JPH11356001A - Bearing device of motor - Google Patents

Bearing device of motor

Info

Publication number
JPH11356001A
JPH11356001A JP17808998A JP17808998A JPH11356001A JP H11356001 A JPH11356001 A JP H11356001A JP 17808998 A JP17808998 A JP 17808998A JP 17808998 A JP17808998 A JP 17808998A JP H11356001 A JPH11356001 A JP H11356001A
Authority
JP
Japan
Prior art keywords
rotor shaft
rotor
bracket
hole
bearing
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.)
Pending
Application number
JP17808998A
Other languages
Japanese (ja)
Inventor
Motohiko Kidokoro
元彦 城處
Atsutaka Takemura
淳登 竹村
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Aichi Electric Co Ltd
Original Assignee
Aichi Electric Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Aichi Electric Co Ltd filed Critical Aichi Electric Co Ltd
Priority to JP17808998A priority Critical patent/JPH11356001A/en
Publication of JPH11356001A publication Critical patent/JPH11356001A/en
Pending legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To prevent foreign matter such as dusts from penetrating into a bearing box through the through-hole of a bracket satisfactorily. SOLUTION: A bell-shaped blockade cylinder 16 comprises a cylindrical part 16a through which a rotor shaft 4a is inserted and a base end which enters a bearing box (a) through the through-hole (a1 ) of a bracket 6. The leading end of the cylindrical part 16a has a small diameter. The base end has a flat part 16b with a large diameter. The rotor shaft 4a is rotatably inserted into the cylindrical part 16a of the blockade cylinder 16. The flat part 16b of the base end is held between the back wall of the bearing box (a) and ball bearings 5 to block the through-hole (a1 ) of the bracket 6.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、電動機の軸受装置
の改良に係り、その目的は塵埃や塩分を含んだ湿気等の
侵入防止を良好に図った軸受装置に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement in a bearing device for an electric motor, and more particularly to a bearing device capable of effectively preventing intrusion of dust or moisture containing salt.

【0002】[0002]

【従来の技術】従来から、暖房・冷房機器等多くの家庭
電気製品に使用する、例えば、送風機等の駆動源には種
々の電動機が使用されている。そして、電動機の大半は
その軸受部にボールベアリングが使用されている。即
ち、電動機の固定子鉄心に回転自在に取付けられた回転
子は、回転子軸の両端部に装着したボールベアリング
を、固定子鉄心に挟持される一対のブラケットに設けた
軸受筐に挿着することにより、固定子鉄心に対して回転
自在に支承保持される。そして、前記固定子鉄心に巻装
したコイルへの通電により、回転子を前記ボールベアリ
ングを介して所定方向に回転する。
2. Description of the Related Art Conventionally, various electric motors have been used as a drive source for a blower or the like used for many home electric appliances such as heating / cooling equipment. In most motors, ball bearings are used for their bearings. That is, the rotor rotatably mounted on the stator core of the electric motor inserts ball bearings mounted on both ends of the rotor shaft into bearing housings provided on a pair of brackets sandwiched between the stator cores. This allows the stator to be rotatably supported and held on the stator core. The rotor is rotated in a predetermined direction via the ball bearing by energizing a coil wound around the stator core.

【0003】[0003]

【発明が解決しようとする課題】しかしながら、前記回
転子をボールベアリングを用いて回転自在に支承する構
成では、ブラケットの一方に設けた軸受筐は背壁が閉鎖
されて回転子軸が外部に突出することがないので、ボー
ルベアリングに悪影響を与える粉塵や異物が軸受筐に侵
入するのを良好に防ぐことができる反面、他方のブラケ
ット側に設けた軸受筐には、例えば、送風機のファン等
を軸着する回転子の回転子軸を外部に突出させるための
貫通孔が設けられており、前記回転子軸は貫通孔を微少
な間隙を保って外部に貫通突出している。このため、電
動機を例えば、暖房機器の燃焼部(バーナー部)に空気
を供給して燃焼効率を向上させるようにした送風機の駆
動源に使用するような場合、回転子を回転可能に支持す
るボールベアリングがそのシールド板のみによって封止
されているので、送風機への空気導入時に流入する粉塵
や異物の侵入を適確に防ぐことが困難であった。
However, in the configuration in which the rotor is rotatably supported by using a ball bearing, the bearing housing provided on one side of the bracket has a closed back wall and the rotor shaft projects outside. Since it is possible to prevent dust and foreign substances that adversely affect the ball bearing from entering the bearing housing, the bearing housing provided on the other bracket side includes, for example, a fan of a blower. A through hole is provided for allowing the rotor shaft of the rotor to be axially projected to the outside, and the rotor shaft projects through the through hole to the outside with a small gap. For this reason, for example, when the electric motor is used as a drive source of a blower that supplies air to a combustion unit (burner unit) of a heating device to improve combustion efficiency, a ball that rotatably supports a rotor is used. Since the bearing is sealed only by the shield plate, it has been difficult to properly prevent the intrusion of dust or foreign matter that flows when air is introduced into the blower.

【0004】即ち、ボールベアリング自体は、一般に
内,外輪の間に挿入されているボールを粉塵等の異物か
ら保護するための防護手段がシールド板のみに頼ってい
るため、送風機の運転時空気の導入と同時に侵入する粉
塵をはじめ、塩分を含んだ湿気等は、回転子軸を突出さ
せるブラケットの貫通孔の隙間から簡単に軸受筐内に侵
入し、経年の間に軸受筐内に滞積したり、ボールベアリ
ングのシールド板と内輪レース面との狭隘な隙間からボ
ールベアリング内に侵入する。この結果、ボールベアリ
ングと対応する内,外輪レース面の周面を荒らしたり、
あるいは、ボールや軸受筐内等を発錆させたりして、ボ
ールベアリングの回転機能を著しく低下させたり、騒音
発生の要因を生成する等、ボールベアリングの寿命を低
下させ、電動機の運転を困難にし、電動機使用機器の信
頼性を損うという問題を有していた。
That is, since the ball bearing itself generally uses only a shield plate as a protection means for protecting the ball inserted between the inner and outer races from foreign matter such as dust, air is not generated when the blower is operated. Dust and salty moisture, etc., which enter simultaneously with the introduction, easily enter the bearing housing through the gaps in the through holes of the brackets from which the rotor shaft protrudes, and accumulate in the bearing housing over time. Or enter the ball bearing through a narrow gap between the shield plate of the ball bearing and the inner race surface. As a result, the inner and outer race race surfaces corresponding to the ball bearings may be roughened,
Alternatively, rusting the ball and the inside of the bearing housing, etc., significantly lowering the rotation function of the ball bearing, generating a factor of noise generation, etc., shortening the life of the ball bearing, making it difficult to operate the motor. However, there has been a problem that the reliability of the equipment using the motor is impaired.

【0005】本発明は、前記の種々な問題点に鑑み、回
転子軸が突出するブラケットの貫通孔を、前記回転子軸
を回転自在に挿通した状態で喇叭状の封鎖筒により封鎖
することにより、粉塵や塩分等を含んだ空気が軸受筐や
ボールベアリング内に侵入するのを良好に改善し、ボー
ルベアリングの機能を確実に向上させるようにした、電
動機の軸受装置を提供することにある。
The present invention has been made in view of the above-mentioned various problems, by closing a through-hole of a bracket from which a rotor shaft protrudes with a horn-shaped closure while the rotor shaft is rotatably inserted. It is another object of the present invention to provide a bearing device for an electric motor, in which air containing dust, salt, and the like can be satisfactorily improved to enter a bearing housing and a ball bearing, and the function of the ball bearing can be surely improved.

【0006】[0006]

【課題を解決するための手段】本発明は、回転子軸に取
付けた回転子と、回転子と対向配置された固定子鉄心を
両側から挟持するとともに、中心位置に軸受筐を形成し
た一対のブラケットと、回転子軸の両端側に取付けたボ
ールベアリングとを備え、前記回転子を固定子鉄心に回
転可能に挿入してその両側から回転子軸両端のボールベ
アリングを軸受筐に嵌合させた状態で前記回転子を回転
可能に支承した一対のブラケットを、一方のブラケット
の貫通孔から回転子軸を突出させた状態で固定子鉄心に
取付けて構成した電動機において、前記回転子軸を挿通
する筒状部の先端を小径となし、ブラケットの貫通孔を
通って軸受筐内に進入する基端を大径な平板部となして
形成した喇叭状の封鎖筒を、先端の筒状部に回転子軸を
回転自在に挿通し、基端を軸受筐の背壁とボールベアリ
ングとの間に挟持して、ブラケットの貫通孔を封鎖する
ようにしたことを特徴とする。
SUMMARY OF THE INVENTION The present invention is directed to a pair of rotors mounted on a rotor shaft, and a pair of stators which sandwich a stator core disposed opposite to the rotor from both sides and form a bearing housing at a center position. A bracket and ball bearings attached to both ends of the rotor shaft were provided.The rotor was rotatably inserted into the stator core, and ball bearings at both ends of the rotor shaft were fitted into bearing housings from both sides thereof. A pair of brackets that rotatably support the rotor in this state are mounted on a stator core with the rotor shaft protruding from a through hole of one bracket, and the rotor shaft is inserted through the motor. A barrel-shaped closed cylinder formed by forming the distal end of the cylindrical portion into a small diameter and entering the bearing housing through the through hole of the bracket into a large-diameter flat plate portion, and rotating it to the cylindrical portion at the distal end The child shaft is inserted rotatably. The proximal end and sandwiched between the back wall and the ball bearings of the bearing housing, characterized in that so as to seal the through hole of the bracket.

【0007】本発明において、前記封鎖筒は、ゴム,合
成樹脂からなる耐熱,耐潤滑性及び耐摩耗性に優れた部
材を射出成形手段により喇叭状に射出成形して形成する
ようにしたことを特徴とする。
In the present invention, the closing cylinder is formed by injection-molding a member made of rubber and synthetic resin, which is excellent in heat resistance, lubrication resistance and abrasion resistance, in a horn shape by injection molding means. Features.

【0008】更に、前記喇叭状の封鎖筒は、回転子軸が
挿通する小径な筒状先端の内周面に1条ないし複数条の
凸条段部を回転子軸と摺接可能に形成したことを特徴と
する。
Further, in the bugle-shaped closing cylinder, one or more protruding steps are formed on the inner peripheral surface of the small-diameter cylindrical tip through which the rotor shaft is inserted so as to be able to slide on the rotor shaft. It is characterized by the following.

【0009】本発明は、回転子軸が突出するブラケット
の貫通孔が、前記回転子軸を挿通する先端を小径な筒状
となし、基端は軸受筐とボールベアリングとの間に挟持
すべく大径で平坦状に形成した喇叭状の封鎖筒により、
回転子の回転を阻害しないように封鎖されているので、
電動機の運転中に回転子軸が突出するブラケットの貫通
孔から粉塵や塩分を含んだ空気の侵入を前記封鎖筒によ
って良好に遮蔽することができるため、ボールベアリン
グが粉塵等の侵入によりその寿命が低下するといった問
題を確実に解消することが可能となり、電動機を長期に
わたり安定した状態で駆動させることができる。
According to the present invention, the through hole of the bracket from which the rotor shaft protrudes is formed so that the distal end through which the rotor shaft is inserted has a small cylindrical shape, and the base end is sandwiched between the bearing housing and the ball bearing. With a large-diameter flat-shaped horn-shaped closed cylinder,
Since it is sealed so as not to hinder the rotation of the rotor,
During operation of the electric motor, the intrusion of dusty or salty air from the through-hole of the bracket from which the rotor shaft protrudes can be well blocked by the sealing cylinder, so that the life of the ball bearing is reduced due to intrusion of dust and the like. It is possible to surely solve the problem of lowering, and the electric motor can be driven in a stable state for a long time.

【0010】[0010]

【発明の実施の形態】以下、本発明の実施例を図1ない
し図4により、例えば、送風機に使用する電動機に実施
した例について説明する。図1は従来から一般に使用さ
れている送風機の要部切欠断面図を示すもので、図1に
おいて、1は例えば、くま取りコイル型の電動機を示
し、この電動機1は図示しないコイルを巻装したコイル
ボビン2を一方に取付けた固定子鉄心3と、固定子鉄心
3の他方に設けた挿通孔に回転自在に挿入した回転子4
と、この回転子4に軸着した回転子軸4aを回転自在に
支持するボールベアリング5,5aを具備して固定子鉄
心3に装着したブラケット6,6aとによって概略構成
されている。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 to 4 in which the present invention is applied to, for example, an electric motor used for a blower. FIG. 1 is a cutaway view of a main part of a blower generally used in the related art. In FIG. 1, reference numeral 1 denotes, for example, a shading coil type electric motor, and the electric motor 1 is wound with a coil (not shown). A stator core 3 having a coil bobbin 2 mounted on one side, and a rotor 4 rotatably inserted into an insertion hole provided on the other side of the stator core 3
And brackets 6, 6 a provided with ball bearings 5, 5 a rotatably supporting a rotor shaft 4 a axially mounted on the rotor 4 and mounted on the stator core 3.

【0011】そして、前記電動機1には、例えば、図示
しない給湯装置のバーナー部に空気を圧送したり、燃焼
ガスを放出するための送風手段7が具備されている。こ
の送風手段7は図1に示すように、回転子軸4aに2段
にわたって配設したターボファン8,9と、これらター
ボファン8,9を個別に収容する第1,第2のファンカ
バー10,11とを具備して概略構成されている。
The electric motor 1 is provided with, for example, a blower 7 for blowing air to a burner of a hot water supply device (not shown) or discharging combustion gas. As shown in FIG. 1, the blower means 7 includes turbofans 8, 9 disposed in two stages on a rotor shaft 4a, and first and second fan covers 10 for individually accommodating the turbofans 8, 9 respectively. , 11 are schematically configured.

【0012】そして、前記送風手段7は、その底板12
を、固定子鉄心3側に螺着した図示しない取付ボルトに
ナットを用いて締着し、この後、回転子軸4aに第1の
ターボファン8を止着し、つづいて、その上方から流通
孔13を中心位置に開口した第1のファンカバー10を
前記底板12にねじ止等にて固着する。又、前記第1の
ファンカバー10の流通孔13から突出する回転子軸4
aの先端に第2のターボファン9を止着し、つづいて、
第1のファンカバー10上に吸入口14を中心位置に開
口した第2のファンカバー11をねじ止めして固定し、
この送風手段7と電動機1とを前記底板12を介して一
体的に連結固定して送風機Aを構成する。なお、図1に
示す15は底板12に設けた排出口である。
The blowing means 7 has a bottom plate 12
Is fastened using a nut to a mounting bolt (not shown) screwed to the stator core 3 side, and then the first turbofan 8 is fixed to the rotor shaft 4a, and then the first turbofan 8 is circulated from above. The first fan cover 10 having the hole 13 opened at the center position is fixed to the bottom plate 12 by screws or the like. Also, the rotor shaft 4 protruding from the flow hole 13 of the first fan cover 10 is provided.
Attach the second turbo fan 9 to the end of a, and then,
A second fan cover 11 having an inlet 14 opened at a center position is fixed on the first fan cover 10 by screws.
The blower A is constructed by integrally connecting and fixing the blower means 7 and the electric motor 1 via the bottom plate 12. In addition, 15 shown in FIG. 1 is a discharge port provided in the bottom plate 12.

【0013】図1,2において、16は回転子軸4aが
突出する貫通孔a1 を穿孔したブラケット6の前記貫通
孔a1 を封鎖する封鎖筒であり、この封鎖筒16は、図
2,3で示すように、回転子軸4aが挿通する先端に小
径な筒状部16aを形成し、この小径な筒状部16aの
反対側に位置する部位には径大な平坦部16bを形成し
て、全体形状がほぼ喇叭状に形成されている。
[0013] In FIGS. 1 and 2, 16 is blocked tube to block the through hole a 1 of the bracket 6 drilled through holes a 1 rotor shaft 4a protrudes, this blockade tube 16, FIG. 2, As shown in FIG. 3, a small-diameter cylindrical portion 16a is formed at the end where the rotor shaft 4a is inserted, and a large-diameter flat portion 16b is formed at a portion opposite to the small-diameter cylindrical portion 16a. Thus, the entire shape is formed in a trumpet shape.

【0014】そして、前記喇叭状の封鎖筒16を形成す
る場合は、耐熱,耐循環性,及び耐摩耗性に優れ、か
つ、弾力性に富む合成樹脂、例えば、ポリテトラフルオ
ロエチレンを周知の射出成形手段を用いて射出成形する
ことにより形成する。前記封鎖筒16を射出成形する場
合は、例えば、図4に示すように、封鎖筒16の筒状部
16aを形成するために上方に突設した円筒状の突起部
17aと、その突起部17aの基部をテーパー状に形成
し、かつ、前記テーパー部16cと連なって平坦部16
bを形成するための平坦面17bを備えた凸部金型17
と、封鎖筒16の肉厚寸法に相当する寸法分だけ凹設し
た状態で前記突起部17aを嵌合する嵌合孔18cを設
けて前記凸部金型17に嵌合保持可能に設けた凹部金型
18とを用いる。
When the horn-shaped closed cylinder 16 is formed, a synthetic resin, for example, polytetrafluoroethylene, which is excellent in heat resistance, circulation resistance and abrasion resistance, and has high elasticity, is well known in the art. It is formed by injection molding using molding means. When the sealing cylinder 16 is injection-molded, for example, as shown in FIG. 4, a cylindrical projection 17a projecting upward to form a cylindrical portion 16a of the sealing cylinder 16, and the projection 17a Is formed in a tapered shape, and the flat portion 16 is connected to the tapered portion 16c.
convex mold 17 having a flat surface 17b for forming
And a recess provided so as to be fitted and held in the projection mold 17 by providing a fitting hole 18c for fitting the projection 17a in a state of being recessed by a dimension corresponding to the thickness dimension of the sealing cylinder 16. A mold 18 is used.

【0015】封鎖筒16の射出成型に当っては、凸部金
型17上に凹部金型18を嵌合し、凹部金型18に穿孔
されて封鎖筒16を形成するために凹設した空所部18
aと連通する材料供給孔18bから、所定の図示しない
射出成形手段にて封鎖筒16を成形する合成樹脂のペレ
ットを、図示しない射出成形手段を用いて所定の圧力で
凹部金型18の前記空所部18a内に射出成形すること
により、喇叭状の封鎖筒16を射出成形して形成する。
In the injection molding of the sealing cylinder 16, a concave mold 18 is fitted on the convex mold 17, and a hollow is formed in the concave mold 18 so as to be recessed to form the sealing cylinder 16. Department 18
From the material supply hole 18b communicating with a, a synthetic resin pellet for molding the sealing cylinder 16 by a predetermined injection molding means (not shown) is removed by a predetermined pressure using the injection molding means (not shown). The horn-shaped closure tube 16 is formed by injection molding by injection molding in the location 18a.

【0016】次に、前記射出成形手段にて形成した封鎖
筒16をブラケット6に取付ける場合について説明す
る。前記封鎖筒16の取付けに当っては、事前に図2に
示すように、封鎖筒16をブラケット6の軸受筐a背壁
に穿孔した回転子軸4aの貫通孔a1 から小径な筒状部
16aに突出させ、かつ、反対側に位置する径大な平坦
部16bを貫通孔a1 を閉鎖するような状態で軸受筐a
の背壁に当接させる。
Next, a case where the sealing cylinder 16 formed by the injection molding means is attached to the bracket 6 will be described. As shown in FIG. 2, a small-diameter cylindrical portion is formed through a through hole a 1 of a rotor shaft 4 a in which the sealing cylinder 16 is bored in a back wall of a bearing housing a of a bracket 6 beforehand. to protrude 16a, and the bearing housing a a large-diameter flat portion 16b on the opposite side in a state to close the through hole a 1
Abut against the back wall.

【0017】この後、ボールベアリング5,5aを所定
位置に取付けた回転子4を固定子鉄心3の回転子挿入孔
3aに挿入し、つづいて、回転子軸4aの両側からブラ
ケット6,6aを当てがい、ブラケット6は、その軸受
筐aから突出する封鎖筒16の筒状部16aより回転子
軸4aを突出させてボールベアリング5を軸受筐aに嵌
合し、他方のブラケット6aは回転子軸4aを突出させ
ることなく、そのまま軸受筐にボールベアリング5aを
嵌合する。ブラケット6,6aの軸受筐にそれぞれボー
ルベアリング5,5aを嵌合させたら、両ブラケット
6,6aを固定子鉄心3に図示しない締付ボルトを用い
て締着することにより、電動機1は回転子4をボールベ
アリング5,5aにより回転自在に支承させた状態でそ
の組立を終える。
Thereafter, the rotor 4 with the ball bearings 5 and 5a mounted at predetermined positions is inserted into the rotor insertion hole 3a of the stator core 3, and then the brackets 6 and 6a are removed from both sides of the rotor shaft 4a. The fitting 6, the bracket 6 has the rotor shaft 4a protruding from the cylindrical portion 16a of the sealing cylinder 16 protruding from the bearing housing a, and the ball bearing 5 is fitted to the bearing housing a. The other bracket 6a is the rotor 6a. The ball bearing 5a is fitted to the bearing housing without projecting the shaft 4a. After the ball bearings 5 and 5a are fitted into the bearing housings of the brackets 6 and 6a, the motor 1 is rotated by tightening both brackets 6 and 6a to the stator core 3 using a fastening bolt (not shown). The assembly is completed in a state where the roller 4 is rotatably supported by the ball bearings 5 and 5a.

【0018】電動機1の組立が終了すると、回転子軸4
aが突出するブラケット6側は、図2で示すように、喇
叭状の封鎖筒16が貫通孔a1 から突出する回転子軸4
aを筒状部16aから該筒状部16aと回転自在に摺接
させた状態で突出させ、かつ、平坦部16bは軸受筐a
の背壁とボールベアリング5の外輪との間で強固に挟持
されて、封鎖筒16がブラケット6の貫通孔a1 から抜
脱するのを確実に阻止している。
When the assembly of the electric motor 1 is completed, the rotor shaft 4
The bracket 6 side a is protruded, as shown in Figure 2, the rotor shaft 4 trumpet-shaped sealed tube 16 is protruded from the through hole a 1
a is protruded from the cylindrical portion 16a in a state in which the cylindrical portion 16a is rotatably slidably contacted with the cylindrical portion 16a, and the flat portion 16b is a bearing housing a.
Is firmly held between the back wall and the outer ring of the ball bearing 5, the sealing tube 16 is reliably prevented from being pulled out from the through hole a 1 of the bracket 6.

【0019】この結果、ブラケット6の貫通孔a1 は、
回転子軸4aが外方に突出しているにもかかわらず、図
2に示すように、筒状部16aと平坦部16bとの間に
位置するテーパー部分(曲成部)16cによって封鎖さ
れ、軸受筐aと外部との間を完全に遮蔽することができ
る。電動機1の組立が終了したら、この電動機1と送風
手段7とを図示しない取付ボルト,ナットを用いて一体
的に連結・固定して例えば送風機Aを構成する。なお、
図1中、20はブラケット6と底板12との間の空隙を
閉塞する例えば、ゴム製のリングである。
As a result, the through hole a 1 of the bracket 6
Although the rotor shaft 4a protrudes outward, as shown in FIG. 2, the rotor shaft 4a is closed by a tapered portion (curved portion) 16c located between the cylindrical portion 16a and the flat portion 16b, and the bearing is closed. The space between the housing a and the outside can be completely shielded. When the assembling of the electric motor 1 is completed, the electric motor 1 and the blower means 7 are integrally connected and fixed using mounting bolts and nuts (not shown) to form, for example, a blower A. In addition,
In FIG. 1, reference numeral 20 denotes, for example, a rubber ring that closes a gap between the bracket 6 and the bottom plate 12.

【0020】次に動作について説明する。電動機1のコ
イルボビン2に巻装した図示しないコイルに通電を行い
回転子4を回転させると、送風手段7を構成する第1,
第2のターボファン8,9は回転し、外気を送風手段7
の第2のファンカバー11に設けた吸入口14より吸引
し、吸引した外気を送風手段7内で圧送しながら、流通
孔13を経て底板12に設けた排出口15から図示しな
い給送管を通して前記外気を例えば、図示しない給湯機
のバーナー部に圧送する。外気を送風手段7内で圧送す
る場合、送風手段7の底板12は取付孔12aが、電動
機1のブラケット6の軸受筐a外周に被着したリング2
0によって隙間が生じないよう気密に封止されているの
で、外気が外部に漏洩することは全くなく、外気を良好
に圧送して給湯機のバーナー部に給送することができ
る。
Next, the operation will be described. When current is supplied to a coil (not shown) wound around the coil bobbin 2 of the electric motor 1 to rotate the rotor 4, the first
The second turbo fans 8 and 9 rotate, and supply the outside air to the blowing means 7.
The air is sucked from a suction port 14 provided in the second fan cover 11, and the sucked outside air is pressure-fed in the blowing means 7, while passing from a discharge port 15 provided in the bottom plate 12 through a flow hole 13 through a feeding pipe (not shown). The outside air is pressure-fed to, for example, a burner of a water heater (not shown). When the outside air is pressure-fed in the blowing means 7, the bottom plate 12 of the blowing means 7 has a mounting hole 12 a provided on the outer periphery of the bearing housing a of the bracket 6 of the electric motor 1.
Since the airtight sealing is performed so that no gap is formed by the zero, the outside air does not leak to the outside at all, and the outside air can be satisfactorily pumped and fed to the burner portion of the water heater.

【0021】前記外気の圧送・給送時外気に混って粉雪
や粉塵等の異物が流入したり、あるいは、外気自体に塩
分が含まれていたりすると(送風機Aは一般に屋外に設
置される)、これら異物や塩分等はそのまま吸入口14
から送風手段7内に流入し、排出口15から外気ととも
にバーナー部に給送される。しかし、送風手段7内に流
入した異物等のすべてが排出口15から排出されれば特
別問題はないが、外気はターボファン9,8により送風
手段7により圧送され、その圧送途中に一部の外気は底
板12の取付孔12aから外部に流出しようとする。
When foreign matter such as snow or dust flows into the outside air during the feeding and feeding of the outside air, or when the outside air itself contains salt (the blower A is generally installed outdoors). , And these foreign substances and salts are not
Then, the air flows into the blowing means 7 and is supplied from the discharge port 15 to the burner together with the outside air. However, there is no particular problem if all the foreign matter and the like flowing into the blowing means 7 is discharged from the discharge port 15, but the outside air is pressure-fed by the blowing means 7 by the turbo fans 9, 8, and a part of the air is fed during the pressure-fed. The outside air tends to flow out of the mounting hole 12a of the bottom plate 12 to the outside.

【0022】しかし、前記取付孔12aはリング20に
よって囲繞されているので、外気は取付孔20からの流
出が困難となり、そのまま電動機1の回転子軸4aが突
出しているブラケット6の貫通孔a1 からその内部に侵
入しようとする。一方、前記ブラケット6の貫通孔a1
は、図2に示すように、回転子軸4aを突出させた状態
で合成樹脂製の封鎖筒16にて完全に閉鎖されているた
め、前記取付孔12a付近に圧送された外気は、前記封
鎖筒16のテーパー部分16cを押圧して貫通孔a1
ら軸受筐a内に侵入しようとするものの、封鎖筒16は
弾力性に優れた材料にて形成されているので、外気の風
圧によりテーパー部分16cは湾曲するが、その湾曲面
に沿って外気をそのままテーパー部分16cの放射方向
に案内して排出口15側に誘導し、排出口15から排出
させる。
However, since the mounting hole 12a is surrounded by the ring 20, it is difficult for the outside air to flow out of the mounting hole 20, and the through-hole a 1 of the bracket 6 from which the rotor shaft 4a of the electric motor 1 projects as it is. Trying to break into it. On the other hand, the through hole a 1 of the bracket 6
As shown in FIG. 2, since the rotor shaft 4 a is protruded and completely closed by a synthetic resin sealing cylinder 16, the outside air pressure-fed near the mounting hole 12 a does not although attempting to break the tapered portion 16c of the tube 16 from the pressing to the through-holes a 1 in the bearing housing a, since blockade tube 16 is formed of a material excellent in elasticity, the tapered portion by the outside air of the wind pressure Although 16c is curved, outside air is guided along the curved surface in the radial direction of the tapered portion 16c as it is, guided to the discharge port 15 side, and discharged from the discharge port 15.

【0023】従って、前記外気とともに侵入する粉塵等
は、前記封鎖筒16に遮られて貫通孔a1 から軸受筐a
への侵入を確実に防ぐことができる。この結果、軸受筐
a及びボールベアリング5に対する耐環境性が良好に維
持でき、電動機1の運転を長期間にわたり円滑に維持す
ることが可能となり、電動機1の信頼性を著しく向上さ
せることができる。
Therefore, dust and the like that enter with the outside air are blocked by the sealing cylinder 16 and pass through the through hole a 1 to the bearing housing a.
Can be reliably prevented from entering. As a result, the environmental resistance to the bearing housing a and the ball bearing 5 can be maintained well, the operation of the electric motor 1 can be maintained smoothly for a long time, and the reliability of the electric motor 1 can be significantly improved.

【0024】一方、ブラケット6の貫通孔a1 から封鎖
筒16の筒状部16aを介して外方に突出する回転子軸
4aは、前記外気の取付孔12aへの侵入に際しても常
に耐摩耗性に優れた封鎖筒16の筒状部16aと摺接し
て回転運動を続行している。それは封鎖筒16自体が耐
摩耗性に富み、かつ、弾力性に優れていることにより、
外気が取付孔12aに圧送されても、その風圧に耐えて
回転子軸4aと密接して外気が回転子軸4aの突出する
筒状部16aからの侵入を良好に阻止することはもとよ
り、耐摩耗性の合成樹脂の使用により、回転子軸4aの
回転運動に何等の支障も与えることが全くなく、電動機
1の運転を阻害することなく、円滑・良好に回転子4を
回転させた状態での塵埃等の侵入を確実に防ぐことがで
きる。
On the other hand, a rotor shaft 4a projecting outwardly from the through hole a 1 of the bracket 6 via the cylindrical portion 16a of the blockade tube 16 is always wear resistance upon entering the outside air of the mounting hole 12a The sliding motion is continued by slidingly contacting the cylindrical portion 16a of the sealing cylinder 16 which is excellent in the above. It is because the closure tube 16 itself is rich in wear resistance and excellent in elasticity,
Even if the outside air is pressure-fed to the mounting hole 12a, it can withstand the wind pressure and is in close contact with the rotor shaft 4a to prevent the outside air from entering the cylindrical portion 16a from which the rotor shaft 4a protrudes. By using the abrasion-resistant synthetic resin, there is no hindrance to the rotational movement of the rotor shaft 4a, and the rotor 4 is smoothly and smoothly rotated without hindering the operation of the electric motor 1. Intrusion of dust and the like can be reliably prevented.

【0025】なお、本発明は回転子軸4aが挿通する封
鎖筒16の筒状部16aに前記回転子軸4aを面接触さ
せた状態で突出させる例で説明したが、これに限定する
ことなく筒状部16aの内側に1条又は複数条の凸条を
周設したり、複数条の凸条間にグリースを充填し、これ
ら凸条部を回転子軸4aと直接摺接させたり、あるい
は、グリースの油膜により外気が軸受筐aに侵入するの
を阻止するようにしてもよいことは勿論である。又、封
鎖筒16は射出成形により形成する代りに、一枚の樹脂
製の平板を喇叭状に曲成加工したものを封鎖筒として使
用するようにしても本発明は成立する。
Although the present invention has been described with reference to the example in which the rotor shaft 4a is projected from the cylindrical portion 16a of the closing cylinder 16 through which the rotor shaft 4a is inserted in a state of surface contact, the present invention is not limited to this. One or more ridges are provided around the inside of the cylindrical portion 16a, or grease is filled between the plurality of ridges, and these ridges are brought into direct sliding contact with the rotor shaft 4a, or Of course, the grease oil film may be used to prevent outside air from entering the bearing housing a. In addition, the present invention can be realized even if the sealing cylinder 16 is formed by bending a single resin flat plate into a horn shape instead of being formed by injection molding.

【0026】[0026]

【発明の効果】本発明は、以上説明したように、回転子
軸が突出するブラケットの貫通孔を、前記回転子軸を挿
通する先端を小径な筒状となし、基端は軸受筐とボール
ベアリングとの間に挟持すべく大径で平坦状に形成した
喇叭状の封鎖筒により、回転子の回転を阻害しないよう
に封鎖して構成したので、電動機の運転中に回転子軸が
突出するブラケットの貫通孔から粉塵や塩分を含んだ空
気の侵入を前記封鎖筒によって良好に遮蔽することがで
きるため、ボールベアリングが粉塵等の侵入によりその
寿命が低下するといった問題を確実に解消することが可
能となり、電動機を長期にわたり安定した状態で駆動さ
せることができる。
As described above, according to the present invention, the through hole of the bracket from which the rotor shaft protrudes is formed into a small-diameter cylindrical tip at the end through which the rotor shaft is inserted, and the base ends are the bearing housing and the ball. The rotor shaft protrudes during operation of the electric motor because it is closed by a large-diameter flat-shaped horn-shaped closing cylinder to be sandwiched between bearings so as not to hinder the rotation of the rotor. Since the intrusion of air containing dust or salt from the through hole of the bracket can be satisfactorily shielded by the sealing cylinder, it is possible to reliably solve the problem that the life of the ball bearing is reduced due to the intrusion of dust and the like. Thus, the electric motor can be driven in a stable state for a long time.

【0027】又、前記喇叭状の封鎖筒は、耐摩耗性、耐
潤滑性及び耐熱性等に優れた合成樹脂を用いて、射出成
形あるいは曲成加工することにより簡単に成形加工する
ことができるとともに、その取付に当っても、電動機の
組立時にブラケットの軸受筐から貫通孔を利用して筒状
部をブラケット外に突出させ、かつ、基端の平坦部はボ
ールベアリングを軸受筐に嵌合することにより容易に軸
受筐に挟持させることができるので、電動機の組立作業
が簡単に、かつ、経済的に行うことができる。
The horn-shaped closed cylinder can be easily formed by injection molding or bending using a synthetic resin having excellent wear resistance, lubrication resistance and heat resistance. At the same time, when mounting the motor, the cylindrical part protrudes out of the bracket using the through hole from the bearing housing of the bracket when assembling the motor, and the flat part at the base end fits the ball bearing to the bearing housing. By doing so, the electric motor can be easily held between the bearing housings, so that the assembling work of the electric motor can be performed easily and economically.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の軸受装置を備えた電動機の使用状態を
示す送風機の要部切欠側面図である。
FIG. 1 is a cutaway side view of a main part of a blower showing a use state of an electric motor provided with a bearing device of the present invention.

【図2】本発明の軸受装置を示す縦断面図である。FIG. 2 is a longitudinal sectional view showing the bearing device of the present invention.

【図3】封鎖筒の斜視図である。FIG. 3 is a perspective view of a closing cylinder.

【図4】封鎖筒の製造状態の1例を示す説明図である。FIG. 4 is an explanatory view showing an example of a production state of the closing cylinder.

【符号の説明】[Explanation of symbols]

1 電動機 4 回転子 4a 回転子軸 5,5a ボールベアリング 6,6a ブラケット 16 封鎖筒 16a 筒状部 16b 平坦部 16c テーパー部分 DESCRIPTION OF SYMBOLS 1 Electric motor 4 Rotor 4a Rotor shaft 5,5a Ball bearing 6,6a Bracket 16 Sealing cylinder 16a Cylindrical part 16b Flat part 16c Tapered part

Claims (3)

【特許請求の範囲】[Claims] 【請求項1】 回転子軸に取付けた回転子と、回転子と
対向配置された固定子鉄心を両側から挟持するととも
に、中心位置に軸受筐を形成した一対のブラケットと、
回転子軸の両端側に取付けたボールベアリングとを備
え、前記回転子を固定子鉄心に回転可能に挿入してその
両側から回転子軸両端のボールベアリングを軸受筐に嵌
合させた状態で前記回転子を回転可能に支承した一対の
ブラケットを、一方のブラケットの貫通孔から回転子軸
を突出させた状態で固定子鉄心に取付けて構成した電動
機において、前記回転子軸を挿通する筒状部の先端を小
径となし、ブラケットの貫通孔を通って軸受筐内に進入
する基端を大径な平坦部となして形成した喇叭状の封鎖
筒を、先端の筒状部に回転子軸を回転自在に挿通し、基
端を軸受筐の背壁とボールベアリングとの間に挟持し
て、ブラケットの貫通孔を封鎖するようにしたことを特
徴とする電動機の軸受装置。
1. A pair of brackets having a rotor attached to a rotor shaft, a stator core opposed to the rotor and sandwiched from both sides, and a bearing housing formed at a center position.
Ball bearings mounted on both ends of a rotor shaft, wherein the rotor is rotatably inserted into a stator core, and ball bearings at both ends of the rotor shaft are fitted into bearing housings from both sides thereof. In a motor configured by attaching a pair of brackets rotatably supporting a rotor to a stator core with a rotor shaft protruding from a through hole of one of the brackets, a cylindrical portion through which the rotor shaft is inserted The end of the bracket has a small diameter, and the base end that enters the bearing housing through the through hole of the bracket is a large-diameter flat part. A bearing device for an electric motor, wherein the bearing device is rotatably inserted and a base end thereof is sandwiched between a back wall of a bearing housing and a ball bearing to block a through hole of a bracket.
【請求項2】 前記封鎖筒は、ゴム,合成樹脂からなる
耐熱,耐潤滑性及び耐摩耗性に優れた部材を射出成形手
段により喇叭状に射出成形して形成するようにしたこと
を特徴とする請求項1記載の電動機の軸受装置。
2. The closure tube is formed by injection-molding a member made of rubber or synthetic resin, which is excellent in heat resistance, lubrication resistance and abrasion resistance, into a horn shape by injection molding means. The bearing device for an electric motor according to claim 1.
【請求項3】 前記喇叭状の封鎖筒は、回転子軸が挿通
する小径な筒状先端の内周面に1条ないし複数条の凸条
段部を回転子軸と摺接可能に形成したことを特徴とする
請求項2記載の電動機の軸受装置。
3. The horn-shaped closing cylinder has one or more protruding steps formed on the inner peripheral surface of a small-diameter cylindrical tip through which the rotor shaft is inserted so as to be able to slide on the rotor shaft. 3. The bearing device for an electric motor according to claim 2, wherein:
JP17808998A 1998-06-09 1998-06-09 Bearing device of motor Pending JPH11356001A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP17808998A JPH11356001A (en) 1998-06-09 1998-06-09 Bearing device of motor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP17808998A JPH11356001A (en) 1998-06-09 1998-06-09 Bearing device of motor

Publications (1)

Publication Number Publication Date
JPH11356001A true JPH11356001A (en) 1999-12-24

Family

ID=16042450

Family Applications (1)

Application Number Title Priority Date Filing Date
JP17808998A Pending JPH11356001A (en) 1998-06-09 1998-06-09 Bearing device of motor

Country Status (1)

Country Link
JP (1) JPH11356001A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003052145A (en) * 2001-08-06 2003-02-21 Tamagawa Seiki Co Ltd Oil-sealing structure for motor
CN107896014A (en) * 2016-10-03 2018-04-10 建准电机工业股份有限公司 Motor with a stator having a stator core
CN109667839A (en) * 2017-10-13 2019-04-23 建准电机工业股份有限公司 Bearing group and the motor for having bearing group

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003052145A (en) * 2001-08-06 2003-02-21 Tamagawa Seiki Co Ltd Oil-sealing structure for motor
CN107896014A (en) * 2016-10-03 2018-04-10 建准电机工业股份有限公司 Motor with a stator having a stator core
CN109667839A (en) * 2017-10-13 2019-04-23 建准电机工业股份有限公司 Bearing group and the motor for having bearing group

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