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JP6111189B2 - Caster production method - Google Patents
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JP6111189B2 - Caster production method - Google Patents

Caster production method Download PDF

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JP6111189B2
JP6111189B2 JP2013265945A JP2013265945A JP6111189B2 JP 6111189 B2 JP6111189 B2 JP 6111189B2 JP 2013265945 A JP2013265945 A JP 2013265945A JP 2013265945 A JP2013265945 A JP 2013265945A JP 6111189 B2 JP6111189 B2 JP 6111189B2
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bearing
bearing case
wheel frame
top plate
case
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JP2014111443A (en
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輝美 堂園
輝美 堂園
真二 関川
真二 関川
政広 川瀬
政広 川瀬
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ゴールドキャスター株式会社
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Description

本発明は、機器類や運搬車などに取り付けられるキャスターの製造方法に関するものである。   The present invention relates to a method for manufacturing a caster attached to equipment or a transport vehicle.

従来、この種のキャスターは、例えば、機器類や運搬車などの底部に固着される台座の下側に、軸受を介して、車輪用フレームの天板を回動自在に取り付けたものとしており、軸受ケース内に軸受を収容し、車輪用フレームの天板に軸受ケースを固着している(特許文献1)。   Conventionally, this type of caster is such that, for example, a top plate of a wheel frame is rotatably attached via a bearing to a lower side of a base fixed to the bottom of equipment or a transport vehicle, The bearing is accommodated in the bearing case, and the bearing case is fixed to the top plate of the wheel frame (Patent Document 1).

特開平11−245607号公報JP-A-11-245607

しかし、従来のキャスターの製造方法では、車輪用フレームと軸受ケースを別体に備えており、車輪用フレームへの軸受ケースの取り付けの手間や部品点数の増加となってしまう、という問題点があった。   However, the conventional caster manufacturing method has a problem that the wheel frame and the bearing case are provided separately, which increases the time and effort required for mounting the bearing case to the wheel frame. It was.

本発明は、上記の問題点に鑑みてなされたもので、軸受ケースに軸受を収容する際の装着安定性などの製造性を向上でき、しかも軸受の取り付け精度も向上できるキャスターの製造方法を提供することを目的とする。   The present invention has been made in view of the above-described problems, and provides a caster manufacturing method that can improve manufacturability such as mounting stability when housing a bearing in a bearing case and can also improve bearing mounting accuracy. The purpose is to do.

請求項1の発明は、車輪を保持する車輪用フレームの天板に貫通部を形成し、前記天板を下方へ押出し加工し、前記貫通部をストレート状の周壁を有する円筒部に形成した後、前記車輪用フレームの天板を下方に向けた逆さ向きの状態で、前記周壁における前記逆さ向きにする前の元の向きでの下部を拡径するとともに、前記周壁における前記元の向きでの上部に段差部を形成して、前記車輪用フレームと一体とした軸受ケースを形成し、前記車輪用フレームを、前記軸受ケースを一体に設けた前記天板付近に重心位置を有する形状とし、前記軸受ケースに軸受を前記元の向きにおける下方より上向きに収容し、前記周壁の前記段差部で前記軸受における前記元の向きでの上部を保持するとともに、前記軸受ケースにおける前記元の向きでの下端周囲を内側へ曲げる絞り加工を行い、前記軸受における前記元の向きでの下部を保持し、前記円筒部の前記周壁の拡径による前記軸受ケースの成形、前記軸受の前記軸受ケースへの収容、並びに、前記軸受ケースの下端周囲の絞り加工の各行程を、前記車輪用フレームの天板を下方に向けた逆さ向きの状態で作業を行い、前記軸受を前記軸受ケースのみで固定することを特徴とする。 In the first aspect of the present invention, a through portion is formed in a top plate of a wheel frame for holding a wheel, the top plate is extruded downward, and the through portion is formed into a cylindrical portion having a straight peripheral wall. The diameter of the lower part of the peripheral wall in the original direction before the reverse direction is increased in the state of the inverted direction with the top plate of the wheel frame facing downward, and the original direction of the peripheral wall in the original direction A stepped portion is formed at the top to form a bearing case integrated with the wheel frame, and the wheel frame has a shape having a center of gravity near the top plate integrally provided with the bearing case, In the bearing case, the bearing is accommodated upward from below in the original direction, and the upper portion in the original direction in the bearing is held by the step portion of the peripheral wall, and the original direction in the bearing case is maintained. Performs drawing to bend around the edge to the inside, to hold the bottom in the original orientation in the bearing, the molding of the bearing case according to diameter of the peripheral wall of the cylindrical portion, accommodating to the bearing case of the bearing In addition, each process of drawing processing around the lower end of the bearing case is performed in an upside-down state with the top plate of the wheel frame facing downward, and the bearing is fixed only by the bearing case. Features.

請求項1の発明によれば、車輪を保持する車輪用フレームと軸受を収容する軸受ケースが一体に設けられたことにより、車輪用フレームへの軸受ケースの取り付けの手間を省くとともに部品点数の増加を抑制し、軸受ケースに軸受を収容する際の装着安定性などの製造性を向上でき、しかも軸受の取り付け精度も向上できるキャスターの製造方法を提供することができる。また、軸受ケースの下端周囲は、絞り加工が行い易いストレート状の周壁となっており、絞り加工後の寸法精度に優れたキャスターの製造方法を提供することができる。さらに、軸受の上部の安定した保持が可能となる。   According to the first aspect of the present invention, since the wheel frame for holding the wheel and the bearing case for housing the bearing are integrally provided, the trouble of mounting the bearing case to the wheel frame is saved and the number of parts is increased. Thus, it is possible to provide a caster manufacturing method that can improve the manufacturability such as mounting stability when the bearing is accommodated in the bearing case, and can improve the mounting accuracy of the bearing. Further, the periphery of the lower end of the bearing case is a straight peripheral wall that is easy to be drawn, and a caster manufacturing method having excellent dimensional accuracy after drawing can be provided. Furthermore, the stable holding | maintenance of the upper part of a bearing is attained.

本発明の製造方法により製造したキャスターの断面図である。It is sectional drawing of the caster manufactured by the manufacturing method of this invention. 同上、車輪用フレームの天板に円筒部を形成する前の状態を示す断面図である。It is sectional drawing which shows a state before forming a cylindrical part on the top plate of a wheel frame same as the above. 同上、車輪用フレームの天板に円筒部を形成した状態を示す断面図である。It is sectional drawing which shows the state which formed the cylindrical part in the top plate of the frame for wheels same as the above. 同上、円筒部の下部を拡径して、軸受ケースを形成した状態を示す断面図である。It is sectional drawing which shows the state which expanded the diameter of the lower part of the cylindrical part same as the above, and formed the bearing case. 同上、軸受ケースに軸受を固着する前の状態を示す断面図である。It is a sectional view showing the state before adhering a bearing to a bearing case same as the above. 同上、軸受ケースに軸受を固着した状態を示す断面図である。It is sectional drawing which shows the state which fixed the bearing to the bearing case same as the above. 同上、軸受ケースに軸受を固着する前の状態を示す斜視図である。It is a perspective view which shows a state before adhering a bearing to a bearing case same as the above.

本発明における好適な実施の形態について添付図面を参照して説明する。尚、以下に説明する実施の形態は、特許請求の範囲に記載された本発明の内容を限定するものではない。また、以下に説明される構成の全てが、本発明の必須条件であるとは限らない。   Preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments described below do not limit the contents of the present invention described in the claims. In addition, all the configurations described below are not necessarily essential conditions of the present invention.

図1乃至図7は、本発明のキャスターの一実施形態について示している。本実施例のキャスターは、搬送用機器類や各種運搬車などの底部に固着される台座1の下側に、深溝玉軸受等の軸受2を介して、車輪用フレーム3の天板4を回動自在に取り付けたものとしている。   1 to 7 show an embodiment of the caster of the present invention. The caster of the present embodiment rotates the top plate 4 of the wheel frame 3 via the bearing 2 such as a deep groove ball bearing on the lower side of the pedestal 1 fixed to the bottom of the transportation equipment or various transport vehicles. It is assumed to be mounted freely.

図に示す本実施例のキャスターの製造方法は、台座1および軸受2の内輪5を止め軸6に固着し、車輪用フレーム3の天板4に形成した軸受ケース7に軸受2の外輪8を固着することにより、台座1の下側に、軸受2を介して、車輪用フレーム3の天板4を回動自在に取り付ける。   The caster manufacturing method of the present embodiment shown in the figure is such that the base 1 and the inner ring 5 of the bearing 2 are fixed to the stop shaft 6, and the outer ring 8 of the bearing 2 is attached to the bearing case 7 formed on the top plate 4 of the wheel frame 3. By fixing, the top plate 4 of the wheel frame 3 is rotatably attached to the lower side of the base 1 via the bearing 2.

以下、添付図面を基に本実施例のキャスターの製造方法について説明する。先ず、図2に示すように、車輪用フレーム3の天板4の中央に貫通部9を形成する。この貫通部9はXを中心とした平面が円形であり、また、天板4の上面4aもXを中心とした平面円形であって、この上面4aの直径をSとしたとき、貫通部9の直径Tは、S×0.25≦T≦S×0.26のような関係を有している。   Hereinafter, the caster manufacturing method of the present embodiment will be described with reference to the accompanying drawings. First, as shown in FIG. 2, a through portion 9 is formed in the center of the top plate 4 of the wheel frame 3. The through-hole 9 has a circular plane centered on X, and the top surface 4a of the top plate 4 is also a circular plane centered on X. When the diameter of the upper surface 4a is S, the through-hole 9 Have a relationship of S × 0.25 ≦ T ≦ S × 0.26.

次に図3に示すように、この天板を、貫通部9の上下向きの中心軸方向(図中、X方向)に天板4の上方から下方へと押出し加工することにより、天板4の貫通部9を拡径するとともに、略ストレート状の周壁10を有する円筒部11を形成する。ここで、円筒部11の周壁10は、天板4に隣接する上端12から下端13にかけて円筒部11の中心軸方向(図中、X方向)と平行なストレート状に形成されたものである。また、円筒部11の内径L1は、軸受2の外輪8の外径M1より小さく、且つ、外輪8の内径M2より大きく形成されている(M2<L1<M1)。   Next, as shown in FIG. 3, the top plate 4 is extruded from the top to the bottom of the top plate 4 in the center axis direction (X direction in the drawing) of the penetrating portion 9 in the vertical direction. The through-hole 9 is enlarged in diameter, and a cylindrical portion 11 having a substantially straight peripheral wall 10 is formed. Here, the peripheral wall 10 of the cylindrical portion 11 is formed in a straight shape parallel to the central axis direction (X direction in the drawing) of the cylindrical portion 11 from the upper end 12 to the lower end 13 adjacent to the top plate 4. Further, the inner diameter L1 of the cylindrical portion 11 is smaller than the outer diameter M1 of the outer ring 8 of the bearing 2 and larger than the inner diameter M2 of the outer ring 8 (M2 <L1 <M1).

続いて、図4に示すように円筒部11の上端12よりやや下側の中段部分から下端13にかけての下部を押出し加工することにより、円筒部11の周壁10の上端12よりやや下側の中段部分から下端13にかけての下部を拡径して(L1<L2)、貫通部9の中心軸方向(図中、X方向)に下方から上方へと凹ませた有底円筒状の軸受ケース7が形成される。   Subsequently, as shown in FIG. 4, the lower middle part from the middle part of the cylindrical part 11 slightly below the upper end 12 to the lower end 13 is extruded so that the middle part slightly below the upper end 12 of the peripheral wall 10 of the cylindrical part 11. A bottomed cylindrical bearing case 7 is formed by enlarging the lower part from the part to the lower end 13 (L1 <L2) and denting from below to above in the central axis direction (X direction in the figure) of the penetrating part 9. It is formed.

ここで、円筒部11の上端12よりやや下側の中段部分から下端13にかけての下部の周壁10の内径L2は、軸受2の外輪8の外径M1より僅かに大きく形成されており(L2>M1)、円筒部11の上端12よりやや下側の中段部分から下端13にかけての下部には、貫通部9の中心軸方向(図中、X方向)に下方から上方へと凹ませた有底円筒状の軸受ケース7における軸受2を収容する収容空間14及び収容口15が形成されている。   Here, the inner diameter L2 of the lower peripheral wall 10 from the middle part of the cylindrical portion 11 slightly below the upper end 12 to the lower end 13 is formed to be slightly larger than the outer diameter M1 of the outer ring 8 of the bearing 2 (L2>). M1) A bottomed portion that is recessed from the lower part to the upper part in the central axis direction (X direction in the figure) of the penetrating part 9 at the lower part from the middle part to the lower end 13 slightly below the upper end 12 of the cylindrical part 11 An accommodation space 14 and an accommodation port 15 for accommodating the bearing 2 in the cylindrical bearing case 7 are formed.

さらに、円筒部11の上部には、内径L1に形成された上端12と内径L2に形成された中段部分との境に軸受2の外輪8の上部を保持可能な段差部16が形成されている。そして、この段差部16が貫通部9の中心軸方向(図中、X方向)に下方から上方へと凹ませた有底円筒状の軸受ケース7における底部分を構成している。   Further, on the upper part of the cylindrical part 11, a step part 16 capable of holding the upper part of the outer ring 8 of the bearing 2 is formed at the boundary between the upper end 12 formed on the inner diameter L1 and the middle part formed on the inner diameter L2. . And this level | step-difference part 16 comprises the bottom part in the bottomed cylindrical bearing case 7 dented from the downward direction to the upper direction in the center axis direction (X direction in the figure) of the penetration part 9. FIG.

次に、図5に示すように、貫通部9の中心軸方向(図中、X方向)に下方から上方へと軸受ケース7の収容口15から軸受2を収容する。   Next, as shown in FIG. 5, the bearing 2 is accommodated from the accommodation port 15 of the bearing case 7 from below to above in the central axis direction (X direction in the drawing) of the through portion 9.

最後に、図6に示すように、軸受ケース7の上部の段差部16で軸受2の外輪8の上部を保持し、さらに軸受ケース7の収容口15である円筒部11の下端13周囲を絞り加工をして、軸受2の外輪8の下部を保持することにより、軸受ケース5に軸受2を固着する。   Finally, as shown in FIG. 6, the upper portion of the outer ring 8 of the bearing 2 is held by the stepped portion 16 at the upper portion of the bearing case 7, and the periphery of the lower end 13 of the cylindrical portion 11 that is the receiving port 15 of the bearing case 7 is further squeezed. The bearing 2 is fixed to the bearing case 5 by processing and holding the lower part of the outer ring 8 of the bearing 2.

ここで、軸受ケース7の下端13周囲の内径L4は、軸受2の外輪8の外径M1より小さく、且つ、外輪8の内径M2より大きい範囲内で縮径されるものとする(M2<L4<M1)。   Here, the inner diameter L4 around the lower end 13 of the bearing case 7 is reduced within a range smaller than the outer diameter M1 of the outer ring 8 of the bearing 2 and larger than the inner diameter M2 of the outer ring 8 (M2 <L4). <M1).

そして、図1に示したように、この軸受2の内輪5の上側に台座1を位置させると共に、内輪5の上側、下側、或いは、その両側に座金(図示せず)を配置させ、これらに止め軸6を貫通し、この止め軸6の上部又は下部をかしめることにより、台座1および軸受2の内輪5を止め軸6に固着し、車輪用フレーム3の天板4が軸受2の外輪8と共に回動するようにしている。そのため、この車輪用フレーム3の天板4の回動により、車輪用フレーム3の側板17に軸支されている車輪18が旋回自在となる。   As shown in FIG. 1, the pedestal 1 is positioned above the inner ring 5 of the bearing 2, and washers (not shown) are arranged on the upper side, the lower side, or both sides of the inner ring 5, The base shaft 1 and the inner ring 5 of the bearing 2 are fixed to the stop shaft 6 by passing through the stop shaft 6 and the upper or lower portion of the stop shaft 6 is caulked. It rotates with the outer ring 8. Therefore, the wheel 18 pivotally supported on the side plate 17 of the wheel frame 3 can turn by the rotation of the top plate 4 of the wheel frame 3.

この場合、軸受2は、内輪5及び外輪8の何れの肩も落としていない溝を有しているので、転動体としての球状体19は、これら内輪5及び外輪8間に隙間が生ずることなく安定した状態で保持されることになる。さらに、軸受2が収容されている軸受ケース7は、車輪用フレーム3の天板4を押出し加工することにより形成され、車輪用フレーム3と一体としているので、この軸受ケース7ががたつくようなことはない。したがって、外輪8と共に回動する車輪用フレーム3の天板4もがたつくことはなく、回動しにくくなるようなことがなく、車輪用フレーム3の側板17に軸支されている車輪18もスムーズに旋回するものとなる。   In this case, since the bearing 2 has a groove in which neither shoulder of the inner ring 5 or the outer ring 8 is dropped, the spherical body 19 as the rolling element has no gap between the inner ring 5 and the outer ring 8. It will be held in a stable state. Further, the bearing case 7 in which the bearing 2 is accommodated is formed by extruding the top plate 4 of the wheel frame 3 and is integrated with the wheel frame 3, so that the bearing case 7 is not stable. There is no. Therefore, the top plate 4 of the wheel frame 3 that rotates together with the outer ring 8 does not rattle and does not become difficult to rotate, and the wheel 18 that is pivotally supported by the side plate 17 of the wheel frame 3 is also smooth. It will turn to.

なお、台座1には、軸受2との間に天板4の配置空間を設けるために、台座1と軸受2との間に台座1とは別体の環状体20を介在させたものとしてよく、また、台座1に下向きのフランジ部を設けたものとして、天板4の配置空間を設けたものとしてもよい。   The pedestal 1 may be provided with an annular body 20 separate from the pedestal 1 between the pedestal 1 and the bearing 2 in order to provide an arrangement space for the top plate 4 between the pedestal 1 and the bearing 2. Moreover, it is good also as what provided the arrangement | positioning space of the top plate 4 as what provided the downward flange part in the base 1. FIG.

また、車輪用フレーム3の形状は、軸受ケース7を一体に設けた天板4付近に重心位置を有しているため、天板4を下方に向け、左右の側板17を上方に向けた逆さ向きの状態で載置する場合に、重心位置が低くく、安定性の良い、いわゆる、座りがいい形状となっている。   Further, the shape of the wheel frame 3 is inverted so that the top plate 4 faces downward and the left and right side plates 17 face upward because the center of gravity is located near the top plate 4 integrally provided with the bearing case 7. When placed in a state of orientation, the center of gravity is low and the stability is good, that is, the so-called sitting shape is good.

そのため、図4〜図6に示す、円筒部11の周壁10の拡径による軸受ケース7の成形、軸受2の軸受ケース7への収容、並びに、軸受ケース7の下端13周囲の絞り加工の各行程は、車輪用フレーム3の天板4を下方に向け、左右の側板17を上方に向けた逆さ向きの状態で作業を行うことが製造ラインの自動化等において好ましい(図7参照)。   Therefore, each of the molding of the bearing case 7 by expanding the peripheral wall 10 of the cylindrical portion 11, the housing of the bearing 2 in the bearing case 7, and the drawing processing around the lower end 13 of the bearing case 7 shown in FIGS. In the process, it is preferable in the automation of the production line and the like that the work is performed in an inverted direction with the top plate 4 of the wheel frame 3 facing downward and the left and right side plates 17 facing upward (see FIG. 7).

この場合、円筒部11の中心軸方向(図中、X方向)に下方から上方へと行われる絞り加工のプレス手段等の動作方向が重力方向と略等しくなることで、プレス手段等の押圧力の損失を少なくして絞り加工を効果的に行い易くするだけでなく、収容口15や左右の側板17が上向きとなっていることにより、軸受2の収容やその後の左右の側板17への車輪18の取り付けも行い易くなり、一連の製造工程が滞りなくスムーズに行われるため、作業効率の向上を図ることができる。   In this case, the operation direction of the press means for drawing, etc., which is performed from the bottom to the top in the central axis direction (X direction in the figure) of the cylindrical portion 11 is substantially equal to the direction of gravity, so that the pressing force of the press means, etc. In addition to facilitating the drawing process effectively by reducing the loss of the bearing, the housing 15 and the left and right side plates 17 face upward so that the bearing 2 can be accommodated and the wheels to the left and right side plates 17 thereafter. 18 can be easily attached, and a series of manufacturing processes are smoothly performed without any delay, so that work efficiency can be improved.

さらに、軸受ケース7は、貫通部9の中心軸方向(図中、X方向)に対して、天板4の上面4aの平面方向(図中、Y方向)より下方、且つ、左右の側板17の間に形成されているものとする。   Furthermore, the bearing case 7 is below the plane direction (Y direction in the drawing) of the top surface 4a of the top plate 4 with respect to the central axis direction (X direction in the drawing) of the penetrating portion 9 and the left and right side plates 17. It shall be formed between.

この場合、軸受ケース7が車輪用フレーム3の天板4の上面4aから貫通部9の中心軸方向(図中、X方向)に上方向へと突出せず、且つ、左右の側板17間に配置される構成とすることで、車輪用フレーム3と軸受ケース7を一体に設けたキャスターの構成をコンパクトなものとすることができる。   In this case, the bearing case 7 does not protrude upward from the upper surface 4 a of the top plate 4 of the wheel frame 3 in the central axis direction (X direction in the drawing) of the through portion 9, and between the left and right side plates 17. By setting it as the structure arrange | positioned, the structure of the caster which integrally provided the flame | frame 3 for wheels and the bearing case 7 can be made compact.

さらに、図4において、軸受ケース7の収容口15の周縁である円筒部11の周壁10の下端13を内側にわずかに傾斜させた絞り部21を形成することにより、軸受ケース7の収容口15の内径L3を軸受2が収容口15を通過可能な寸法範囲内(M1<L3<L2)に縮径させて、予め軸受ケース7の収容口15をわずかに絞っておいてもよいものとする。   Further, in FIG. 4, by forming a throttle portion 21 in which the lower end 13 of the peripheral wall 10 of the cylindrical portion 11, which is the periphery of the housing port 15 of the bearing case 7, is slightly inclined inward, the housing port 15 of the bearing case 7 is formed. The inner diameter L3 of the bearing case 7 may be reduced within a size range (M1 <L3 <L2) in which the bearing 2 can pass through the accommodation port 15, and the accommodation port 15 of the bearing case 7 may be slightly narrowed in advance. .

この場合、絞り加工の行程の前に予め軸受ケース7の収容口15をわずかに縮径させて絞り部21を形成しておくと、絞り加工時の軸受ケース7の収容口15の縮径が容易に行われるため、絞り加工時の寸法精度が向上する。   In this case, if the drawing portion 21 is formed by slightly reducing the diameter of the accommodation port 15 of the bearing case 7 in advance before the drawing process, the diameter of the accommodation port 15 of the bearing case 7 during drawing is reduced. Since it is easily performed, the dimensional accuracy during drawing is improved.

また、図7に示すように、左右の側板17における天板4との付け根部分に、軸受ケース7の下部と所定の間隔を有して平行な円弧面22が形成されており、軸受ケース7の収容口15である円筒部11の周壁10の下端13周囲の絞り加工時に軸受ケース7の中心軸方向(図中、X方向)に移動するプレス手段(図示せず)が、左右の側板17に接触しない形状となっており、絞り加工時のプレス手段(図示せず)の動きが左右の側板17によって妨げられない構造となっている。   In addition, as shown in FIG. 7, a circular arc surface 22 is formed at a base portion of the left and right side plates 17 with the top plate 4 so as to be parallel to the lower portion of the bearing case 7 with a predetermined distance. The pressing means (not shown) that moves in the central axis direction (X direction in the figure) of the bearing case 7 at the time of drawing around the lower end 13 of the peripheral wall 10 of the cylindrical portion 11 that is the receiving port 15 of the cylindrical portion 11 are left and right side plates 17. The structure is such that the movement of the pressing means (not shown) during drawing is not hindered by the left and right side plates 17.

また、図6に示すように、絞り加工時にプレス手段(図示せず)により押圧される軸受ケース7のプレス面が、軸受ケース7の収容口15である筒状の円筒部11の周壁10の下端13という、プレス方向である軸受2の軸方向(図中、X方向)と直交する方向(図中、Y方向)の断面積が天板4と隣接する円筒部11の上端12の部分と比べて小さく、プレス手段(図示せず)の当て易い簡単な形状となっているため、一回のプレスで高い寸法精度の絞り加工が可能となり、作業効率の向上を図るとともに高い寸法精度により縮径された収容口15による軸受2の下部の安定した保持が可能となる。   In addition, as shown in FIG. 6, the press surface of the bearing case 7 pressed by a pressing means (not shown) at the time of drawing is the peripheral wall 10 of the cylindrical cylindrical portion 11 that is the accommodation port 15 of the bearing case 7. The lower end 13 has a cross-sectional area in the direction (Y direction in the figure) orthogonal to the axial direction (X direction in the figure) of the bearing 2 which is the pressing direction, and the upper end 12 part of the cylindrical part 11 adjacent to the top plate 4 Compared with a simple shape that is small and easy to apply pressing means (not shown), drawing with high dimensional accuracy is possible with a single press, improving work efficiency and reducing the size with high dimensional accuracy. It is possible to stably hold the lower portion of the bearing 2 by the diameter containing opening 15.

また、軸受ケース7の底部を構成する段差部16を、軸受ケース7に軸受2を収容する前の行程において、押出し加工により予め形成しておくことにより、段差部16を高い寸法精度で形成し、軸受2の上部の安定した保持が可能となる。   In addition, the step 16 is formed with high dimensional accuracy by forming the step 16 constituting the bottom of the bearing case 7 in advance by the extrusion process before the bearing 2 is accommodated in the bearing case 7. The upper part of the bearing 2 can be stably held.

このように本願のキャスターの製造方法では、軸受ケース7に軸受2を収容する前に段差部16を予め形成しておき、さらに絞り加工時のプレス面の形状を薄く簡単な形状である円筒部11の下端13とすることで軸受2が収容された軸受ケース7の収容口15の絞り加工を高い寸法精度で行うことにより、軸受ケース7に軸受2ががたつくことなく安定した状態で収容・保持される。   As described above, in the caster manufacturing method of the present application, the stepped portion 16 is formed in advance before the bearing 2 is accommodated in the bearing case 7, and the shape of the press surface during drawing is thin and simple. The lower end 13 of 11 allows the housing port 15 of the bearing case 7 in which the bearing 2 is accommodated to be drawn with high dimensional accuracy so that the bearing 2 can be housed and held in a stable state without rattling. Is done.

尚、図1及び図6に示すように完成したキャスターでは、貫通部9の中心軸方向、円筒部11の中心軸方向、軸受ケース7の中心軸方向、並びに、軸受2の軸方向は、同軸方向(図中、X方向)に配置されるものとする。   In the caster completed as shown in FIGS. 1 and 6, the central axis direction of the through portion 9, the central axis direction of the cylindrical portion 11, the central axis direction of the bearing case 7, and the axial direction of the bearing 2 are coaxial. It shall be arranged in the direction (X direction in the figure).

以上のように、本実施例のキャスターの製造方法は、車輪18を保持する車輪用フレーム3の天板4に貫通部9を形成し、天板4を下方へ押し出し加工し、貫通部9をストレート状の周壁10を有する円筒部11に形成した後、周壁10の下部を拡径して車輪用フレーム3と一体とした軸受ケース7を形成し、軸受ケース7に軸受2を収容し、周壁10の上部である段差部16で軸受2の上部を保持するとともに、軸受ケース7の下端13周囲を内側へ曲げる絞り加工を行い、軸受2の下部を保持し、軸受2を軸受ケース7に固定する。   As described above, the caster manufacturing method of this embodiment forms the through-hole 9 in the top plate 4 of the wheel frame 3 that holds the wheels 18, pushes the top plate 4 downward, and forms the through-hole 9. After the cylindrical portion 11 having the straight peripheral wall 10 is formed, the lower portion of the peripheral wall 10 is expanded to form a bearing case 7 integrated with the wheel frame 3, and the bearing 2 is accommodated in the bearing case 7. The upper part of the bearing 2 is held by the step part 16 which is the upper part of 10, and the drawing process is performed by bending the periphery of the lower end 13 of the bearing case 7 inward to hold the lower part of the bearing 2, and the bearing 2 is fixed to the bearing case 7. To do.

この場合、車輪18を保持する車輪用フレーム3と軸受2を収容する軸受ケース7が一体に設けられたことにより、車輪用フレーム3への軸受ケース7の取り付けの手間を省くとともに部品点数の増加を抑制し、軸受ケース7に軸受2を収容する際の装着安定性などの製造性を向上でき、しかも軸受2の取り付け精度も向上できるキャスターの製造方法を提供することができる。また、軸受ケース7の下端13周囲は、絞り加工が行い易い略ストレート状の周壁10となっており、絞り加工後の寸法精度に優れたキャスターの製造方法を提供することができる。   In this case, since the wheel frame 3 for holding the wheel 18 and the bearing case 7 for housing the bearing 2 are integrally provided, the trouble of mounting the bearing case 7 to the wheel frame 3 is saved and the number of parts is increased. Thus, it is possible to provide a caster manufacturing method that can improve the manufacturability such as the mounting stability when the bearing 2 is accommodated in the bearing case 7 and can improve the mounting accuracy of the bearing 2. Further, the periphery of the lower end 13 of the bearing case 7 is a substantially straight peripheral wall 10 which is easy to be drawn, and a caster manufacturing method having excellent dimensional accuracy after drawing can be provided.

また、軸受ケース7を形成する行程において、軸受ケース7の下端13周囲である収容口15を軸受2が通過可能な寸法範囲内(M1<L3<L2)まで縮径させて絞り部21を形成することにより、絞り加工の行程の前に予め軸受ケース7の収容口15をわずかに縮径させて絞り部21を形成しておくと、絞り加工時の軸受ケース7の収容口15の縮径が容易に行われるため、絞り加工時の寸法精度が向上する。   Further, in the process of forming the bearing case 7, the accommodating portion 15 around the lower end 13 of the bearing case 7 is reduced in diameter so that the bearing 2 can pass through (M1 <L3 <L2) to form the throttle portion 21. As a result, the diameter of the accommodation port 15 of the bearing case 7 is reduced when the drawing portion 21 is formed by slightly reducing the diameter of the accommodation port 15 of the bearing case 7 in advance before the drawing process. Therefore, the dimensional accuracy during drawing is improved.

なお、本発明は上記実施例に限定されるものではなく、種々の変形実施が可能である。例えば、車輪用フレームの形状は上記実施例に限定されるものではなく、適宜変更が可能である。また車輪18は、ベアリング等を介して側板17に取り付けられるものでもよい。   In addition, this invention is not limited to the said Example, A various deformation | transformation implementation is possible. For example, the shape of the wheel frame is not limited to the above embodiment, and can be changed as appropriate. The wheel 18 may be attached to the side plate 17 through a bearing or the like.

2 軸受
3 車輪用フレーム
4 天板
7 軸受ケース
9 貫通部
10 周壁
11 円筒部
13 下端
16 段差部
18 車輪
21 絞り部
2 Bearing 3 Wheel frame 4 Top plate 7 Bearing case 9 Through part
10 wall
11 Cylindrical part
13 Bottom
16 steps
18 wheels
21 Aperture

Claims (1)

車輪を保持する車輪用フレームの天板に貫通部を形成し、前記天板を下方へ押出し加工し、前記貫通部をストレート状の周壁を有する円筒部に形成した後、前記車輪用フレームの天板を下方に向けた逆さ向きの状態で、前記周壁における前記逆さ向きにする前の元の向きでの下部を拡径するとともに、前記周壁における前記元の向きでの上部に段差部を形成して、前記車輪用フレームと一体とした軸受ケースを形成し、前記車輪用フレームを、前記軸受ケースを一体に設けた前記天板付近に重心位置を有する形状とし、前記軸受ケースに軸受を前記元の向きにおける下方より上向きに収容し、前記周壁の前記段差部で前記軸受における前記元の向きでの上部を保持するとともに、前記軸受ケースにおける前記元の向きでの下端周囲を内側へ曲げる絞り加工を行い、前記軸受における前記元の向きでの下部を保持し、前記円筒部の前記周壁の拡径による前記軸受ケースの成形、前記軸受の前記軸受ケースへの収容、並びに、前記軸受ケースの下端周囲の絞り加工の各行程を、前記車輪用フレームの天板を下方に向けた逆さ向きの状態で作業を行い、前記軸受を前記軸受ケースのみで固定することを特徴とするキャスターの製造方法。 A through portion is formed in a top plate of a wheel frame for holding a wheel, the top plate is extruded downward, and the through portion is formed in a cylindrical portion having a straight peripheral wall, and then the top of the wheel frame is formed. With the plate facing downward, the diameter of the lower portion of the peripheral wall in the original direction before the reverse direction is increased, and a stepped portion is formed in the upper portion of the peripheral wall in the original direction. Forming a bearing case integrated with the wheel frame, the wheel frame having a shape having a center of gravity in the vicinity of the top plate integrally provided with the bearing case, and the bearing in the bearing case. The upper end of the bearing in the original direction is held by the step portion of the peripheral wall, and the periphery of the lower end of the bearing case in the original direction is bent inward. That squeezing performs processing to hold the bottom in the original orientation in the bearing, the molding of the bearing case according to diameter of the peripheral wall of the cylindrical portion, accommodating to the bearing case of the bearing, and the bearing Each process of drawing processing around the lower end of the case is performed in an upside down state with the top plate of the wheel frame facing downward, and the bearing is fixed only by the bearing case. Production method.
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