JPH0250342B2 - - Google Patents
Info
- Publication number
- JPH0250342B2 JPH0250342B2 JP57031591A JP3159182A JPH0250342B2 JP H0250342 B2 JPH0250342 B2 JP H0250342B2 JP 57031591 A JP57031591 A JP 57031591A JP 3159182 A JP3159182 A JP 3159182A JP H0250342 B2 JPH0250342 B2 JP H0250342B2
- Authority
- JP
- Japan
- Prior art keywords
- bolt
- nut
- pulley
- tip
- shaft
- 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 - Lifetime
Links
- 230000005484 gravity Effects 0.000 claims description 8
- 238000005406 washing Methods 0.000 description 11
- 239000011347 resin Substances 0.000 description 3
- 229920005989 resin Polymers 0.000 description 3
- 239000000463 material Substances 0.000 description 2
- 238000004904 shortening Methods 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- 239000004677 Nylon Substances 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 238000005336 cracking Methods 0.000 description 1
- 230000018044 dehydration Effects 0.000 description 1
- 238000006297 dehydration reaction Methods 0.000 description 1
- 238000004512 die casting Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000002474 experimental method Methods 0.000 description 1
- 239000003365 glass fiber Substances 0.000 description 1
- 229910052751 metal Inorganic materials 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 229920001778 nylon Polymers 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 230000002265 prevention Effects 0.000 description 1
- 238000010079 rubber tapping Methods 0.000 description 1
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H55/00—Elements with teeth or friction surfaces for conveying motion; Worms, pulleys or sheaves for gearing mechanisms
- F16H55/32—Friction members
- F16H55/36—Pulleys
Landscapes
- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Pulleys (AREA)
Description
【発明の詳細な説明】
本発明は、回転シヤフトに動力を伝達しまたは
回転シヤフトから動力を伝達するために取付ける
プーリーの取付装置に関し、例えば洗濯機などの
回転手段を備えた機器に適用されるものに関す
る。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a pulley attachment device that is attached to transmit power to or from a rotating shaft, and is applied to equipment equipped with rotating means such as a washing machine, for example. related to things.
本発明の適用対象の一例として、一般的な二槽
式脱水洗濯機の場合について説明すると、第1図
において1は洗濯物および水が投入される洗濯槽
である。2は洗濯用モータで、その回転軸にモー
タープーリー3を備えており、このモーター2の
回転力はモータープーリー3、Vベルト4を介し
て樹脂製のインペラプーリー5に伝達される。こ
のインペラプーリー5の回転はメタルケース6の
オイルシール(図示せず)によつて水密に保たれ
た回転シヤフトを介してパルセータ7に伝達さ
れ、このパルセータ7の回転にて洗濯が行なわれ
る。すすぎ作用は、洗濯時と同様にパルセータ7
の回転にて成されるが溢水すすぎ時における溢水
は、溢水パイプ8を通つて排水パイプに至り、機
外に出る。また、洗濯、すすぎ後の排水はコツク
10の開放により同様に排水パイプ9を介して機
外に出る。洗濯、すすぎ後の衣類は、脱水かご1
1内に投入され、脱水用モータ12の回転による
遠心力によつて脱水される。 As an example of an object to which the present invention is applied, a general two-tub type dehydrating washing machine will be described. In FIG. 1, reference numeral 1 indicates a washing tub into which laundry and water are put. Reference numeral 2 denotes a washing motor, which has a motor pulley 3 on its rotating shaft, and the rotational force of the motor 2 is transmitted via the motor pulley 3 and a V-belt 4 to an impeller pulley 5 made of resin. The rotation of the impeller pulley 5 is transmitted to the pulsator 7 through a rotating shaft kept watertight by an oil seal (not shown) in the metal case 6, and washing is performed by the rotation of the pulsator 7. The rinsing action is performed using Pulsator 7, the same as when washing.
The overflow during rinsing is caused by the rotation of the overflow pipe 8, reaches the drain pipe, and exits the machine. Moreover, the drain water after washing and rinsing is similarly discharged from the machine via the drain pipe 9 when the pot 10 is opened. Clothes after washing and rinsing are placed in the dehydration basket 1.
1 and is dehydrated by the centrifugal force generated by the rotation of the dewatering motor 12.
ここで前記インペラプーリ5の従来の取付装置
の一例を、第2図により説明すると、13は前記
回転シヤフトであつて、その周面の一部にカツタ
ー割部13aが形成されている。この回転シヤフ
ト13は、インペラプーリー5の中央部に設けら
れたボス部14に挿入されており、かつこのボス
部14にはこれと隣接して空洞部15を形成する
様な壁部16が一体に形成されている。17,1
8は、ボス部14および壁部にそれぞれ形成され
た穴で、前記カツター割部13aに向かう軸線上
に位置している。19は前記空洞部15内に位置
するナツト、20は壁部16の外側に位置するナ
ツトであり、21は前記穴17,18を貫通して
先端が前記カツター割部13aに圧接するボルト
で、前記ナツト19,20が螺合している。ナツ
ト19は壁部16の内側面に圧接してボルト21
の回転シヤフト13側への圧接を強力に行なわし
めており、ナツト20は壁部16の外側面に圧接
してボルト21のゆるみ止めを行つている。この
様な取付装置において、インペラプーリー5は、
洗濯時には左右回転を繰り返すものであるが、こ
れを例えばガラス繊維入りのナイロンなどの樹脂
材料によつて構成した場合、必ずクリープを生
じ、ナツト19,20がゆるむと共に、ボルト2
1が回転シヤフト13に充分に圧接できなくな
る。また、それに加えてインペラプーリー5の回
転により、ボルト21にはそのヘツド21a側に
離脱しようとする遠心力が作用し、さらに前述の
通り左右回転が繰り返されるために、ボルト21
が抜ける様に回転力が作用し、この作用は上記ク
リープが生じた場合に顕著に発生する。インペラ
プーリー5を例えばアルミダイカストにて成形し
た場合には、クリープの発生がないために上記の
問題の発生は多少抑えられるが、やはり遠心力が
ボルトの抜け方向に作用するために、問題の発生
は避けられない。そして、この様な事態が生じれ
ば、ボルト21の先端がカツター割部13aから
離れてしまい、インペラプーリー5の回転が回転
シヤフト13に伝達できなくなつてパルセータ7
が回転されなくなり、さらにはインペラプーリー
5が回転シヤフト13から外れてしまう惧れがあ
り、危険でかつきわめて不都合な事態を生ずるこ
とになる。 Here, an example of a conventional mounting device for the impeller pulley 5 will be explained with reference to FIG. 2. Reference numeral 13 is the rotating shaft, and a cutter split portion 13a is formed on a part of the circumferential surface thereof. This rotating shaft 13 is inserted into a boss portion 14 provided at the center of the impeller pulley 5, and a wall portion 16 adjacent to the boss portion 14 and forming a hollow portion 15 is integrally formed therein. is formed. 17,1
Reference numeral 8 denotes holes formed in the boss portion 14 and the wall portion, respectively, and are located on the axis toward the cutter split portion 13a. 19 is a nut located within the cavity 15, 20 is a nut located outside the wall 16, 21 is a bolt that passes through the holes 17 and 18 and whose tip is pressed against the cutter split portion 13a, The nuts 19 and 20 are screwed together. The nut 19 is pressed against the inner surface of the wall 16 and the bolt 21
The nut 20 is strongly pressed against the rotating shaft 13 side, and the nut 20 is pressed against the outer surface of the wall portion 16 to prevent the bolt 21 from loosening. In such a mounting device, the impeller pulley 5 is
During washing, it repeatedly rotates left and right, but if it is made of a resin material such as nylon containing glass fibers, it will inevitably creep, loosening the nuts 19 and 20, and causing the bolt 2 to loosen.
1 cannot be brought into sufficient pressure contact with the rotating shaft 13. In addition, due to the rotation of the impeller pulley 5, a centrifugal force acts on the bolt 21 to try to separate it from the head 21a side, and furthermore, as described above, since the left and right rotation is repeated, the bolt 21
A rotational force acts to cause the material to come off, and this effect occurs significantly when the above-mentioned creep occurs. If the impeller pulley 5 is made of aluminum die-casting, for example, the above problem can be suppressed to some extent because there is no creep, but the centrifugal force still acts in the direction of the bolt coming out, so the problem still occurs. is unavoidable. If such a situation occurs, the tip of the bolt 21 will separate from the cutter split portion 13a, and the rotation of the impeller pulley 5 will no longer be transmitted to the rotating shaft 13, causing the pulsator 7
There is a risk that the impeller pulley 5 will not be rotated and furthermore, the impeller pulley 5 may come off the rotating shaft 13, resulting in a dangerous and extremely inconvenient situation.
また、従来の他の例として、第3図及び第4図
に示す様なものがある。第3図及び第4図におい
て第2図で説明したものと同一の構成要素につい
ては同一の参照番号を付してその説明を省略す
る。前記回転シヤフト13には、その軸心方向と
直交する方向にねじ穴22が形成され、前記ボス
部14にはこのねじ穴22の両端開口にそれぞれ
対応してこのねじ穴22よりも径大の穴23,2
4が穿設されている。25は、前記ねじ穴22に
螺合するねじ部25a、このねじ部の一端側に連
らなるヘツド25b及びねじ部25aの他端側に
連らなるねじ部25aよりも径小の先端軸部25
cによつて構成されたボルトであり、ヘツド25
bが穴23の周縁部に圧接するまでねじ込まれて
いる。26は、インペラプーリー5に一体形成さ
れたドーム部で、穴24より突出したボルト25
の先端軸部25cを隠蔽する様に包囲している。
このドーム部26の側方の開口26aの大きさ
は、ボルト25のヘツド25bの径よりも小さく
して、ボルト25を穴24側から挿入しようとし
たときにヘツド25bが開口26aの両側に当接
してねじ部25aがねじ穴22に螺合し得ない寸
法関係にされている。そして、前記ボルト25
は、回転シヤフト13の回転中心線0−0からヘ
ツド25b側における重心Jまでの距離をl1、回
転中心線0−0から先端軸部25c側における重
心Kまでの距離をl2、さらにヘツド25b側の質
量をm1、先端軸部25c側の質量をm2とした場
合に、m1l1<m2l2の関係が成立する様に構成され
ている。この様な構成においてインペラプーリー
5の角速度をωとした場合、インペラプーリー5
の回転時には、m1l1ω2<m2l2ω2の関係が成立し、
遠心力がボルト25をゆるめる様に作用しないの
で、インペラプーリー5ががたついたり、外れた
りする惧れがない。また、ボルト25を強力に締
付ける必要がなく、ボルト25の締付けによるイ
ンペラプーリー5のボス部14の割れが出じな
い。また、ボルト25の締付けが組立時において
多少ゆるくても、使用時における遠心力の作用に
よつて徐々に強く締付けられることになる。とこ
ろが、かかる構成では、m1l1ω2<m2l2ω2の関係
を成立させるためには、ボルト25の全長が長く
なる。なぜならばヘツド25bの重量がねじ部2
5a、先端軸部25cより単位長さ当りで重くな
つているからである。このことは組立時間の短縮
に支障を来たすことになる。 Further, as other conventional examples, there are those shown in FIGS. 3 and 4. Components in FIGS. 3 and 4 that are the same as those explained in FIG. 2 are given the same reference numerals, and the explanation thereof will be omitted. A screw hole 22 is formed in the rotary shaft 13 in a direction perpendicular to the axial direction thereof, and a screw hole 22 with a larger diameter than the screw hole 22 is formed in the boss portion 14 in correspondence with the openings at both ends of the screw hole 22. hole 23,2
4 is drilled. Reference numeral 25 denotes a threaded portion 25a that is screwed into the threaded hole 22, a head 25b that extends to one end of the threaded portion, and a tip shaft portion that has a smaller diameter than the threaded portion 25a that extends to the other end of the threaded portion 25a. 25
It is a bolt composed of c, and the head 25
b is screwed in until it comes into pressure contact with the peripheral edge of the hole 23. 26 is a dome portion integrally formed with the impeller pulley 5, and a bolt 25 protrudes from the hole 24.
The distal end shaft portion 25c is surrounded so as to be concealed.
The size of the side opening 26a of this dome portion 26 is made smaller than the diameter of the head 25b of the bolt 25, so that when the bolt 25 is inserted from the hole 24 side, the head 25b hits both sides of the opening 26a. The dimensions are such that the threaded portion 25a cannot be screwed into the threaded hole 22 in contact with the threaded portion 25a. And the bolt 25
is the distance from the rotation center line 0-0 of the rotating shaft 13 to the center of gravity J on the head 25b side, l 1 is the distance from the rotation center line 0-0 to the center of gravity K on the tip shaft portion 25c side, and When the mass on the 25b side is m 1 and the mass on the tip shaft portion 25c side is m 2 , the structure is such that the relationship m 1 l 1 <m 2 l 2 holds true. In such a configuration, if the angular velocity of the impeller pulley 5 is ω, then the impeller pulley 5
When rotating, the relationship m 1 l 1 ω 2 < m 2 l 2 ω 2 holds,
Since the centrifugal force does not act to loosen the bolt 25, there is no risk that the impeller pulley 5 will rattle or come off. Further, there is no need to strongly tighten the bolt 25, and the boss portion 14 of the impeller pulley 5 does not crack due to tightening the bolt 25. Further, even if the bolts 25 are somewhat loosely tightened during assembly, they will gradually be tightened more strongly due to the action of centrifugal force during use. However, in such a configuration, in order to satisfy the relationship m 1 l 1 ω 2 <m 2 l 2 ω 2 , the overall length of the bolt 25 becomes long. This is because the weight of the head 25b is
This is because it is heavier per unit length than the tip shaft portion 5a and the tip shaft portion 25c. This poses a problem in shortening the assembly time.
本発明は、従来の上記の様な問題を解消し、回
転シヤフトに取付けたプーリーが、回転時の遠心
力の作用でがたついたりすることのない強固な取
付けが可能で、かつ組立ても簡単なプーリーの取
付装置を提供することを目的とする。 The present invention solves the above-mentioned conventional problems, and allows the pulley attached to the rotating shaft to be firmly attached without shaking due to the action of centrifugal force during rotation, and is easy to assemble. The purpose of the present invention is to provide a pulley mounting device.
本発明は、回転シヤフトとプーリーのボス部を
貫通するボルトを設け、このボルトのヘツドをボ
ス部に当接させると共にボルトの先端側にプーリ
ー成形時に一体に成形されたナツトを螺合し、前
記ボルトのシヤフト回転中心からボルトヘツド側
の質量をm1、その重心までの距離をl1、前記ボル
トのシヤフト回転中心から先端側及び前記ナツト
を合わせた質量をm2、その重心までの距離をl2と
して、m1l1<m2l2と成し、前記ナツトにてボルト
先端側の重量を増すことによつて、遠心力の作用
でボルトが抜け出し方向と反対方向に移動せしめ
られてナツトとの螺合が外れる様な力を受けず、
かつボルトの長さが短くて済み、さらにナツトを
別途に螺合させる必要がなく、組立の簡単な取付
装置を提供する。 The present invention provides a bolt that passes through the rotating shaft and the boss part of the pulley, and the head of this bolt is brought into contact with the boss part, and a nut that is integrally formed at the time of forming the pulley is screwed onto the tip side of the bolt. The mass from the shaft rotation center of the bolt to the bolt head side is m 1 , the distance to the center of gravity is l 1 , the combined mass of the tip side and the nut from the shaft rotation center of the bolt is m 2 , and the distance to the center of gravity is l 2 , m 1 l 1 < m 2 l 2 , and by increasing the weight on the bolt tip side with the nut, the bolt is moved in the opposite direction to the pulling out direction due to the action of centrifugal force, and the nut is removed. without being subjected to any force that would cause it to unscrew.
To provide a mounting device that is easy to assemble, requiring only short bolt lengths and requiring no separate screwing of nuts.
以下、本発明の一実施例を第5図及び第6図に
より説明する。なお、第1図乃至第4図で説明し
たものと実質的に同じ構成要素については、同一
の参照番号を付して説明を省略する。前記インペ
ラプーリー5のボス部14には、回転シヤフト1
3が挿入されると共に、この回転シヤフト13に
軸心方向と略直交する方向に穴27が貫通形成さ
れ、この穴27の両端開口に対応して前記ボス部
14の穴23,24が形成されている。これらの
穴23,27,24をボルト28の少なくとも先
端部にねじ部を有する軸部28aが貫通し、穴2
4から出た軸部28a先端部のねじ部がインペラ
プーリー5成形時に一体に成形されたナツト29
に螺合している。このナツト29は、軸部28a
先端のねじ部が螺合される前は下穴が穿設され、
前記ねじ部がタツピングねじとしてねじを切りな
がら入り込み、ねじが充分締まると、ナツト29
の樹脂の流れ口30が破壊され、インペラプーリ
ー5から独立したナツト29となる。このとき、
ナツト29の回り止めは、第6図に示す様に、イ
ンペラプーリー5と一体に成形された回り止め片
31,32とナツト29との係合により行なわれ
る。なお、ナツト29の下端部の長さの半分が、
ナツト29とインペラプーリー5との間の距離よ
り十分長ければ、回り止め片31,32は不要で
ある。このボルト28の締付終了は、ナツト29
がインペラプーリー5から離れた位置と、ボス部
14に軽く接触した位置との間の任意の位置にあ
る状態になつたときとすることができる。ここ
で、前記ボルト28の全長をLとし、ボルト28
の回転中心線O−Oからヘツド28b側の質量を
m1、その重心Jまでの距離をl1、ボルト28の回
転中心線O−Oから先端側とナツト29とを合わ
せた質量をm2、その重心Kまでの距離をl2とする
と、m1l2<m2l2になる様にボルト28及びナツト
29の寸法が設定されている。 An embodiment of the present invention will be described below with reference to FIGS. 5 and 6. Components that are substantially the same as those described in FIGS. 1 to 4 are given the same reference numerals, and description thereof will be omitted. The rotary shaft 1 is attached to the boss portion 14 of the impeller pulley 5.
3 is inserted, a hole 27 is formed through the rotary shaft 13 in a direction substantially perpendicular to the axial direction, and holes 23 and 24 of the boss portion 14 are formed corresponding to openings at both ends of the hole 27. ing. A shaft portion 28a having a threaded portion at least at the tip of the bolt 28 passes through these holes 23, 27, and 24.
The threaded portion at the tip of the shaft portion 28a that comes out from the nut 29 is integrally formed when the impeller pulley 5 is formed.
are screwed together. This nut 29 has a shaft portion 28a.
Before the threaded part at the tip is screwed together, a pilot hole is drilled,
The threaded portion enters as a tapping screw while cutting the thread, and when the screw is sufficiently tightened, the nut 29
The resin flow port 30 is destroyed, and the nut 29 becomes independent from the impeller pulley 5. At this time,
The nut 29 is prevented from rotating by engaging the nut 29 with anti-rotation pieces 31 and 32 formed integrally with the impeller pulley 5, as shown in FIG. Note that half the length of the lower end of the nut 29 is
If the distance is sufficiently longer than the distance between the nut 29 and the impeller pulley 5, the anti-rotation pieces 31 and 32 are unnecessary. To finish tightening this bolt 28, tighten the nut 29.
This may be the case when the impeller pulley 5 is at any position between the position away from the impeller pulley 5 and the position where it lightly contacts the boss portion 14. Here, the total length of the bolt 28 is L, and the bolt 28
The mass on the head 28b side from the rotation center line O-O of
m 1 , the distance to the center of gravity J is l 1 , the mass of the bolt 28 from the center of rotation O-O to the tip end side and the nut 29 is m 2 , and the distance to the center of gravity K is l 2 , m The dimensions of the bolt 28 and nut 29 are set so that 1 l 2 < m 2 l 2 .
かかる構成によると、インペラプーリー5が回
転角速度ωで回転すると、m1l1ω2<l2m2ω2とな
り、インペラプーリー5が運転された状態でボル
ト28はその先端側に向つて移動する様な力を受
け、またナツト29も回わることはないので、ボ
ルト28が抜け出すことはなく、インペラプーリ
ー5が外れるという現象は起らない。またナツト
29がボス部14に強く圧接し、ボス部14が必
要以上の力を受けるということもなく、ボス部1
4の割れの発生も起らない。又、インペラプーリ
ー5と同時にナツト29を成形し、このナツト2
9で取付けるため、組立が簡単で、しかもこのナ
ツト29がボルト28先端部の重量を増加する役
割を果し、それだけボルト軸部28aが短くて済
み、組立時間の短縮に貢献する。さらにインペラ
プーリー5が洗濯中左右に回転する時の衝撃は、
ボス部14の穴23,24がボルト軸部28aよ
り受けるのみになり、ナツト29は殆んど力を受
けないので、長期にわたつて使用できる。 According to this configuration, when the impeller pulley 5 rotates at the rotational angular velocity ω, m 1 l 1 ω 2 <l 2 m 2 ω 2 and the bolt 28 moves toward its tip while the impeller pulley 5 is being operated. Since the nut 29 does not turn, the bolt 28 will not come out and the impeller pulley 5 will not come off. In addition, the nut 29 is in strong pressure contact with the boss portion 14, and the boss portion 14 is not subjected to more force than necessary.
No cracking occurs as described in 4. Also, the nut 29 is formed at the same time as the impeller pulley 5, and this nut 2
9, assembly is easy, and the nut 29 serves to increase the weight of the tip of the bolt 28, which simplifies the length of the bolt shaft 28a and contributes to shortening the assembly time. Furthermore, the impact when the impeller pulley 5 rotates from side to side during washing is
The holes 23 and 24 of the boss portion 14 are only received by the bolt shaft portion 28a, and the nut 29 receives almost no force, so it can be used for a long period of time.
実験によると、前記m1l1とm2l2の比をm1l1:
m2l2≒1:2として、ほゞ2倍の遠心力が作用す
る関係が望ましく、安全であつた。 According to experiments, the ratio of m 1 l 1 and m 2 l 2 is m 1 l 1 :
A relationship where m 2 l 2 ≒1:2, where approximately twice as much centrifugal force acts, was desirable and safe.
なお、上記実施例においてはボルト28とボス
部14、回転シヤフト13とが螺合しない場合に
ついて説明したが、次の通りにしても良い。すな
わち、ボス部14の穴23および回転シヤフト1
3の穴27の一方あるいは両方にめねじを切り、
ボルト28の軸部28aの先端部以外に、これと
螺合するおねじを切る。ただしこのボルト28の
軸部28aの径は、先端部は小径で穴23,27
に触れない様にし、又ねじのピツチは先端の小径
の部分とそれ以外の大径の部分で違えておき、ボ
ルト28を締めていくと、ナツト29が切り離れ
る様にし、ナツト29が離れた後もボルト28が
移動しない様にする。 In the above embodiment, a case has been described in which the bolt 28, the boss portion 14, and the rotating shaft 13 are not screwed together, but the following may be adopted. That is, the hole 23 of the boss portion 14 and the rotating shaft 1
Cut a female thread in one or both of the holes 27 in No. 3,
In addition to the tip of the shaft portion 28a of the bolt 28, cut a male thread to be threaded therewith. However, the diameter of the shaft portion 28a of this bolt 28 is small at the tip and at the holes 23, 27.
Also, make sure that the pitch of the screw is different between the small diameter part at the tip and the other large diameter part, so that as you tighten the bolt 28, the nut 29 will separate, and the nut 29 will separate. Make sure that the bolt 28 does not move after that.
本発明のプーリーの取付装置によれば、以上の
説明から明らかな様に、ボルトとナツトに作用す
る遠心力でボルトはその先端側に向つて移動する
様に力を受け、かつナツトは回わらないので、ボ
ルトが抜け出すことはなく、プーリーががたつい
たり外れたりするのを確実に防止でき、かつナツ
トでボルト先端側の質量を大きくしているのでボ
ルトの長さが短くて済み組立時間の短縮に貢献で
き、さらにナツトはプーリー成形時に一体に成形
されたものであるで、組立が容易である等、多大
の効果を奏する。 According to the pulley mounting device of the present invention, as is clear from the above explanation, the centrifugal force acting on the bolt and nut causes the bolt to move toward its tip, and the nut is prevented from rotating. Since there is no bolt, the bolt will not fall out, and the pulley can be reliably prevented from rattling or coming off. Furthermore, since the nut increases the mass at the tip of the bolt, the length of the bolt can be shortened, reducing assembly time. Furthermore, since the nut is integrally molded during the pulley molding, it is easy to assemble, which has many advantages.
第1図は本発明の適用対象の一例である脱水洗
濯機の概略構成を示す縦断面図、第2図は従来例
の縦断面図、第3図は他の従来例の縦断面図、第
4図は第3図の斜視図、第5図は本発明の一実施
例の縦断面図、第6図は同部分平面図である。
5はインペラプーリー(プーリー)、13は回
転シヤフト、14はボス部、22,23は穴、2
7は穴、28はボルト、28aは軸部、28bは
ヘツド、29はナツト、31,32は回り止め
片。
FIG. 1 is a vertical cross-sectional view showing a schematic configuration of a dehydrating washing machine which is an example of an object to which the present invention is applied, FIG. 2 is a vertical cross-sectional view of a conventional example, and FIG. 3 is a vertical cross-sectional view of another conventional example. 4 is a perspective view of FIG. 3, FIG. 5 is a longitudinal sectional view of an embodiment of the present invention, and FIG. 6 is a partial plan view of the same. 5 is an impeller pulley (pulley), 13 is a rotating shaft, 14 is a boss portion, 22 and 23 are holes, 2
7 is a hole, 28 is a bolt, 28a is a shaft portion, 28b is a head, 29 is a nut, and 31 and 32 are rotation prevention pieces.
Claims (1)
記回転シヤフトに軸心方向と略直交する方向に穴
を貫通形成すると共にその両端開口にそれぞれ対
応する様に前記ボス部に穴を形成し、前記シヤフ
トの穴を貫通し、かつ前記ボス部を貫通するボル
トを設け、このボルトのヘツドをボス部に当接さ
せると共にボルトの先端側にプーリー成形時に一
体に成形されたナツトを螺合し、前記ボルトのシ
ヤフト回転中心からボルトヘツド側の質量をm1、
その重心までの距離をl1、前記ボルトのシヤフト
回転中心から先端側及び前記ナツトを合わせた質
量をm2、その重心までの距離をl2として、m1l1<
m2l2と成したプーリーの取付装置。1. A rotary shaft is inserted into the boss portion of the pulley, and a hole is formed through the rotary shaft in a direction substantially perpendicular to the axial direction, and holes are formed in the boss portion so as to correspond to the openings at both ends of the shaft. A bolt is provided that passes through the hole and the boss part, and the head of this bolt is brought into contact with the boss part, and a nut that is integrally formed at the time of forming the pulley is screwed onto the tip side of the bolt. The mass from the shaft rotation center to the bolt head side is m 1 ,
Assuming that the distance to the center of gravity is l 1 , the combined mass of the bolt's shaft rotation center to the tip side and the nut is m 2 , and the distance to the center of gravity is l 2 , m 1 l 1 <
Pulley mounting device made of m 2 l 2 .
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP57031591A JPS591867A (en) | 1982-02-27 | 1982-02-27 | Pulley mounting device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP57031591A JPS591867A (en) | 1982-02-27 | 1982-02-27 | Pulley mounting device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS591867A JPS591867A (en) | 1984-01-07 |
| JPH0250342B2 true JPH0250342B2 (en) | 1990-11-02 |
Family
ID=12335427
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP57031591A Granted JPS591867A (en) | 1982-02-27 | 1982-02-27 | Pulley mounting device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS591867A (en) |
-
1982
- 1982-02-27 JP JP57031591A patent/JPS591867A/en active Granted
Also Published As
| Publication number | Publication date |
|---|---|
| JPS591867A (en) | 1984-01-07 |
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