CN211629967U - Casing convenient to permanent magnetism speed adjusting device keeps steady operation - Google Patents

Abstract

The utility model relates to a shell convenient for a permanent magnet speed regulation device to keep stable operation, which comprises a shell body, an input power shaft supporting hole, an output power shaft supporting hole and a supporting leg; and reinforcing mechanisms are arranged at the joints of the shell body, the input power shaft supporting hole, the output power shaft supporting hole and the supporting legs. Its advantages are: the utility model discloses a casing convenient to permanent magnetism speed adjusting device steady operation, casing body all are equipped with the strengthening mechanism with the junction of input power shaft supported hole, output power shaft supported hole, supporting legs. Under the condition of operation of the whole machine, the joint of the shell body and the supporting holes of the input power shaft, the output power shaft and the supporting legs bears large acting force, the supporting strength is good, torque is convenient to transfer, and stable working operation can be kept.

Description

Casing convenient to permanent magnetism speed adjusting device keeps steady operation

Technical Field

The utility model belongs to the technical field of permanent magnet speed adjusting device technique and specifically relates to a casing convenient to permanent magnet speed adjusting device steady operation.

Background

A permanent magnet speed regulation device, also known as a magnetic coupler, is a device which realizes torque transmission from a motor to a load through an air gap between a conductor and a permanent magnet, and can realize a transmission mode without mechanical connection between the motor and the load.

However, the permanent magnet speed regulation device in the prior art has the following defects and shortcomings:

the permanent magnet speed regulating device shell used in the prior art is provided with an input end rotor and an output end rotor, wherein the input end rotor and the output end rotor are correspondingly connected with an input power shaft and an output power shaft, and the input power shaft and the output power shaft are both in a rotating state under a working state to generate rotating torque so as to have force effect on the shell. In addition, the input end rotor and the output end rotor are heavy components, so that the input power shaft and the input power shaft have larger gravity, and the gravity acts on the shell components. The housing components are thus subjected to the rotational forces exerted by the input and output power shafts, as well as to the forces themselves. The housing parts are required to bear large force, and the housing parts are required to have good strength so as to maintain stable movement under working conditions. However, in the prior art, the housing of the permanent magnet speed regulation device is not designed in a targeted manner according to the acting force borne by the housing, so that the strength support of the housing component is poor, and the working condition operation cannot be stably maintained in the working state.

Chinese patent document CN201920296280.3, application date 20190309, with patent names: the utility model provides a horizontal oil-cooling type permanent magnet speed regulator, a horizontal oil-cooling type permanent magnet speed regulator is disclosed, including the speed regulator casing, the bilateral symmetry of speed regulator casing is equipped with the mount pad, one side intermediate position of speed regulator casing is equipped with the motor shaft, one side intermediate position that the motor shaft was kept away from to the speed regulator casing is equipped with the output shaft, one side of speed regulator casing is equipped with the cooling oil import and is located the lubricating oil import of cooling oil import one side, one side bottom intermediate position of speed regulator casing is equipped with the fluid export, one side of speed regulator casing is equipped with the viewing aperture that is located cooling oil import top and symmetry setting, the top of speed regulator casing is equipped with the cooling water import and is located the water liquid export of cooling water import one.

The horizontal oil-cooled permanent magnet speed regulator disclosed in the patent document lubricates parts inside a speed regulator shell, avoids troubles caused by timely filling of lubricating grease by workers, and effectively prolongs the service life of the speed regulator shell. However, a technical scheme which is designed specifically according to the borne acting force, has good supporting strength and can keep stable working operation is not disclosed correspondingly.

In view of the above, there is a need for a housing which is designed specifically according to the force to be applied, has high supporting strength, and can maintain stable operation.

Disclosure of Invention

The utility model aims at providing a carry out the pertinence design according to the effort that bears, support intensity is good, can keep the casing of stable work operation.

In order to achieve the purpose, the utility model adopts the technical proposal that:

a shell convenient for a permanent magnet speed regulation device to keep stable operation comprises a shell body, an input power shaft supporting hole, an output power shaft supporting hole and supporting legs; reinforcing mechanisms are arranged at the joints of the shell body, the input power shaft supporting hole, the output power shaft supporting hole and the supporting legs; the reinforcing mechanism comprises a first reinforcing rib plate assembly, a second reinforcing rib plate assembly and a third reinforcing rib plate assembly; a first reinforcing rib plate assembly is arranged at the joint of the input power shaft supporting hole and the outer end face of the shell body and is used for reinforcing the input power shaft supporting hole and the outer end face of the shell body; a second reinforcing rib plate assembly is arranged at the joint of the output power shaft supporting hole and the outer end face of the shell body and is used for reinforcing the periphery of the output power shaft supporting hole and the outer end face of the shell body; the supporting legs are arranged on the periphery of the shell body; the junction of casing body and supporting legs be equipped with third strengthening rib board subassembly, and third strengthening rib board subassembly is used for strengthening the outer terminal surface of supporting legs and casing body.

As a preferred technical scheme, the reinforcing mechanism further comprises a fourth reinforcing rib plate component and a fifth reinforcing rib plate component; a fourth reinforcing rib plate assembly is arranged at the joint of the input power shaft supporting hole and the inner end face of the shell body and is used for reinforcing the input power shaft supporting hole and the inner end face of the shell body; and a fifth reinforcing plate component is arranged at the joint of the output power shaft supporting hole and the inner end surface of the shell body and is used for reinforcing the output power shaft supporting hole and the inner end surface of the shell body.

As a preferred technical solution, the reinforcing mechanism further includes a sixth reinforcing rib plate assembly and a seventh reinforcing rib plate assembly; a sixth reinforcing rib plate assembly is arranged at the joint of the inner end surface of the shell body and the side surface of the shell body, and is used for reinforcing the joint of the inner end surface of the shell body and the side surface of the shell body; and a seventh reinforcing rib plate assembly is arranged at the joint of the inner end surface of the shell body and the bottom surface of the shell body, and the seventh reinforcing rib plate assembly is used for reinforcing the joint of the inner end surface of the shell body and the bottom surface of the shell body.

As a preferable technical scheme, the first reinforcing plate assemblies are distributed on the periphery of the support hole of the input power shaft in a star-shaped manner; the second reinforcing plate component is distributed on the outer peripheral surface of the output power shaft supporting hole in a star-shaped manner.

As a preferred technical solution, the third reinforcing plate assemblies are linearly distributed on the supporting feet.

As a preferred technical scheme, the third reinforcing rib plate component and the first reinforcing rib plate component and the second reinforcing rib plate component are distributed in a staggered manner.

As a preferred technical scheme, the fourth reinforcing rib plate component and the first reinforcing rib plate component are symmetrically distributed on the inner end surface and the outer end surface of the shell body; the fifth reinforcing plate component and the second reinforcing plate component are symmetrically distributed on the inner end face and the outer end face of the shell body.

As a preferred technical scheme, the sixth reinforcing rib plate component and the fourth reinforcing rib plate component or the fifth reinforcing rib plate component are distributed in a staggered manner; the seventh reinforcing plate component is arranged in the middle of the sixth reinforcing plate component.

As a preferable technical solution, the reinforcing mechanism has two connecting surfaces at the connecting position, and the plane where the reinforcing mechanism is located and the connecting surfaces are perpendicular to each other.

As a preferred technical scheme, the supporting legs comprise bottom plates, side reinforcing plates and connecting plates; the connecting plate is fixed on the shell body; side reinforcing plates are arranged on two sides of the shell body; both ends of the bottom plate are fixed on the side reinforcing plate.

The utility model has the advantages that:

1. the utility model discloses a casing convenient to permanent magnetism speed adjusting device steady operation, casing body all are equipped with the strengthening mechanism with the junction of input power shaft supported hole, output power shaft supported hole, supporting legs. Under the condition of operation of the whole machine, the joint of the shell body and the supporting hole of the input power shaft, the supporting hole of the output power shaft and the supporting legs bears large acting force, the supporting strength is good, torque is convenient to transfer, and the stable working operation of the whole machine can be kept.

2. The reinforcing mechanism is provided with two connecting surfaces at the connecting position, and the plane of the reinforcing mechanism is vertical to the connecting surfaces. The effect of this design is: through perpendicular design, can realize strengthening perpendicularly, can effectually be convenient for transmit between the effort. If the inclined surface transmission is adopted, the direction of the acting force is diverged, and the damage of the shell body is easily caused.

3. The spike includes bottom plate, side reinforcing plate, connecting plate, and the effect of design is: the supporting legs are provided with the side reinforcing plates, so that the strength of the whole supporting leg is further enhanced; the design of the bottom plate is used for establishing plane support, so that the stable work of the whole machine is ensured, and meanwhile, a stress position is provided during hoisting, so that the hoisting is convenient; the design of connecting plate is convenient for supporting legs and whole casing body on the one hand and is established fixed connection, and on the other hand provides installation space for third reinforcing rib board subassembly.

Drawings

Fig. 1 is a schematic structural diagram of a casing in the direction of a support hole of an input power shaft, which is convenient for a permanent magnet speed regulation device to keep stable operation.

Fig. 2 is a schematic structural diagram of the casing in the direction of the support hole of the output power shaft, which is convenient for the permanent magnet speed regulation device to keep stable operation.

Fig. 3 is a schematic view of a part of the internal structure of the housing body in the direction of the input power shaft support hole.

Fig. 4 is a schematic view of a part of the internal structure of the housing body in the direction of the output power shaft support hole.

Fig. 5 is a partially enlarged schematic view of the support foot.

Detailed Description

The invention will be further described with reference to the following examples and with reference to the accompanying drawings.

The reference numerals and components referred to in the drawings are as follows:

1. first reinforcing rib plate assembly 2 and second reinforcing rib plate assembly

3. Third reinforcing rib plate assembly 4, fourth reinforcing rib plate assembly

5. The fifth reinforcing rib plate component 6 and the sixth reinforcing rib plate component

7. Seventh reinforcing rib plate assembly 8 supporting leg

81. Connecting plate 82, side reinforcing plate

83. Bottom plate 9. shell body

10. Input power shaft support hole 11, output power shaft support hole

12. Outer end surface 13, inner end surface

14. Side surface 15, bottom surface

For the purpose of describing the whole technical solution, the following directional definitions are made for the terms "outer end surface 12", "inner end surface 13", "side surface 14", "bottom surface 15", which are defined for convenience of description in this embodiment and do not represent actual directions: wherein "outer end surface 12" is the direction of outer end surface 12 referenced in FIG. 1, and "inner end surface 13" is the direction of inner end surface 13 referenced in FIG. 1; "side 14" is the direction referenced to side 14 in FIG. 2; "bottom surface 15" is the direction of the bottom surface 15 referenced in fig. 2.

Referring to fig. 1 and 2, fig. 1 is a schematic structural view of a housing for a permanent magnet speed regulation device to keep stable operation in the direction of an input power shaft support hole 10 according to the present invention. Fig. 2 is a schematic structural diagram of the casing in the direction of the output power shaft support hole 11, which is convenient for the permanent magnet speed regulation device to keep stable operation. A shell convenient for a permanent magnet speed regulation device to keep stable operation comprises a shell body 9, an input power shaft supporting hole 10, an output power shaft supporting hole 11 and supporting legs 8; reinforcing mechanisms are arranged at the joints of the shell body 9, the input power shaft supporting hole 10, the output power shaft supporting hole 11 and the supporting legs 8; the reinforcing mechanism comprises a first reinforcing rib plate component 1, a second reinforcing rib plate component 2, a third reinforcing rib plate component 3, a fourth reinforcing rib plate component 4, a fifth reinforcing rib plate component 5, a sixth reinforcing rib plate component 6 and a seventh reinforcing rib plate component 7; a first reinforcing rib plate assembly 1 is arranged at the joint of the input power shaft supporting hole 10 and the outer end face of the shell body 9, and the first reinforcing rib plate assembly 1 is used for reinforcing the input power shaft supporting hole 10 and the outer end face 12 of the shell body 9; a second reinforcing rib plate assembly 2 is arranged at the joint of the output power shaft supporting hole 11 and the outer end face 12 of the shell body 9, and the second reinforcing rib plate assembly 2 is used for reinforcing the periphery of the output power shaft supporting hole 11 and the outer end face 12 of the shell body 9; the supporting legs 8 are arranged around the shell body 9; the junction of casing body 9 and supporting legs 8 be equipped with third strengthening rib board subassembly 3, and third strengthening rib board subassembly 3 is used for strengthening supporting legs 8 and casing body 9's outer terminal surface 12.

Referring to fig. 3 and 4, fig. 3 is a schematic view of a part of the internal structure of the housing body 9 in the direction of the input power shaft support hole 10. Fig. 4 is a partial internal structural view of the housing body 9 in the direction of the output power shaft support hole 11. A fourth reinforcing rib plate component 4 is arranged at the joint of the input power shaft supporting hole 10 and the inner end surface 13 of the shell body 9, and the fourth reinforcing rib plate component 4 is used for reinforcing the input power shaft supporting hole 10 and the inner end surface 13 of the shell body 9; a fifth reinforcing rib plate component 5 is arranged at the joint of the output power shaft supporting hole 11 and the inner end surface 13 of the shell body 9, and the fifth reinforcing rib plate component 5 is used for reinforcing the output power shaft supporting hole 11 and the inner end surface 13 of the shell body 9; a sixth reinforcing rib plate assembly 6 is arranged at the joint of the inner end surface 13 of the shell body 9 and the side surface 14 of the shell body 9, and the sixth reinforcing rib plate assembly 6 is used for reinforcing the joint of the inner end surface 13 of the shell body 9 and the side surface 14 of the shell body 9; a seventh reinforcing rib plate assembly 7 is arranged at the joint of the inner end surface 13 of the shell body 9 and the bottom surface 15 of the shell body 9, and the seventh reinforcing rib plate assembly 7 is used for reinforcing the joint of the inner end surface 13 of the shell body 9 and the bottom surface 15 of the shell body 9.

Referring to fig. 5, fig. 5 is a partially enlarged structural schematic view of the supporting foot 8. The supporting foot 8 comprises a bottom plate 83, a side reinforcing plate 82 and a connecting plate 81; the connecting plate 81 is fixed on the shell body 9; two sides of the shell body 9 are provided with side reinforcing plates 82; both ends of the bottom plate 83 are fixed to the side reinforcing plates 82.

The embodiment needs to be explained as follows:

and reinforcing mechanisms are arranged at the joints of the shell body 9, the input power shaft supporting hole 10, the output power shaft supporting hole 11 and the supporting legs 8. The effect of this design is: under the condition of operation of the whole machine, the joints of the shell body 9, the input power shaft supporting hole 10, the output power shaft supporting hole 11 and the supporting legs 8 are all acting force stress parts, the bearing acting force is large, a reinforcing mechanism is designed in a targeted manner, the supporting strength is good, and stable working operation can be kept.

The first reinforcing rib plate component 1 is arranged at the joint of the input power shaft supporting hole 10 and the outer end face of the shell body 9. The effect of this design is: the joint of the input power shaft supporting hole 10 and the outer end face 12 of the shell can be strengthened through the first reinforcing rib plate component 1, the balance effect of the rotation acting force and the self gravity of the input power shaft can be overcome, and the stable work can be ensured.

And a second reinforcing rib plate component 2 is arranged at the joint of the output power shaft supporting hole 11 and the outer end surface 12 of the shell body 9. The effect of this design is: the joint of the output power shaft supporting hole 11 and the outer end face 12 of the shell can be strengthened through the second reinforcing rib plate component 2, the balance effect of the rotating acting force of the output power shaft and the self gravity can be overcome, and the operation of stable work can be ensured.

The third reinforcing rib plate component 3 is arranged at the joint of the shell body 9 and the supporting leg 8. The effect of this design is: the third reinforcing rib plate component 3 can reinforce the joint of the supporting leg 8 and the outer end face 12 of the housing body 9. Because the supporting legs 8 bear the gravity and the rotating acting force of the whole machine, if the strength is insufficient, the working condition of the stable operation of the whole machine can be influenced.

And a fourth reinforcing plate component 4 is arranged at the joint of the input power shaft supporting hole 10 and the inner end surface 13 of the shell body 9. The effect of this design is: the joint of the input power shaft supporting hole 10 and the inner end face and the outer end face of the shell can be strengthened through the fourth reinforcing rib plate component 4, the balance effect of the rotating acting force and the self gravity of the input power shaft can be overcome, and stable work can be guaranteed.

The fifth reinforcing plate component 5 is arranged at the joint of the output power shaft supporting hole 11 and the inner end surface 13 of the shell body 9. The effect of this design is: the fifth reinforcing plate component 5 can strengthen the joint of the output power shaft supporting hole 11 and the inner and outer end faces of the shell, can overcome the balance action of the rotating acting force and the self gravity of the output power shaft, and is favorable for ensuring stable work.

And a sixth reinforcing rib plate component 6 is arranged at the joint of the inner end surface 13 of the shell body 9 and the side surface 14 of the shell body 9. The effect of this design is: through sixth reinforcing plate subassembly 6, can realize that terminal surface 13 and side 14 strengthen in casing body 9.

A seventh reinforcing rib plate component 7 is arranged at the joint of the inner end surface 13 of the shell body 9 and the bottom surface 15 of the shell body 9. The effect of this design is: through seventh reinforcing rib plate assembly 7, can realize that casing body 9 interior terminal surface 13 and outer terminal surface 12 strengthen.

The first reinforcing plate component 1 is distributed on the periphery of the input power shaft supporting hole 10 in a star-shaped manner; the second reinforcing plate component 2 is distributed on the outer peripheral surface of the output power shaft supporting hole 11 in a star-shaped manner. The effect of this design is: the input power support shaft and the output power shaft support hole 11 can be circumferentially reinforced without a reinforcing blind area, and as a preferable mode, the number of the reinforcing rib plates in the first reinforcing rib plate assembly 1 and the second reinforcing rib plate assembly 2 is eight, which is only a preferable mode of the embodiment, and the number is not limited, and other numbers are also within the protection scope of the embodiment.

The third reinforcing rib plate component 3 is linearly distributed on the supporting foot 8. The effect of this design is: through linear distribution, make the direction of the reinforcing force unanimous for the reinforcing between supporting legs 8 and the casing body 9 is effectual, as a preferred, all is furnished with three deep floor on every supporting legs 8, this is the preferred mode of this embodiment only, and other quantity also are within the protection scope of this embodiment. Preferably, the number of the supporting legs 8 is eight, the supporting legs are divided into four top surfaces and four bottom surfaces, and stable supporting and hoisting are facilitated.

And the third reinforcing rib plate component 3, the first reinforcing rib plate component 1 and the second reinforcing rib plate component 2 are distributed in a staggered manner. The effect of this design is: through setting up the distribution of misplacing, have the independence, avoid strengthening the mutual restraint influence intensity between the effort.

The fourth reinforcing rib plate component 4 and the first reinforcing rib plate component 1 are symmetrically distributed on the inner end surface and the outer end surface of the shell body 9; the fifth reinforced plate component 5 and the second reinforced plate component 2 are symmetrically distributed on the inner end face and the outer end face of the shell body. The effect of this design is: through the symmetric distribution design, two strengthening acting forces of the inner end face and the outer end face of the shell body 9 are in butt joint distribution, the occlusion effect is achieved on the shell body 9, and the inner strengthening effect and the outer strengthening effect on the shell body 9 are good.

The sixth reinforcing rib plate component 6 and the fourth reinforcing rib plate component 4 or the fifth reinforcing rib plate component 5 are distributed in a staggered mode. The effect of this design is: through setting up the distribution of misplacing, have the independence, avoid strengthening the mutual restraint influence intensity between the effort. Preferably, the number of the reinforcing plates in the sixth and seventh reinforcing plate assemblies 6 and 7 is at least two, which is only a preferable mode of the present embodiment, and other numbers are within the protective scope of the present embodiment.

The reinforcing mechanism is provided with two connecting surfaces at the connecting position, and the plane of the reinforcing mechanism is vertical to the connecting surfaces. The effect of this design is: through perpendicular design, can realize strengthening perpendicularly, can effectually be convenient for transmit between the effort. If the inclined surface transmission is adopted, the direction of the acting force is diverged, and the housing body 9 is easily damaged.

The supporting foot 8 comprises a bottom plate 83, a side reinforcing plate 82 and a connecting plate 81; the connecting plate 81 is fixed on the shell body 9; two sides of the shell body 9 are provided with side reinforcing plates 82; both ends of the bottom plate 83 are fixed to the side reinforcing plates 82. The effect of this design is: the supporting legs 8 are provided with side reinforcing plates 82, so that the strength of the whole supporting legs 8 is further enhanced; the bottom plate 83 is designed to establish a plane support to ensure the stable operation of the whole machine, and meanwhile, a stress position is provided during hoisting, so that the hoisting is convenient; the design of connecting plate 81 is convenient for supporting legs 8 and whole casing body 9 on the one hand and establish fixed connection, and on the other hand provides installation space for third reinforced board subassembly 3.

The utility model discloses a casing convenient to permanent magnetism speed adjusting device steady operation, casing body 9 all are equipped with the enhancement mechanism with the junction of input power shaft supported hole 10, output power shaft supported hole 11, supporting legs 8. Under the condition of operation of the whole machine, the joint of the shell body 9 and the input power shaft supporting hole 10, the output power shaft supporting hole 11 and the supporting leg 8 bears large acting force, the supporting strength is good, and stable working operation can be kept.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and additions can be made without departing from the principles of the present invention, and these improvements and additions should also be regarded as the protection scope of the present invention.

Claims (10)

1. A shell convenient for a permanent magnet speed regulation device to keep stable operation is characterized in that the shell comprises a shell body, an input power shaft supporting hole, an output power shaft supporting hole and supporting legs; reinforcing mechanisms are arranged at the joints of the shell body, the input power shaft supporting hole, the output power shaft supporting hole and the supporting legs; the reinforcing mechanism comprises a first reinforcing rib plate assembly, a second reinforcing rib plate assembly and a third reinforcing rib plate assembly; a first reinforcing rib plate assembly is arranged at the joint of the input power shaft supporting hole and the outer end face of the shell body and is used for reinforcing the input power shaft supporting hole and the outer end face of the shell body; a second reinforcing rib plate assembly is arranged at the joint of the output power shaft supporting hole and the outer end face of the shell body and is used for reinforcing the periphery of the output power shaft supporting hole and the outer end face of the shell body; the supporting legs are arranged on the periphery of the shell body; the junction of casing body and supporting legs be equipped with third strengthening rib board subassembly, and third strengthening rib board subassembly is used for strengthening the outer terminal surface of supporting legs and casing body.

2. The housing for facilitating stable operation of a permanent magnet speed regulation device of claim 1, wherein the reinforcing mechanism further comprises a fourth reinforcing rib plate assembly and a fifth reinforcing rib plate assembly; a fourth reinforcing rib plate assembly is arranged at the joint of the input power shaft supporting hole and the inner end face of the shell body and is used for reinforcing the input power shaft supporting hole and the inner end face of the shell body; and a fifth reinforcing plate component is arranged at the joint of the output power shaft supporting hole and the inner end surface of the shell body and is used for reinforcing the output power shaft supporting hole and the inner end surface of the shell body.

3. The housing for facilitating stable operation of a permanent magnet speed regulation device of claim 2, wherein the reinforcing mechanism further comprises a sixth reinforcing rib plate assembly and a seventh reinforcing rib plate assembly; a sixth reinforcing rib plate assembly is arranged at the joint of the inner end surface of the shell body and the side surface of the shell body, and is used for reinforcing the joint of the inner end surface of the shell body and the side surface of the shell body; and a seventh reinforcing rib plate assembly is arranged at the joint of the inner end surface of the shell body and the bottom surface of the shell body, and the seventh reinforcing rib plate assembly is used for reinforcing the joint of the inner end surface of the shell body and the bottom surface of the shell body.

4. The housing facilitating stable operation of a permanent magnet speed regulation device of claim 1, wherein the first stiffener plate assembly is distributed in a star shape around the input power shaft support hole; the second reinforcing plate component is distributed on the outer peripheral surface of the output power shaft supporting hole in a star-shaped manner.

5. The housing for facilitating stable operation of a permanent magnet speed regulation device of claim 1, wherein the third stiffener plate assembly is linearly disposed on the support foot.

6. The housing of claim 5, wherein the third assembly of rib plates is offset from the first and second assemblies of rib plates.

7. The housing facilitating stable operation of the permanent magnet speed regulation device of claim 2, wherein the fourth reinforcing rib plate assembly and the first reinforcing rib plate assembly are symmetrically distributed on the inner and outer end surfaces of the housing body; the fifth reinforcing plate component and the second reinforcing plate component are symmetrically distributed on the inner end face and the outer end face of the shell body.

8. The housing convenient for the permanent magnet speed regulation device to keep stable operation according to claim 3, wherein the sixth reinforced plate component and the fourth reinforced plate component or the fifth reinforced plate component are distributed in a staggered manner; the seventh reinforcing plate component is arranged in the middle of the sixth reinforcing plate component.

9. The housing for facilitating stable operation of a permanent magnet speed regulation device of claim 1, wherein the reinforcing mechanism has two connecting surfaces at the connecting position, and the plane of the reinforcing mechanism is perpendicular to the connecting surfaces.

10. The housing for facilitating stable operation of a permanent magnet speed regulation device according to any one of claims 1 to 9, wherein the support legs comprise a bottom plate, side reinforcing plates, and a connecting plate; the connecting plate is fixed on the shell body; side reinforcing plates are arranged on two sides of the shell body; both ends of the bottom plate are fixed on the side reinforcing plate.

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