CN1684346A - Coreless motor and its producing and assembling method - Google Patents
Coreless motor and its producing and assembling method Download PDFInfo
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- CN1684346A CN1684346A CN 200410017668 CN200410017668A CN1684346A CN 1684346 A CN1684346 A CN 1684346A CN 200410017668 CN200410017668 CN 200410017668 CN 200410017668 A CN200410017668 A CN 200410017668A CN 1684346 A CN1684346 A CN 1684346A
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Abstract
This invention relates to a coreless motor and its manufacture and assembly method, among which, the coreless motor includes a magnetic shell, a circle excitation magnetite set in the shell, a shaft and a bearing component characterizing in designing an open-end at the bottom of the shell, filling a resin material in the hollow part of the magnetite from the open-end to blockage the open-end and form a bearing at the end of the loading shaft. The method includes: 1, preparing and manufacturing spare parts of the motor and resin material, 2, putting the magnetite in the shell to be filled with the resin and fixed to form a bearing, 3, installing coils, a commutator, the shaft and the bearing component in the shell.
Description
Technical field
The present invention relates to a kind of motor, relate in particular to the method for a kind of core free motor and making thereof and assembling.
Background technology
At Japan Patent on (putting down into 5 years) No. 2557 communique a kind of core free motor was disclosed in 1993, this core free motor has motor chassis cylindraceous, is arranged on excitatory magnetite, axle and the bearing thereof of motor chassis inner space, and bearing is arranged in the hollow of the excitatory magnetite of ring-type; Its action principle is, by being arranged on the effect that bearing in the excitatory magnetite hollow reaches the power of bearing shaft on direction of principal axis.
The defective that above-mentioned prior art core free motor exists in actual manufacturing and operating process is: because the power of axle on direction of principal axis is accepted by the bearing that is arranged in the excitatory magnetite hollow, this bearing also will be accepted the power of axle on the axle radius simultaneously, so the prior art core free motor must be provided with a bearing between the outer peripheral face of coil and axle.Like this, not only increase the required number of portion's product, improved cost, made it time-consuming, effort because of having increased the bearing assembling procedure aspect the assembling of bearing simultaneously.
Summary of the invention
The object of the present invention is to provide the method for a kind of core free motor and making thereof and assembling, it can make required product component number descend, and makes it cripetura manufacturing and assembling procedure, thereby not only reduces cost and make and assemble simple.
The object of the present invention is achieved like this:
A kind of core free motor, this core free motor comprises: a magnetic motor chassis, this motor chassis constitutes columnar motor chassis by housing bottom and housing sidepiece; Be arranged on the excitatory magnetite of ring-type in the motor chassis; Be arranged in the axle that motor chassis central authorities and one end are enclosed within the excitatory magnetite of ring-type mutually; Be placed in the coil in the gap between excitatory magnetite of ring-type and the motor chassis; Be fixedly installed on the commutator commutator in coil one side; Be arranged on the motor chassis front side end and form the bearing portion that motor shell is anterior and realize bearing is carried on a shoulder pole the bearing effect; Be characterized in:
Described motor chassis bottom is provided with a peristome, and described motor chassis middle part is that the excitatory magnetite of ring-type central authorities form hollow, and peristome and hollow connect;
Potting resin material in the hollow of described motor chassis central authorities and peristome;
The Outboard Sections of the described resin material that solidifies is embedded in and has sealed in the motor chassis bottom peristome, and the sealing shape is formed on the motor chassis bottom, and the inboard part of the resin material that solidifies forms the bearing of bearing shaft one end.
In above-mentioned core free motor, wherein, described bearing diameter is big and be " コ " word shape, and the internal diameter of the recess of this bearing is greater than the external diameter of axle, one end of described axle is positioned at the recess of bearing, and the external diameter of axle and the internal diameter of bearing recess are rotatably suitable.
In above-mentioned core free motor, wherein, be provided with resin material in the gap between described motor chassis bottom and excitatory magnetite and form clearance portion, this clearance portion is fixed between motor chassis and the excitatory magnetite.
In above-mentioned core free motor, wherein, the shoulder of described bearing supports inboard one end that is stuck in excitatory magnetite, and described clearance portion is supported the outside one end that is stuck in excitatory magnetite.
In above-mentioned core free motor, wherein, the peristome of described motor chassis bottom is from the inside narrow gradually cone shape of inlet beginning.
A kind of method of making and assembling above-mentioned core free motor is characterized in may further comprise the steps:
Each parts of forming core free motor and the resin material that is liquid flowing state are prepared and made to step 1 respectively;
Step 2 is placed on excitatory magnetite in the motor chassis and fixes;
In the method for above-mentioned making and assembling vibrating motor, wherein, in described step 2, be placed on excitatory magnetite in the motor chassis and the concrete steps of fixing are,
2-1 is placed on excitatory magnetite in the motor chassis,
2-2, the resin material that will be liquid flowing state enter from the peristome filling on the bottom that is located at motor chassis in the hollow of motor chassis central authorities and in the gap between motor chassis bottom and the excitatory magnetite,
2-3 waits for that resin material solidifies, and solidifies the back resin material and forms bearing and the clearance portion that can accept axle one end, and bearing and clearance portion are fixed together with excitatory magnetite clamping and with excitatory magnetite and motor chassis.
In the method for above-mentioned making and assembling vibrating motor, wherein, in described step 3, the concrete installation steps that coil, commutator commutator, axle and bearing portion parts are installed in the motor chassis are successively,
3-1 is placed in coil in the gap between excitatory magnetite and the motor chassis,
3-2 is fixedly installed in the side of coil by the peripheral part of solid with commutator commutator one side,
3-3 installs the commutator that is made of the rectification subgroup at the peripheral part of commutator commutator,
3-4 settles two brushes on the commutator relevant position,
3-5 passes the shaft through-hole of commutator commutator central authorities with axle, and inboard one end of axle is placed in the recess of bearing,
3-6, the bearing portion that its end is had the brush maintaining part is pressed in one end face of motor chassis front side, makes it to combine with motor chassis,
3-7 settles the eccentric copper that divides at the front end of axle as required.
The method of core free motor of the present invention and making thereof and assembling makes it compared with prior art owing to adopted above-mentioned technical scheme, has following advantage and good effect:
1. the present invention is owing to form hollow form with the motor middle part excitatory magnetite of ring-type central authorities, the motor chassis bottom is provided with peristome, peristome and hollow connect, resin material when the peristome place filling liquid flowing state bottom motor chassis, liquid resin material flows into hollow inside and carries out filling, resin material after solidifying has formed the bearing of accepting axle one end, therefore just need not add extra bearing portion product, like this, not only reduced portion's product number, also saved assembling process simultaneously, made the simplification that just becomes of core free motor assembling process, and realized cost degradation bearing;
The present invention since the diameter of bearing that solidifies bearing shaft one end that forms by resin material greater than the internal diameter of excitatory magnetite hollow, therefore axle need not enter the hollow inside of excitatory magnetite, and the bearing that is positioned at the excitatory magnetite outside begins to accept an end of axle, the length of excitatory magnetite hollow can be dwindled thus, thereby the miniaturization of core free motor integral body can be realized;
3. the present invention is because the bearing of resinous wood moulding is bigger than the diameter of excitatory magnetite hollow with the diameter of clearance portion, shoulder by bearing supports inboard one end that is stuck in excitatory magnetite, clearance portion is supported and to be stuck in the outside one end of excitatory magnetite, thereby excitatory magnetite is clamped from both sides and is fixed together with motor chassis;
4. the present invention is owing to be the peristome of motor chassis bottom from the inside narrow gradually cone shape of inlet beginning, thereby the resin material of liquid flowing state can be filled along taper seat very swimmingly from the beginning of peristome inlet.
Description of drawings
Some embodiment by following method to core free motor of the present invention and making and assembling can further understand purpose of the present invention, specific structural features and advantage in conjunction with the description of its accompanying drawing.Wherein,
Accompanying drawing is:
Fig. 1 is the sectional structure schematic diagram of core free motor one embodiment of the present invention;
Fig. 2 is the sectional structure schematic diagram of another embodiment of core free motor of the present invention.
Embodiment
See also shown in Figure 1ly, this is the sectional structure schematic diagram of core free motor first embodiment of the present invention.In the present embodiment, core free motor 1 of the present invention is by motor chassis 3, and the bearing portion 15 that is arranged on the excitatory magnetite 5 of ring-type, axle 11, coil 7, the commutator commutator 10 in the motor chassis 3 and is arranged on motor chassis 3 front ends forms.
In the present invention, excitatory magnetite 5 in the form of a ring, motor chassis 3 middle parts are that the excitatory magnetite of ring-type 5 central authorities form hollows 21, this hollow 21 connects with peristome 17.Potting resin material 6 in the hollow 21 of motor chassis 3 central authorities and peristome 17; This resin material 6 is that peristome 17 places of motor chassis 3 from above are filled in the hollow bulb 21, because the curing of resin material 6, excitatory magnetite 5 is fixed with respect to motor chassis 3.And the method to set up of excitatory magnetite 5 is not limited to the continuity on its direction of rotation, also is fine even if be arranged to discontinuous form on direction of rotation.
After resin material 6 is filled in the hollow bulb 21 from motor chassis 3 peristomes 17, curing along with resin material 6, the Outboard Sections of the resin material 6 that solidifies is embedded in and has sealed in 16 peristomes 17 of motor chassis 3 bottoms, the sealing shape is formed on motor chassis 3 bottoms 16, and the inboard part of the resin material 6 that solidifies forms the bearing 6a of bearing shaft 11 1 ends.
As can be seen from Fig. 1, the diameter that is filled with the resin material 6 in the hollow 21 of excitatory magnetite 5 begins from an end face of the excitatory magnetite of ring-type even compare with hollow 21 and will be greater really, big and be the ledge of " コ " word shape at cross section view upper bearing (metal) 6a diameter, the internal diameter of the recess 20 of コ word shape bearing 6a is greater than the external diameter of axle 11, one end of axle 11 is positioned at the recess 20 of bearing 6a, the external diameter of axle 11 and the internal diameter of bearing 6a recess 20 are rotatably suitable, like this, axle 11 just can freely be rotated in the recess of bearing 6a.
In addition, the resin material 6 that is filled into from the peristome 17 of motor chassis 3 also be filled with the bottom 16 of motor chassis 3 into and excitatory magnetite 5 between the gap form clearance portion 6C, this clearance portion 6C is fixed between motor chassis 3 and the excitatory magnetite 5 and motor chassis 3 and excitatory magnetite 5 is fixed together.
And, because the bearing 6a of resinous wood moulding is bigger than the diameter of hollow 21 with the diameter of clearance portion 6c, shoulder 6a1 by bearing 6a supports inboard one end that is stuck in excitatory magnetite 5, and clearance portion 6C supports and is stuck in the outside one end of excitatory magnetite 5, thereby excitatory magnetite 5 is clamped and fixed from both sides.
Inboard one end of axle 11 passes bearing portion 15 and stretches in the recess 20 of bearing 6a.The front end of axle 11 is provided with the eccentric copper 29 that divides; Axle 11 middle bodies then are placed in the bearing portion 15 that motor chassis 3 front side end form the motor shell front portion that is arranged in, the bearing effect that this bearing portion 15 that is fixed on the housing front portion realizes axle 11; Also have, be arranged on the rear end that the locational bearing 6a of hollow 21 inner processes of excitatory magnetite 5 then accepts axle 11.In addition owing to be arranged on the tabling of jut 31 and the recess 32 of axle 11 sides in the shaft through-hole 13 of commutator commutator 10, restricting axle 11 rotation.
See also shown in Figure 2ly, this is the sectional structure schematic diagram of another embodiment of core free motor of the present invention.What present embodiment was different with first embodiment is that the peristome 17 of motor chassis 3 bottoms 16 is from the inside narrow gradually cone shape of inlet beginning in the present embodiment.The advantage of the peristome 17 of cone shape is, when with resin material 6 in peristome 17 is filled into hollow bulb 21 time, resin material 6 can enter in the hollow bulb 21 of motor chassis 3 central authorities smoothly along the peristome 17 of cone shape, thereby the packing job of resin material 6 can be carried out with so being able to smoothly.
Certainly, the present invention is not limited to above-mentioned example, only otherwise breaking away from this main idea scope can do all changes.In the above-described embodiment, also can make peristome 17 into flat condition from the shape of its inlet beginning on interior side direction.
And in the above-described embodiment, can be provided with the eccentric copper 29 that divides on the front end of axle 11, the eccentric copper 29 that divides also can be set.
Please in conjunction with referring to illustrated in figures 1 and 2, a kind of method of making and assembling above-mentioned core free motor of the present invention, this method may further comprise the steps:
Each parts of forming core free motor 1 and the resin material 6 that is liquid flowing state are prepared and made to step 1 respectively;
Step 2 is placed on excitatory magnetite 5 in the motor chassis 3 and fixes, and its concrete steps are,
2-1 is placed on excitatory magnetite 5 in the motor chassis 3,
2-2, the resin material 6 that will be liquid flowing state enter from peristome 17 fillings on the bottom 16 that is arranged on motor chassis 3 in the hollow 21 of motor chassis 3 central authorities and among the gap 6C between motor chassis 3 bottoms 16 and the excitatory magnetite 5,
2-3 waits for that resin material 6 solidifies, and solidifies back resin material 6 and forms the bearing 6a and the clearance portion 6C that can accept axle 11 1 ends, and bearing 6a and clearance portion 6C are fixed together with motor chassis 3 with excitatory magnetite 5 clampings and with excitatory magnetite 5;
3-1 is placed in coil 7 with coil 7 and is set in the gap between excitatory magnetite 5 and the motor chassis 3,
3-2 is fixedly installed in the side of coil 7 by the peripheral part of solid with commutator commutator 10 1 sides,
3-3 installs the commutator 9 that is made of the rectification subgroup at the peripheral part of commutator commutator 10,
3-4 settles two brushes 27 on commutator 9 relevant positions,
3-5 passes the shaft through-hole 13 of commutator commutator 10 central authorities with axle 11, and inboard one end of axle 11 is placed in the recess 20 of bearing 6a,
3-6, the bearing portion 15 that its end is had brush maintaining part 25 is pressed in one end face of motor chassis 3 front sides, makes it to combine with motor chassis 3.
3-7 settles the eccentric copper 29 that divides at the front end of axle 11 as required.
This shows, owing in the hollow 21 of excitatory magnetite 5, flowed into the cause of resin material 6 peristome 17 on being located at motor chassis bottom 16, formed the bearing 6a of bearing shaft 11 1 ends, so need not to use extra parts of bearings, under the situation of minimizing portion product number, realized cost degradation.
In addition,, need not again bearing to be assembled owing to adopt said method, thus the assembling of core free motor 1 just become simply since core free motor 1 during fabrication between on cripeturaization, help the cost degradation of product more.
In sum, the method of core free motor of the present invention and making thereof and assembling is owing to be provided with peristome in the motor chassis bottom, resin material by filling liquid flowing state in the motor chassis bottom peristome, excitatory magnetite and motor chassis are formed the bearing of bearing shaft one end fixing the time, thereby realize the cost degradation of core free motor because of reducing parts of bearings and assembly program; Simultaneously,, and accept an end of axle, can dwindle excitatory magnetite hollow length thus and realize the miniaturization of core free motor integral body by the bearing that is positioned at the excitatory magnetite outside because axle need not enter the hollow inside of excitatory magnetite; In addition, begin inwardly narrow gradually cone shape, thereby the resin material of liquid flowing state can be filled along taper seat very swimmingly from the beginning of peristome inlet because the peristome of motor chassis bottom is from inlet; Therefore very practical.
Claims (8)
1. core free motor, this core free motor (1) comprising:
One magnetic motor chassis (3), this motor chassis (3) constitutes columnar motor chassis (3) by housing bottom (16) and housing sidepiece (19);
Be arranged on the excitatory magnetite of ring-type (5) in the motor chassis (3);
Be arranged in the axle (11) that motor chassis (3) central authorities and one end are enclosed within the excitatory magnetite of ring-type (5) mutually;
Be placed in the coil (7) in the gap between excitatory magnetite of ring-type (5) and the motor chassis (3);
Be fixedly installed on the commutator commutator (10) in coil (7) one sides;
Be arranged on motor chassis (3) front side end and form the bearing portion (15) that motor shell is anterior and realize axle (11) is born the bearing effect;
It is characterized in that:
Described motor chassis (3) bottom (16) is provided with a peristome (17), and described motor chassis (3) middle part is that the excitatory magnetite of ring-type (5) central authorities form hollow (21), and peristome (17) connects with hollow (21);
Potting resin material (6) in the hollow (21) of described motor chassis (3) central authorities and peristome (17);
The Outboard Sections of the described resin material that solidifies (6) is embedded in and has sealed in motor chassis (3) bottom (16) peristome (17), the sealing shape is formed on motor chassis (3) bottom (16), and the inboard part of the resin material that solidifies (6) forms the bearing (6a) of bearing shaft (11) one ends.
2. core free motor as claimed in claim 1, it is characterized in that: described bearing (6a) diameter is big and be " コ " word shape, the internal diameter of the recess (20) of this bearing (6a) is greater than the external diameter of axle (11), one end of described axle (11) is positioned at the recess (20) of bearing (6a), and the external diameter of axle (11) and the internal diameter of bearing (6a) recess (20) are rotatably suitable.
3. core free motor as claimed in claim 1, it is characterized in that: be provided with resin material (6) in the gap between described motor chassis (3) bottom (16) and excitatory magnetite (5) and form clearance portion (6C), this clearance portion (6C) is fixed between motor chassis (3) and the excitatory magnetite (5).
4. as claim 1 or 3 described core free motors, it is characterized in that: the shoulder (6a1) of described bearing (6a) supports inboard one end that is stuck in excitatory magnetite (5), and described clearance portion (6C) is supported the outside one end that is stuck in excitatory magnetite (5).
5. core free motor as claimed in claim 1 is characterized in that: the peristome (17) of described motor chassis (3) bottom (16) is from the inside narrow gradually cone shape of inlet beginning.
6. method of making and assembling above-mentioned core free motor is characterized in that may further comprise the steps:
Each parts of forming core free motor (1) and the resin material (6) that is liquid flowing state are prepared and made to step 1 respectively;
Step 2 is placed on excitatory magnetite (5) in the motor chassis (3) and fixes;
Step 3 is installed into coil (7), commutator commutator (10), axle (11) and bearing portion (15) parts in the motor chassis (3) successively.
7. the method for making as claimed in claim 6 and assembling vibrating motor is characterized in that: in described step 2, is placed on excitatory magnetite (5) in the motor chassis (3) and the concrete steps of fixing are,
2-1 is placed on excitatory magnetite (5) in the motor chassis (3),
2-2, the resin material (6) that will be liquid flowing state enters in the hollow (21) of motor chassis (3) central authorities and bottom the motor chassis (3) in the gap (6C) between (16) and the excitatory magnetite (5) from peristome (17) filling on the bottom (16) that is located at motor chassis (3)
2-3, wait for that resin material (6) solidifies, solidify back resin material (6) and form bearing (6a) and the clearance portion (6C) that can accept axle (11) one ends, bearing (6a) is fixed together with (5) clamping of excitatory magnetite and with excitatory magnetite (5) and motor chassis (3) with clearance portion (6C).
8. the method for making as claimed in claim 6 and assembling vibrating motor, it is characterized in that: in described step 3, the concrete installation steps that coil, commutator commutator, axle and bearing portion parts are installed in the motor chassis are successively,
3-1 is placed in coil (7) in the gap between excitatory magnetite (5) and the motor chassis (3),
3-2 is fixedly installed in the side of coil (7) by the peripheral part of solid with commutator commutator (10) one sides,
3-3 installs the commutator (9) that is made of the rectification subgroup at the peripheral part of commutator commutator (10),
3-4 settles two brushes (27) on commutator (9) relevant position,
3-5 passes the central shaft through-hole (13) of commutator commutator (10) with axle (11), and inboard one end of axle (11) is placed in the recess (20) of bearing (6a),
3-6, the bearing portion (15) that its end is had brush maintaining part (25) is pressed in one end face of motor chassis (3) front side, makes it to combine with motor chassis (3),
3-7 settles the eccentric copper (29) that divides at the front end of axle (11) as required.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2004100176683A CN100452623C (en) | 2004-04-14 | 2004-04-14 | Coreless motor and its producing and assembling method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2004100176683A CN100452623C (en) | 2004-04-14 | 2004-04-14 | Coreless motor and its producing and assembling method |
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CN1684346A true CN1684346A (en) | 2005-10-19 |
CN100452623C CN100452623C (en) | 2009-01-14 |
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CNB2004100176683A Expired - Fee Related CN100452623C (en) | 2004-04-14 | 2004-04-14 | Coreless motor and its producing and assembling method |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101039051B (en) * | 2006-03-14 | 2010-12-22 | 日本电产三协株式会社 | Stator structure of motor |
CN102263467A (en) * | 2010-05-26 | 2011-11-30 | 精工爱普生株式会社 | Coreless electromechanical device |
CN102290885A (en) * | 2010-06-16 | 2011-12-21 | 思考电机(上海)有限公司 | Coreless motor, coreless vibration motor and mobile terminal device |
CN103122827A (en) * | 2011-11-18 | 2013-05-29 | 思考电机(上海)有限公司 | Wind power generating device |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5463307A (en) * | 1977-10-31 | 1979-05-22 | Matsushita Electric Works Ltd | Outer rotor motor |
JPS54141309U (en) * | 1978-03-24 | 1979-10-01 | ||
JPH052557U (en) * | 1991-06-21 | 1993-01-14 | 並木精密宝石株式会社 | Coreless motor |
JP2761175B2 (en) * | 1993-09-13 | 1998-06-04 | 並木精密宝石株式会社 | Coreless motor device |
JPH11215764A (en) * | 1998-01-29 | 1999-08-06 | Tokyo Parts Ind Co Ltd | Flat-type brushless motor equipped with resin-made bearing |
JP2000050597A (en) * | 1998-07-31 | 2000-02-18 | Matsushita Electric Ind Co Ltd | Slender cylindrical coreless motor and battery-driven apparatus using the same |
JP2000295830A (en) * | 1999-04-06 | 2000-10-20 | Namiki Precision Jewel Co Ltd | Coreless motor |
-
2004
- 2004-04-14 CN CNB2004100176683A patent/CN100452623C/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101039051B (en) * | 2006-03-14 | 2010-12-22 | 日本电产三协株式会社 | Stator structure of motor |
CN102263467A (en) * | 2010-05-26 | 2011-11-30 | 精工爱普生株式会社 | Coreless electromechanical device |
CN102290885A (en) * | 2010-06-16 | 2011-12-21 | 思考电机(上海)有限公司 | Coreless motor, coreless vibration motor and mobile terminal device |
CN103122827A (en) * | 2011-11-18 | 2013-05-29 | 思考电机(上海)有限公司 | Wind power generating device |
CN103122827B (en) * | 2011-11-18 | 2015-04-29 | 思考电机(上海)有限公司 | Wind power generating device |
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CN100452623C (en) | 2009-01-14 |
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Granted publication date: 20090114 Termination date: 20160414 |