CN2655494Y - Moulded motor - Google Patents

Moulded motor Download PDF

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Publication number
CN2655494Y
CN2655494Y CN 200320103973 CN200320103973U CN2655494Y CN 2655494 Y CN2655494 Y CN 2655494Y CN 200320103973 CN200320103973 CN 200320103973 CN 200320103973 U CN200320103973 U CN 200320103973U CN 2655494 Y CN2655494 Y CN 2655494Y
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China
Prior art keywords
mentioned
tooth
iron core
motor
molding type
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CN 200320103973
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Chinese (zh)
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田边竹四郎
菊地祐介
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NIPPON ELECTRONICS SHIBAURA CO Ltd
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NIPPON ELECTRONICS SHIBAURA CO Ltd
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Abstract

A molding motor 50 is formed by that molding resin molds on a rotator 10 formed by a straight steel core 16 to form a motor shell frame 53, wherein the straight steel core 16 is formed according to the overlapping of an overlapping plate 1, the overlapping plate 1 is equipped with a plurality of teeth 3 which convex from a long line portion side on one side of a belt shaped back portion yoke 2 and a V shaped cutting portion 4 equipped on one side the teeth 3 convex between the teeth 3 adjacent to the back portion yoke 2, further the inner around side portion of the straight steel core 16 where the teeth 3 are removed is molded and shaped by insulation resin to form an insulation layer 12, each tooth 3 of the straight steel core 16 which forms the insulation layer 12 winds and form a winding group 8, the stator is curved to form a ring shape on the cutting portion 4 of the straight steel core 16, connection faces on two ends of the back portion yoke 2 are connected by welding or sticking.

Description

Molding type motor
Technical field
The utility model relates to a kind of molding type motor.
Background technology
The stator of molding type motor has the method made from general ring-type stator core and the stator core (being referred to as the straight shape iron core of common name) of linearity is flexed into the method that ring-type is made.Prior art about so straight shape iron core is disclosed in Japanese kokai publication hei 9-308143 communique.
Yet, use this straight shape iron core molding type motor manufacturing in fact the difficulty, only be difficult to carry out its manufacturing by above-mentioned disclosed technology.
Therefore, the utility model provides the utility model that can positively make the molding type motor that uses straight shape iron core.
The utility model content
The molding type motor of the 1st technical scheme of the present utility model is carried out mold formed to the stator that is made of straight shape iron core by moulded resin, form motor frame; It is characterized in that: above-mentioned straight shape iron core constitutes by laminated plate is carried out lamination, and this laminated plate has the between cog of a plurality of teeth that protrude from a side's of the back yoke of band shape long leg side and the above-mentioned adjacency that is in above-mentioned back yoke and is located at the V-notch portion of the side that above-mentioned tooth protrudes; In addition, the part of interior all sides of removing above-mentioned tooth at least of above-mentioned straight shape iron core is undertaken mold formed by insulative resin, form insulating barrier, in addition, above-mentioned straight shape iron core is reeled at each tooth that forms above-mentioned insulating barrier and is formed winding, said stator forms circular-arc or ring-type at the above-mentioned notch warpage of above-mentioned straight shape iron core, is engaged by the composition surface at welding or bonding two ends with above-mentioned back yoke.
The 2nd technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: the shape on the composition surface of above-mentioned back yoke is formed crank-like.
The 3rd technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: it is mold formed to be with the axle center of said stator that the center is all carried out the gabarit except that inside diameter of said stator by moulded resin, forms motor frame.
The 4th technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: above-mentioned moulded resin is insulative resin or premix.
The 5th technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: be loaded on above-mentioned motor frame inside in the wiring substrate.
The 6th technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: be loaded on above-mentioned motor frame inside in the wiring substrate, be pre-molded to a plurality of supports that shape is used for the above-mentioned wiring substrate of mounting with above-mentioned insulating barrier at a sidepiece of above-mentioned straight shape iron core.
The 7th technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 6th technical scheme of the present utility model: positioning convex portion is further protruded from above-mentioned a plurality of supports, and the above-mentioned wiring substrate of clamping positions between above-mentioned a plurality of positioning convex portion.
The 8th technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: be pre-molded to shape lining portion with above-mentioned insulating barrier at a sidepiece of the back of above-mentioned straight shape iron core yoke, protrude a plurality of pins of tying up that are used for above-mentioned winding is carried out distribution from above-mentioned lining portion.
The 9th technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 6th technical scheme of the present utility model: the above-mentioned pin of tying up is located at from the peripheral part of tooth the 1st~the 3rd tooth of the end that is in above-mentioned straight shape iron core.
The molding type motor of the utility model the 10th technical scheme is characterized in that: above-mentioned 1 neutral point tying up in the pin is set to the back yoke that is arranged in from the periphery of arbitrary tooth of tooth the 1st~the 3rd tooth of the end that is in above-mentioned straight shape iron core with tying up pin; Above-mentioned each of tying up in the pin is set to the back yoke that is arranged in from the outer ring of arbitrary tooth of tooth the 1st~the 3rd tooth of the other end that is in above-mentioned straight shape iron core or a plurality of teeth with tying up pin mutually.
The 11st technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: above-mentioned molding type motor is a brushless DC motor.
The 12nd technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: the above-mentioned number of teeth is 12.
The 13rd technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: above-mentioned brushless DC motor is 3 phases, the above-mentioned number of teeth is 12, at winding from tooth the the the 1st, the 4th, the 7th, the 10th tooth coiling U phase of the end that is in above-mentioned straight shape iron core, the winding of tooth coiling V phase the 2nd, the 5th, the 8th, the 11st, the winding of tooth coiling W phase the 3rd, the 6th, the 9th, the 12nd.
The 14th technical scheme of the present utility model also has such feature on the basis of the molding type motor of the 1st technical scheme of the present utility model: above-mentioned molding type motor is used for air conditioner, pump, washing machine or air purifier.
According to the 1st technical scheme of the present utility model, can positively make the molding type motor that uses straight shape iron core.
According to the 2nd technical scheme of the present utility model, it is bad to reduce the winding that causes of welding, and the magnetic flux flow on composition surface improves.In addition, using laser etc. to engaging the occasion that face portion is welded from back yoke outer circumferential side, even produce the gap on the composition surface, laser also is contacted with the warpage face of crank shape, so, be not in the danger of coil scaling loss of the interior perimembranous of back yoke.In addition, the scaling loss of the coil in the time of can preventing to weld, simultaneously, the resonance on the composition surface of the back yoke that the electric and magnetic oscillation that can suppress to produce diametrically causes.In addition, can guarantee magnetic circuit.
According to the 3rd technical scheme of the present utility model, because moulded resin double as motor frame, so, do not need motor frame, in addition, do not need 1 carriage.In addition, owing to do not need a side carriage,, can form slim motor so the distance between winding and the carriage shortens.
In addition, owing to carry out ester moulding according to the internal diameter benchmark, so the internal diameter of stator core is consistent with the axle center of housing and pit, the characteristic of motor improves.
In addition, by forming resinous motor frame, thereby even the occasion of under the many environment of moisture, using, also since winding cover with insulative resin, so, do not have the danger of deterioration, the life-span of motor prolongs.
In addition, by the resin covering stator, and, the double as carriage, so, motor can be formed slim.
In addition, owing to coil is covered by resin, so even motor vibration, coil can not slide mutually yet, and is very solid, and has resistance to vibration.
In addition,, and do not need a side carriage,, can form slim motor so the distance of winding and tray chamber shortens owing to winding is covered by insulative resin.
According to the 5th technical scheme of the present utility model,, become compact motor because substrate is used in the control of interior dress.
According to the 12nd, 13 technical schemes of the present utility model,, can form the better and well behaved motor of operation of winding etc. by forming such formation.
According to the 14th technical scheme of the present utility model, can not get rusty even be housed in the many places of moisture yet, can use for a long time.
Description of drawings
Fig. 1 is the sectional drawing of the motor of the 1st embodiment of the present utility model.
Fig. 2 is the plane graph of stamping-out plate.
Fig. 3 is the front elevation of the method for winding of explanation stator core.
The perspective view of Fig. 4 for watching from interior all sides of straight shape iron core.
The perspective view of Fig. 5 for watching from the outer circumferential side of straight shape iron core.
Fig. 6 is the front elevation of the operation of the straight shape iron core of explanation warpage.
Fig. 7 is the straight shape iron core of warpage, form the front elevation of the stator of ring-type.
Fig. 8 is with the plane graph of wiring substrate mounting in stator.
Fig. 9 is near the amplification front view in composition surface of the back yoke of the 2nd form of implementation.
Figure 10 is near the amplification front view in composition surface of the back yoke when producing the gap.
Embodiment
(the 1st form of implementation)
Use Fig. 1~Fig. 8 that the formation and the manufacturing process of the 3 phase brushless DC motors (hereinafter to be referred as " motor ") 50 of the utility model the 1st form of implementation are described below.
(1) formation of motor 50
The motor 50 of this form of implementation is described according to Fig. 1.Fig. 1 is the sectional drawing of motor 50.
Motor 50 is made of motor frame 53, rotor 56,54,2 bearings 55 of carriage.Set son 10 and wiring substrate 51 in the motor frame 53 that constitutes by the moulded resin 52 of insulating properties.Rotor 56 by gyroaxis 57, permanent magnet 60, and yoke 58 constitute.Rotor 56 can remain in the pit part 59 and the carriage 54 of motor frame 53 freely to rotate by bearing 55.In addition, this carriage 54 is pressed into the pit part 59 of motor frame 53.
When being the motor 50 of above-mentioned formation, have of moulded resin 52 coverings of the wiring substrate 51 of stator core 7, winding 8 and control loop by insulating properties, so, there is not the danger of water intrusion in winding 8 and the stator core 7, be suitable as the motor that under the many environment of moisture, uses.As moulded resin 52, be insulative resin or premix (premix).
In addition, winding 8 and wiring substrate 51 be owing to cover with moulded resin 52, so, become motor with resistance to vibration.
In addition, because winding 8 covers by moulded resin 52, so, can shorten the distance of 54 on the carriage of charging part and steel plate system.In addition, owing to can omit 1 carriage, so, can form the motor that turns round axial thin thickness.
In addition, because interior assembly line substrate 51, so, compact motor become.
As known from the above, motor 50 uses drive source optimum as the fan of air conditioners such as air-conditioning, pump, washing machine or air purifier etc. or the revolution of impeller.
(2) manufacture method of motor 50
Below, according to the manufacturing process of Fig. 2~4 explanation motor 50.
(2-1) manufacturing process of stator core 7
As shown in Figure 2, stator core 7 is by forming laminated plate 1 lamination, and this laminated plate 1 carries out stamping-out by the steel plate (to call band in the following text) 5 to thin ribbon shaped and forms.
In this occasion, as shown in Figure 2, laminated plate 1 can form multi-disc (for example 8) abreast at the Width of the band 5 of band shape.
Laminated plate 1 is by forming banded back yoke 2, constituting from a side's of this back yoke 2 vertically extended 12 teeth 3 of long leg 2a side.
At the central portion of 3 in each tooth of the long leg 2a side of tooth 3 extended back yokes 2, the notch 4 of V-arrangement is set.
Tooth 3 is made of tooth body 3a that forms T shape, coiling winding 8 and the convergent part 3b that forms horn shape in order to make magnetic convergence.
The following describes its blank operation.
In the 1st operation, pull out the band 5 of the band shape of coiling.
In the 2nd operation, form caulking 21 by predetermined space at the band 5 of pulling out.
In the 3rd operation, band 5 is moved to the stamping-out platform of blanking apparatus.
In the 4th operation, become the shape of the above-mentioned laminated plate that constitutes 1 by the drift stamping-out, simultaneously, make laminated plate 1 drop to receiving orifice at stamping-out platform opening.In this occasion, the laminated plate 1 of stamping-out before the laminated plate 1 that falls is laminated to 1, when further being pushed by drift, the laminated plate 1 of lamination is fixing by caulking 21.Like this, ceaselessly laminated plate 1 is carried out lamination.
In this manufacturing process, band 5 is banded, so, implement the stamping-out operation serially.
In addition, laminated plate 1 forms multi-disc along the Width of band 5 abreast, so lamination multi-disc laminated plate 1 simultaneously.
(3-2) manufacturing process of insulating barrier 12
Below, the manufacturing process of insulating barrier 12 is described.
Necessary position at the laminated plate 1 of lamination as described above forms insulating barrier 12.This is because need to implement electric insulation between stator core 7 and winding 8.
The laminated plate 1 of lamination is contained in resin metallic mould inside, is pre-molded to shape, form insulating barrier 12 by insulative resin.
The position that forms this insulating barrier 12 is the outer circumferential side of back yoke 2 and the part of removing interior all sides of tooth 3 as shown in Figure 3.
That is, be the both sides of long leg 2a, the tooth body 3a of back yoke 2, the outer circumferential side of convergent part 3b.
In addition, such as shown in Figure 4 and Figure 5, on the top of back yoke 2, form 14,4 top support sectors 15 of top lining portion, positioning convex portion 19 simultaneously with insulating barrier 12.In addition, in the bottom of back yoke 2, with the side by side integrally formed bottom of insulating barrier 12 lining portion 20.
Offer in top lining portion 14 and to be used for fixing the fixing hole of tying up pin 17,18 that illustrates later.In addition, protrude 4 top support sectors 15 from this top lining portion 14, positioning convex portion 19 is further protruded for being used for the platform of mounting wiring substrate 51 integratedly from top support sector 15 in this top support sector 15.In addition, top support sector 15 is located at the 4th, the 6th, the 10th, the 12nd tooth 3 when the left part of straight shape iron core 16 begins as shown in Figure 4.
More than implement the title of insulating barrier 12 hereinafter referred to as " straight shape iron core 16 " at the laminated plate 1 of lamination.
In the above description, the top lining portion 14 that is provided with on the top of back yoke 2, top support sector 15 have been described, have formed the occasion of bottom lining portion 20 in the bottom of back yoke 2, but top wherein, bottom are the suitable title of employing for easy to understand ground describes in Fig. 4 and Fig. 5.
(3-3) tie up the fixedly operation of pin 17,18
Below, according to Fig. 4 and Fig. 5 the fixedly operation of tying up pin 17,18 is described.
At first, as shown in Figure 4, each of each 1 phase tied up pin 17 mutually be inserted into the peripheral part of back yoke 2 of straight shape iron core 16 or the fixing hole of peripheral part top lining portion 14 nearby, protrude 3 from straight shape unshakable in one's determination 16.In detail, the peripheral part at any tooth 3 from the right part the 1st, the 2nd or the 3rd of straight shape iron core 16 makes 3 respectively to tie up pin 17 protrusions mutually.
Also can tie up pin 17 what the 1st protruded the U phase from the right part of straight shape iron core 16, the 2nd protrude the V phase tie up pin 17, the 3rd protrude the W phase tie up pin 17.
Then, such as shown in Figure 4 and Figure 5, neutral point is inserted into back yoke 2 peripheral parts of straight shape iron core 16 or the fixing hole of peripheral part top lining portion 14 nearby with tying up pin 18, make 1 protrusion from straight shape iron core 16.In detail, make neutral point protrude 1 at any the peripheral part of tooth 3 from the left part the 1st, the 2nd or the 3rd of straight shape iron core 16 with tying up pin 18.
(3-4) winding process
Below, the winding process that the winding 8 of 3 phases is wound in the straight shape iron core 16 of 12 grooves is described.
As shown in Figure 3, turn round around the tooth body 3a of stator core 7 by the mouth of pipe 9 that winding 8 is passed through, thereby winding 8 is wound up into tooth body 3a.At this moment, carrying out coil at the state that is arranged in parallel tooth 3 reels.
Because be the stator 10 of 12 tooth 3, so, be arranged in parallel 3 mouths of pipe 9,9,9, make itself and 3 teeth 3,3,3 dispose the coil of reeling simultaneously accordingly.Then, carry out 4 coilings by after coiling, moving to next groove, thereby all 12 grooves are wound the line.
In this occasion, at straight shape iron core 16, U is in that the 1st, the 4th, the 7th, the 10th groove winds the line from the left part, and V is in that the 2nd, 5,8,11 groove winds the line from the left part, and W is in that the 3rd, the 6th, the 9th, the 12nd groove winds the line from the left part.
According to above content, and compare in the occasion of the stator core of ring-type coiling, can under high speed, carry out winding operation, can freely adjust the winding number of turns.
In addition, coiling winding 8 under the state that tooth 3 is arranged in parallel, thus improve the copper factor of the winding 8 of each groove 6.Promptly, when tooth 3 is in the state that is arranged in parallel, wideer with the width and the area in the groove 6 of the width of the width of the front end of the convergent part 3b of the tooth 3 of the front end adjacency of the convergent part 3b of 1 tooth 3, opening 11 and the area in the groove 6 opening 11 after than warpage back described later yoke 2.In addition, owing to can not consider winding 8 to be reeled, so the comparable past is improved copper factor. with being used to make the mouth of pipe 9 rotating spaces
In addition, because the quantity of the tooth 3 of stator core 2 is 12, the groove number is few, so the efficient that can form winding operation is good, the motor that obtained the balance of operation and motor characteristic.
(3-5) overlap joint distribution operation
Below, the operation of the overlap joint distribution of the winding 8 that the winding 8 that each phase is described and neutral point are used.And, carry out the star line of 3 phases.
One end of the winding 8 of U phase is lashed to U mutually with tying up pin 17, the other end is lashed to central point with tying up pin 18.
One end of the winding 8 of V phase is lashed to ties up pin 17, the other end is lashed to neutral point with tying up pin 18.
One end of the winding 8 of W phase is lashed to ties up pin 17, the other end is lashed to neutral point with tying up pin 18.
The winding 8 of this each phase carries out with the overlap joint distribution of tying up pin 18 as shown in Figure 5 at neutral point.Promptly, coiling U is pulled out to mutually the upper side of tooth 3 with the other end of the winding 8 of the U phase of tooth 3, after this, lead to the upper cut-out 14a that is in top lining portion 14 and be pulled out to the peripheral part side, peripheral part along top lining portion 14 carries out distribution up to neutral point with tying up pin 18, is lashed to neutral point with tying up pin 18.The winding 8 of other 2 phase too.
The winding 8 of this each phase carries out as shown in Figure 5 with the overlap joint distribution of tying up pin 17 mutually at each.Promptly, coiling U is pulled out to the lower side of tooth 3 in an end of the winding 8 of the U phase of the tooth 3 of usefulness mutually, after this, lead to the 20U of bottom lining portion that is in bottom lining portion 20 and be pulled out to the peripheral part side, peripheral part along bottom lining portion 20 carries out distribution with tying up pin 17 mutually up to U, is lashed to U mutually with tying up pin 17.The winding 8 of 2 phases in addition too.But the degree of depth of the lower cut-out 20V of the lower cut-out 20U of U phase, V phase, the lower cut-out 20W of W phase deepens successively, and with winding 8 contact that prevents 3 phases, the winding 8 of 3 phases can be along the peripheral part of bottom lining portion 20 distribution abreast.
(3-6) the warpage operation of straight shape iron core 16
Below, the warpage operation of straight shape iron core 16 is described.
In the 1st operation, as Fig. 6, as shown in Figure 7, be fulcrum, at tooth 3 straight shape iron core 16 of warpage on the direction of axle center position with each notch 4 of the straight shape iron core 16 of having implemented coiling.
In the 2nd operation, back yoke 2 is formed ring-type by warpage.
In the 3rd operation, the composition surface at the two ends of above-mentioned back yoke 2 is fixed by welding or bonding agent.
Like this, form the stator 10 of inner-rotor type.
The otch angle of notch 4 forms the angle that the inclined-plane in opposite directions of notch 4 can be in contact with one another when back yoke 2 is formed ring-type.
In addition, the occasion that the danger that contacts at the winding 8 of winding 8 that is wound up into 1 tooth 3 and the tooth 3 that is wound up into adjacency exists is inserted into 8 of these windings with insulation board 13.
(3-7) installation procedure of wiring substrate 51
The following describes the installation procedure of wiring substrate 51.
Wiring substrate 51 is discoideus, at peripheral part sleeve 25 is set.Sleeve is made by synthetic resin, is used for from wiring substrate 51 many flexible cords 26 being pulled out to the outside of motor 50.
As shown in Figure 8, at the discoideus wiring substrate 51 of the top of stator 10 support sector 15 mountings.At this moment, otch 23 is set, embeds 4 positioning convex portion 19 in this position respectively, wiring substrate 51 and straight shape iron core 16 are positioned at 4 positions of the peripheral part of wiring substrate 51.In this occasion, top support sector 15 is set to and begins the 4th, 6,10,12 tooth 3 from the left part of straight shape iron core 16, so, when forming ring-type, as shown in Figure 8, top support sector 15 is configured to 4 positions in opposite directions, and stably the mounting wiring substrate 51, in addition, the location of positioning convex portion 19 also can be consistent with the axle center of stator 10.In addition, in the back during explanation mold formed, owing to have positioning convex portion 19 at 4 positions in opposite directions position, so wiring substrate 51 can not flow to moulded resin.
In addition, wiring substrate 51 form 24,3 of Wiring patterns each mutually with tying up pin 17 and 1 neutral point with tying up 4 connecting holes that pin 18 connects in 51 upper sheds of distribution roll bending.Then, as described above, unshakable in one's determination 16 the time in wiring substrate 51 and straight shape when mounting, the neutral point of tying up pin 17 and 1 with 3 each phases is inserted into 4 connecting holes with tying up pin 18 respectively, carries out above-mentioned Wiring pattern and solder.
Like this, the winding 8 that can simply the winding 8 and the neutral point of each phase be used is connected to wiring substrate 51.
(3-8) manufacturing process of motor frame 53
Below, motor frame 53 is described.
The occasion that the motor frame that will keep the stator 10 of wiring substrate 51 to be inserted into a certain steel plate system in the past as described above carries out the assembling of motor, because the external diameter of stator 10 is not for just round, so, be the axle center of benchmark and be that the axle center of benchmark is inconsistent with the external diameter with the internal diameter of stator core 7.Therefore, be difficult to peripheral part with stator 10 as benchmark, carry out the assembling of motor.That is, the installation accuracy of floating bearing etc. that is installed on the motor frame of steel plate system descends, and performance reduces.
Therefore, in this form of implementation, it is mold formed to be with the internal diameter of stator 10 that benchmark carries out by insulative resin or premix (to call moulded resin in the following text), forms motor frame 53.
Specifically, the inside diameter that keeps the stator 10 of wiring substrate 51 as described above is inserted into the plug of resin metallic mould (not shown), close metal pattern after, under high pressure undertaken mold formed by moulded resin.
Mold formed by this by moulded resin 52 one covering stators unshakable in one's determination 7 and wiring substrate 51 etc., form motor frame 53.
By above explanation as can be known, when carrying out when mold formed, the internal diameter that forms simultaneously with stator core 7 is that benchmark inserts the housing of the bearing 55 that rotor 56 is supported and the pit part 59 of insertion carriage 54, so, such 3 the axle center unanimities in the axle center of the axle center of the internal diameter of stator core 7, the axle center of housing, pit part 59 become the uniform high-precision motor in air gap.That is, because inside diameter that can stator 10 is that benchmark is also integrally formed with motor frame 53 with the cartridge housing body, so the inside diameter of stator 10 is consistent with the axle center.In addition, the pit part 59 that a side carriage 54 engages also is formed at motor frame 53, so the axle center of this pit part 59 is also consistent with the internal diameter of stator 10.
Therefore, become the high motor frame of assembly precision 53.
(the 2nd form of implementation)
Below, the 2nd form of implementation on composition surface at back yoke 2 two ends of stator 10 is described according to Fig. 9 and Figure 10.
As the 1st form of implementation, the composition surface at back yoke 2 two ends forms linearity, when only welding the peripheral part side of back yoke 2, near the composition surface of this back yoke, be the fulcrum fluctuation by the electric and magnetic oscillation that radially produces with the weld part, exist with electric and magnetic oscillation resonate may.Therefore, in the 2nd form of implementation, address this problem for crank-like by making composition surface 44.
Fig. 9 is near the amplification front view in composition surface of the back yoke 2 of this form of implementation, near the amplification front view the composition surface 44 of the back yoke 2 when Figure 10 is the generation gap.
As by the explanation of the 1st form of implementation, stator 10 is flexed into ring-type with straight shape iron core 16.
The shape of watching from the gyroaxis direction on the composition surface 44 at the both ends of the back yoke 2 of straight shape iron core 16 forms crank-like.Then, the outer peripheral face at the both ends of back yoke 2 is provided with protruding 45a, 45b respectively.
Warpage back yoke 2 makes protruding 45a, 45b carry out the face contact, and Laser emission mouth 46 is welded near protruding 45a, 45b.
By constituting as described above, as shown in Figure 10, even produce the gap on the composition surface 44 of back yoke 2, the warpage face 44a in the way on composition surface 44 becomes wall, does not have laser to arrive the danger of the interior perimembranous of back yoke 2, does not damage the danger of winding 8.
In addition, even produce the gap a little on the composition surface 44 of back yoke 2, also the warpage face 44a portion to composition surface 44 engages, so, guaranteed magnetic circuit (arrow among Figure 10), for this reason, flux flow lines is better.
In addition, form crank-like, thereby engage back yoke 2 with such 2 fulcrums of the warpage face 44a on composition surface 44 by weld part (protruding 45a, 45b portion) by making composition surface 44.That is, the rigidity on composition surface 44 improves, and is difficult for producing resonance.In addition, even by moulded resin stator 10 is being carried out mold formed occasion, the intensity of molding pressure improves relatively, can 44 disengagements from the composition surface.
The joint on the composition surface 44 of stator 10 also can be undertaken by bonding.
Motor of the present utility model is optimum with drive source as the revolution of the fan of air conditioner, pump, washing machine or the air purifier etc. of air-conditioning etc. or impeller.

Claims (14)

1. molding type motor is carried out mold formedly to the stator that is made of straight shape iron core by moulded resin, form motor frame; It is characterized in that: above-mentioned straight shape iron core constitutes by laminated plate is carried out lamination, and this laminated plate has the between cog of a plurality of teeth that protrude from a side's of the back yoke of band shape long leg side and the above-mentioned adjacency that is in above-mentioned back yoke and is located at the V-notch portion of the side that above-mentioned tooth protrudes;
In addition, the part of interior all sides of removing above-mentioned tooth at least of above-mentioned straight shape iron core is undertaken mold formed by insulative resin, forms insulating barrier,
In addition, above-mentioned straight shape iron core is reeled on each tooth that forms above-mentioned insulating barrier and is formed winding,
Said stator forms circular-arc or ring-type at the above-mentioned notch warpage of above-mentioned straight shape iron core, is engaged by the composition surface at welding or bonding two ends with above-mentioned back yoke.
2. according to the described molding type motor of claim 1, it is characterized in that: the shape on the composition surface of above-mentioned back yoke is formed crank-like.
3. according to the described molding type motor of claim 1, it is characterized in that: it is mold formed to be with the axle center of said stator that the center is all carried out the gabarit except that inside diameter of said stator by moulded resin, forms motor frame.
4. according to the described molding type motor of claim 1, it is characterized in that: above-mentioned moulded resin is insulative resin or premix.
5. according to the described molding type motor of claim 1, it is characterized in that: be loaded on above-mentioned motor frame inside in the wiring substrate.
6. according to the described molding type motor of claim 1, it is characterized in that: be loaded on above-mentioned motor frame inside in the wiring substrate, be pre-molded to a plurality of supports that shape is used for the above-mentioned wiring substrate of mounting at a sidepiece of above-mentioned straight shape iron core with above-mentioned insulating barrier.
7. according to the described molding type motor of claim 6, it is characterized in that: positioning convex portion is further protruded from above-mentioned a plurality of supports, and the above-mentioned wiring substrate of clamping positions between above-mentioned a plurality of positioning convex portion.
8. according to the described molding type motor of claim 1, it is characterized in that: be pre-molded to shape lining portion with above-mentioned insulating barrier at a sidepiece of the back of above-mentioned straight shape iron core yoke, protrude a plurality of pins of tying up that are used for above-mentioned winding is carried out distribution from above-mentioned lining portion.
9. according to the described molding type motor of claim 6, it is characterized in that: the above-mentioned pin of tying up is located at from the peripheral part of tooth the 1st~the 3rd tooth of the end that is in above-mentioned straight shape iron core.
10. according to the described molding type motor of claim 6, it is characterized in that: above-mentioned 1 neutral point tying up in the pin is set to the back yoke that is arranged in from the periphery of arbitrary tooth of tooth the 1st~the 3rd tooth of the end that is in above-mentioned straight shape iron core with tying up pin;
Above-mentioned each of tying up in the pin is set to the back yoke that is arranged in from the outer ring of arbitrary tooth of tooth the 1st~the 3rd tooth of the other end that is in above-mentioned straight shape iron core or a plurality of teeth with tying up pin mutually.
11. according to the described molding type motor of claim 1, it is characterized in that: above-mentioned molding type motor is a brushless DC motor.
12. according to the described molding type motor of claim 1, it is characterized in that: the number of above-mentioned tooth is 12.
13. according to the described molding type motor of claim 1, it is characterized in that: above-mentioned brushless DC motor is 3 phases, the number of above-mentioned tooth is 12, at winding from tooth the the the 1st, the 4th, the 7th, the 10th tooth coiling U phase of the end that is in above-mentioned straight shape iron core, at the winding of the 2nd, the 5th, the 8th, the 11st tooth coiling V phase, at the winding of the 3rd, the 6th, the 9th, the 12nd tooth coiling W phase.
14. according to the described molding type motor of claim 1, it is characterized in that: above-mentioned molding type motor is used for air conditioner, pump, washing machine or air purifier.
CN 200320103973 2003-10-31 2003-10-31 Moulded motor Expired - Fee Related CN2655494Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200320103973 CN2655494Y (en) 2003-10-31 2003-10-31 Moulded motor

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Application Number Priority Date Filing Date Title
CN 200320103973 CN2655494Y (en) 2003-10-31 2003-10-31 Moulded motor

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CN 200320103973 Expired - Fee Related CN2655494Y (en) 2003-10-31 2003-10-31 Moulded motor

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101924403A (en) * 2009-05-28 2010-12-22 三洋电机株式会社 Molded motor and electric motor car
CN102075035A (en) * 2009-11-19 2011-05-25 日本电产芝浦株式会社 Moulding motor
CN109923772A (en) * 2016-06-27 2019-06-21 Abb瑞士股份有限公司 Motor
CN111566911A (en) * 2018-01-18 2020-08-21 三菱电机株式会社 Motor and air conditioner
CN112714993A (en) * 2018-09-18 2021-04-27 富士通将军股份有限公司 Motor and compressor

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101924403A (en) * 2009-05-28 2010-12-22 三洋电机株式会社 Molded motor and electric motor car
CN102075035A (en) * 2009-11-19 2011-05-25 日本电产芝浦株式会社 Moulding motor
CN109923772A (en) * 2016-06-27 2019-06-21 Abb瑞士股份有限公司 Motor
CN111566911A (en) * 2018-01-18 2020-08-21 三菱电机株式会社 Motor and air conditioner
CN112714993A (en) * 2018-09-18 2021-04-27 富士通将军股份有限公司 Motor and compressor
US11955855B2 (en) 2018-09-18 2024-04-09 Fujitsu General Limited Motor and compressor

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Granted publication date: 20041110

Termination date: 20101031