CN208890520U - Motor and its end cap - Google Patents
Motor and its end cap Download PDFInfo
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- CN208890520U CN208890520U CN201821925093.9U CN201821925093U CN208890520U CN 208890520 U CN208890520 U CN 208890520U CN 201821925093 U CN201821925093 U CN 201821925093U CN 208890520 U CN208890520 U CN 208890520U
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- reinforcing rib
- end cap
- connecting plate
- positioning region
- motor
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Abstract
The utility model discloses a kind of motor and its end caps, the end cap includes bearing positioning region, end cap mounting portion and reinforcement structure, end cap mounting portion include surround bearing positioning region axis it is spaced multiple, reinforcement structure is respectively connected between each end cap mounting portion and bearing positioning region, multiple reinforcement structures have gap on the direction around bearing positioning region, wherein, reinforcement structure includes connecting plate, first reinforcing rib and the second reinforcing rib, first reinforcing rib and the second reinforcing rib are connected to connecting plate opposite two sides in a first direction, connecting plate is equipped with heat release hole, heat release hole penetrates through connecting plate in a second direction, and first reinforcing rib, third reinforcing rib is connected between second reinforcing rib and connecting plate.According to the end cap of the motor of the utility model embodiment, the heat dissipation effect of the motor with the end cap can be improved, but also can guarantee that end cap has enough structural strengths.
Description
Technical field
The utility model relates to technical field of power equipment, in particular to the end cap of a kind of motor and the electricity with the end cap
Machine
Background technique
The motor of existing washing machine, such as series excited machine generally connect belt by shaft end belt pulley to drive washing machine
Operating, therefore motor, under belt tension effect, stress suffered by upper end cover is maximum, and upper end cover installation foot can when connecting with complete machine
Fatigue fracture can occur.Simultaneously under load effect, the vibrating noise that motor generates when operating is larger.Cause the problem
Main cause is the strength and stiffness deficiency of electric motor end cap and installation foot;In addition, the type motor feels hot is larger, temperature when design
It is smaller to rise surplus, if end cover structure design is unreasonable, the heat for being easy to cause winding to generate has little time to scatter and disappear, end cap temperature rise test
It is unqualified.
Utility model content
One purpose of the utility model is to propose a kind of end cap of motor, and the motor with the end cap can be improved
Radiating efficiency, and enhance the strength and stiffness of end cap.
The another object of the utility model is to propose a kind of motor with the end cap.
According to the end cap of the motor of the utility model embodiment, the end cap include bearing positioning region, end cap mounting portion and
Reinforcement structure, the end cap mounting portion include that the axis around the bearing positioning region is spaced multiple, each end
The reinforcement structure is respectively connected between lid mounting portion and the bearing positioning region, multiple reinforcement structures are around the axis
Holding has gap on the direction of positioning region, wherein and the reinforcement structure includes connecting plate, the first reinforcing rib and the second reinforcing rib,
First reinforcing rib and second reinforcing rib are connected to the connecting plate opposite two sides in a first direction, described
Connecting plate is equipped with heat release hole, and the heat release hole penetrates through the connecting plate in a second direction, and first reinforcing rib, described the
Third reinforcing rib is connected between two reinforcing ribs and the connecting plate, the first direction is around the bearing positioning region
The direction of axis, the second direction are to be parallel to the direction of the axis of the bearing positioning region.
According to the end cap of the motor of the utility model embodiment, the heat dissipation effect of the motor with the end cap can be improved,
But also it can guarantee that end cap has enough structural strengths.
In addition, can also have following additional technology special according to the end cap of the motor of the utility model above-described embodiment
Sign:
In some embodiments, the side of the reinforcement structure has recess of stepping down on the direction perpendicular to the connecting plate
And the other side has cover protrusion.
In some embodiments, the connecting plate has first surface and second surface opposite in a second direction, described
The height that first reinforcing rib protrudes the first surface is H11, and the height that second reinforcing rib protrudes the first surface is
H21, the height that first reinforcing rib protrudes the second surface is H12, and second reinforcing rib protrudes the second surface
Height be H22, wherein perpendicular to first reinforcing rib and/or the second reinforcing rib and perpendicular to the connecting plate
Plane intercepts in the section that the reinforcement structure is formed, and first reinforcing rib and second reinforcing rib meet: if H11 >=
H21, then H12≤H22;If H11≤H12, H21 >=H22.
In some embodiments, the third reinforcing rib is connected between first reinforcing rib and second reinforcing rib
One or more.
In some embodiments, the heat release hole, which is set on the connecting plate, is located at the third reinforcing rib and end cap peace
Region between dress portion.
In some embodiments, the end cap further includes one or more installation feet, and the installation foot is close to corresponding described
The setting of end cap mounting portion, and the 4th reinforcement is connected between the reinforcement structure of installation foot end cap mounting portion corresponding with connection
Muscle.
In some embodiments, spacing between the installation foot and the bearing positioning region be greater than the end cap mounting portion with
Spacing between the bearing positioning region, the 4th reinforcing rib on the direction of the axis perpendicular to the bearing positioning region
Length is greater than the spacing between the installation foot and the corresponding end cap mounting portion.
In some embodiments, the installation foot is two, two ends that two installation feet are positioned adjacent respectively to
The setting of lid mounting portion, the 4th reinforcing rib are connected to the outside of the end cap reinforcement structure of adjacent two, two peaces
The 5th reinforcing rib is connected between dress foot.
In some embodiments, the first reinforcing rib or the second reinforcing rib are neighbouring in two adjacent reinforcement structures.
In some embodiments, dowel is connected between the end cap mounting portion of adjacent two.
Axis of the connecting plate about the bearing positioning region in some embodiments, in reinforcement structure described in any two
Symmetrically.
In some embodiments, the connecting plate extends in the direction towards the axis far from the bearing positioning region, and described
Connecting plate is tilted towards second direction in the direction of extension.
In some embodiments, the connecting plate extends in the direction towards the axis far from the bearing positioning region, and described
Connecting plate is tilted towards second direction in the direction of extension, and at least one in first reinforcing rib and second reinforcing rib
Edge includes straightway and tilting section, and the straightway is perpendicular to the second direction, and the tilting section and the connecting plate
Inclined direction it is identical.
In some embodiments, there is angle, and the angle is at 10 ° to 180 ° between two adjacent reinforcement structures
In the range of.
In some embodiments, radiating groove is equipped with around the bearing positioning region.
In some embodiments, set on the end cap there are four the end cap mounting portion and a bearing positioning region, institute
Stating bearing positioning region includes positioning shaft sleeve and locating flange, and the locating flange is set to one end of the positioning shaft sleeve and towards described
Extend on the inside of positioning shaft sleeve, the end cap mounting portion is equipped with the bolt mounting holes extended along the second direction.
According to the motor of the utility model another aspect, comprising: the both ends of field frame assembly, the field frame assembly are respectively connected with
End cap, and at least one of two described end caps are the end cap according to motor above-mentioned, the end cap reinforcement structure of the end cap
It is fixedly connected with the field frame assembly.
Detailed description of the invention
Fig. 1 is the schematic diagram of the end cap of the motor of the utility model one embodiment.
Fig. 2 is the cross-sectional view of the middle section Fig. 1 A-A.
Fig. 3 is the schematic diagram of the motor of the utility model one embodiment.
Fig. 4 is the schematic diagram that the upper end cover in Fig. 3 is checked from the top down.
Fig. 5 is the schematic diagram that the upper end cover in Fig. 3 is checked from bottom to top.
Fig. 6 is the schematic diagram that the lower cover in Fig. 3 is checked from bottom to top.
Fig. 7 is the partial enlargement diagram in Fig. 6.
Fig. 8 is the schematic diagram that the lower cover in Fig. 3 is checked from the top down.
Appended drawing reference:
Motor 100,
End cap 1, bearing positioning region 11, end cap mounting portion 12, reinforcement structure 13, connecting plate 131, the first reinforcing rib 132, the
Two reinforcing ribs 133, heat release hole 134, third reinforcing rib 135, first surface 1301, second surface 1302, the first reinforcing rib 132 are convex
The height H11 of first surface 1301 out, the second reinforcing rib 133 protrude the height H21 of first surface 1301, the first reinforcing rib 132
The height H12 of protrusion second surface 1302, the height H22 of the second reinforcing rib 133 protrusion second surface 1302, installation foot 14, the
Four reinforcing ribs 141, the 5th reinforcing rib 142, dowel 136, radiating groove,
Upper end cover 1a, upper bearing (metal) positioning region 11a, upper bolt aperture 1201a, upper reinforcement structure 13a, upper junction plate 131a, on
First reinforcing rib 132a, upper second reinforcing rib 133a, upper heat release hole 134a, upper third reinforcing rib 135a, upper installation foot 14a, on
4th reinforcing rib 141a,
Lower cover 1b, lower bearing positioning region 11b, lower screw hole 1201b, lower reinforcement structure 13b, lower connecting plate 131b, under
First reinforcing rib 132b, lower second reinforcing rib 133b, lower heat release hole 134b, lower third reinforcing rib 135b, lower installation foot 14b, under
4th reinforcing rib 141b, lower radiating groove 137b,
Field frame assembly 3,
Rotor assembly 4,
Attachment screw 5.
Specific embodiment
In order to solve the problems in the relevant technologies, the utility model design combines CAE simulating analysis, using optimization
Design concept, gives a kind of new 1 structure of electric motor end cap, which has many advantages, such as that the rigidity of structure is good and excellent in heat dissipation effect,
The end cap 1 application is mounted on motor 100, the overall structure rigidity of motor 100 can be significantly improved, reduces vibrating noise
With reduce temperature rise, to improve the service life of motor 100, while 1 structure of end cap also has both weight loss effect, reduces motor 100
Cost of manufacture, improve the market competitiveness.
The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning
Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng
The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model
Limitation.
Such as Fig. 1 and Fig. 2, according to the end cap 1 of the motor 100 of the utility model embodiment, the end cap 1 is positioned including bearing
Portion 11, end cap mounting portion 12 and reinforcement structure 13, wherein bearing positioning region 11 can be used for placing bearing or be used as his way, end
End cap 1 can be installed on the field frame assembly of motor 100 or be used as his way by lid mounting portion 12, and reinforcement structure 13 can be by bearing
Positioning region 11 is connected together with end cap mounting portion.
Wherein, end cap mounting portion 12 include surround bearing positioning region 11 axis it is spaced multiple, in other words, end cap
Mounting portion 12 include it is multiple, and multiple end cap mounting portions 12 along around bearing positioning region 11 direction along be intervally arranged it is more
It is a.Multiple end cap mounting portions 12 can be set on the same plane of the axis perpendicular to bearing positioning region 11;Multiple end cap peaces
Dress portion 12 can also be not provided with on the same plane of the axis of vertical bearing positioning region 11;Multiple end cap mounting portions 12 and bearing
Positioning region 11 can be set on the same plane of the axis perpendicular to bearing positioning region 11;Multiple end cap mounting portions 12 and bearing
Positioning region 11 can also be not provided with on the same plane of the axis of vertical bearing positioning region 11.Each end cap mounting portion 12 and axis
It holds and is respectively connected with reinforcement structure 13 between positioning region 11, connected end cap mounting portion 12 and bearing positioning region 11 by reinforcement structure 13
It is connected to together.Multiple reinforcement structures 13 have gap on the direction around bearing positioning region 11, that is to say, that multiple reinforcement knots
Structure 13 can be connected directly or not be connected directly, it is only necessary to guarantees between multiple reinforcement structures 13 there are gap, these
Gap can be used to radiate to motor 100, or as the resigning etc. to other structures.
In addition, reinforcement structure 13 includes connecting plate 131, the first reinforcing rib 132 in some embodiments of the utility model
With the second reinforcing rib 133, the first reinforcing rib 132 and the second reinforcing rib 133 are connected to connecting plate 131 in a first direction on M
Opposite two sides, connecting plate 131 are equipped with heat release hole 134, and heat release hole 134 penetrates through connecting plate 131 in a second direction, and first adds
Third reinforcing rib 135 is connected between strengthening tendons 132, the second reinforcing rib 133 and connecting plate 131.First direction is around bearing
The direction of the axis of positioning region 11, referring to Fig.1, first direction can be for around the counter clockwise directions or suitable of bearing positioning region 11
Clockwise.Second direction N is the direction for being parallel to the axis of bearing positioning region 11, referring to the up and down direction in Fig. 2.
From the above mentioned, there is gap between multiple reinforcement structures 13, moreover, also depositing on the connecting plate 131 of reinforcement structure 13
There is heat release hole 134, can be radiated by structures such as gap, heat release holes 134 to motor 100, or to its on motor 100
His structure, which is formed, steps down, and meets assembly and the cooling requirements of motor 100.Moreover, passing through setting third reinforcing rib 135, Ke Yiyou
Effect ground improves the intensity of reinforcement structure 13, moreover, can be made up by third reinforcing rib 135 since setting heat release hole 134 influences
The problem of 13 intensity of reinforcement structure, guarantees that end cap 1 has enough intensity.
According to the end cap 1 of the motor 100 of the utility model embodiment, dissipating for the motor 100 with the end cap 1 can be improved
Thermal effect, but also can guarantee that end cap 1 has enough structural strengths.
In addition, in the structural strength and rigidity that improve end cap due to increasing reinforcement structure 13, it can guarantee
It, can be by the structure setting of end cap at more compact small and exquisite in the case where end cap intensity.
In some embodiments of the utility model, the side of reinforcement structure 13 on the direction perpendicular to connecting plate 131
With resigning recess and the other side has cover protrusion.That is, 13 side of reinforcement structure is lacked due to the intensity generated of stepping down
It falls into, is compensated in the other side of reinforcement structure 13.
For example, in the side in the direction perpendicular to connecting plate 131, protrusion of first reinforcing rib 132 relative to connecting plate 131
Protrusion height of the height less than the second reinforcing rib 133 relative to connecting plate 131 (i.e. it is recessed to form resigning on the first reinforcing rib 132
It falls into);In the other side in the direction perpendicular to connecting plate 131, the first reinforcing rib 132 is big relative to the protrusion height of connecting plate 131
In protrusion height (i.e. second reinforcing rib 133 on form cover protrusion) of second reinforcing rib 133 relative to connecting plate 131.
In another example second reinforcing rib 133 is relative to the convex of connecting plate 131 in the side in the direction perpendicular to connecting plate 131
Protrusion height of the height less than the first reinforcing rib 132 relative to connecting plate 131 (i.e. it is recessed to form resigning out on the second reinforcing rib 133
It falls into);In the other side in the direction perpendicular to connecting plate 131, the second reinforcing rib 133 is big relative to the protrusion height of connecting plate 131
In protrusion height (i.e. first reinforcing rib 132 on form cover protrusion) of first reinforcing rib 132 relative to connecting plate 131.
Combined with Figure 1 and Figure 2, in some embodiments, connecting plate 131 has first surface 1301 opposite in a second direction
With second surface 1302, referring to Fig. 2, the upper surface of connecting plate 131 is first surface 1301, and the lower surface of connecting plate 131
As second surface 1302.Wherein, in the same reinforcement structure 13, the first reinforcing rib 132 protrudes the first table of connecting plate 131
Face 1301 and second surface 1302, the second reinforcing rib 133 protrude the first surface 1301 and second surface 1302 of connecting plate 131.
In this way, can effectively guarantee the structural strength of reinforcement structure 13.
Such as Fig. 2, the height that the first reinforcing rib 132 protrudes first surface 1301 is H11, the second reinforcing rib 133 protrusion first
The height on surface 1301 is H21, and the height that the first reinforcing rib 132 protrudes second surface 1302 is H12, and the second reinforcing rib 133 is convex
The height of second surface 1302 is H22 out.
Wherein, in the section on predetermined plane, meet in the first reinforcing rib and the second reinforcing rib: if H11 >=H21,
Then H12≤H22.That is, the first reinforcing rib 132 is not less than the second reinforcing rib in the height that first surface 1301 protrudes above
133 in the height that first surface 1301 protrudes above, and the first reinforcing rib 132 is not more than in the height that second surface 1302 protrudes above
The height that second reinforcing rib 133 is protruded above in second surface 1302.
In this way, when on connecting plate 131 second surface 1302 towards side stepped down when, can pass through neighbouring high
Opposite the first reinforcing rib 132 told somebody what one's real intentions are of degree is stepped down, and since the first reinforcing rib 132 is stepped down, size has certain damage
It loses, therefore, adjustable first reinforces the height of protrusion first surface 1301 to adjust, and guarantees that the first reinforcing rib 132 has foot
Enough structure sizes, the structural strength of Lai Tisheng reinforcement structure 13.
In addition, the first reinforcing rib and the second reinforcing rib meet in the section on predetermined plane: if H11≤H12,
H21≥H22.That is, the first reinforcing rib 132 is not more than the second reinforcing rib 133 in the height that first surface 1301 protrudes above
In the height that first surface 1301 protrudes above, height that the first reinforcing rib 132 is protruded above in second surface 1302 is not less than the
The height that two reinforcing ribs 133 are protruded above in second surface 1302.
In this way, when on connecting plate 131 second surface 1302 towards side stepped down when, can pass through neighbouring high
Opposite the second reinforcing rib 133 told somebody what one's real intentions are of degree is stepped down, and since the second reinforcing rib 133 is stepped down, size has certain damage
It loses, therefore, adjustable second reinforces the height of protrusion first surface 1301 to adjust, and guarantees that the second reinforcing rib 133 has foot
Enough structure sizes, the structural strength of Lai Tisheng reinforcement structure 13.
Wherein, the above-mentioned description to the first reinforcing rib, the second reinforcing rib protrusion height, is to be directed to the same reinforcement structure
On the first reinforcing rib, the second reinforcing rib and connecting plate.The comparison of first reinforcing rib and the second reinforcing rib protrusion height can be with
It is: the everywhere in somewhere and the second reinforcing rib in the first reinforcing rib;Or second somewhere in reinforcing rib and the first reinforcing rib
In everywhere;Or first in reinforcing rib and the second reinforcing rib in opposite part etc. along first direction
To compare the first reinforcing rib and the second reinforcing rib in a first direction for opposite part: choosing the first reinforcing rib
On the first predetermined point, obtain the first reinforcing rib first predetermined point relative to first surface, second surface protrude height;
The second predetermined point is chosen on the second reinforcing rib, the first predetermined point on second predetermined point and aforementioned first reinforcing rib is first
It is opposite on direction, obtain the height that second predetermined point of the second reinforcing rib is protruded relative to first surface, second surface, then this
Highly meet size relation above-mentioned a bit.
Optionally, if H11 > H21, H12 < H22;If H11 < H12, H21 > H22.
Wherein, in description above-mentioned, section on predetermined plane can be with are as follows:
Perpendicular to the first reinforcing rib and perpendicular to the section of the plane of connecting plate interception reinforcement structure formation;Or
Perpendicular to the second reinforcing rib and perpendicular to the section of the plane of connecting plate interception reinforcement structure formation;Or
First reinforcing rib and the second reinforcing rib are parallel, and section is perpendicular to the first reinforcing rib, the second reinforcing rib and company
The plane interception reinforcement structure of fishplate bar is formed.
Furthermore it is possible to be arranged to, mutual corresponding any position is equal in a first direction for the first reinforcing rib, the second reinforcing rib
Meet above-mentioned size relation.
Combined with Figure 1 and Figure 2, in some embodiments, third reinforcing rib 135 is connected to the first reinforcing rib 132 and second and reinforces
Between muscle 133.Wherein, third reinforcing rib 135 can be set between the first reinforcing rib 132 and the second reinforcing rib 133, moreover,
Third reinforcing rib 135 can be connected with the first reinforcing rib 132 and the second reinforcing rib 133.In addition, third reinforcing rib 135 may be used also
To be connected with the surface of connecting plate 131, to promote the structural strength of reinforcement structure 13 by third reinforcing rib 135.
Wherein, third reinforcing rib 135 can be connected with the surface of corresponding connecting plate 131.
In addition, the third reinforcing rib 135 in the utility model may include one or more, third reinforcing rib 135 can be with
Extend along the extending direction of reinforcement structure 13, third reinforcing rib 135 can also be along the extension side perpendicular to reinforcement structure 13
To direction extend, in addition, third reinforcing rib 135 can also extend along first direction above-mentioned.
It should be pointed out that when being provided with a plurality of (at least two) third reinforcing rib 135 in reinforcement structure 13, a plurality of the
The extending direction of three reinforcing ribs 135 can be identical, can not also be identical.For example, a plurality of third reinforcing rib that setting transverse and longitudinal is intersected
135。
Combined with Figure 1 and Figure 2, in some embodiments, heat release hole 134 be set to connecting plate 131 on be located at third reinforcing rib 135 with
Region between end cap mounting portion 12.It can effectively guarantee the structural strength of bearing positioning region 11.Certainly, in the utility model
Heat release hole 134 also can be set between third reinforcing rib 135 and bearing positioning region 11.
Combined with Figure 1 and Figure 2, in some embodiments, on end cap 1 be provided with installation foot 14, can by installation foot 14 come
Motor 100 is installed, the installation effectiveness and stability of motor 100 are effectively improved.
Wherein, end cap 1 may include one or more installation feet 14, and optionally, installation foot 14 is pacified close to corresponding end cap
Dress portion 12 is arranged, and is connected with the 4th reinforcing rib between the reinforcement structure 13 of the end cap mounting portion 12 corresponding with connection of installation foot 14
141.The intensity of installation foot 14 can be effectively improved, to promote the stability and safety of motor 100.
Optionally, the spacing between installation foot 14 and bearing positioning region 11 is greater than end cap mounting portion 12 combined with Figure 1 and Figure 2,
With the spacing between bearing positioning region 11, the length of the 4th reinforcing rib 141a on the direction of the axis perpendicular to bearing positioning region 11
Degree is greater than the spacing between installation foot 14 and corresponding end cap mounting portion 12.Effectively further improve installation foot 14 and entire
The structural strength of end cap 1.
Optionally, installation foot 14 is two, two end cap mounting portions 12 setting that two installation feet 14 are positioned adjacent respectively to,
4th reinforcing rib 141 is connected to the outside of adjacent two end caps, 1 reinforcement structure 13, is connected with the 5th between two installation feet 14
Reinforcing rib 142.Further improve the structural strength of installation foot 14.
Combined with Figure 1 and Figure 2, in some embodiments, first reinforcing rib 132 or second adds in two adjacent reinforcement structures 13
Strengthening tendons 133 are neighbouring.That is, in two adjacent reinforcement structures 13, two the first reinforcing ribs are 132 close to each other, two
Second reinforcing rib 133 is located remotely from each other;Or two the second reinforcing ribs are 133 close to each other, two the first reinforcing ribs 132 are mutually remote
From.
In addition, in other words, along first direction above-mentioned, in multiple reinforcement structures 13, the first reinforcing rib of every two 132
Mutually adjacent and every two the second reinforcing rib 133 is mutually adjacent.For being provided with four reinforcement structures 13 on end cap 1, the
Multiple first reinforcing ribs 132 and multiple second reinforcing ribs 133 are arranged on one direction: two the first reinforcing ribs 132 → two
Two the second reinforcing ribs 133 of the first reinforcing rib 132 → two of reinforcing rib 133 → two, wherein close to each other one first is reinforced
It is connected with connecting plate 131 between muscle 132 and second reinforcing rib 133 and forms reinforcement structure 13.
Combined with Figure 1 and Figure 2, in some embodiments, dowel 136 is connected between two adjacent end cap mounting portions 12.
The structural strength of end cap 1 can be effectively further improved, moreover, ensure that the heat dissipation gap on end cap 1.
Axis of the connecting plate 131 about bearing positioning region 11 in some embodiments, in any two reinforcement structure 13
Symmetrically.In other words, the connecting plate 131 in multiple reinforcement structures 13 is located on sustained height relative to bearing positioning region 11, wherein
Connecting plate 131 can be plate, inclined plate, arc panel etc..
Combined with Figure 1 and Figure 2, in some embodiments, connecting plate 131 prolongs towards the direction of the axis far from bearing positioning region 11
It stretches, and connecting plate 131 is tilted towards second direction in the direction of extension.Wherein, referring to Fig. 2, second direction can be for from top to bottom
Direction, or direction from top to bottom
Combined with Figure 1 and Figure 2, in some embodiments, connecting plate 131 prolongs towards the direction of the axis far from bearing positioning region 11
It stretches, and connecting plate 131 is tilted towards second direction in the direction of extension, and in the first reinforcing rib 132 and the second reinforcing rib 133 at least
One edge includes straightway and tilting section, and straightway is perpendicular to second direction, and the inclination side of tilting section and connecting plate 131
To identical.
Combined with Figure 1 and Figure 2, in some embodiments, there is angle, and angle exists between two adjacent reinforcement structures 13
In the range of 10 ° to 180 °.Optionally, multiple reinforcement structures 13 can arrange uniform intervals in a first direction, for example, adjacent
Two reinforcement structures 13 between angle be ratio between 360 ° and the quantity of reinforcement structure 13.
Certainly, angle two neighboring in multiple reinforcement structures 13 can be identical or not identical, for example, in setting four
When a reinforcement structure 13, the structure between two adjacent reinforcement structures 13 can be respectively 60 °, 120 °, 60 °, 120 °.When
It is so, above-mentioned that the quantity of reinforcement structure 13, the description of angle are used for the purpose of explaining the technical solution of the utility model,
It is not intended to limit the protection scope of the utility model.
In addition the angle between two neighboring reinforcement structure 13 above-mentioned is it is to be understood that in projection in a second direction
In, the angle between two neighboring reinforcement structure 13.
Referring to Fig. 7, in some embodiments, radiating groove is equipped with around bearing positioning region 11.It can be by radiating groove to fixed
Bearing at bearing positioning region 11 radiates, and guarantees that bearing can be run under a good environment.
In conjunction with Fig. 1 to Fig. 2, in some embodiments, set on end cap 1 there are four end cap mounting portion 12 and a bearing positioning region
11, bearing positioning region 11 includes positioning shaft sleeve and locating flange, and locating flange is set to one end of positioning shaft sleeve and towards positioning shaft sleeve
Inside extends, and end cap mounting portion 12 is equipped with the bolt mounting holes extended in a second direction.
Referring to Fig. 3 to Fig. 8, according to the motor 100 of the utility model another aspect, comprising: field frame assembly, field frame assembly
Both ends are respectively connected with end cap 1, and at least one of two end caps 1 are the end cap 1 according to motor 100 above-mentioned, the end of end cap 1
Lid mounting portion is fixedly connected with field frame assembly.
According to the motor 100 of the utility model embodiment, 1 structure of end cap above-mentioned is used, can effectively guarantee end
Structural strength, heat dissipation effect and the stability of machine.
In addition, two end caps 1 in the utility model can be bolt-connected to together, to realize entire motor
100 assembling and assembly.
Wherein, two end caps 1 above-mentioned can be respectively upper end cover 1a, lower cover 1b.Wherein, upper end cover 1a and lower cover
1b all can be end cap 1 above-mentioned, or the end cap 1 of other forms.
As shown in figure 3, the motor 100 of the utility model has upper end cover 1a, lower cover 1b, field frame assembly 3, rotor assembly
The basic component structural such as 4 and attachment screw 5, the lower installation foot on upper installation foot 14a and lower cover 1b on upper end cover 1a
14b may be incorporated for connecting installation with washing machine complete machine.The upper end cover 1a of the utility model embodiment is described with reference to the accompanying drawings
With lower cover 1b, wherein upper end cover 1a and lower cover 1b can have the structure of the end cap 1 in previous embodiment, and aforementioned reality
Applying the end cap 1 in example also can have the structure of following upper end cover 1a and lower cover 1b.
As shown in Figure 4 and Figure 5, for the upper end cover 1a of motor 100, upper end cover 1a be equipped with 4 upper bolt aperture 1201a and
It is respectively equipped with reinforcement structure 13a between upper bearing (metal) positioning region 11a, upper bolt aperture 1201a and upper bearing (metal) positioning region 11a, it is upper to add
Strong structure 13a is made of upper junction plate 131a, upper first reinforcing rib 132a and upper second reinforcing rib 133a.In upper bearing (metal) positioning region
On the circumferencial direction of 11a, the upper first reinforcing rib 132a of upper reinforcement structure 13a and with adjacent upper reinforcement structure 13a upper
One reinforcing rib 132a is adjacent in angle, the upper second reinforcing rib 133a of upper reinforcement structure 13a and with adjacent upper reinforcement structure 13a's
Upper second reinforcing rib 133a adjacent is in angle.
Upper third is equipped between upper first reinforcing rib 132a and upper second reinforcing rib 133a on the surface upper junction plate 131a
Reinforcing rib 135a and upper heat release hole 134a.
The normal direction height of upper first reinforcing rib 132a and upper second reinforcing rib 133a on the outer surface of upper junction plate 131a
Unequal, height is respectively H11 and H21;Upper first reinforcing rib 132a and upper second reinforcing rib 133a are in upper junction plate 131a
Inner surface on normal direction height it is unequal, height is respectively H12 and H22, between each normal direction height of preceding reinforcing rib
Relationship is as follows: if (1) H11 >=H21, H12≤H22;(2) if H11≤H21, H12 >=H22.Wherein, upper junction plate 131a
Outer surface refer on upper junction plate 131a away from field frame assembly surface (with reference to aforementioned connecting plate 131 first surface
1301);The inner surface of upper junction plate 131a refers to that the surface on upper junction plate 131a towards field frame assembly (refers to aforementioned connecting plate
131 second surface 1302).
The design size relationship is for guaranteeing there is enough secured electrical gaps between 1 reinforcing rib of end cap and stator winding.
By utilizing the design size relationship, the utility model can sufficiently reduce the outer dimension of electric motor end cap 1, promote electric motor end cap
1 overall stiffness is applied on motor 100, may make the whole assembling structure of motor 100 more compact, improves motor
100 overall stiffness and intrinsic frequency, is conducive to the improvement of vibrating noise.
As shown in figure 4, upper first reinforcing rib 132a and upper second reinforcing rib 133a on the outer surface of upper junction plate 131a
Between be provided with third reinforcing rib 135a.Upper third reinforcing rib 135a can be provided with the inner surface or outer of upper junction plate 131a
On surface, it can be distributed between the first reinforcing rib 132a and upper second reinforcing rib 133a for one or more.The structure
Design can effectively promote the rigidity of end cap 1, be applied on motor 100, the overall stiffness and intrinsic frequency of motor 100 obtain
It is promoted, is conducive to the vibrating noise for improving motor 100.
As shown in figure 4, offering heat release hole 134a on upper junction plate 131a, upper heat release hole 134a is through-hole, shape
It can be each rule-like or irregular shape, structure design is conducive to the naturally right of 100 hot inside air of motor and external environment
Stream improves the heat dissipation problem of motor 100, promotes 100 service life of motor.Materials'use amount can also be reduced simultaneously, end cap 1 is reduced and make
Make cost, applied on motor 100, improves the market competitiveness of motor 100.
As shown in figure 4, upper installation foot 14a and respectively close to being respectively equipped between its upper side second reinforcing rib 133a
4th reinforcing rib 141a, length need to be greater than upper installation foot 14a at a distance from the upper bolt aperture 1201a line of centres, which sets
Meter can effectively improve the strength and stiffness of upper end cover 1a installation foot 14, reduce change of the electric motor end cap 1 under belt tension effect
Shape improves the bearing capacity of 1 structure of end cap, and the fatigue fracture for solving to occur when installation foot 14 links together with complete machine is asked
Topic.When itself and other parts are assembled together, so that the overall stiffness of motor 100 and intrinsic frequency are improved, favorably
In the vibrating noise for improving motor 100.
As shown in fig. 6, being used for the lower cover 1b of motor 100, lower cover 1b is equipped with 4 lower screw hole 1201b and lower axle
Positioning region 11b is held, lower connecting plate 131b and two reinforcements are respectively equipped between lower screw hole 1201b and lower bearing positioning region 11b
Muscle.Lower third reinforcing rib 135b, lower third reinforcing rib are equipped between two reinforcing ribs on the outer surface of lower connecting plate 131b
135b can be provided on inner surface or the outer surface of lower connecting plate 131b, can for one or more be distributed in two after plus
Between strengthening tendons.The structure designs the rigidity that can effectively promote end cap 1, is applied on motor 100, and the entirety of motor 100 is just
Degree and intrinsic frequency are improved, and are conducive to the vibrating noise for improving motor 100.
As shown in fig. 6, offering lower heat release hole 134b on lower connecting plate 131b, lower heat release hole 134b is through-hole, shape
It can be each rule-like or irregular shape, structure design is conducive to the naturally right of 100 hot inside air of motor and external environment
Stream improves the heat dissipation problem of motor 100, promotes 100 service life of motor.
Lower dissipate is offered on the end face 27 of device assembly as shown in fig. 7, the axially outer installation of lower bearing positioning region 11b is tested the speed
Heat channel 137b, centered on the 11b of lower bearing positioning region circumferentially, shape are each rule-like or irregular shape.The structure
Design increases the heat dissipation area at the 11b of lower bearing positioning region, is conducive to the heat dissipation problem for improving lower bearing positioning region 11b, mentions
High bearing life.Materials'use amount can also be reduced simultaneously, 1 cost of manufacture of end cap is reduced, applied on motor 100, mentioned
The market competitiveness of high motor 100.
1 structural improvement of end cap of the utility model integral strength and rigidity of components, in particular improves installation foot
14 intensity, is applied on motor 100, not only can solve may occur when installation foot 14 links together with complete machine it is tired
Labor breakage problem, moreover it is possible to which the overall stiffness and intrinsic frequency for improving motor 100 are conducive to improve vibrating noise.Furthermore pass through office
The optimization design of portion's details improves the heat dissipation problem of motor 100, improves 100 service life of motor.Materials'use can also be reduced simultaneously
Amount reduces by 1 cost of manufacture of end cap, is applied on motor 100, improves the market competitiveness of motor 100.
In addition, it is necessary to, it is noted that before the structure of upper end cover 1a, lower cover 1b in the utility model can be applied to
On the end cap 1 stated.For example, upper end cover 1a above-mentioned, lower cover 1b can be equivalent to end cap 1 above-mentioned;On aforementioned upper end cover 1a
The component that setting lower screw hole 1201b on the component and lower cover 1b above-mentioned of upper bolt aperture 1201a is arranged can be suitable
In end cap mounting portion 12 above-mentioned;Upper first reinforcing rib 132a above-mentioned can be equivalent to the first reinforcement on end cap 1 above-mentioned
Muscle 132;Upper second reinforcing rib 133a above-mentioned can be equivalent to the second reinforcing rib 133 on end cap 1 above-mentioned;Upper axis above-mentioned
Hold positioning region 11a, lower bearing positioning region 11b can be equivalent to bearing positioning region 11 on said end cap 1;Upper connection above-mentioned
Plate 131a, lower connecting plate 131b can be equivalent to the connecting plate 131 on end cap 1 above-mentioned;Upper heat release hole 134a above-mentioned, under
Heat release hole 134b can be equivalent to the heat release hole 134 on end cap 1 above-mentioned;Upper reinforcement structure 13a above-mentioned, lower reinforcement structure
13b can be equivalent to the reinforcement structure 13 on said end cap 1.
Therefore, according to these corresponding relationships, the structure on said end cap 1 can be applied to upper end cover 1a and lower cover 1b
On, and the structure on same upper end cover 1a, lower cover 1b also can be applied on end cap 1 above-mentioned.
Be previously with regard to upper end cover 1a, lower cover 1b description it can be appreciated that 1 structure of end cap above-mentioned on motor 100
Concrete application.
Utility model discloses a kind of 1 structure of electric motor end cap and the motor 100 with it, 1 structure of electric motor end cap include: axis
Bearing portion, connecting hole, heat release hole 134, radiating groove, installation foot 14, connecting hole, reinforcing rib and the connection being arranged between reinforcing rib
Panel connects and is distributed multiple third reinforcing ribs and heat release hole 134, third reinforcing rib one or more between the reinforcing rib on panel
Be distributed between the first reinforcing rib and the second reinforcing rib, heat release hole 134 be through-hole.It is more between the reinforcing rib of the utility model
Radiating groove 137 at third reinforcing rib and heat release hole 134 and bearing portion, so that end cap 1 has the rigidity of structure good and radiates
The advantages that effect is good can greatly improve the overall structure rigidity of motor 100, further solve motor 100
Vibration noise problem and the bad problem of heat dissipation, effectively reduce vibrating noise, reduce by 100 temperature rise of motor, to improve motor 100
Service life.
In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width
Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " suitable
The orientation or positional relationship of the instructions such as hour hands ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " is orientation based on the figure
Or positional relationship, be merely for convenience of describing the present invention and simplifying the description, rather than the device of indication or suggestion meaning or
Element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as the limit to the utility model
System.
In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance
Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include at least one this feature.The meaning of " plurality " is at least two, such as two in the description of the present invention,
It is a, three etc., unless otherwise specifically defined.
In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu
It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral;It can be
Mechanical connection, is also possible to be electrically connected;It can be directly connected, two can also be can be indirectly connected through an intermediary
The interaction relationship of connection or two elements inside element, unless otherwise restricted clearly.For the common skill of this field
For art personnel, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.
In the present invention unless specifically defined or limited otherwise, fisrt feature is in the second feature " on " or " down "
It can be that the first and second features directly contact or the first and second features are by intermediary mediate contact.Moreover, first is special
Sign can be fisrt feature above the second feature " above ", " above " and " above " and be directly above or diagonally above the second feature, or only
Indicate that first feature horizontal height is higher than second feature.Fisrt feature under the second feature " below ", " below " and " below " can be with
It is that fisrt feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height no more than second feature.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example
Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term
It states and is necessarily directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be with
It can be combined in any suitable manner in any one or more of the embodiments or examples.In addition, without conflicting with each other, this field
Technical staff can by the feature of different embodiments or examples described in this specification and different embodiments or examples into
Row combination and combination.
Although the embodiments of the present invention have been shown and described above, it is to be understood that above-described embodiment is
Illustratively, it should not be understood as limiting the present invention, those skilled in the art are in the scope of the utility model
Inside it can make changes, modifications, alterations, and variations to the above described embodiments.
Claims (13)
1. a kind of end cap of motor, which is characterized in that the end cap includes bearing positioning region, end cap mounting portion and reinforcement structure,
The end cap mounting portion include around the bearing positioning region axis it is spaced multiple, each end cap mounting portion with
The reinforcement structure is respectively connected between the bearing positioning region, multiple reinforcement structures are around the bearing positioning region
There is gap on direction,
Wherein, the reinforcement structure includes connecting plate, the first reinforcing rib and the second reinforcing rib, first reinforcing rib and described
Two reinforcing ribs are connected to the connecting plate opposite two sides in a first direction, and the connecting plate is equipped with heat release hole, institute
It states heat release hole and penetrates through the connecting plate, and first reinforcing rib, second reinforcing rib and the connection in a second direction
It is connected with third reinforcing rib between plate, the first direction is the direction of the axis around the bearing positioning region, described second
Direction is the direction for being parallel to the axis of the bearing positioning region.
2. the end cap of motor according to claim 1, which is characterized in that described on the direction perpendicular to the connecting plate
The side of reinforcement structure is with resigning recess and the other side has cover protrusion.
3. the end cap of motor according to claim 1, which is characterized in that the connecting plate has opposite in a second direction
First surface and second surface, first reinforcing rib protrude the first surface height be H11, second reinforcing rib
The height for protruding the first surface is H21, and the height that first reinforcing rib protrudes the second surface is H12, described the
The height that two reinforcing ribs protrude the second surface is H22,
Wherein, to be intercepted perpendicular to first reinforcing rib and/or the second reinforcing rib and perpendicular to the plane of the connecting plate
In the section that the reinforcement structure is formed, first reinforcing rib and second reinforcing rib meet: if H11 >=H21, H12
≤H22;If H11≤H12, H21 >=H22.
4. the end cap of motor according to claim 1, which is characterized in that the third reinforcing rib is connected to described first and adds
One or more between strengthening tendons and second reinforcing rib.
5. the end cap of motor according to claim 1, which is characterized in that the heat release hole, which is set on the connecting plate, to be located at
Region between the third reinforcing rib and the end cap mounting portion.
6. the end cap of motor according to claim 1, which is characterized in that the end cap further includes one or more installations
Foot, the installation foot is arranged close to the corresponding end cap mounting portion, and installation foot end cap mounting portion corresponding with connection
Reinforcement structure between be connected with the 4th reinforcing rib.
7. the end cap of motor according to claim 6, which is characterized in that between the installation foot and the bearing positioning region
Spacing be greater than spacing between the end cap mounting portion and the bearing positioning region, in the axis perpendicular to the bearing positioning region
The length of the 4th reinforcing rib is greater than the spacing between the installation foot and the corresponding end cap mounting portion on the direction of line.
8. the end cap of motor according to claim 6, which is characterized in that the installation foot is two, two installations
Two end cap mounting portion settings that foot is positioned adjacent respectively to, the 4th reinforcing rib are connected to two adjacent end caps
The outside of reinforcement structure is connected with the 5th reinforcing rib between two installation feet.
9. the end cap of motor according to claim 1 to 8, which is characterized in that the reinforcement knot of adjacent two
The first reinforcing rib or the second reinforcing rib are neighbouring in structure.
10. the end cap of motor according to claim 1 to 8, which is characterized in that two adjacent end caps
Dowel is connected between mounting portion.
11. the end cap of motor described in any one of -8 according to claim 1, which is characterized in that
Axisymmetrical of the connecting plate about the bearing positioning region in reinforcement structure described in any two;And/or
The connecting plate extends in the direction towards the axis far from the bearing positioning region, and the connecting plate is in the direction of extension
It is tilted towards second direction;And/or
The connecting plate extends in the direction towards the axis far from the bearing positioning region, and the connecting plate is in the direction of extension
It is tilted towards second direction, and the edge of at least one in first reinforcing rib and second reinforcing rib includes straightway and inclines
Oblique section, the straightway is perpendicular to the second direction, and the tilting section is identical as the inclined direction of the connecting plate;With/
Or
There is angle, and the angle is in the range of 10 ° to 180 ° between two adjacent reinforcement structures;And/or
Radiating groove is equipped with around the bearing positioning region.
12. the end cap of motor described in any one of -8 according to claim 1, which is characterized in that the end cap is equipped with four
A end cap mounting portion and a bearing positioning region, the bearing positioning region include positioning shaft sleeve and locating flange, institute
Locating flange is stated set on one end of the positioning shaft sleeve and towards extension on the inside of the positioning shaft sleeve, the end cap mounting portion is equipped with
The bolt mounting holes extended along the second direction.
13. a kind of motor characterized by comprising
Field frame assembly, the both ends of the field frame assembly are respectively connected with end cap, and according at least one of two described end caps
The end cap of motor of any of claims 1-12, the end cap mounting portion and the field frame assembly of the end cap are fixed to be connected
It connects.
Priority Applications (1)
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CN201821925093.9U CN208890520U (en) | 2018-11-21 | 2018-11-21 | Motor and its end cap |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821925093.9U CN208890520U (en) | 2018-11-21 | 2018-11-21 | Motor and its end cap |
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Publication Number | Publication Date |
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CN208890520U true CN208890520U (en) | 2019-05-21 |
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ID=66518445
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112531946A (en) * | 2019-09-17 | 2021-03-19 | 佛山市威灵洗涤电机制造有限公司 | Motor and washing machine |
-
2018
- 2018-11-21 CN CN201821925093.9U patent/CN208890520U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112531946A (en) * | 2019-09-17 | 2021-03-19 | 佛山市威灵洗涤电机制造有限公司 | Motor and washing machine |
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