CN114696525B - Permanent magnet motor with split type detachable damping temperature control housing - Google Patents

Abstract

The invention relates to the technical field of motor heat dissipation and shock absorption, in particular to a permanent magnet motor with a split type detachable shock absorption temperature control housing. According to the permanent magnet motor with the split type detachable damping temperature control housing, the split type external radiating fins are fixedly assembled on the outer side surface of the permanent magnet motor, the arc-shaped internal liquid guide runners inside the fixed assembling rings on the two sides of the permanent magnet motor body are mutually connected in series through the external radiating fins, and runners for water-cooling heat dissipation are formed on the outer sides of the permanent magnet motor body and are matched with a centrifugal liquid pump installed inside the bottom liquid storage stabilizing seat, so that the heat dissipation effect of the whole permanent magnet motor is greatly improved; the height and the angle of the permanent magnet motor body after installation can be adjusted in real time, and the application range is wider; the sealing performance and the internal heat-conducting performance of the assembling end of the outer side heat dissipation mechanism can be improved.

Description

Permanent magnet motor with split type detachable damping temperature control housing

Technical Field

The invention relates to the technical field of motor heat dissipation and shock absorption, in particular to a permanent magnet motor with a split type detachable shock absorption temperature control housing.

Background

The permanent magnet motor provides excitation by the permanent magnet, so that the motor has a simpler structure, the processing and assembly cost is reduced, a collecting ring and an electric brush which are easy to cause problems are omitted, and the running reliability of the motor is improved; and because excitation current is not needed, excitation loss is avoided, and the efficiency and the power density of the motor are improved.

The permanent magnet motor is composed of a stator, a rotor, an end cover and the like. The stator is basically the same as a common induction motor, and a lamination structure is adopted to reduce iron loss during the operation of the motor. The rotor can be made into solid or laminated by lamination. The armature winding can adopt a concentrated whole-pitch winding, and can also adopt a distributed short-pitch winding and an unconventional winding.

Permanent-magnet machine is when high-speed operation, through the frictional force that energy conversion and rotation produced, can produce a large amount of heat energy, if unable quick heat dissipation can lead to permanent-magnet machine's inside magnetism to influence permanent-magnet machine's work efficiency greatly, when high-speed operation, permanent-magnet machine self can produce the vibration, if adopt traditional rigid connection mode, directly gives the assembly end with the vibration conduction, can lead to the assembly end not hard up for a long time, influences permanent-magnet machine's life simultaneously.

After the permanent magnet motor on the market is assembled at present, the angle of the permanent magnet motor cannot be adjusted quickly and in real time, so that the application range of the permanent magnet motor is single.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problems existing in the background technology, an improved permanent magnet motor with a split type detachable damping temperature control mechanism is provided, and the problems that the heat dissipation and damping efficiency of the permanent magnet motor on the market is limited, the angle adjustment is very troublesome, and the application range is single are solved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a permanent-magnet machine with split type but shock attenuation control by temperature change housing of split type, includes permanent-magnet machine body, centrifugal drawing liquid pump and automatically controlled hydraulic pressure vaulting pole, permanent-magnet machine body lower extreme be provided with the bottom stock solution stabilizing base of built-in coolant liquid and centrifugal drawing liquid pump, permanent-magnet machine body lower extreme fixed mounting put the assembly seat in, put assembly seat upper surface both sides fixedly connected with arc assembly arm in, permanent-magnet machine body outside arc surface both ends have a body structure fixed assembly ring, permanent-magnet machine body outside arc surface lie in the fixed assembly intra-annular side and open and be equipped with the location heat conduction groove, fixed assembly ring outside arc surface correspond location heat conduction groove and have seted up arc fixed assembly groove, bottom stock solution stabilizing base upper surface both sides have with put the outside guider of body structure of assembly seat matched with in, bottom stock solution seat inside correspond outside guider position swing joint and be used for automatically controlled installation hydraulic pressure vaulting pole, the fixed outside of location heat conduction groove inside be equipped with heat radiation mechanism.

The side direction assembly rods of an integrated structure matched with the external guide device are arranged on the outer walls of the two sides of the middle assembly seat, the lower ends of the two sides of the middle assembly seat are positioned above the electric control hydraulic support rod and are provided with bottom fixing grooves internally provided with damping springs, and a top connecting block connected with the bottoms of the damping springs is coaxially fixed at the top ends of the telescopic rods at the upper ends of the electric control hydraulic support rods.

The arc-shaped fixed assembly groove is characterized in that two sides of the arc-shaped fixed assembly groove are oblique assembly surfaces, one side of the arc-shaped fixed assembly groove, which is positioned inside the fixed assembly ring, is provided with an arc-shaped internal liquid guide flow channel at intervals, and the external heat dissipation mechanism comprises an external heat dissipation fin, an integrated structure assembly sealing frame fixed on the connecting end of the external heat dissipation fin, arc-shaped external assembly seats fixed on two sides of the external heat dissipation fin and lateral limiting cover plates fixed on the outer lateral surface of the arc-shaped external assembly seats.

The lateral limiting cover plate is internally provided with a lateral assembling through hole of a transverse assembling bolt, and the outer walls of two sides of the permanent magnet motor body are provided with lateral assembling screw holes matched with the transverse assembling bolt.

The inside width of outside fin from the outside to link widen gradually, outside fin inside be located the assembly seal frame inboard and seted up inside heat conduction runner, outside assembly seat inside seted up the L type structure side direction intercommunication runner that is linked together with inside heat conduction runner.

The inner installation seat comprises a cylindrical inner connection base, a lateral assembly rod and a lateral assembly barrel, wherein the cylindrical inner connection base is used for being axially sleeved at the bottom of the electric control hydraulic support rod, the lateral assembly rod is symmetrically fixed on the outer walls of two sides of the inner connection base, the lateral assembly barrel is movably sleeved on the outer side of the lateral assembly rod, and the outer side of the lateral assembly barrel is fixedly connected with the inner side of the bottom liquid storage stabilizing seat.

And the middle position of the upper surface of the middle assembly seat and the upper end of the arc surface on the inner side of the arc assembly arm are respectively provided with a lateral assembly clamping damping mechanism matched with an external radiating fin.

Lateral assembling clamping damping mechanism include set up first copper grip block, the second copper grip block of outside fin both sides and fix the integrative structure arc elasticity bending plate on first copper grip block, second copper grip block top.

The flexible water guide pipe is characterized in that an L-shaped structure internal fixing assembly hole with a built-in flexible water guide pipe is formed in the top connecting block, the upper end of the flexible water guide pipe penetrates through the inside of the damping spring and is communicated with the inside of the external radiating fin, and the lower end of the flexible water guide pipe is communicated with the inside of the bottom liquid storage stabilizing seat.

The inner walls of two sides of the bottom liquid storage stabilizing seat are provided with lateral bending plates for supporting and limiting, which are arranged above and below the middle assembling seat.

The invention has the beneficial effects that:

(1) According to the permanent magnet motor with the split type detachable damping temperature control housing, the split type external radiating fins are fixedly assembled on the outer side surface of the permanent magnet motor, the arc-shaped internal liquid guide runners inside the fixed assembling rings on the two sides of the permanent magnet motor body are mutually connected in series through the external radiating fins, and runners for water-cooling heat dissipation are formed on the outer sides of the permanent magnet motor body and are matched with a centrifugal liquid pump installed inside the bottom liquid storage stabilizing seat, so that the heat dissipation effect of the whole permanent magnet motor is greatly improved;

(2) External guiding devices matched with the middle assembly seat are arranged on two sides of the upper surface of the bottom liquid storage stabilizing seat, and the angles of the middle assembly seat are adjusted and lifted by matching with an electric control hydraulic support rod in the bottom liquid storage stabilizing seat, so that the height and the angle of the permanent magnet motor body after being installed can be adjusted in real time, and the application range is wider;

(3) An arc-shaped fixed assembling groove with oblique assembling surfaces on two sides is formed in the fixed assembling ring, and an integrated structure assembling sealing frame is fixed on the connecting end of the external radiating fin, so that the sealing performance and the internal heat conducting performance of the assembling end of the external radiating mechanism can be improved;

(4) Lateral assembly clamping damping mechanisms matched with external radiating fins are arranged at the middle position of the upper surface of the middle assembly seat and at the upper end of the arc-shaped surface on the inner side of the arc-shaped assembly arm, and the external radiating fins are clamped and assembled through the lateral assembly clamping damping mechanisms, so that the assembly, disassembly and separation are convenient, and the later-period use cost is reduced;

(5) The top connecting block is coaxially fixed on the top end of the telescopic rod at the upper end of the electric control hydraulic support rod, the damping spring on the top connecting block is connected with the middle assembly seat in an elastic mode, the electric control hydraulic support rod drives the middle assembly seat to lift and overturn along the external guide device, the assembly and the adjustment are more stable, the damping performance can be adjusted as required, and the safety and the durability of the permanent magnet motor body are greatly improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the interior of the bottom liquid storage stabilizing seat of the invention.

Fig. 3 is an internal sectional view of the outside heat dissipation mechanism of the present invention.

Fig. 4 is a sectional view of the inside of the center mount in the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Fig. 1, a permanent-magnet machine with split type but shock attenuation control by temperature change housing that divides that fig. 2 and fig. 3 show, including permanent-magnet machine body 1, centrifugal drawing liquid pump 2 and automatically controlled hydraulic pressure vaulting pole 3, permanent-magnet machine body 1 lower extreme is provided with built-in coolant liquid and centrifugal drawing liquid pump 2's bottom stock solution stabilizing base 4, assembly stand 5 in permanent-magnet machine body 1 lower extreme fixed mounting, in put assembly stand 5 upper surface both sides fixedly connected with arc assembly arm 6, permanent-magnet machine body 1 outside arc surface both ends have an organic whole structure fixed mounting ring 7, permanent-magnet machine body 1 outside arc surface is located fixed mounting ring 7 inboard and has seted up location heat conduction groove 8, fixed mounting ring 7 outside arc surface corresponds location heat conduction groove 8 position and has seted up arc fixed assembly groove 9, bottom stock solution stabilizing base 4 upper surface both sides have with put assembly stand 5 matched with an organic whole structure outside guider position swing joint in bottom stock solution stabilizing base 4, the inside corresponds outside guider position swing joint and is used for installing automatically controlled hydraulic pressure vaulting pole 3's internally installed base 10, location heat dissipation mechanism in 8 inside fixed outside of location heat conduction groove.

Permanent-magnet machine body 1, centrifugal drawing liquid pump 2 and automatically controlled hydraulic pressure vaulting pole 3 adopt external power supply, utilize external switch to control to open and close, and centrifugal drawing liquid pump 2 is taken away the coolant liquid in the leading-in permanent-magnet machine body 1 outside fixed assembly ring 7 and outside heat dissipation mechanism inside with the bottom in putting stock solution stabilizing base 4, forms a circulation runner to promote the water-cooling radiating effect.

As shown in fig. 4, in order to cooperate with elastic assembly and connection, lateral assembly rods 11 of an integrated structure matched with an external guide device are arranged on the outer walls of two sides of the middle assembly seat 5, the lower ends of two sides of the middle assembly seat 5 are positioned above the electric control hydraulic support rod and provided with a bottom fixing groove with a built-in damping spring 12, and a top connecting block 13 connected with the bottom of the damping spring 12 is coaxially fixed at the top end of a telescopic rod at the upper end of the electric control hydraulic support rod 3.

The external guiding device is composed of two first guiding frames which are fixed on the left side of the upper surface of the bottom liquid storage stabilizing seat 4 respectively and two second guiding frames which are fixed on the right side of the upper surface of the bottom liquid storage stabilizing seat 4 respectively, the first guiding frames are a bottom longitudinal section and a top arc section, and the second guiding frames are single longitudinal sections.

As shown in fig. 3, in order to cooperate with the assembling and disassembling and improve the sealing performance of the assembling surface, two sides of the arc-shaped fixing assembling groove 9 are oblique assembling surfaces, an arc-shaped internal liquid guiding flow channel 14 is arranged at one side of the arc-shaped fixing assembling groove 9 in the fixing assembling ring 7 at intervals, the external heat radiating mechanism comprises an external heat radiating fin 15, an integrated structure assembling sealing frame 16 fixed on the connecting end of the external heat radiating fin 15, arc-shaped external assembling seats 17 fixed on two sides of the external heat radiating fin 15 and a lateral limiting cover plate 18 fixed on the outer side surface of the arc-shaped external assembling seats 17.

Further, for matching, installing and fixing, a lateral assembling through hole of a transverse assembling bolt 19 is formed in the lateral limiting cover plate 18, and lateral assembling screw holes 20 matched with the transverse assembling bolt 19 are formed in the outer walls of the two sides of the permanent magnet motor body 1.

Further, in order to gradually widen the inner width of the external heat sink 15 from the outer side to the connection end, an inner heat conduction flow channel 21 is formed inside the external heat sink 15 and located inside the assembly sealing frame 16, and an L-shaped lateral communication flow channel 22 communicated with the inner heat conduction flow channel 21 is formed inside the arc-shaped external assembly seat 17.

The external cooling fins 15 are inserted into the positioning heat conduction grooves 8 through the assembling sealing frame 16 to form a closed and sealed cooling liquid flow channel with the internal heat conduction flow channel 21, then the cooling liquid flow channel is communicated with the lateral communication flow channel 22, then the internal heat conduction flow channel 21, the lateral communication flow channel 22 and the arc-shaped internal liquid conduction flow channel 14 are spliced with each other, a cooling flow channel with a snake-shaped structure is formed outside the permanent magnet motor body 1, the cooling flow channel is input from one side of the lower end of the permanent magnet motor body 1, and the cooling flow channel is output from the other side of the lower end of the permanent magnet motor body 1.

Further, in order to cooperate with the internal movable assembly of the electric control hydraulic support rod 3 and the bottom liquid storage stabilizing seat 4, the internal mounting seat 10 comprises a cylindrical internal connection base 23 axially sleeved at the bottom of the electric control hydraulic support rod 3, an integrated structure lateral assembly rod 24 symmetrically fixed on the outer walls of two sides of the internal connection base 23, and a lateral assembly cylinder 25 movably sleeved on the outer side of the lateral assembly rod 24, wherein the outer side of the lateral assembly cylinder 25 is fixedly connected with the inner side of the bottom liquid storage stabilizing seat 4.

Lateral connecting through holes with built-in lateral bolts can be formed in the two sides of the bottom liquid storage stabilizing seat 4, and then the lateral assembling cylinder 25 and the inner side face of the bottom liquid storage stabilizing seat 4 are fixedly assembled by screwing the lateral bolts into the blind holes of the inner threads in the outer side of the lateral assembling cylinder 25.

Further, in order to match the clamping assembly of the bottom and the two sides, the later separation is facilitated, and the middle of the upper surface of the middle assembly seat 5 and the upper end of the inner side arc surface of the arc assembly arm 6 are respectively provided with a lateral assembly clamping damping mechanism matched with the external radiating fins 15.

Further, in order to cooperate with the elastic clamping fixation and the elastic support, the lateral assembling clamping damping mechanism comprises a first copper clamping plate 26 and a second copper clamping plate 27 which are arranged at two sides of the external radiating fin 15, and an integrated structure arc-shaped elastic bending plate 28 fixed at the top ends of the first copper clamping plate 26 and the second copper clamping plate 27.

The first copper clamping plate 26 and the second copper clamping plate 27 can be pulled towards two sides to be separated and detached from the external radiating fins 15.

Outside fin 15 left side front end and right side rear end in permanent-magnet machine body 1 bottom have outside bellied integrative structure connecting pipe respectively, and the connecting pipe of left side front end is the inlet tube, and the connecting pipe of right side rear end is the wet return, and flexible aqueduct 29 overlaps respectively and advances, the drainage on the connecting pipe of different positions, has offered bellied inside seal baffle downwards in the middle part of the location heat conduction groove 8 of permanent-magnet machine body 1 bottom.

Furthermore, in order to cooperate with internal infusion, an L-shaped structure internal fixing assembly hole with a built-in flexible water guide pipe 29 is formed in the top connecting block 13, the upper end of the flexible water guide pipe 29 penetrates through the inside of the damping spring 12 to be communicated with the inside of the external radiating fins 15, and the lower end of the flexible water guide pipe 29 is communicated with the inside of the bottom liquid storage stabilizing seat 4.

The bottom of the flexible water guide pipe 29 positioned at the upper end of the centrifugal liquid pump 2 is fixedly communicated with a water outlet at the upper end of the centrifugal liquid pump 2, the centrifugal liquid pump 2 is fixedly installed inside the bottom liquid storage stabilizing seat 4 through a bottom support, the cooling liquid in the bottom liquid storage stabilizing seat 4 is pumped into the flexible water guide pipe 29 through high-speed rotation, then the flexible water guide pipe 29 is guided into the arc-shaped internal liquid guide flow channel 14, the internal heat conduction flow channel 21 and the lateral communication flow channel 22 are arranged inside, and finally the flexible water guide pipe 29 on the other side flows back to the bottom liquid storage stabilizing seat 4.

Furthermore, in order to guarantee the lifting and overturning limiting capacity, the upper and lower parts of the middle assembly seat 5 on the inner walls of the two sides of the bottom liquid storage stabilizing seat 4 are provided with lateral bending plates 30 for supporting and limiting.

According to the permanent magnet motor with the split type detachable damping temperature control housing, the split type external radiating fins 15 are fixedly assembled on the outer side surface of the permanent magnet motor, the arc-shaped internal liquid guide runners 14 in the fixed assembling rings 7 on the two sides of the permanent magnet motor body 1 are mutually connected in series through the external radiating fins 15, a runner for water-cooling heat dissipation is formed on the outer side of the permanent magnet motor body and is matched with the centrifugal liquid pump 2 installed in the bottom liquid storage stabilizing seat 4, and the heat dissipation effect of the whole permanent magnet motor is greatly improved; external guiding devices matched with the middle assembly seat 5 are arranged on two sides of the upper surface of the bottom liquid storage stabilizing seat 4, and the angles of the middle assembly seat 5 are adjusted and lifted by matching with the electric control hydraulic support rods 3 in the bottom liquid storage stabilizing seat 4, so that the height and the angle of the permanent magnet motor body 1 after being installed can be adjusted in real time, and the application range is wider; an arc-shaped fixed assembling groove 9 with oblique assembling surfaces at two sides is formed in the fixed assembling ring 7, and an integrated structure assembling sealing frame 16 is fixed at the connecting end of the external radiating fin 15, so that the sealing property and the internal heat conducting property of the assembling end of the external radiating mechanism can be improved; lateral assembling and clamping damping mechanisms matched with the external radiating fins 15 are arranged at the middle position of the upper surface of the middle assembling seat 5 and at the upper ends of the inner side arc surfaces of the arc assembling arms 6, the external radiating fins 15 are clamped and assembled through the lateral assembling and clamping damping mechanisms, the installation and the disassembly and the separation are convenient, and the later-stage use cost is reduced; the top end of the telescopic rod at the upper end of the electric control hydraulic support rod 3 is coaxially fixed with a top connecting block 13, the bottom of the damping spring 12 on the top connecting block 13 is elastically connected with the middle assembly seat 5, the middle assembly seat 5 is driven by the electric control hydraulic support rod 3 to ascend, descend and overturn along an external guide device, the assembly and the adjustment are more stable, the damping performance can be adjusted as required, and the safety and the durability of the permanent magnet motor body 1 are greatly improved.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (2)

1. The utility model provides a permanent-magnet machine with split type but shock attenuation control by temperature change housing, includes permanent-magnet machine body (1), centrifugal drawing liquid pump (2) and automatically controlled hydraulic pressure vaulting pole (3), characterized by: the improved electric control hydraulic support rod assembly device is characterized in that a bottom liquid storage stabilizing seat (4) with built-in cooling liquid and a centrifugal liquid pump (2) is arranged at the lower end of a permanent magnet motor body (1), a middle assembly seat (5) is fixedly arranged at the lower end of the permanent magnet motor body (1), arc-shaped assembly arms (6) are fixedly connected to two sides of the upper surface of the middle assembly seat (5), fixing assembly rings (7) of an integrated structure are arranged at two ends of the outer arc-shaped surface of the permanent magnet motor body (1), positioning heat conduction grooves (8) are formed in the inner sides of the fixing assembly rings (7) of the outer arc-shaped surface of the permanent magnet motor body (1), arc-shaped fixing assembly grooves (9) are formed in positions corresponding to the positioning heat conduction grooves (8) of the outer arc-shaped surface of the fixing assembly seat (7), an inner mounting seat (10) used for mounting an electric control hydraulic support rod (3) is movably connected to the positions of the outer guide devices in positions corresponding to the outer arc-shaped heat conduction grooves (5) of two sides of the bottom liquid storage stabilizing seat (4), inner fixing assembly seat (8), heat dissipation mechanisms (15) are arranged on two sides of the inner mounting grooves (7) of the heat dissipation grooves (14), and heat dissipation fins (7) of the inner mounting seat (7) of the inner mounting seat The structure comprises an integrated structure assembly sealing frame (16) fixed on a connecting end of an external radiating fin (15), an arc-shaped external assembly seat (17) fixed on two sides of the external radiating fin (15) and a lateral limiting cover plate (18) fixed on the outer side surface of the arc-shaped external assembly seat (17), wherein a lateral assembly through hole of a transverse assembly bolt (19) is formed in the lateral limiting cover plate (18), a lateral assembly screw hole (20) matched with the transverse assembly bolt (19) is formed in the outer wall of two sides of a permanent magnet motor body (1), the internal width of the external radiating fin (15) gradually widens from the outer side to the connecting end, an internal heat conduction flow channel (21) is formed in the internal side of the assembly sealing frame (16) of the external radiating fin (15), an L-shaped structure lateral communication flow channel (22) communicated with the internal heat conduction flow channel (21) is formed in the arc-shaped external assembly seat (17), an integrated structure assembly rod (11) matched with an external guide device is arranged on the outer wall of two sides of the middle assembly seat (5), the lateral assembly seat (5) is provided with an integrated structure assembly rod (11) matched with an internal guide device, the lower end of the middle assembly seat (5) positioned above a hydraulic strut (3) and is sleeved with an internal damping spring strut (12), the top end of an electric control spring strut (10) fixed on an electric control spring seat, and the top of an electric control spring strut (10) and an electric control strut (3) are arranged on the top end of an electric control spring strut (10) fixed groove (10) and comprises an electric control strut seat (3) The lateral assembly clamping damping mechanism comprises a first copper clamping plate (26) and a second copper clamping plate (27) which are arranged at the two sides of the external radiating fin (15) and an integrated structure arc elastic bending plate (28) fixed at the top ends of the first copper clamping plate (26) and the second copper clamping plate (27), the integrated structure arc elastic bending plate can be separated from the external radiating fin (15) and is used for shifting the first copper clamping plate (26) and the second copper clamping plate (27) to two sides, the internal hydraulic support rod (3) drives the internal assembly base (5) to drive the internal assembly rod (24) to pass through an internal lifting and lowering assembly hole (13) of the internal flexible guide pipe (13), and the internal lifting and lowering assembly hole (13) is communicated with the internal lifting and lowering assembly block (13) of the internal water guide pipe (15) along the internal lifting and lowering assembly hole (13) of the internal water guide pipe (29), flexible aqueduct (29) lower extreme and the inside of the base stock solution stabilizing base (4) be linked together, outside guider is fixed respectively at the left first guide frame of base stock solution stabilizing base (4) upper surface and two at the bottom second guide frame that fixes the base stock solution stabilizing base (4) upper surface right side respectively by two and constitutes, first guide frame is bottom longitudinal section and top segmental arc, the second guide frame is single longitudinal section, outside fin (15) left side front end and right side rear end in permanent-magnet machine body (1) bottom have outside bellied integrative structure connecting pipe respectively, the connecting pipe of left side front end is the inlet tube, the connecting pipe of right side rear end is the wet return, flexible aqueduct (29) cover respectively comes on the connecting pipe of different positions, the drainage, locating heat conduction groove (8) middle part in permanent-magnet machine body (1) bottom has seted up bellied inside seal baffle downwards.

2. The permanent magnet motor with the split type detachable damping temperature control housing as claimed in claim 1, wherein: the upper and lower parts of the middle assembly seat (5) on the inner walls of the two sides of the bottom liquid storage stabilizing seat (4) are provided with lateral bending plates (30) for supporting and limiting.

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