CN105024490B - integrated motor with impeller - Google Patents
integrated motor with impeller Download PDFInfo
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- CN105024490B CN105024490B CN201510516009.2A CN201510516009A CN105024490B CN 105024490 B CN105024490 B CN 105024490B CN 201510516009 A CN201510516009 A CN 201510516009A CN 105024490 B CN105024490 B CN 105024490B
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- impeller
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- shell
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Abstract
The present invention is suitable for motor field, disclose the integrated motor with impeller, it includes motor body and is installed on the impeller assembly of motor body one end, motor body includes casing, the stator module being installed in casing, wears the shaft being installed in casing, the bearing assembly being installed between shaft and casing and the rotor being installed in shaft, casing includes shell and the mounting bracket in shell, bearing assembly and stator module are all installed in shell by mounting bracket, and bearing assembly is on the inside of the mounting bracket between stator module and impeller assembly.Integrated motor provided by the invention with impeller, realizes that the installation of bearing assembly and stator module in casing is fixed, simple in structure, compact, small, number of components is few, easy for installation by mounting bracket;And beneficial to the balance that guarantee impeller assembly and stator module are installed on casing, so that beneficial to the stationarity for ensureing integrated motor operating.
Description
Technical field
The invention belongs to motor field, more particularly to the integrated motor with impeller.
Background technology
The existing integrated motor with impeller, in order to meet high-revolving requirement, its structure, which is generally designed, to be compared
Complexity, so so that all there are volume is big, component is more, material utilization amount is big, installation mostly for the existing integrated motor with impeller
The defects of inconvenient;And the heat dissipation effect of the existing integrated motor with impeller is poor, seriously affected product uses the longevity
Life.
The content of the invention
It is an object of the invention to overcome above-mentioned the deficiencies in the prior art, there is provided there is the integrated motor of impeller, its
Solve in the existing integrated motor with impeller there are it is complicated, volume is big, component is more, material utilization amount is big, installation not
Convenient technical problem.
To reach above-mentioned purpose, the technical solution adopted by the present invention is:Integrated motor with impeller, including motor sheet
Body and the impeller assembly for being installed on described motor body one end, the motor body include casing, are installed in the casing
Stator module, wear the shaft being installed in the casing, the bearing assembly being installed between the shaft and the casing and
The rotor being installed in the shaft, the casing include shell and the mounting bracket in the shell, the bearing group
Part and the stator module are all installed in the shell by the mounting bracket, and the bearing assembly is located at the stator
On the inside of the mounting bracket between component and the impeller assembly.
Preferably, the mounting bracket includes the rack body with hollow endoporus and several are formed at the stent sheet
Connection support body between body and the shell, the bearing assembly are installed in the hollow endoporus, the stator module and institute
Connection support body is stated to be fastenedly connected.
Preferably, the bearing assembly includes the bearing holder (housing, cover) being fastened in the hollow endoporus and two interval installations
Bearing in the bearing holder (housing, cover).
As a specific embodiment of bearing limit method in bearing holder (housing, cover), stepped hole, institute are equipped with the bearing holder (housing, cover)
Stating stepped hole includes the first hole portion and position that two apertures match with the bearing outside diameter and are located at the bearing holder (housing, cover) both ends respectively
Between two first hole portions and aperture is less than second hole portion in the first hole portion aperture, and two bearings are respectively arranged in
In two first hole portions.
Run through as another specific embodiment of bearing limit method in bearing holder (housing, cover), in the bearing holder (housing, cover) and be equipped with aperture
With the matched through hole of the bearing outside diameter, two bearings are respectively arranged in the both ends of the through hole, the bearing assembly
Further include and be installed in the through hole and every the lantern ring between two bearings.
Preferably, the spacing between two bearings is greater than or equal to the thickness of the bearing.
Preferably, the bearing holder (housing, cover) is adhered in the hollow endoporus by glue.
Preferably, the lateral wall of the bearing holder (housing, cover) is equipped with the first groove that several supply the glue to accumulate, and/or, institute
The madial wall for stating hollow endoporus is equipped with several second grooves for supplying the glue to accumulate.
Preferably, the impeller assembly include the impeller that is installed in the shaft and cover at the impeller outer and with institute
State the fan housing of shell one end connection.
Preferably, the above-mentioned integrated motor with impeller further includes the control group set close to the stator module
Part, the control assembly include the circuit board that is connected with the stator module and are installed on the circuit board and external part is back to institute
State the capacitance of stator module extension.
Integrated motor provided by the invention with impeller, by being set to casing to include shell and mounting bracket two
Point, and realize that the installation of bearing assembly and stator module in casing is fixed especially by mounting bracket, so as to be effectively simplified
Mounting structure between impeller assembly and motor body, and make it that the structure of integrated motor is compact, and then reduce collection
The volume of accepted way of doing sth motor, reduces the material utilization amount and number of components of integrated motor so that the assembling of integrated motor is compared
It is convenient.Meanwhile bearing assembly is arranged between stator module and impeller assembly by it, beneficial to the impeller sets for ensureing mounting bracket both sides
The balance that part and stator module are installed on casing, so that beneficial to the stationarity for ensureing integrated motor operating.
Brief description of the drawings
Fig. 1 is the overall assembling schematic diagram for the integrated motor with impeller that the embodiment of the present invention one provides;
Fig. 2 is the decomposition diagram for the integrated motor with impeller that the embodiment of the present invention one provides;
Fig. 3 is the schematic diagram that the integrated motor with impeller that the embodiment of the present invention one provides opens fan housing;
Fig. 4 is the overall assembling schematic diagram of the bearing assembly that the embodiment of the present invention one provides and shaft;
Fig. 5 is the half-sectional assembling schematic diagram of the bearing assembly that the embodiment of the present invention one provides and shaft;
Fig. 6 is the bearing assembly that the embodiment of the present invention one provides and the decomposition diagram of shaft;
Fig. 7 is the diagrammatic cross-section for the bearing holder (housing, cover) that the embodiment of the present invention one provides;
Fig. 8 is the backsight assembling schematic diagram of bearing assembly, shaft and casing that the embodiment of the present invention one provides;
Fig. 9 is the forward sight assembling schematic diagram of bearing assembly, shaft and casing that the embodiment of the present invention one provides;
Figure 10 is the backsight structural representation for the casing that the embodiment of the present invention one provides;
Figure 11 is the forward sight structure diagram for the casing that the embodiment of the present invention one provides;
Figure 12 is the structure diagram that the stator winding that the embodiment of the present invention one provides is set around on stator core;
Figure 13 is the half-sectional assembling schematic diagram of bearing assembly provided by Embodiment 2 of the present invention and shaft;
Figure 14 is bearing assembly provided by Embodiment 2 of the present invention and the decomposition diagram of shaft;
Figure 15 is the overall assembling schematic diagram of the bearing assembly that the embodiment of the present invention three provides and shaft;
Figure 16 is the forward sight assembling schematic diagram of bearing assembly, shaft and casing that the embodiment of the present invention three provides.
Embodiment
In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, it is right
The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and
It is not used in the restriction present invention.
It should be noted that when element is referred to as on " being fixed on " or " being arranged at " another element, it can be direct
On another element or it may be simultaneously present centering elements.When an element is known as " connection " another element, it
Can be directly connected to another element or may be simultaneously present centering elements.
It should also be noted that, the orientation term such as left and right, upper and lower, top, bottom in following embodiments, is only opposite each other
Concept or using the normal operating condition of product as reference, and should not be regarded as restrictive.
Embodiment one:
As shown in Fig. 1~12, the integrated motor with impeller 21 of the offer of the embodiment of the present invention one, including motor body
1 and the impeller assembly 2 of 1 one end of motor body is installed on, motor body 1 includes casing 11, the stator pack being installed in casing 11
Part 12, the shaft 13 for wearing the center axial position for being installed on casing 11, the bearing group being installed between shaft 13 and casing 11
Part 15 and the rotor 14 being installed in shaft 13 and on the inside of stator module 12, casing 11 include shell 111 and arranged on shells
Mounting bracket 112 in 111, bearing assembly 15 and stator module 12 are all installed in shell 111 by mounting bracket 112, and
Mounting bracket 112 inner side of the bearing assembly 15 between stator module 12 and impeller assembly 2.It is provided in this embodiment that there is leaf
The integrated motor of wheel 21, by being set to casing 11 to include 112 two parts of shell 111 and mounting bracket, and especially by peace
Dress stent 112 realizes that the installation of bearing assembly 15 and stator module 12 in casing 11 is fixed, so as to be effectively simplified impeller sets
Mounting structure between part 2 and motor body 1, and make it that the structure of integrated motor is compact, and then reduce integrated form
The volume of motor, reduces the material utilization amount and number of components of integrated motor so that the assembling of integrated motor is more convenient.
Meanwhile bearing assembly 15 is arranged between stator module 12 and impeller assembly 2 by it, beneficial to the leaf for ensureing 112 both sides of mounting bracket
The balance that wheel assembly 2 and stator module 12 are installed on casing 11, so that beneficial to the stationarity for ensureing integrated motor operating.
Preferably, in the lump with reference to shown in Fig. 2, Fig. 8, Fig. 9, Figure 10 and Figure 11, mounting bracket 112 and the inner side of shell 111
The ventilating duct 101 being communicated between wall formed with several between impeller assembly 2 and stator module 12.Herein, ventilating duct is passed through
101 setting, it is negotiable between ventilating duct 101 to may be such that impeller assembly 2 operates caused air blast so that stator module
12 air blast cooling, the heat dissipations that can be directly produced by impeller assembly 2, reduce the temperature rise of stator module 12, improve integrated form
The heat dissipation effect of motor, the final service life for being beneficial to extend integrated motor, dramatically improves with impeller 21
The comprehensive performance of integrated motor.
Preferably, in the lump with reference to shown in Fig. 2, Fig. 8, Fig. 9, Figure 10 and Figure 11, mounting bracket 112 is included close to shell 111
Central shaft rack body 1121 and several be connected to connection support body 1122 between rack body 1121 and shell 111,
The center position of rack body 1121 runs through the hollow endoporus 11210 being equipped with, and bearing assembly 15 is installed on hollow endoporus 11210
Interior, stator module 12 is fastenedly connected with being connected support body 1122.The madial wall of the connection support body 1122 of arbitrary neighborhood two and shell 111,
The ventilating duct 101 being all enclosed between rack body 1121 between a connected domain impeller assembly 2 and stator module 12.This
Place, by optimizing setting to the structure of mounting bracket 112, has both realized mounting bracket 112 and stator module 12, shell
111 connection, and the formation of ventilating duct 101 is realized, and its is simple in structure, easily fabricated.
Preferably, in the lump with reference to shown in Fig. 2, Fig. 8, Fig. 9, Figure 10 and Figure 11, connection support body 1122 include along shell 111 it
The axial component 11221 that is axially located between stator module 12 and impeller assembly 2 and it is radially disposed in stator module along shell 111
Radial direction limiting section 11222 between 12 and 111 madial wall of shell, axial component 11221 towards on the end face of stator module 12
It is provided with stator module 12 and extends the axial limiting portion for supporting positioning for stator module 12.Herein, axial limiting portion is passed through
Axial limiting is carried out to stator module 12, it is radially spacing to the progress of stator module 12 by radial direction limiting section 11222, beneficial to guarantee
The solid and reliable property of the installation positioning in casing 11 of stator module 12.
Preferably, in the lump with reference to shown in Fig. 2, Fig. 8 and Figure 10, each axial limiting portion is respectively to extend towards stator module 12
The positioning convex platform 11223 being convexly equipped on each axial component 11221, since positioning convex platform 11223 is simply convexly equipped in axial limiting portion
In 11221 local surfaces, therefore, it on the premise of bonding strength, can subtract between guarantee mounting bracket 112 and stator module 12
The material utilization amount of few mounting bracket 112, so that beneficial to the material cost for reducing mounting bracket 112;And the office of positioning convex platform 11223
Portion's projection, can be beneficial to reduce the contact area between mounting bracket 112 and stator module 12, so as to be beneficial to further improve stator
The heat dissipation effect of component 12.
Preferably, in the lump with reference to shown in Fig. 2, Fig. 8, Figure 10 and Figure 12, stator module 12 is tight by fastener (not shown)
Mounting bracket 112 is solidly connected, its is easy for installation, fastening is reliable.Run through on stator module 12 and worn equipped with several for fastener
First connecting hole 1210 of connection, positioning convex platform 11223 are equipped with several the second connecting holes that connection is worn for fastener
11220.Herein, fastener concretely screw or rivet etc..
Preferably, fastener is screw, have in the first connecting hole 1210 and the second connecting hole 11,220 one be light through hole,
The other is threaded hole;Alternatively, combination of the fastener for screw and nut, the first connecting hole 1210 and the second connecting hole 11220
In be all light through hole.Second connecting hole 11220 specifically can be along positioning convex platform 11223 towards axial limiting portion 11221 the other end
Face (axial limiting portion 11221 back to the end face of stator module 12) is through setting;Of course, in the thickness of positioning convex platform 11223
When sufficiently large and the second connecting hole 11220 is threaded hole, the second connecting hole 11220 also can only be arranged on positioning convex platform 11223 on or
The second connecting hole of person 11220 is extended from positioning convex platform 11223 in axial limiting portion 11221 but not through axial limiting portion
11221。
Preferably, in the lump with reference to shown in Fig. 2, Fig. 9 and Figure 11, the end face towards impeller assembly 2 of each axial component 11221
It is concavely provided with the wind-guiding groove 1120 being communicated between two ventilating duct 101 adjacent thereto.The setting of wind-guiding groove 1120, can be beneficial to
Reduce air-flow and suffered obstruction is flowed between impeller assembly 2 and ventilating duct 101, so that beneficial to the pressure damage compared with little airflow
Lose, and then beneficial to the heat dissipation effect for ensureing stator module 12.
Preferably, mounting bracket 112 is integrally formed design and manufacture with shell 111, in this way, beneficial to reduction integrated motor
Number of components and installation procedure.Of course, in concrete application, mounting bracket 112 can also use separately manufacturing to be molded with shell 111
Mode, then mounting bracket 112 is fastened in shell 111, this setup, the manufacture that can be beneficial to reduce casing 11 is difficult
Degree.
Preferably, in the lump with reference to shown in Fig. 2, Fig. 4, Fig. 5, Fig. 6, Fig. 8 and Fig. 9, bearing assembly 15 includes being fastened on
Bearing holder (housing, cover) 151 and two intervals in hollow endoporus 11210 are installed on the bearing 152 in bearing holder (housing, cover) 151.Bearing 152 passes through axis
Bearing sleeve 151 is installed in mounting bracket 112, beneficial to the installation difficulty for reducing bearing 152;And in hollow endoporus 11210 at the same time
Two spaced bearings 152 are installed, beneficial to ensure integrated motor operate at a high speed, in the case of high power load it is steady
Property.
Preferably, in the lump with reference to shown in Fig. 4, Fig. 5, Fig. 6 and Fig. 7, stepped hole 1511, stepped hole are equipped with bearing holder (housing, cover) 151
1511, which include two apertures, matches with 152 outside diameter of bearing and is located at first hole portion 15111 at 151 both ends of bearing holder (housing, cover) respectively and is located at
Between two first hole portions 15111 and aperture is less than second hole portion 15112 in 15111 aperture of the first hole portion, each first hole portion
15111 and second all form a ladder confined planes between hole portion 15112, and two bearings 152 are respectively arranged in two first hole portions 15111
It is interior and be resisted against respectively on two ladder confined planes.The aperture of second hole portion 15112 is more than the diameter of axle of shaft 13, to ensure shaft 13
Bearing holder (housing, cover) 151 is may pass through to be installed.Herein, the ladder confined planes formed in stepped hole 1511 carry out axial limit to bearing 152
Position, ensure that the solid and reliable property of the installation in bearing holder (housing, cover) 151 of bearing 152, and its is simple in structure, easily fabricated.Further, since
Only the first hole portion 15111 is coordinated with bearing 152, therefore, in concrete application, it need to only ensure the manufacture of the first hole portion 15111
Precision, and the accuracy of manufacture of the second hole portion 15112 is designed to it is slightly lower, to reduce the manufacture difficulty of bearing holder (housing, cover) 151.
Preferably, the spacing 102 between two bearings 152 is greater than or equal to the thickness of bearing 152, in this way, collecting beneficial to improving
Accepted way of doing sth motor is in the stationarity operated at a high speed, in the case of high power load.Of course, in concrete application, turn in integrated motor
In the case of speed is relatively low or lower-powered, the spacing 102 between two bearings 152 can also set the thickness that must be slightly less than bearing 152.
Preferably, bearing holder (housing, cover) 151 is adhered in hollow endoporus 11210 by glue, in this way, beneficial to guarantee bearing holder (housing, cover) 151
The solid and reliable property being installed in hollow endoporus 11210, lower bearing sleeve 151 is run at high speed from hollow endoporus beneficial to motor is prevented
The phenomenon slipped in 11210 occurs, meanwhile, it is additionally favorable for making the cooperation in 151 outside diameter of bearing holder (housing, cover) and hollow 11210 aperture of endoporus can
Setting must be no so tight, in favor of reducing installation difficulty of the bearing holder (housing, cover) 151 in hollow endoporus 11210.Of course, concrete application
In, bearing holder (housing, cover) 151 also can be directly fixed in hollow endoporus 11210, in this way, bearing holder (housing, cover) by tight fit (interference fit)
151 installation difficulty can be slightly larger.
Preferably, in the lump with reference to shown in Fig. 1~3, impeller assembly 2 includes the impeller 21 being installed in shaft 13 and covers at
The fan housing 22 being connected outside impeller 21 and with 111 one end of shell, the center axial position of fan housing 22, which runs through, is equipped with ventilation hole 221.Turn
Axis 13 has the installation shaft part 131 extended towards 2 place side of impeller assembly outside shell 111, and 21 adapter sleeve of impeller is satisfied with to install
On shaft part 131, and it can be rotated with the rotation of shaft 13, so as to play the role of producing air blast.The setting of fan housing 22, it is main
It is used to protect impeller 21, fan housing 22 is fastenedly connected shell 111, and when impeller 21 rotates, fan housing 22 does not rotate.
Preferably, the lateral wall for installing shaft part 131 is equipped with flat section or knurling structure (processed and formed by annular knurl)
Either seamed edge or groove, in this way, installation of the impeller 21 on installation shaft part 131 on the one hand can be easy to, are on the other hand beneficial to carry
High impeller 21 is installed on the solid and reliable property on installation shaft part 131, effectively prevent impeller 21 and occurs relatively with installation shaft part 131
Rotating phenomenon occurs.
Preferably, with reference to shown in Fig. 2, Fig. 3 and Fig. 9, impeller assembly 2 further include along shell 111 it is axial be arranged on impeller 21 with
Guide vane 23 between mounting bracket 112, when shaft 13 rotates, guide vane 23 does not rotate.The setting of guide vane 23, is mainly used for correcting
The gas flow between impeller 21 and ventilating duct 101 is circulated in, to reduce the pressure loss in gas flow.
Preferably, guide vane 23 and 112 separately manufacturing molding mode of mounting bracket, and guide vane 23 is tight by screw or rivet
Guan County is loaded in mounting bracket 112, in this way, beneficial to the manufacture difficulty for reducing guide vane 23 and mounting bracket 112.Of course, specifically
In, guide vane 23 can also be integrally formed design and manufacture, this setup, beneficial to reduction integrated electric with mounting bracket 112
The number of components and installation procedure of machine.
Preferably, in the lump with reference to shown in Fig. 1~3, the above-mentioned integrated motor with impeller 21, which further includes, is installed on shell
The control assembly 3 set outside 111 and close to stator module 12, i.e. control assembly 3 are respectively arranged on motor body 1 with impeller assembly 2
Both ends.Control assembly 3 is specifically used for the operation of control integrated motor, and herein, control assembly 3 is set close to stator module 12
Put, control assembly 3 can be easy to implement and be electrically connected with stator winding 122 on stator module 12, so as to be used to connect beneficial to reducing
Control assembly 3 and the conductor length of stator module 12;And control assembly 3 is arranged on outside shell 111, it is primarily to facilitate stator module
12 with the heat dissipation of control assembly 3.In the present embodiment, using the form being installed on control assembly 3 outside shell 111;Of course, have
In body application, control assembly 3 can also be installed in shell 111.
Specifically, in the lump with reference to shown in Fig. 1~3, control assembly 3 includes the circuit board 31 being connected with stator module 12 and peace
There is the stretching back to stator module 12 back to the capacitance 32 on the end face of stator module 12, capacitance 32 loaded on circuit board 31
End.Herein, by axially backward stretching of the capacitance 32 along shell 111, beneficial to the radially installed size for reducing integrated motor, and profit
In the heat dissipation of capacitance 32.
Preferably, there is axial spacing 102 and/or footpath in the lump with reference to shown in Fig. 1~3, between circuit board 31 and shell 111
To spacing (not shown), the axial direction spacing 102 and/or radial spacing can form the passage for air circulation, in this way, being beneficial to shell
111 inner air realizes convection current with extraneous air by the axial direction spacing 102 and/or radial spacing, so that beneficial to further
The heat dissipation effect of stator module 12 is improved, and then beneficial to the service life for extending integrated motor.
Preferably, the outside diameter of circuit board 31 is less than the internal diameter of shell 111, in this way, beneficial to the air blast for producing impeller 21
Can preferably it radiate to circuit board 31, so that beneficial to the heat dissipation effect for further improving integrated motor.
Preferably, in the lump with reference to shown in Fig. 1, Fig. 2, Figure 10 and Figure 12, stator module 12 includes stator core 121, winding
In the stator winding 122 on stator core 121 and the insulating element between stator core 121 and stator winding 122 123,
Stator core 121 includes the stator tooth 1212 that stator yoke 1211 is arranged on several in stator yoke 1211, two stator of arbitrary neighborhood
A winding slot 1213 is all formed between tooth 1212, stator winding 122 is set around the periphery of stator yoke 1211, and stator winding
122 are oppositely arranged with each ventilating duct 101.Herein, stator winding 122 is set around in stator yoke 1211, stator winding can be saved
122 are set around on stator tooth 1212 and need to be reserved for the space that bobbin winding head is worn, and the groove area for improving stator core 121 utilizes
Rate, and stator winding 122 can be allow to use the enameled wire than line footpath bigger in tooth winding mode, so as to effectively reduce stator
The resistance of winding 122, reduces the coil loss of stator winding 122.Further, since stator winding 122 and 101 positive of ventilating duct
To set, therefore, its using impeller assembly 2 produce air blast directly stator winding 122 is cooled down, reduce stator around
The temperature rise of group 122, in this way, the copper loss of stator winding 122 is on the one hand reduced, so that beneficial to the efficiency for improving integrated motor;
On the other hand the aging speed to insulate on stator winding 122 can be slowed down, and then beneficial to the service life for extending integrated motor.
Preferably, shown referring to Figures 1 and 2 in the lump, circuit board 31 is connected by screw or the connection side such as rivet
Formula is fastenedly connected insulating element 123, several are convexly equipped with insulating element 123 and is used for the mounting post that circuit board 31 is fastenedly connected
1231, by the setting of mounting post 1231, can also be beneficial to make to form the axis for air circulation between circuit board 31 and shell 111
To spacing 102, and then beneficial to the heat dissipation effect for improving stator module 12 and control assembly 3.
Specifically, in the lump with reference to shown in Fig. 2, Figure 10 and Figure 12, each stator tooth 1212 is circumferentially spaced to be convexly equipped in stator yoke
On 1211 madial wall, several protrusion connecting portions 1214 are convexly equipped with the lateral wall of stator yoke 1211, respectively protrude connecting portion
All through the first connecting hole 1210 is equipped with 1214, stator core 121 is fastenedly connected each company especially by protrusion connecting portion 1214
Connect support body 1122.Herein, the setting of connecting portion 1214 is protruded, is on the one hand beneficial to make the installation position on stator core 121 will not
Influence the electromagnetic performance of stator core 121;On the other hand it is beneficial to so that any two adjacent protrusion connecting portion 1214 and stator yoke
A heat dissipation wind channel is all enclosed between 1211 lateral walls, 111 madial wall of shell, so so that stator winding 122 is set around
There is the part being located in heat dissipation wind channel, and one end of heat dissipation wind channel is connected with ventilating duct 101, the other end after in stator yoke 1211
Connected with the exterior space of shell 111, so that cooling stator winding 122 is carried out beneficial to the air blast produced by impeller assembly 2,
To effectively improve the heat dissipation effect of stator winding 122.
Preferably, the integrated motor provided in this embodiment with impeller 21 is preferably that the high speed with impeller 2121 is small
Type integrated motor (such as rotating speed is more than the micro-machine of 10000rpm), integrates in this way, can dramatically simplify high-speed small-size
The structure and installation procedure of formula motor, and effectively increase the efficiency and heat dissipation effect of high-speed small-size integrated motor.
Integrated motor provided in this embodiment with impeller 21, eliminates the design of electric motor end cap, and utilizes impeller
2121 air blasts produced radiate stator module 1212, its is simple in structure, compact-sized, small, material utilization amount is few,
Number of components is few, easy for installation, excellent in heat dissipation effect, electric efficiency are high, service life length, and when it is applied to dust catcher, exhausting
Machine, exhaust blower, air cleaner, hand dryer, air pump, fan can dramatically improve these equipment when in equipment
Efficiency and service life, and the cost of these equipment can be reduced.
Embodiment two:
As shown in Figure 13 and Figure 14, the integrated motor provided in this embodiment with impeller 21, the master with embodiment one
It is different difference lies in limit method of the bearing 152 in bearing holder (housing, cover) 151.Specifically, in the present embodiment, passed through in bearing holder (housing, cover) 151
Aperture and the matched through hole 1512 of 152 outside diameter of bearing are equipped with, two bearings 152 are respectively arranged in the both ends of through hole 1512,
Bearing assembly 15, which further includes, to be installed in through hole 1512 and divides every the lantern ring 153 between two bearings 152, two bearings 152
It is not resisted against in the both ends of the surface of the lantern ring 153.In embodiment one, the endoporus that is set on bearing holder (housing, cover) 151 is stepped hole 1511, and bearing
152 realize axial limiting by the ladder confined planes of stepped hole 1511;And in the present embodiment, the endoporus that is set on bearing holder (housing, cover) 151
Stepped hole 1511 but the consistent through hole 1512 in aperture, and bearing 152 is the set by being installed in through hole 1512
Ring 153 realizes axial limiting.Using limit method of the present embodiment middle (center) bearing 152 in bearing holder (housing, cover) 151, axis has also been effectively ensured
Hold 152 in the bearing holder (housing, cover) 151 installation solid and reliable property so that be also effectively ensured integrated motor at a high speed, it is high-power negative
The stationarity operated in the case of load.
It is provided in this embodiment to have except above-mentioned bearing 152 is in bearing holder (housing, cover) 151 in addition to the setting difference of limit method
The integrated motor other structures setting principle of impeller 21 is identical with embodiment one, and this will not be detailed here.
Embodiment three:
As shown in Figure 15 and Figure 16, the integrated motor provided in this embodiment with impeller 21, with embodiment one, implementation
The main distinction of example two is that the set-up mode of 11210 madial wall of 151 lateral wall of bearing holder (housing, cover) and/or hollow endoporus is different, specifically
Ground, in the present embodiment, be additionally provided with the lateral wall of bearing holder (housing, cover) 151 several circumferentially spaced settings for glue accumulate first
Groove 1512, the madial wall of hollow endoporus 11210 are additionally provided with the second ditch that several circumferentially spaced settings are accumulated for glue
Groove 11211.The setting of first groove 1512 and second groove 11211, beneficial to the product between bearing holder (housing, cover) 151 and rack body 1121
More glue is deposited, so that beneficial to the lasting bonding force of glue between enhancing bearing holder (housing, cover) 151 and rack body 1121, and then greatly
Improve to degree the solid and reliable property that bearing holder (housing, cover) 151 is installed in rack body 1121.Herein, while in bearing holder (housing, cover) 151
First groove 1512 is set on lateral wall and second groove 11211 is set in the madial wall of hollow endoporus 11210;Of course, have
In body application, first groove 1512 also can be only set on the lateral wall of bearing holder (housing, cover) 151, alternatively, only in hollow endoporus 11210
Madial wall sets second groove 11211.
In addition to the set-up mode difference of 11210 madial wall of above-mentioned 151 lateral wall of bearing holder (housing, cover) and/or hollow endoporus, this
The integrated motor other structures setting principle with impeller 21 that embodiment provides is identical with embodiment one or embodiment two
(limit method of the present embodiment middle (center) bearing 152 in bearing holder (housing, cover) 151 can use the set-up mode in embodiment one, can also use
Set-up mode in embodiment two), this will not be detailed here.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention
Any modification, equivalent substitution or improvement made within refreshing and principle etc., should all be included in the protection scope of the present invention.
Claims (9)
1. the integrated motor with impeller, it is characterised in that:Including motor body and it is installed on described motor body one end
Impeller assembly, the motor body include casing, the stator module being installed in the casing, wear and be installed in the casing
Shaft, the bearing assembly being installed between the shaft and the casing and the rotor being installed in the shaft, the machine
Shell includes shell and the mounting bracket in the shell, and the bearing assembly and the stator module all pass through the installation
Stent is installed in the shell, and the peace of the bearing assembly between the stator module and the impeller assembly
Fill on the inside of stent;Between the madial wall of the mounting bracket and the shell formed with several be communicated in the impeller assembly with
Ventilating duct between the stator module;The mounting bracket includes the rack body with hollow endoporus and is formed at several
Connection support body between the rack body and the shell, the bearing assembly is installed in the hollow endoporus, described fixed
Sub-component is fastenedly connected with the connection support body;The madial wall of support body and the shell, the branch are connected described in arbitrary neighborhood two
A ventilating duct connected between the impeller assembly and the stator module is enclosed between frame body;The connection
Support body is included along the axial component being axially located between the stator module and the impeller assembly of the shell and along described
The radial direction limiting section being radially disposed between the stator module and the housing interior side-wall of shell, the direction of the axial part point
The stator module extension is provided with the end face of the stator module so that the stator module supports the axial limit of positioning
Position portion, the end face towards the impeller assembly that each axial part is divided to, which is concavely provided with, is communicated in adjacent thereto two ventilating ducts
Between wind-guiding groove.
2. there is the integrated motor of impeller as claimed in claim 1, it is characterised in that:The bearing assembly, which includes fastening, pacifies
The bearing being installed on loaded on the bearing holder (housing, cover) in the hollow endoporus and two intervals in the bearing holder (housing, cover).
3. there is the integrated motor of impeller as claimed in claim 2, it is characterised in that:Ladder is equipped with the bearing holder (housing, cover)
Hole, the stepped hole include the first hole portion that two apertures match with the bearing outside diameter and are located at the bearing holder (housing, cover) both ends respectively
And between two first hole portions and aperture is less than second hole portion in the first hole portion aperture, two bearings pacify respectively
Loaded in two first hole portions.
4. there is the integrated motor of impeller as claimed in claim 2, it is characterised in that:Run through in the bearing holder (housing, cover) and be equipped with hole
Footpath and the matched through hole of the bearing outside diameter, two bearings are respectively arranged in the both ends of the through hole, the bearing group
Part, which further includes, to be installed in the through hole and every the lantern ring between two bearings.
5. as claim 2 to 4 any one of them has the integrated motor of impeller, it is characterised in that:Two bearings it
Between spacing be greater than or equal to the bearing thickness.
6. as claim 2 to 4 any one of them has the integrated motor of impeller, it is characterised in that:The bearing holder (housing, cover) leads to
Glue is crossed to be adhered in the hollow endoporus.
7. there is the integrated motor of impeller as claimed in claim 6, it is characterised in that:The lateral wall of the bearing holder (housing, cover) is equipped with
Several supply the first groove that the glue accumulates, and/or, the madial wall of the hollow endoporus supplies the glue equipped with several
The second groove of accumulation.
8. as Claims 1-4 any one of them has the integrated motor of impeller, it is characterised in that:The impeller assembly
Including the impeller being installed in the shaft and cover at the impeller outer and the fan housing being connected with described shell one end.
9. as Claims 1-4 any one of them has the integrated motor of impeller, it is characterised in that:Further include close to institute
The control assembly of stator module setting is stated, the control assembly includes the circuit board being connected with the stator module and is installed on institute
State on circuit board and external part back to the stator module capacitance.
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CN201510516009.2A CN105024490B (en) | 2015-08-20 | 2015-08-20 | integrated motor with impeller |
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CN201510516009.2A CN105024490B (en) | 2015-08-20 | 2015-08-20 | integrated motor with impeller |
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CN105024490A CN105024490A (en) | 2015-11-04 |
CN105024490B true CN105024490B (en) | 2018-04-17 |
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CN201510516009.2A Active CN105024490B (en) | 2015-08-20 | 2015-08-20 | integrated motor with impeller |
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Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107231065B (en) * | 2016-03-26 | 2023-10-20 | 阿美德格工业技术(上海)有限公司 | Dust collector motor and motor |
CN111946657A (en) * | 2019-05-15 | 2020-11-17 | 广东威灵电机制造有限公司 | Bearing assembly, rotor assembly and fan |
US11353035B2 (en) | 2019-05-15 | 2022-06-07 | Guangdong Welling Motor Manufacturing Co., Ltd. | Bearing assembly, rotor assembly and draught fan |
DE102019127547A1 (en) * | 2019-10-14 | 2021-04-15 | Miele & Cie. Kg | Turbo machine and household or kitchen appliance herewith |
CN112815013A (en) * | 2020-12-30 | 2021-05-18 | 东莞市鸿盈电子科技有限公司 | Novel well tubular construction of installation ball bearing |
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CN102377268A (en) * | 2010-08-27 | 2012-03-14 | 佛山市南海区东唐电机厂 | Outer rotor alternating-current motor |
CN202221943U (en) * | 2011-08-04 | 2012-05-16 | 中山大洋电机制造有限公司 | Mounting structure of motor circuit board, and direct current brushless motor with application of the same |
CN204131317U (en) * | 2014-09-15 | 2015-01-28 | 宁波德昌电机制造有限公司 | A kind of split inducer electric machine structure |
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JP4108955B2 (en) * | 2001-10-11 | 2008-06-25 | 富士重工業株式会社 | Engine generator |
JP2003232298A (en) * | 2002-02-08 | 2003-08-22 | Sanyo Electric Co Ltd | Motor fan |
KR100903519B1 (en) * | 2007-09-18 | 2009-06-19 | 주식회사 아모텍 | IPM Motor and Vacuum Inhaling Apparatus Using the Same |
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CN102377268A (en) * | 2010-08-27 | 2012-03-14 | 佛山市南海区东唐电机厂 | Outer rotor alternating-current motor |
CN202221943U (en) * | 2011-08-04 | 2012-05-16 | 中山大洋电机制造有限公司 | Mounting structure of motor circuit board, and direct current brushless motor with application of the same |
CN204131317U (en) * | 2014-09-15 | 2015-01-28 | 宁波德昌电机制造有限公司 | A kind of split inducer electric machine structure |
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