前記環状体の前記被組付体に対する組付けを実施するようにしても良い。
本発明によれば、複数の環状体を軸方向に整列する際に、環状体同士が干渉することを抑制することができる。
In the present invention, the reinforcing member is formed with a protruding portion that protrudes in the axial direction of the annular body rather than the annular body. After the annular body and the reinforcing member are integrally formed, the protruding portion is formed into another annular shape. A plurality of the annular bodies may be aligned so as to abut against the reinforcing member of the body, and then the assembly of the annular body to the assembly to be assembled may be performed.
ADVANTAGE OF THE INVENTION According to this invention, when aligning a some annular body to an axial direction, it can suppress that an annular body interferes.

第2の発明に係る環状樹脂製品は、被組付体に組付けられる樹脂製の環状体を備えた環状樹脂製品において、前記環状体には分離可能な補強部材が一体に形成され、前記補強部材は、前記環状体が前記被組付体に組付けられた状態で、前記環状体から分離されるものであることを特徴とする。
本発明によれば、補強部材は、環状体が前記被組付体に組付けられた状態で分離されるものであるから、環状体が補強部材によって補強され、変形が抑えられた状態で所定の位置に正しく組付けられる。
According to a second aspect of the present invention, there is provided an annular resin product including a resin-made annular body assembled to an assembly, wherein the separable reinforcing member is integrally formed on the annular body, The member is characterized in that the member is separated from the annular body in a state where the annular body is assembled to the assembly.
According to the present invention, since the reinforcing member is separated in a state where the annular body is assembled to the assembly body, the annular member is reinforced by the reinforcing member, and the deformation is suppressed in a state where deformation is suppressed. It is assembled correctly at the position.

本発明の環状樹脂製品の組付け方法及び環状樹脂製品によれば、少なくとも環状体が、被組付体に組付けられるまで、樹脂製の環状体の変形を抑えることによって、環状体を所定の位置に正しく組付けることができる。   According to the method for assembling the cyclic resin product and the cyclic resin product of the present invention, at least until the annular body is assembled to the assembly, the annular body is prevented from being deformed by suppressing deformation of the resin-made annular body. Can be assembled correctly in position.

本発明に係る環状樹脂製品の組付け方法に用いられる環状樹脂製品の一例を示す概略的平面図である。It is a schematic plan view which shows an example of the cyclic resin product used for the assembly method of the cyclic resin product which concerns on this invention. 同環状樹脂製品の組付け方法に用いられる被組付体の一例を示す斜視図である。It is a perspective view which shows an example of the to-be-assembled body used for the assembly method of the same cyclic resin product. 本発明に係る環状樹脂製品の組付け方法の一例を示す工程図である。It is process drawing which shows an example of the assembly | attachment method of the cyclic resin product which concerns on this invention. 図1に示す環状樹脂製品の成形の要領を示し、図1のA−A線矢視部に相当する拡大断面図である。FIG. 2 is an enlarged cross-sectional view showing the point of molding of the cyclic resin product shown in FIG. 1 and corresponding to the portion indicated by arrows AA in FIG. 1. 図1に示す環状樹脂製品を図2に示す被組付体に組付け、その後に補強部材を分離した状態を示し、図1のA−A線矢視部に相当する断面図である。It is sectional drawing equivalent to the AA arrow line part of FIG. 1 which shows the state which assembled | attached the cyclic resin product shown in FIG. 1 to the to-be-assembled body shown in FIG. 2, and isolate | separated the reinforcement member after that. 本発明に係る環状樹脂製品の組付け方法に用いられる環状樹脂製品の別例を示す概略的平面図である。It is a schematic plan view which shows another example of the cyclic resin product used for the assembly method of the cyclic resin product which concerns on this invention. 同環状樹脂製品の組付け方法に用いられる被組付体の一例を示す斜視図である。It is a perspective view which shows an example of the to-be-assembled body used for the assembly method of the same cyclic resin product. 図6に示す環状樹脂製品を図7に示す被組付体に組付けた後補強部材を分離した状態を示し、図6のB−B線矢視部に相当する断面図である。FIG. 8 is a cross-sectional view corresponding to the section taken along line B-B of FIG. 6, showing a state where the reinforcing member is separated after the annular resin product shown in FIG. 6 is assembled to the assembly shown in FIG. 7. 本発明に係る環状樹脂製品の組付け方法に用いられる環状樹脂製品のさらに別の例を示す概略的平面図である。It is a schematic plan view which shows another example of the cyclic resin product used for the assembly method of the cyclic resin product which concerns on this invention. (a)(b)は本発明に係る環状樹脂製品の組付け方法に用いられる環状樹脂製品のさらに別の例を示す概略的平面図である。(A) (b) is a schematic plan view which shows another example of the cyclic resin product used for the assembly method of the cyclic resin product which concerns on this invention. 本発明に係る環状樹脂製品の組付け方法に用いられる環状樹脂製品の変形例を示し、(a)は同環状樹脂製品の概略的平面図であり、(b)は同環状樹脂製品を複数積層した状態の(a)のC−C線矢視部に対応する断面図である。The modification of the cyclic resin product used for the assembly method of the cyclic resin product according to the present invention is shown, (a) is a schematic plan view of the cyclic resin product, and (b) is a laminate of the cyclic resin products. It is sectional drawing corresponding to CC line arrow part of (a) of the state which was made.

以下、本発明の実施の形態について、図面に基づいて説明する。図1は、本発明に係る環状樹脂製品の組付け方法に用いられる環状樹脂製品の一例を示す概略的平面図である。図1に示す環状樹脂製品1は、長方形状の細枠状環状体10を有し、該環状体10を構成する各辺部11…の内側部の中央部に、内向きのタブ12…が形成されている。環状体10は、薄い板状、換言すれば細枠状に形成されている。したがって、環状体10は、剛性が低く容易に撓み変形する形状に形成されている。そして、この複数のタブ12…に、環状体10よりも薄肉に形成された破断部20を介して平面視して十文字形状の補強部材2が一体に成形されている。前記タブ12…のそれぞれには、後記する被組付体3(図2参照)に形成される複数のピン31…(本実施形態では4本)に対応し、且つ、該ピン31…を圧入し得る透孔13…が設けられている。破断部20は、ニッパー等の切断具によって切断可能な形状に形成されている。補強部材2は、環状体10が歪んだり捩れたりすることを規制するために、環状体10よりも高い剛性を有している。また、補強部材2は、十文字形状を構成する一対の棒状部2a,2bからなり、該棒状部2a,2bがそれぞれ環状体10の辺部11に直交するよう架け渡されている。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a schematic plan view showing an example of a cyclic resin product used in the method for assembling a cyclic resin product according to the present invention. An annular resin product 1 shown in FIG. 1 has a rectangular thin frame-like annular body 10, and an inward tab 12... Is formed at the center of each side portion 11. Is formed. The annular body 10 is formed in a thin plate shape, in other words, a thin frame shape. Therefore, the annular body 10 is formed in a shape that has low rigidity and is easily bent and deformed. The plurality of tabs 12 are integrally formed with a cross-shaped reinforcing member 2 in plan view through a broken portion 20 formed thinner than the annular body 10. Each of the tabs 12 corresponds to a plurality of pins 31 (four in this embodiment) formed on the assembly 3 (see FIG. 2) described later, and the pins 31 are press-fitted. Possible through holes 13 are provided. The fracture | rupture part 20 is formed in the shape which can be cut | disconnected with cutting tools, such as a nipper. The reinforcing member 2 has higher rigidity than the annular body 10 in order to restrict the annular body 10 from being distorted or twisted. The reinforcing member 2 includes a pair of rod-like portions 2 a and 2 b that form a cross-shaped shape, and the rod-like portions 2 a and 2 b are bridged so as to be orthogonal to the side portion 11 of the annular body 10.

図2は、前記環状樹脂製品1が組付けられる被組付体3を示しており、図示の該被組付体3は、一面(上面)が開口する直方体形状の中空箱体30と、該箱体30の上面に設けられた複数のピン31…とを備えている。箱体30は金属材又は樹脂材から構成されている。該ピン31は、熱かしめによって変形し得る材料からなり、前記箱体30の上面の所定部位に設けられている。前記環状体10の外側面は、後記するように該環状体10を前記箱体30の上面に組付けたとき、該箱体30の外縁に整合する形状とされる。また、前記各透孔13…は、この組付状態で各ピン31…に対応する位置に設けられている。環状体10内側面は、環状体10を箱体30の上面に組付けたとき、箱体30の開口縁30aの外側に位置する形状とされている。   FIG. 2 shows an assembled body 3 to which the annular resin product 1 is assembled. The illustrated assembled body 3 includes a rectangular parallelepiped hollow box 30 having one surface (upper surface) opened, And a plurality of pins 31 provided on the upper surface of the box 30. The box 30 is made of a metal material or a resin material. The pin 31 is made of a material that can be deformed by heat caulking, and is provided at a predetermined portion on the upper surface of the box 30. The outer surface of the annular body 10 is shaped to match the outer edge of the box body 30 when the annular body 10 is assembled to the upper surface of the box body 30 as will be described later. The through holes 13 are provided at positions corresponding to the pins 31 in the assembled state. The inner surface of the annular body 10 has a shape that is located outside the opening edge 30 a of the box body 30 when the annular body 10 is assembled to the upper surface of the box body 30.

前記のような環状樹脂製品1を成形及び前記被組付体3に組付ける要領を図3〜図5を参照して説明する。環状樹脂製品1の成形工程S1において、前記環状体10と補強部材2とを一体に成形する。図4は、この環状樹脂製品1を成形装置によって成形する要領を示している。図4に示す成形装置4は、射出成形装置であって、下型41と上型42とからなり、両型41,42の型締状態で環状樹脂製品1の形状に相当するキャビティ43が形成される。このキャビティ43は、前記環状体10に相当する環状部43aと、前記タグ12に相当するタグ状部43bと、前記十文字形状の補強部材2に相当する十文字状部43cとより構成される。そして、十文字状部43cの交差部43dに対応する部位の上型42には、樹脂の注入用スプルー44が設けられている。十文字状部43cによって成形される補強部材2は、後記するように、最終的には分離除去されるものであるから、十文字状部43cは、前記環状体10及びタグ12…を成形するためのランナーに相当すると言うことができる。   A procedure for molding and assembling the annular resin product 1 as described above to the assembly 3 will be described with reference to FIGS. In the molding step S1 of the annular resin product 1, the annular body 10 and the reinforcing member 2 are integrally molded. FIG. 4 shows a procedure for molding the cyclic resin product 1 by a molding apparatus. A molding apparatus 4 shown in FIG. 4 is an injection molding apparatus, and includes a lower mold 41 and an upper mold 42, and a cavity 43 corresponding to the shape of the annular resin product 1 is formed in a state where both molds 41 and 42 are clamped. Is done. The cavity 43 includes an annular portion 43 a corresponding to the annular body 10, a tag-like portion 43 b corresponding to the tag 12, and a cross-shaped portion 43 c corresponding to the cross-shaped reinforcing member 2. A resin injection sprue 44 is provided on the upper mold 42 at a portion corresponding to the intersecting portion 43d of the cross-shaped portion 43c. Since the reinforcing member 2 formed by the cross-shaped portion 43c is finally separated and removed as described later, the cross-shaped portion 43c is used for forming the annular body 10 and the tags 12. It can be said that it corresponds to a runner.

図4に示す成形装置4において、スプルー44より、溶融した樹脂rを注入して前記キャビティ43に対応する形状に成形し、その後、補強部材2を把持して、環状樹脂製品1を成形装置4から取り出すことで、図1に示すような環状樹脂製品1が得られる。環状樹脂製品1を脱型した際に、成形時の残留歪によって、環状体10が歪んで変形するおそれがあるが、補強部材2によって環状体10が補強されているから、このような変形が抑制される。   In the molding apparatus 4 shown in FIG. 4, the molten resin r is injected from the sprue 44 and molded into a shape corresponding to the cavity 43, and then the reinforcing member 2 is gripped to form the annular resin product 1 into the molding apparatus 4. The cyclic resin product 1 as shown in FIG. When the annular resin product 1 is demolded, the annular body 10 may be distorted and deformed due to residual strain at the time of molding. However, since the annular body 10 is reinforced by the reinforcing member 2, such deformation is caused. It is suppressed.

次いで、この環状樹脂製品1を、図2に示すような被組付体3に組付ける(被組付体への組付け工程S2)。この組付けに際して、図5に示すように補強部材2をロボットハンド5によって把持して、環状樹脂製品1を被組付体3の上に搬送して位置付け、把持した状態で透孔13とピン31との位置合わせを行う。そして、環状樹脂製品1を被組付体3に向けて降下させ、前記透孔13…を前記ピン31…に圧嵌(ピン31…を透孔13…に圧入)する。   Next, the annular resin product 1 is assembled to the assembly 3 as shown in FIG. 2 (assembly step S2 to the assembly). At the time of this assembly, the reinforcing member 2 is gripped by the robot hand 5 as shown in FIG. 5, the annular resin product 1 is transported and positioned on the assembly 3 and the through holes 13 and the pins are gripped. Alignment with 31 is performed. Then, the annular resin product 1 is lowered toward the assembly 3 and the through holes 13 are press fitted into the pins 31 (the pins 31 are press fitted into the through holes 13).

その後、本実施形態では、各ピン31を熱かしめ加工して、前記舌片部12…を被組付体3の上面に固定する。ピン31を、図5の拡大部に示すように、2点鎖線で示す原形から実線で示すような茸状に溶融変形させて、前記前記舌片部12…を被組付体3の上面に挟圧するように固定する。熱かしめ加工は、ピン31をタグ12に圧入した後、ピン31を加熱しながらハンマー等によって叩打することによってなされる。   Thereafter, in the present embodiment, each pin 31 is heat caulked to fix the tongue pieces 12 to the upper surface of the assembly 3. The pin 31 is melted and deformed in a bowl shape as indicated by a solid line from the original shape indicated by a two-dot chain line, as shown in the enlarged portion of FIG. 5, and the tongue pieces 12 are formed on the upper surface of the assembly 3. Fix it to pinch. The heat caulking process is performed by pressing the pin 31 into the tag 12 and then striking it with a hammer or the like while heating the pin 31.

その後、補強部材の分離工程S3において、ロボットに装備されている切断具によって各破断部20を切断し、補強部材2を分離する。これによって、被組付体3に対する樹脂製の環状体10の組付けが完了する。図5は、環状樹脂製品1を前記の要領で被組付体3に組付け、前記補強部材2を分離した状態を示しており、環状体10は、前記ピン31…の熱かしめにより、被組付体3に離脱不能に組付固定されている。
なお、前記ピン31…の熱かしめに代えて、スナップフィットやEリングによって、環状体10を被組付体3にピン31…を介して離脱不能に組付固定するようにしても良い。
Thereafter, in the reinforcing member separation step S <b> 3, each fractured portion 20 is cut by a cutting tool provided in the robot, and the reinforcing member 2 is separated. Thereby, the assembly of the resin annular body 10 to the assembly 3 is completed. FIG. 5 shows a state in which the annular resin product 1 is assembled to the assembly 3 in the above-described manner and the reinforcing member 2 is separated. The annular body 10 is subjected to heat caulking of the pins 31. It is assembled and fixed to the assembly 3 so that it cannot be detached.
It should be noted that the annular body 10 may be assembled and fixed to the assembly 3 via the pins 31 in a non-detachable manner by snap fitting or E-ring instead of the heat caulking of the pins 31.

本実施形態において、前記搬送及び圧入操作は、ロボットハンド5によって補強部材2を把持した状態でなされる。従って、前記搬送及び圧入操作の過程で環状体10がロボットハンド5によって傷付いたりすることがない。また、環状樹脂製品1の変形が抑制されているから、ロボットハンド5によって補強部材2を把持する際に、環状樹脂製品1の変形を考慮したロボットハンド5の動作制御を行う必要がない。
そして、環状体10が被組付体3に組付けられるまで、環状体10には補強部材2が付いているため、環状体10の変形を抑えた状態で被組付体3に組付けることができる。特に、ピン31…と透孔13…との位置関係がずれ難く、透孔13…に対するピン31…の圧入操作が、設計どおりに的確に行い易くなる。また、このピン31の圧入操作の際には、環状体10に強い応力が作用するが、環状体10には補強部材2が一体とされているから、環状樹脂製品1の変形を抑えた状態で前記圧入操作がなされる。加えて、環状樹脂製品1の変形が抑制されているから、この圧入による組付操作も、環状樹脂製品の変形を修正した上で行う必要もない。これによって、環状体10の組付け作業が煩雑化することなく、環状体10を正しく被組付体3の所定の位置に組付けることができる。
また、熱かしめ加工がなされる際、環状体10に対して、歪等による変形を伴うような強い応力が作用する。しかし、環状体10は、補強部材2によって補強されているから、環状体10の変形を抑えた状態で、環状樹脂製品1が所定の位置に固定される。
In the present embodiment, the transfer and press-fitting operations are performed in a state where the reinforcing member 2 is gripped by the robot hand 5. Accordingly, the annular body 10 is not damaged by the robot hand 5 in the course of the transfer and press-fitting operations. Further, since the deformation of the annular resin product 1 is suppressed, it is not necessary to control the operation of the robot hand 5 in consideration of the deformation of the annular resin product 1 when the reinforcing member 2 is gripped by the robot hand 5.
And since the reinforcing member 2 is attached to the annular body 10 until the annular body 10 is assembled to the assembly 3, the annular body 10 is assembled to the assembly 3 with the deformation of the annular body 10 suppressed. Can do. In particular, the positional relationship between the pins 31... And the through holes 13 is difficult to shift, and the press-fitting operation of the pins 31 to the through holes 13. Further, during the press-fitting operation of the pin 31, a strong stress acts on the annular body 10, but since the reinforcing member 2 is integrated with the annular body 10, the deformation of the annular resin product 1 is suppressed. The press-fitting operation is performed. In addition, since the deformation of the cyclic resin product 1 is suppressed, it is not necessary to perform the assembling operation by press-fitting after correcting the deformation of the cyclic resin product. Thereby, the annular body 10 can be correctly assembled at a predetermined position of the assembly 3 without complicating the assembling work of the annular body 10.
Further, when the heat caulking process is performed, a strong stress such as deformation due to strain or the like acts on the annular body 10. However, since the annular body 10 is reinforced by the reinforcing member 2, the annular resin product 1 is fixed at a predetermined position in a state where deformation of the annular body 10 is suppressed.

図6〜図8は、本発明に係る環状樹脂製品の組付け方法の別例を示している。図6に示す環状樹脂製品1Aは、円環状の環状体10Aと、この環状体10Aの内側部に破断部20Aを介して一体に成形された棒状部2Aa,2Abによる十文字形状の補強部材2Aとからなる。この環状樹脂製品1Aも、当該環状樹脂製品1Aに対応したキャビティを備えた図4に示す成形装置4によって同様に成形される。従って、補強部材2Aによって環状体10Aが補強されているから、環状樹脂製品1Aは、前記同様に脱型時の変形が抑制された状態とされている。図7は、この環状樹脂製品1Aが組付けられる被組付体3Aを示し、該被組付体3Aは、中空の円筒体30Aからなり、該円筒体30Aの上端開口部には、環状凹所31Aが段差状に形成されている。この環状凹所31Aの内径D(図8の拡大部も参照)は、前記環状体10Aの外径D1よりやや小とされている。   6-8 has shown the other example of the assembly | attaching method of the cyclic resin product which concerns on this invention. An annular resin product 1A shown in FIG. 6 includes an annular annular body 10A, and a cross-shaped reinforcing member 2A made up of rod-shaped portions 2Aa and 2Ab integrally formed on the inner side of the annular body 10A via a fracture portion 20A. Consists of. This cyclic resin product 1A is similarly molded by the molding apparatus 4 shown in FIG. 4 provided with a cavity corresponding to the cyclic resin product 1A. Accordingly, since the annular body 10A is reinforced by the reinforcing member 2A, the annular resin product 1A is in a state in which the deformation at the time of demolding is suppressed as described above. FIG. 7 shows a to-be-assembled body 3A to which the annular resin product 1A is assembled, and the to-be-assembled body 3A is formed of a hollow cylindrical body 30A. The locations 31A are formed in steps. The inner diameter D (see also the enlarged portion in FIG. 8) of the annular recess 31A is slightly smaller than the outer diameter D1 of the annular body 10A.

前記環状樹脂製品1Aを前記被組付体3Aに組付けるに際しては、前記と同様のロボットハンド5(図5参照)によって補強部材2Aを把持した状態で、環状樹脂製品1Aを被組付体3Aの上に位置付ける。そして、環状体10Aを、前記環状凹所31Aの内径部に圧入する。この圧入の際、環状体10Aの外周縁部、必要によって、環状凹所31Aの内径部、を加熱し、環状体10Aを環状凹所31Aに溶着加工によって固着するようにしても良い。また、環状体10Aを環状凹所31Aに圧入する際に、環状体10Aの外周縁部をかしめて環状凹所31Aに一体としても良い。さらに、前記溶着加工としては、振動、超音波、熱板、レーザ等による方法が採用可能である。   When assembling the annular resin product 1A to the assembly 3A, the annular resin product 1A is attached to the assembly 3A with the reinforcing member 2A held by the robot hand 5 (see FIG. 5) similar to the above. Position on top of. Then, the annular body 10A is press-fitted into the inner diameter portion of the annular recess 31A. During the press-fitting, the outer peripheral edge of the annular body 10A, and if necessary, the inner diameter part of the annular recess 31A may be heated to fix the annular body 10A to the annular recess 31A by welding. Further, when the annular body 10A is press-fitted into the annular recess 31A, the outer peripheral edge portion of the annular body 10A may be caulked to be integrated with the annular recess 31A. Furthermore, as the welding process, a method using vibration, ultrasonic waves, a hot plate, a laser, or the like can be employed.

その後、破断部20Aを切断して補強部材2Aを環状体10Aから分離することにより、環状樹脂製品1Aの被組付体3Aに対する組付けが完了する。図8は、補強部材2Aを環状体10Aから分離して、環状樹脂製品1Aの被組付体3Aに対する組付けが完了した状態を示している。環状体10Aが被組付体3Aに組付けられるまで、環状体10Aには補強部材2Aが付いているため、環状体10Aの変形を抑えた状態で被組付体3に組付けることができる。また、環状体10Aの環状凹所31Aに対する圧入操作の際には、環状体10Aに強い応力が作用するが、環状体10Aには補強部材2が一体とされているから、環状樹脂製品1Aの変形を抑えた状態で前記圧入操作がなされる。また、前記のように溶着加工を伴う場合でも、熱の影響によって環状体10Aが熱変形するおそれがあるが、このような変形も補強部材2Aによって抑制される。これによって、環状体10の組付け作業が煩雑化することなく、環状体10を正しく被組付体3の所定の位置に組付けることができる。   Thereafter, the fracture portion 20A is cut to separate the reinforcing member 2A from the annular body 10A, whereby the assembly of the annular resin product 1A to the assembly 3A is completed. FIG. 8 shows a state where the reinforcing member 2A is separated from the annular body 10A, and the assembly of the annular resin product 1A to the assembly 3A is completed. Until the annular body 10A is assembled to the assembly 3A, the annular body 10A is provided with the reinforcing member 2A. Therefore, the annular body 10A can be assembled to the assembly 3 with the deformation of the annular body 10A suppressed. . Further, during the press-fitting operation of the annular body 10A into the annular recess 31A, strong stress acts on the annular body 10A, but the reinforcing member 2 is integrated with the annular body 10A. The press-fitting operation is performed with the deformation suppressed. Further, even when the welding process is involved as described above, the annular body 10A may be thermally deformed by the influence of heat, but such deformation is also suppressed by the reinforcing member 2A. Thereby, the annular body 10 can be correctly assembled at a predetermined position of the assembly 3 without complicating the assembling work of the annular body 10.

図9は、本発明に係る環状樹脂製品の組付け方法に用いられる環状樹脂製品のさらに別の例であって、図1の例の変形例を示す概略的平面図である。この例では、環状樹脂製品の成形工程S1(図3参照)で得られる環状樹脂製品の形状が図1の例と異なっている。即ち、この例における長方形状の環状体10は、図1に示すようなタグ12を有していない。そして、ピン31(図2参照)が圧入される透孔31は、環状体10の適宜の位置に設けられている。この例における補強部材2は、環状体2の内側部に直接連結されている。この例においても、補強部材2の存在により、環状樹脂製品1の成形時における歪変形が抑えられ、また、被組付体への搬送及び組付過程での変形が前記と同様に抑制される。
その他の構成は、図1に示す例と同様であるから、共通部分に図1と同一の符号を付しその説明を省略する。
FIG. 9 is still another example of the cyclic resin product used in the method for assembling the cyclic resin product according to the present invention, and is a schematic plan view showing a modification of the example of FIG. In this example, the shape of the cyclic resin product obtained in the cyclic resin product molding step S1 (see FIG. 3) is different from the example of FIG. That is, the rectangular annular body 10 in this example does not have the tag 12 as shown in FIG. The through hole 31 into which the pin 31 (see FIG. 2) is press-fitted is provided at an appropriate position of the annular body 10. The reinforcing member 2 in this example is directly connected to the inner portion of the annular body 2. Also in this example, due to the presence of the reinforcing member 2, distortion deformation at the time of molding the annular resin product 1 is suppressed, and deformation in the process of transporting to the assembly and assembly is suppressed in the same manner as described above. .
Since the other configuration is the same as the example shown in FIG. 1, the same reference numerals as those in FIG.

図10(a)(b)は、本発明に係る環状樹脂製品の組付け方法に用いられる環状樹脂製品のさらに別の例を示す概略的平面図である。この例では、環状樹脂製品の成形工程S1(図3参照)で得られる環状樹脂製品の形状、補強部材の形状が図1の例とは異なっている。即ち、この例における長方形状の環状体10B,10Cは、図1に示すようなタグ12を有していない。そして、(a)図の例の環状樹脂製品1Bでは、補強部材2Bが平面視して棒状部2Ba,2Bb,2BcからなるH字形状とされ、(b)図の例の環状樹脂製品1Cでは、平面視して棒状部2Ca,2CbからなるX字形状とされ、これら補強部材2B,2Cは、いずれも、環状体10B,10Cの対向する長辺部に破断部20B,20Cを介して連結されている。このような環状樹脂製品1B,1Cは、図4に示す成形装置4におけるキャビティの形状が、(a)図及び(b)図の環状樹脂製品1B,1Cの形状に対応するように設定された成形装置4によって成形される。この場合も、各補強部材2B,2Cの中央部に対応する部位に樹脂注入用スプルー(不図示)が設けられて、環状体10B,10Cと補強部材2B,2Cとがそれぞれ一体に成形される。これらの環状樹脂製品1B,1Cも、補強部材2B,2Cによって環状体10B,10Cが補強されているから、前記同様に脱型時の変形が抑制された状態とされている。そして、前記と同様にロボットハンド5(図5参照)によって補強部材2B,2Cが把持された状態で、対応する被組付体に対して、前記のような圧入、かしめ、熱かしめ、及び熱溶着等によって組付けられ、その後補強部材2B,2Cが分離される。これらの例においても、補強部材2B,2Cの存在により、環状樹脂製品1B,1Cの成形時における歪変形が抑えられ、また、被組付体への搬送、組付過程での変形が、前記と同様に抑制される。   FIGS. 10A and 10B are schematic plan views showing still another example of the cyclic resin product used in the method for assembling the cyclic resin product according to the present invention. In this example, the shape of the cyclic resin product obtained in the molding step S1 of the cyclic resin product (see FIG. 3) and the shape of the reinforcing member are different from the example of FIG. That is, the rectangular annular bodies 10B and 10C in this example do not have the tag 12 as shown in FIG. And in the cyclic resin product 1B of the example of (a) figure, the reinforcement member 2B is made into the H shape which consists of rod-shaped part 2Ba, 2Bb, 2Bc in planar view, (b) In the cyclic resin product 1C of the example of a figure, When viewed from above, the rod-shaped portions 2Ca and 2Cb are formed in an X-shape, and the reinforcing members 2B and 2C are both connected to the opposing long sides of the annular bodies 10B and 10C via the breaking portions 20B and 20C. Has been. Such annular resin products 1B and 1C are set so that the shape of the cavity in the molding apparatus 4 shown in FIG. 4 corresponds to the shape of the annular resin products 1B and 1C shown in FIGS. Molded by the molding device 4. Also in this case, a resin injection sprue (not shown) is provided at a portion corresponding to the central portion of each of the reinforcing members 2B and 2C, and the annular bodies 10B and 10C and the reinforcing members 2B and 2C are integrally formed, respectively. . Since the annular bodies 10B and 10C are also reinforced by the reinforcing members 2B and 2C in the annular resin products 1B and 1C, the deformation at the time of demolding is suppressed as described above. In the same manner as described above, with the reinforcing members 2B and 2C being held by the robot hand 5 (see FIG. 5), the above-described press fitting, caulking, heat caulking, and heat The reinforcing members 2B and 2C are separated after being assembled by welding or the like. Also in these examples, due to the presence of the reinforcing members 2B and 2C, distortion deformation at the time of molding of the cyclic resin products 1B and 1C is suppressed, and the deformation in the process of transporting and assembling to the assembly is performed as described above. Is suppressed as well.

図11は、本発明に係る環状樹脂製品の組付け方法に用いられる環状樹脂製品の変形例を示し、(a)図は同環状樹脂製品の概略的平面図であり、(b)図は同環状樹脂製品を複数積層した状態の(a)図のC−C線矢視部に対応する断面図である。この例において得られる環状樹脂製品1Dは、環状体10Dのいずれかの部位よりも前記環状体10Dの軸方向に突出する突起部21Dが設けられた補強部材2Dを有していることを特徴とする。図例では、この突起部21Dは、前記各ネック部20D…の近傍の4箇所に、補強部材2Dに起立するよう、互いに平行且つ同寸法に形成されている。突起部21Dは、その先端面が平坦に形成されている。突起部21Dは、前記環状樹脂製品の成形工程S1において、環状体10D及び補強部材2Dとともに同時に成形される。そして、前記環状樹脂製品の成形工程S1の後、得られた複数の環状樹脂製品1D…を図11(b)のように、突起部21Dが他の環状樹脂製品1Dの補強部材2Dを支持するように整列させる。このようにして複数の環状樹脂製品1Dを積重ね、この状態で被組付体への組付け工程S2に搬入し、或いは一旦保管した後、環状樹脂製品1D毎に前記と同様に被組付体への組付けが実施される。
この搬入或いは保管過程では、前記突起部21D…がスペーサ的機能を奏するから、環状体10D同士が互いに干渉せず、環状体10Dの傷付が防止されるとともに、環状樹脂製品1Dの変形がより効果的に抑制される。そして、被組付体への組付け工程S2は前記と同様に実施されるが、被組付体への組付け工程S2の後は、補強部材2Dがこの突起部42とともに切断によって分離されて、環状体10Dの被組付体に対する組付けがなされる。
FIG. 11 shows a modified example of the cyclic resin product used in the method for assembling the cyclic resin product according to the present invention. FIG. 11 (a) is a schematic plan view of the cyclic resin product, and FIG. It is sectional drawing corresponding to CC line | wire arrow line part of the (a) figure of the state which laminated | stacked the cyclic resin product in multiple numbers. The cyclic resin product 1D obtained in this example has a reinforcing member 2D provided with a protruding portion 21D protruding in the axial direction of the annular body 10D from any part of the annular body 10D. To do. In the illustrated example, the protrusions 21D are formed in parallel and with the same dimensions so as to stand on the reinforcing member 2D at four locations in the vicinity of the neck portions 20D. The protrusion 21D has a flat tip surface. The protrusion 21D is simultaneously molded together with the annular body 10D and the reinforcing member 2D in the annular resin product molding step S1. Then, after the molding step S1 of the cyclic resin product, the protrusions 21D support the reinforcing members 2D of the other cyclic resin products 1D as shown in FIG. Align like so. In this way, a plurality of cyclic resin products 1D are stacked, and in this state, they are carried into the assembly step S2 to be assembled or temporarily stored, and then each of the cyclic resin products 1D is assembled in the same manner as described above. Assembling is carried out.
In this carrying-in or storage process, the projecting portions 21D. Effectively suppressed. Then, the assembly step S2 to the assembly is performed in the same manner as described above, but after the assembly step S2 to the assembly, the reinforcing member 2D is separated by cutting together with the protrusions 42. The assembly of the annular body 10D to the assembly is performed.

図11では、突起部21Dが他の環状樹脂製品1Dの補強部材2Dを支持するように複数の環状樹脂製品1Dが積み重ねられているが、突起部21Dが環状体10Dよりも下側となるよう積み重ね、環状樹脂製品1Dの脚としての機能を果たすように複数の環状樹脂製品1D…を整列させても良い。
また、図11では、複数の環状樹脂製品1D…を平置き状態で上下に積重ねるようにして整列させているが、環状樹脂製品1D…を縦向きにして横方向に重ねるようにして整列させても良い。このように複数の環状樹脂製品1D…を整列させて保管したり搬送させたりする場合は、例えば、専用のトレーを準備し、これに整列させるようにすると便利である。また、水平に延びる長尺ピンに環状体を掛けて、複数の環状樹脂製品1D…を横方向に整列させても良い。
In FIG. 11, the plurality of annular resin products 1D are stacked such that the protruding portion 21D supports the reinforcing member 2D of the other annular resin product 1D, but the protruding portion 21D is below the annular body 10D. A plurality of cyclic resin products 1D... May be arranged so as to be stacked and function as legs of the cyclic resin product 1D.
In FIG. 11, a plurality of annular resin products 1D are aligned so as to be stacked one above the other in a flat state. However, the annular resin products 1D are aligned so as to be vertically stacked in the horizontal direction. May be. Thus, when a plurality of cyclic resin products 1D... Are aligned and stored or transported, for example, it is convenient to prepare a dedicated tray and align it. Alternatively, a plurality of annular resin products 1D... May be aligned in the lateral direction by hanging an annular body on a horizontally extending long pin.

なお、図示した環状樹脂製品1〜1Dや補強部材2〜2Dは、例示のものに限定されず、最終製品としての樹脂製の環状体10〜10Dの組付対象等の形状に応じて、設計的に適宜設定されるものであることは言うまでもない。例えば、環状体10〜10Dの外周にゴム等の弾性体を形成した環状樹脂製品でも良い。
また、例えば、補強部材の形状としては、方形或いは円形の環状体内に配置され、環状体の内側部と複数の線状部(破断部)を介して連結される板状のものも採用可能である。
環状樹脂製品の補強部材を支持して搬送する代わりに、環状体を支持して搬送しても良い。例えば、補強部材がロボットハンドによって把持し難い形状である場合には、環状体を支持して搬送しても良い。但し、この場合、環状樹脂製品の機能を保つことができるよう、環状体の損傷等を防止するための対策を講じる必要がある。
さらに、図1に示すような箱体30の上面に環状体10を組付けるときの位置関係は特に限定されない。例えば、環状体10の外側面が箱体30の外縁と整合しないように、環状樹脂製品を箱体30に組付けても良い。或いは、環状体10の内側面が箱体30の開口縁30aと整合するように環状樹脂製品1を箱体30に組付けても良い。
In addition, the illustrated cyclic resin products 1 to 1D and the reinforcing members 2 to 2D are not limited to the illustrated ones, and are designed according to the shape of the assembly target of the resin cyclic bodies 10 to 10D as the final product. Needless to say, it is set appropriately. For example, an annular resin product in which an elastic body such as rubber is formed on the outer periphery of the annular body 10 to 10D may be used.
Further, for example, as the shape of the reinforcing member, a plate-like member arranged in a rectangular or circular annular body and connected to the inner part of the annular body via a plurality of linear parts (breaking parts) can also be adopted. is there.
Instead of supporting and transporting the reinforcing member of the annular resin product, the annular body may be supported and transported. For example, when the reinforcing member has a shape that is difficult to grasp by the robot hand, the annular member may be supported and conveyed. However, in this case, it is necessary to take measures for preventing damage to the annular body so that the function of the cyclic resin product can be maintained.
Furthermore, the positional relationship when the annular body 10 is assembled to the upper surface of the box 30 as shown in FIG. 1 is not particularly limited. For example, the annular resin product may be assembled to the box 30 so that the outer surface of the ring 10 does not align with the outer edge of the box 30. Alternatively, the annular resin product 1 may be assembled to the box body 30 so that the inner surface of the ring body 10 is aligned with the opening edge 30 a of the box body 30.

また、環状樹脂製品の被組付体に対する組付方法として、圧入、かしめ、熱かしめ、溶着を例示したが、これら以外の、例えば、外嵌、ビス止め、螺合、接着等であっても良く、さらには、これらを適宜併用することも可能である。本発明の環状樹脂製品の組付け方法は、各種産業分野に適用されるもので、例えば、自動車用エンジンのヘッドカバーを被組付体とし、環状体としての樹脂製のヘッドカバーガスケットをヘッドカバーに組付ける場合や、オイルパンを被組付体として、オイルパンに環状体としての樹脂製のオイルパンガスケットを組付ける場合に好ましく採用される。或いは、各種配管を被組付体として、その配管に環状体としての樹脂製の接手部材を組付ける場合等に好ましく採用される。また、集積回路等の電子機器を収容する箱体を被組付体として、その箱体に環状体としての樹脂製のガスケットを組付ける場合にも採用される。   In addition, as examples of the method of assembling the cyclic resin product to the assembly, press-fitting, caulking, heat caulking, and welding are exemplified, but other than these, for example, external fitting, screwing, screwing, adhesion, etc. In addition, these can be used in combination as appropriate. The method for assembling the annular resin product of the present invention is applied to various industrial fields. For example, a head cover of an automobile engine is used as an assembly, and a resin head cover gasket as an annular body is assembled into the head cover. In this case, the oil pan is preferably used when the oil pan is assembled and a resin oil pan gasket as an annular body is assembled to the oil pan. Alternatively, it is preferably employed when various piping is used as an assembly and a resin joint member as an annular body is assembled to the piping. Further, the present invention is also used when a box that houses an electronic device such as an integrated circuit is used as an assembly and a resin gasket as an annular body is assembled to the box.

1〜1D 環状樹脂製品
10〜10D 環状体
13 透孔
2〜2D 補強部材
21D 突起部
3,3A 被組付体
31 ピン
31A 環状凹所(凹所)
1-1D cyclic resin product 10-10D annular body 13 through-hole 2-2D reinforcing member 21D protrusion 3,3A assembly 31 pin 31A annular recess (recess)

Claims (7)

樹脂製の環状体を被組付体に組付ける環状樹脂製品の組付け方法において、
前記環状体及び前記環状体から分離可能な補強部材を一体成形し、
その後、前記環状体を前記被組付体に組付けた上で、前記補強部材を前記環状体から分離することを特徴とする環状樹脂製品の組付け方法。
In the assembly method of the cyclic resin product in which the resin annular body is assembled to the assembly,
The annular member and the reinforcing member separable from the annular member are integrally formed,
Then, after assembling the annular body to the assembly, the reinforcing member is separated from the annular body.
請求項1に記載の環状樹脂製品の組付け方法において、
前記補強部材を支持して前記環状体を被組付体に配置し、かしめ加工を施すことによって、前記環状体を前記組付部品に組付けることを特徴とする環状樹脂製品の組付け方法。
In the assembly method of the cyclic resin product according to claim 1,
A method for assembling an annular resin product, comprising: mounting the annular body on the assembly component by supporting the reinforcing member, placing the annular body on an assembly, and performing caulking.
請求項2に記載の環状樹脂製品の組付け方法において、
前記環状体には、前記被組付体に設けられた複数のピンを圧入し得る複数の透孔が設けられ、前記補強部材を支持して前記被組付体に配置し、前記透孔に前記ピンを圧入させ、且つ、前記ピンを熱かしめすることによって、前記環状体を前記被組付体に組付けることを特徴とする環状樹脂製品の組付け方法。
In the assembly method of the cyclic resin product according to claim 2,
The annular body is provided with a plurality of through holes into which a plurality of pins provided in the assembled body can be press-fitted. The annular body supports the reinforcing member and is disposed in the assembled body. A method for assembling an annular resin product, wherein the pin is press-fitted and the pin is heat caulked to assemble the annular member to the assembly.
請求項1に記載の環状樹脂製品の組付け方法において、
前記補強部材を支持して前記環状体を前記被組付体に配置し、溶着加工を施すことによって、前記環状体を前記組付部品に組付けることを特徴とする環状樹脂製品の組付け方法。
In the assembly method of the cyclic resin product according to claim 1,
An assembly method for an annular resin product, wherein the annular body is assembled to the assembly component by supporting the reinforcing member, arranging the annular body on the assembly, and performing a welding process. .
請求項1に記載の環状樹脂製品の組付け方法において、
前記補強部材を支持して前記環状体を前記被組付体に形成された凹所に配置し、該凹所に圧入することによって、前記環状体を前記組付部品に組付けることを特徴とする環状樹脂製品の組付け方法。
In the assembly method of the cyclic resin product according to claim 1,
The annular member is disposed in a recess formed in the assembly to be supported and supports the reinforcing member, and the annular body is assembled to the assembly component by press-fitting into the recess. To assemble cyclic resin products.
請求項1〜5のいずれか一項に記載の環状樹脂製品の組付け方法において、
前記補強部材には、前記環状体の軸方向端面より前記環状体の軸方向に突出する突起部が形成され、
前記環状体及び前記補強部材の一体成形の後、前記突起部を他の環状体の補強部材に当接するようにして複数の前記環状体を整列し、その後前記環状体の前記被組付体に対する組付けを実施することを特徴とする環状樹脂製品の組付け方法。
In the assembly method of the cyclic resin product according to any one of claims 1 to 5,
The reinforcing member is formed with a protrusion protruding in the axial direction of the annular body from the axial end surface of the annular body,
After the annular body and the reinforcing member are integrally molded, the plurality of annular bodies are aligned so that the protrusions abut against the reinforcing members of the other annular bodies, and then the annular body is attached to the assembled body. A method for assembling a cyclic resin product, wherein the assembling is performed.
被組付体に組付けられる樹脂製の環状体を備えた環状樹脂製品において、
前記環状体には分離可能な補強部材が一体に形成され、前記補強部材は、前記環状体が前記被組付体に組付けられた状態で、前記環状体から分離されるものであることを特徴とする環状樹脂製品。
In the annular resin product provided with the resin-made annular body to be assembled to the assembly,
A separable reinforcing member is integrally formed on the annular body, and the reinforcing member is separated from the annular body in a state where the annular body is assembled to the assembled body. A characteristic cyclic resin product.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016207406A (en) * 2015-04-21 2016-12-08 住友理工株式会社 Sealing member for fuel cell and arrangement method thereof

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH05240355A (en) * 1992-02-28 1993-09-17 Nippon Gasket Kk Manufacture of metal gasket
JPH06201048A (en) * 1993-01-04 1994-07-19 Three Bond Co Ltd Sealing member for assembling and assembling method thereof
JPH08121247A (en) * 1994-10-27 1996-05-14 Tsuchiya Mfg Co Ltd Seal device of ignition plug inserting part in cylinder head cover
JP2000186770A (en) * 1998-12-22 2000-07-04 Nok Corp Gasket
JP2007170438A (en) * 2005-12-19 2007-07-05 Nippon Gasket Co Ltd Metal gasket

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH05240355A (en) * 1992-02-28 1993-09-17 Nippon Gasket Kk Manufacture of metal gasket
JPH06201048A (en) * 1993-01-04 1994-07-19 Three Bond Co Ltd Sealing member for assembling and assembling method thereof
JPH08121247A (en) * 1994-10-27 1996-05-14 Tsuchiya Mfg Co Ltd Seal device of ignition plug inserting part in cylinder head cover
JP2000186770A (en) * 1998-12-22 2000-07-04 Nok Corp Gasket
JP2007170438A (en) * 2005-12-19 2007-07-05 Nippon Gasket Co Ltd Metal gasket

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016207406A (en) * 2015-04-21 2016-12-08 住友理工株式会社 Sealing member for fuel cell and arrangement method thereof

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