CN203456975U - Damping ring mounting structure, motor and dryer - Google Patents

Abstract

The utility model provides a damping ring mounting structure, a motor and a dryer. The damping ring mounting structure comprises a motor end cover provided with a boss, a damping ring arranged on the boss in a sleeved manner, and a stop ring used for tightly pressing the damping ring on the motor end cover. A shaft hole is arranged in the middle of the boss; a fixed column is arranged on the top of the boss in a protruding manner; and the stop ring is fixedly connected with the fixed column. The motor comprises a motor body and the damping ring mounting structure is arranged on the motor body. The dryer comprises the dryer body and the motor, and the motor is fixedly mounted on the dryer body. Via the fixed column, the stop ring can be locked and fixed on the motor end cover, so installation and fixation of the damping ring can be achieved; a mounting process is simple and easy, and there is no need to worry the stop ring is deformed by being pressed; and the wall of the stop ring is thinner, so material cost of the stop ring is reduced.

Description

Installation structure for damping ring and motor and dryer

Technical field

The utility model belongs to dryer application, relates in particular to a kind of installation structure for damping ring and has the motor of this installation structure for damping ring and have the dryer of this motor.

Background technology

Dryer is a kind of conventional washing machine equipment, the motor that it generally comprises rotatable cylinder and rotates for head roll, in order to improve the shockproof effect of motor, shock absorbing ring is generally also installed on the end cap of motor, and shock absorbing ring is generally fixed on electric motor end cap by a metal collar.

In prior art, metal collar is generally by being mounted on electric motor end cap with the mode of end cap seam interference fit.Understandably, if the magnitude of interference of metal collar and end cap seam is excessive, easily cause metal collar to be pressed into the phenomenon of distortion; And if the magnitude of interference of metal collar and end cap seam is too small, the phenomenon that easily causes metal collar to get loose.Therefore, the mounting means of this interference fit has the following disadvantages in concrete application: on the one hand in order to guarantee the fit tolerance of metal collar and end cap seam, require the machining accuracy of metal collar and end cap seam higher, like this, strengthen the degree of difficulty of metal collar and the processing of end cap seam, thereby improved the installation cost of shock absorbing ring; Deform easily when preventing that metal collar is pressed into end cap seam on the other hand, need metal washer to there is certain wall thickness, like this, improved the material cost of metal collar, thereby improved the installation cost of shock absorbing ring; Again on the one hand, the force fit install operation process of metal collar is complicated, difficulty is large, is unfavorable for the Fast Installation of metal collar, like this, has greatly affected the assembling production efficiency of shock absorbing ring.

Utility model content

The purpose of this utility model has been to provide a kind of installation structure for damping ring and has had the motor of this installation structure for damping ring and have the dryer of this motor, and it is intended to solve the technical problem that in prior art, shock absorbing ring installation process is complicated, installation difficulty is large, installation cost is high.

The utility model is achieved in that a kind of installation structure for damping ring, comprise have boss electric motor end cap, be sheathed on shock absorbing ring on described boss and for described shock absorbing ring is pressed in to the back-up ring on described electric motor end cap, the centre of described boss offers axis hole, on described boss, convex with fixed leg, described back-up ring is fixedly connected with described fixed leg.

Particularly, described back-up ring is provided with the through hole being equipped with described fixed leg, and the mid portion of described fixed leg is arranged in described through hole, and the top of described fixed leg is stuck in outside described through hole.

More specifically, described fixed leg is connected on described back-up ring by the mode of pressing.

Particularly, described back-up ring is stepped, it comprises that the first cascade ring and external diameter are greater than the second cascade ring of described the first cascade ring external diameter, described the first cascade ring is inserted in described axis hole, described the second cascade ring is stuck in outside described axis hole and described shock absorbing ring is pressed on described boss, and described through hole is located on described the second cascade ring.

More specifically, the top of described shock absorbing ring is concaved with groove downwards, and described the second cascade ring is contained in described groove.

Particularly, described boss is stepped, it comprises and is convexly set in first stage at described lid top and is convexly set in the second stage that described the first stage top and external diameter are less than described the first stage external diameter, described shock absorbing ring is sheathed in described the second stage, and described fixed leg is convexly set in the top of described the second stage.

Further, on the madial wall of described shock absorbing ring, convex with locating piece, on the lateral wall of described the second stage, be concaved with the location notch being equipped with described locating piece.

Preferably, described fixed leg and described through hole are equipped with four, and four described fixed legs are circle-shaped evenly spaced apart in the top of described boss, and four described through holes arrange with four described fixed leg contrapositions respectively.

The installation structure for damping ring that the utility model provides, by fixed leg is set on boss, and make back-up ring be fixedly connected with fixed leg, like this, can effectively back-up ring be locked on the boss of electric motor end cap, and being locked of back-up ring can effectively be locked shock absorbing ring on electric motor end cap, and then realized the installation of shock absorbing ring on electric motor end cap and fixed.Its install operation process is simple, be easy to realize, thereby greatly simplified the installation process of shock absorbing ring, and reduced the installation difficulty of shock absorbing ring; And because its installation process does not need to worry therefore its wall thickness to back-up ring is less demanding, thereby can make the phenomenon of back-up ring crimp the wall thickness of back-up ring design thinlyyer, and then reduce the material cost of back-up ring.

The utility model also provides a kind of motor, and it comprises motor body, and described motor body is provided with above-mentioned installation structure for damping ring.

The motor that the utility model provides, owing to having adopted above-mentioned installation structure for damping ring, therefore, greatly reduce the installation difficulty of shock absorbing ring on electric motor end cap, simplified the installation process of shock absorbing ring, thereby be beneficial to the Fast Installation of shock absorbing ring on electric motor end cap, and then greatly improved the assembling production efficiency and the installation cost that has reduced shock absorbing ring of shock absorbing ring.

The utility model also provides a kind of dryer, comprises body and above-mentioned motor, and described motor is mounted on described body.

The dryer that the utility model provides, owing to having adopted above-mentioned motor, therefore, guaranteeing, under the prerequisite of motor shockproof effect, to effectively reduce the production cost of product, improved the synthesized competitiveness of product.

Accompanying drawing explanation

Fig. 1 is the decomposing schematic representation of the installation structure for damping ring that provides of the utility model embodiment;

Fig. 2 is the overall package schematic diagram of the installation structure for damping ring that provides of the utility model embodiment;

Fig. 3 is the vertical view of Fig. 2;

Fig. 4 is the A-A profile in Fig. 3.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1 to 4, the installation structure for damping ring that the utility model embodiment provides, comprise have boss 12 electric motor end cap 1, be sheathed on the shock absorbing ring 2 on boss 12 and be located at boss 12 tops shock absorbing ring 2 is pressed in to the back-up ring 3 on electric motor end cap 1, particularly, electric motor end cap 1 comprises lid 11 and is convexly set in the boss 12 on lid 11, the centre of boss 12 offers axis hole 120, shock absorbing ring 2 is sheathed on boss 12, the setting of boss 12, the installation of being inserted in of shock absorbing ring 2 can be supplied, thereby the installation of shock absorbing ring 2 on electric motor end cap 1 can be realized.The top of boss 12 convexes with fixed leg 4, and back-up ring 3 is fixedly connected with fixed leg 4.By being fixedly connected with of fixed leg 4 and back-up ring 3, can effectively back-up ring 3 be locked on electric motor end cap 1, and the effect that compresses of 3 pairs of shock absorbing rings 2 of back-up ring, can effectively limit shock absorbing ring 2 vertical displacement on electric motor end cap 1 again, therefore, after back-up ring 3 is locked, shock absorbing ring 2 is also locked on electric motor end cap 1.The utility model, the install operation process of shock absorbing ring 2 on electric motor end cap 1 is simple, convenient, like this, has greatly simplified the installation process of shock absorbing ring 2, has reduced the installation difficulty of shock absorbing ring 2.Simultaneously, owing to not producing direct extruding relation between installation process back-up ring 3 and electric motor end cap 1, therefore, installation process does not need to worry to occur the phenomenon of back-up ring 3 extrusions, like this, effectively reduce the wall thickness requirement to back-up ring 3, thereby make the wall thickness of back-up ring 3 can design very thinly, and then reduced the material cost of back-up ring 3.In concrete application, the wall thickness of back-up ring 3 can be 0.3～1.0mm, and as a preferred version, the wall thickness of back-up ring 3 is 0.3～0.8mm.

Particularly, as shown in Figure 1 and Figure 4, back-up ring 3 is provided with the through hole 321 being equipped with fixed leg 4, and the mid portion of fixed leg 4 is arranged in through hole 321, and the top of fixed leg 4 is stuck in outside through hole 321.Coordinating between fixed leg 4 and through hole 321 is preferably matched in clearance, like this, can be convenient to fixed leg 4 and be arranged in easily in through hole 321, thereby greatly reduce the assembly difficulty of fixed leg 4 and through hole 321, and then greatly improve the installation effectiveness of back-up ring 3 on electric motor end cap 1.Fixed leg 4 is equipped with through hole 321, can realize back-up ring 3 being locked on electric motor end cap 1 on the one hand, can play guide effect to the installation of back-up ring 3 on the other hand.During installation, first shock absorbing ring 2 is placed on the boss 12 of electric motor end cap 1; Then back-up ring 3 is pressed on shock absorbing ring 2, and fixed leg 4 is arranged in through hole 321, so that the protruding top that is exposed to back-up ring 3, the top of fixed leg 4; And then by the mode of pressing or nut connected mode or pin connected mode, the top clamping of fixed leg 4 is fixed on outside through hole 321, like this, can effectively limit the vertical displacement of back-up ring 3 on electric motor end cap 1, thereby can effectively back-up ring 3 be locked on electric motor end cap 1, and then effectively realize the installation of shock absorbing ring 2 on electric motor end cap 1 and fix.

Particularly, the top of fixed leg 4 can connect and fix on back-up ring 3 by the mode of pressing.More specifically, before the operation that do not press, the top of fixed leg 4 can free shuttling inside and outside through hole 321, and the top external diameter that can make fixed leg 4 after the operation that presses is greater than the internal diameter of through hole 321, and then the top clamping that can make fixed leg 4 is fixed on outside through hole 321, like this, effectively limit the vertical displacement of back-up ring 3 on electric motor end cap 1, thereby can effectively back-up ring 3 and shock absorbing ring 2 be locked on the boss 12 of electric motor end cap 1.In concrete installation process, when the top of fixed leg 4 pass through hole 321 outer after, also can be only to exposing to the operation that presses of partial fixing post 4 top sidewalls outside through hole 321, as the one diametric(al) sidewall at fixed leg 4 tops pressed in in-line mode or in cross mode, the two intersection diametric(al) sidewalls at fixed leg 4 tops being pressed, so that this part is pressed the side position distortion of sidewall to produce crimping or projection, thereby can make the top sidewall of fixed leg 4 there is the deformation place that external diameter is greater than through hole 321 internal diameters, and can make fixed leg 4 tops be stuck in outside through hole 321 by this deformation place, like this, can reach the object that back-up ring 3 is locked on electric motor end cap 1.

Or the top of fixed leg 4 can connect clamping by nut and be fixed on described back-up ring 3.Particularly, can be in the top of fixed leg 4 threading, during installation, top at fixed leg 4 screws in mounting nuts (not shown), like this, by nut, can effectively limit the vertical displacement of back-up ring 3, thereby can effectively back-up ring 3 be fixed on boss 12, and then realize the installation of shock absorbing ring 2 on electric motor end cap 1 and fixed.

Or the top of fixed leg 4 can connect clamping by pin and be fixed on described back-up ring 3.Particularly, can offer pin-and-hole in the top of fixed leg 4, during installation, in pin-and-hole, insert mount pin (not shown), like this, can effectively limit the vertical displacement of back-up ring 3, thereby can effectively back-up ring 3 be fixed on boss 12, and then realize the installation of shock absorbing ring 2 on electric motor end cap 1 and fixed.

Owing to not needing additional processing screw thread or hole on the fixed leg 4 pressing in connection scheme, like this, the connection scheme that can make to press, with respect to nut connection scheme, pin connection scheme, has that fixed leg 3 is simple in structure, the course of processing is easy, is easy to the features such as realization; Therefore preferably, the top of fixed leg 4 connects and fixes in the top of back-up ring 3 by riveting method, this scheme has effectively been simplified the design course of processing of fixed leg 4 and back-up ring 3, reduces the design processing cost of fixed leg 4 and back-up ring 3.Simultaneously, the process of pressing can adopt the special use specific purpose tools such as frock or riveting gun that press to operate, like this, can effectively reduce the difficulty that presses, and be beneficial to the operation in enormous quantities of the process of pressing, thereby be beneficial to shock absorbing ring 2, produce with the assembling in enormous quantities of electric motor end cap 1, and then improved the assembling production efficiency of shock absorbing ring 2.In concrete application, fixed leg 4 can with the one-body molded design of electric motor end cap 1.

Preferably, as shown in Figure 1 and Figure 4, back-up ring 3 is stepped, it comprises the second cascade ring 32 that the first cascade ring 31 that gabarit and axis hole 120 are equipped with and external diameter are greater than the first cascade ring 31 external diameters, the first cascade ring 31 is inserted in axis hole 120, the second cascade ring 32 is stuck in outside axis hole 120 and shock absorbing ring 2 is pressed on boss 12, and through hole 321 is located on the second cascade ring 32.In concrete application, back-up ring 3 can adopt metal material to make.Coordinating between the first cascade ring 31 and axis hole 120 preferably adopts gap fiting mode, like this, can make the first cascade ring 31 can insert easily in the axis hole 120 of boss 12, thereby can improve the installation effectiveness of back-up ring 3, and the phenomenon that in can effectively anti-Sealing shield ring 3 installation processes, the first cascade ring 31 deforms.The present embodiment, back-up ring 3 is set to ring-type, and the first cascade ring 31 that external diameter is less is inserted in the axis hole 120 of boss 12, like this, cooperation by the first cascade ring 31 and axis hole 120 can further improve the reliability of positioning of back-up ring 3 on electric motor end cap 1, and can play guide effect to the installation of back-up ring 3.Certainly, during specific design, also the first cascade ring 31 can be set, 3 of back-up rings are provided with and are stuck in outside axis hole 120 and shock absorbing ring 2 is pressed in to the second cascade ring 32 on boss 12, like this, also can reach the object that is fixed shock absorbing ring 2.In concrete application, the concrete shape of back-up ring 3 can be optimized design according to condition.

Further, as shown in Figure 1 and Figure 4, the top of shock absorbing ring 2 is concaved with groove 21 downwards, and the radial dimension of groove 21 is greater than the radial dimension of installing hole 23, and the second cascade ring 32 is contained in groove 21.The bottom of the second cascade ring 32 is resisted against the bottom of groove 21, and like this, when the second cascade ring 32 is fixed on electric motor end cap 1 by fixed leg 4 riveted joints, the second cascade ring 32 can be fixed shock absorbing ring 2 on electric motor end cap 1.Simultaneously, the setting of groove 21, can make the second cascade ring 32 be contained in completely in shock absorbing ring 2, thereby can prevent that the second cascade ring 32 from exposing to outside shock absorbing ring 2, like this, can improve the overall aesthetics of this installation structure for damping ring on the one hand, can prevent that on the other hand the second cascade ring 32 is subject to the collision of foreign object.

Particularly, as shown in Figure 1 and Figure 4, boss 12 is stepped, it comprises and is convexly set in first stage 121 at lid 11 tops and is convexly set in the first stage 121 tops and external diameter is less than the second stage 122 of the first stage 121 external diameters, shock absorbing ring 2 is sheathed on the upper of the second stage 122, and the bottom of shock absorbing ring 2 is resisted against crossing on step surface of the first stage 121 and the second stage 122, and fixed leg 4 is convexly set in the top of the second stage 122.Shock absorbing ring 2 in the form of a ring, runs through the installing hole 23 offering with the second stage 122 gabarit adaptations in the middle of it, the outer wall profile of the inner surface contour of installing hole 23 and the second stage 122 is adaptive.The setting of the second stage 122, can be inserted in installation for shock absorbing ring 2, thereby can effectively limit the circumferential displacement of shock absorbing ring 2.The setting of the first stage 121, can effectively limit shock absorbing ring 2 and vertically move displacement in the second stage 122, like this, can the installation on boss 12 play the effect of restriction location to shock absorbing ring 2.

Further, as shown in Figure 1, convex with on the lateral wall of locating piece 22, the second stages 122 and be concaved with the location notch 1221 being equipped with locating piece 22 on the madial wall of shock absorbing ring 2, locating piece 22 is stuck in location notch 1221.Locating piece 22 is similar with the contour shape of location notch 1221, and in concrete application, the concrete shape of locating piece 22 and location notch 1221 can be optimized design according to real needs and processing conditions, as can be rectangular-shaped or semi-cylindrical etc.Because the seamed edge of rectangular elements can improve two reliability of positioning that cooperatively interact member, therefore locating piece 22 and location notch 1221 are preferably designed for rectangular-shaped.The setting of locating piece 22 and location notch 1221, can the installation on electric motor end cap 1 play guide effect to shock absorbing ring 2 on the one hand, thereby the installation effectiveness of shock absorbing ring 2 on electric motor end cap 1 and the accuracy that has guaranteed shock absorbing ring 2 installation sites have been improved, can effectively prevent from the other hand rotating motion after shock absorbing ring 2 is sheathed on electric motor end cap 1, thereby improve the reliability that shock absorbing ring 2 is located on electric motor end cap 1.

Preferably, as shown in Figure 1, locating piece 22 and location notch 1221 are equipped with four, and four locating pieces 22 are evenly spaced apart along the madial wall of shock absorbing ring 2, four location notchs 1221 respectively with the 22 contraposition settings of four locating pieces.Four locating pieces 22 evenly spaced apart, can make stressed more even between each locating piece 22 and each location notch 1221, thereby can prevent from occurring because each locating piece 22 unbalance stress cause the situation of indivedual locating piece 22 Rapid Damages, and then fully guarantee the useful life of each locating piece 22 and location notch 1221.Certainly, the magnitude setting of locating piece 22 and location notch 1221 also can be four above or below, and we know, the magnitude setting of locating piece 22 and location notch 1221 is more, its reliability of positioning is higher, but its manufacturing cost is also higher, therefore, in concrete application, the magnitude setting of locating piece 22 and location notch 1221 can be optimized design according to concrete positioning performance demand and manufacturing cost.

Preferably, as shown in Figures 1 to 3, fixed leg 4 and through hole 321 are equipped with four, and it is circle-shaped evenly spaced apart in the top of electric motor end cap 1 convex platform 12 that four fixed legs 4 are, four through holes 321 respectively with the 4 contraposition settings of four fixed legs.Four fixed legs 4 evenly spaced apart, can make stressed more even between each fixed leg 4 and each through hole 321, thereby can prevent from occurring because each fixed leg 4 unbalance stress cause the situation of indivedual fixed leg 4 Rapid Damages, and then fully guarantee the useful life of each fixed leg 4 and through hole 321.Certainly, the magnitude setting of fixed leg 4 and through hole 321 also can be four above or below, and we know, the magnitude setting of fixed leg 4 and through hole 321 is more, its reliability of positioning is higher, but its manufacturing cost is also higher, therefore, in concrete application, the magnitude setting of fixed leg 4 and through hole 321 can be optimized design according to concrete positioning performance demand and manufacturing cost.

The utility model also provides a kind of motor, and it comprises motor body (not shown), and motor body is provided with above-mentioned installation structure for damping ring.It is owing to having adopted above-mentioned installation structure for damping ring, therefore, greatly reduce the installation difficulty of shock absorbing ring 2 on electric motor end cap 1, simplified the mounting process of shock absorbing ring 2, thereby be beneficial to the Fast Installation of shock absorbing ring 2 on electric motor end cap 1, and then greatly improved the assembling production efficiency and the installation cost that has reduced shock absorbing ring 2 of shock absorbing ring 2.

The utility model also provides a kind of dryer, and it comprises body (not shown) and above-mentioned motor, and motor is mounted on body.It is owing to having adopted above-mentioned motor, therefore, guaranteeing, under the prerequisite of motor shockproof effect, to effectively reduce the production cost of product, improved the synthesized competitiveness of product.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace or improvement etc., within all should being included in protection range of the present utility model.

Claims (10)

1. an installation structure for damping ring, comprise have boss electric motor end cap, be sheathed on shock absorbing ring on described boss and for described shock absorbing ring is pressed in to the back-up ring on described electric motor end cap, the centre of described boss offers axis hole, it is characterized in that: on described boss, convex with fixed leg, described back-up ring is fixedly connected with described fixed leg.

2. installation structure for damping ring as claimed in claim 1, is characterized in that: described back-up ring is provided with the through hole being equipped with described fixed leg, and the mid portion of described fixed leg is arranged in described through hole, and the top of described fixed leg is stuck in outside described through hole.

3. installation structure for damping ring as claimed in claim 2, is characterized in that: described fixed leg is connected on described back-up ring by the mode of pressing.

4. installation structure for damping ring as claimed in claim 2 or claim 3, it is characterized in that: described back-up ring is stepped, it comprises that the first cascade ring and external diameter are greater than the second cascade ring of described the first cascade ring external diameter, described the first cascade ring is inserted in described axis hole, described the second cascade ring is stuck in outside described axis hole and described shock absorbing ring is pressed on described boss, and described through hole is located on described the second cascade ring.

5. installation structure for damping ring as claimed in claim 4, is characterized in that: the top of described shock absorbing ring is concaved with groove downwards, and described the second cascade ring is contained in described groove.

6. the installation structure for damping ring as described in claims 1 to 3 any one, it is characterized in that: described boss is stepped, it comprises and is convexly set in first stage at described lid top and is convexly set in the second stage that described the first stage top and external diameter are less than described the first stage external diameter, described shock absorbing ring is sheathed in described the second stage, and described fixed leg is convexly set in the top of described the second stage.

7. installation structure for damping ring as claimed in claim 6, is characterized in that: on the madial wall of described shock absorbing ring, convex with locating piece, be concaved with the location notch being equipped with described locating piece on the lateral wall of described the second stage.

8. installation structure for damping ring as claimed in claim 2 or claim 3, it is characterized in that: described fixed leg and described through hole are equipped with four, four described fixed legs are circle-shaped evenly spaced apart in the top of described boss, and four described through holes arrange with four described fixed leg contrapositions respectively.

9. a motor, comprises motor body, it is characterized in that: described motor body is provided with the installation structure for damping ring as described in claim 1 to 8 any one.

10. a dryer, comprises body, it is characterized in that: also comprise motor as claimed in claim 9, described motor is mounted on described body.

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