CN110535282A - A kind of electric motor temperature reduction damping - Google Patents

Abstract

The invention discloses a kind of electric motor temperature reduction dampings, belong to technical field of motors, a kind of electric motor temperature reduction damping, including motor body, heat-dissipating casing and pedestal, motor body is fixedly connected on inside heat-dissipating casing by heat radiating water jacket, refrigerant extraction component is fixedly connected on support plate side wall, the one end of reciprocator far from the second drive shaft is connected with refrigerant extraction component, second drive shaft is connected with radiating subassembly far from one end of motor body, heat-dissipating casing is connected with push rod on the side wall of pedestal, and sliding block is connected with air-dispersing component far from one end of push rod；The present invention is pushed back the coolant liquid extraction inside heat radiating water jacket by refrigerant extraction component again, liquid flow velocity is improved to improve radiating efficiency, the hot gas inside heat-dissipating casing can also be discharged while by the way that under the action of Buffer Unit, push rod second spring damping can be carried out to motor and be radiated to motor, to improve radiating efficiency and damping efficiency.

Description

A kind of electric motor temperature reduction damping

Technical field

The present invention relates to technical field of motors more particularly to a kind of electric motor temperature reduction dampings.

Background technique

Motor is commonly called as " motor " and refers to a kind of calutron for realizing electric energy conversion or transmitting according to the law of electromagnetic induction, electricity Machine is indicated with letter M (old plant D) in circuit, its main function is to generate driving torque, as electrical appliance or respectively The mechanical power source of kind, generator indicate that its main function is to be converted into electric energy using mechanical energy with letter G in circuit.

Through retrieval Authorization Notice No. it is that CN106059196B discloses a kind of motor of rapid heat dissipation, including stator, is sheathed on Rotor in stator and the shaft being arranged on rotor, further include be provided on the shell end face being sheathed on stator being mutually adapted it is logical The shell of stomata and center are equipped with the pedestal of location and installation hole post, and circuit board is provided on the outside of pedestal, is located at shell end in shaft It is installed with induction fan on the outside of face, the outside upper plastic packaging of stator has a plastic-sealed body, and plastic-sealed body is towards integrally connecting on the end face of pedestal side Ground connection is equipped with the plastic packaging reinforcement clamping ring that a circle is posted by the housing sidewall face setting, and board rear end air-flow passes through circuit board And the venthole on bottom plate is sent into motor, the air-flow between same circuit board and bottom plate is sent by the venthole on bottom plate In motor, the heat in motor is then absorbed, then the venthole for reinforcing setting hole cell wall through inclination is quickly exported motor, the patent Although entire motor globality is strong, compact-sized, convenient for disassembly and assembly, at low cost, intensity is high, and stability is good, and low noise passes through Stomata radiates, and heat dissipation effect is bad.

Existing motor can generate a large amount of heat, damage to motor when working long hours, at present many heat dissipation sides Formula is that air-cooled or water cooling radiates to motor surface, but refrigerant mobility is smaller when water-cooling, heat dissipation effect difference and Motor work can also strenuous vibration, motor can also be damaged, in order to solve the above problem it is proposed that a kind of electric motor temperature reduction subtracts Shake mechanism.

Summary of the invention

The purpose of the present invention is to solve the problems of the prior art, and a kind of electric motor temperature reduction damping proposed.

To achieve the goals above, present invention employs following technical solutions:

The outer wall of a kind of electric motor temperature reduction damping, including motor body, heat-dissipating casing and pedestal, the motor body is solid Surely it is connected with heat radiating water jacket, the motor body is fixedly connected on inside heat-dissipating casing by heat radiating water jacket, the motor body Both ends have been respectively fixedly connected with the first drive shaft and the second drive shaft, and one end of first drive shaft passes through heat-dissipating casing side wall Extend outwardly, one end of second drive shaft passes through heat radiating water jacket side wall and extends to inside heat-dissipating casing, the heat radiating water jacket It is placed on the side wall inside heat-dissipating casing and is fixedly connected with symmetrically arranged support plate, be fixedly connected on the support plate side wall Refrigerant extraction component is connected with reciprocator, the reciprocating engine on the bar wall that second drive shaft is placed in inside heat-dissipating casing The one end of structure far from the second drive shaft is connected with refrigerant extraction component, and second drive shaft is connected far from one end of motor body There is a radiating subassembly, the base top is connected with Buffer Unit, outside the Buffer Unit one end and heat-dissipating casing far from pedestal Wall is connected, and the heat-dissipating casing is connected with push rod, the one end of the push rod far from heat-dissipating casing on the side wall of pedestal It is connected by sliding block with base top sliding, the sliding block is connected with air-dispersing component, the air-dispersing component far from one end of push rod It is connected by exhaust tube with heat-dissipating casing side wall.

Preferably, the refrigerant extraction component includes fluid box, and the fluid box slide over side walls is connected with the first slide bar, One end that first slide bar is placed in inside fluid box is fixedly connected with first piston plate, is plugged with water on the fluid box side wall Pipe, one end of the water pipe pass through heat radiating water jacket side wall and extend to inside heat radiating water jacket.

Preferably, the reciprocator includes bidirectional cam and spin, and the bidirectional cam is connected to the second drive shaft and sets On outer wall inside the heat-dissipating casing, the spin is fixedly connected on the first slide bar far from one end of fluid box, described two-way Cam offsets with spin, and first slide bar is socketed with the first spring on the bar wall between spin and support plate side wall.

Preferably, the radiating subassembly includes flabellum, and the flabellum is connected to heat-dissipating casing inner sidewall by rotarod activity On, it is socketed with first pulley on the second drive shaft outer wall, the second belt wheel, the first band are socketed on the bull stick outer wall It is sequentially connected between wheel and the second belt wheel by belt.

Preferably, the Buffer Unit includes support housing, and the support housing is fixedly connected on base top, the branch Support cover top portion is fixedly connected with yielding rubber pad, and the yielding rubber pad is fixedly connected with heat-dissipating casing side wall, the support Shock-absorbing support column is connected between outer shell bottom wall and yielding rubber pad bottom.

Preferably, the shock-absorbing support column includes support tube and support rod, and the support rod is slidably connected in support tube Portion is connected with compression spring between the support rod bottom and support tube bottom interior wall.

Preferably, the air-dispersing component includes gas tank, and the gas tank slide over side walls is connected with the second slide bar, and described second Slide bar is fixedly connected far from one end of gas tank with slider side wall, and one end that second slide bar is placed in inside gas tank is connected with second Piston plate, second slide bar are socketed with second spring, the gas tank side wall on the bar wall between gas tank and slider side wall On be plugged with exhaust tube and escape pipe.

Preferably, it is respectively connected with check valve in the exhaust tube and outlet pipe outer wall, and the exhaust tube and escape pipe are Hose.

Preferably, second drive shaft is placed on the outer wall inside heat radiating water jacket and is fixedly connected with paddle.

Preferably, the base top offers sliding slot, and the sliding block is slidably connected inside sliding slot.

Compared with prior art, the present invention provides a kind of electric motor temperature reduction damping, have it is following the utility model has the advantages that

1, the electric motor temperature reduction damping will drive the second drive shaft turns, the second drive shaft when motor body work Reciprocator's work is driven, reciprocator can then be pushed back again the coolant liquid extraction inside heat radiating water jacket by refrigerant extraction component It goes, improves the exchange rate of coolant liquid, the second drive shaft drives radiating subassembly to radiate heat-dissipating casing inside again, and second Drive shaft, which also will drive paddle and be stirred to the cooling inside heat radiating water jacket, further increases liquid flow velocity, to mention High rate of heat exchange will drive push rod and pull down with movable slider movement, sliding block is then when motor body, which works, generates vibration It will drive air-dispersing component the hot gas inside heat-dissipating casing is discharged, further radiate to motor body, with heat-dissipating casing side The connected Buffer Unit of wall can provide a cushion effect to motor body, avoid motor body from being damaged to make motor body The flowing velocity of coolant liquid be may also speed up while damping to improve radiating efficiency.

2, the electric motor temperature reduction damping, the bidirectional cam rotation that the second drive shaft turns can be coupled to drive are double It will drive the spin movement to offset with it to cam, spin then will drive coupled the first slide bar movement, and the first spring is just In realizing the reset of the first slide bar, to make the first slide bar that coupled first piston plate be driven to move back and forth, by heat radiating water jacket Internal cold water is also drawn onto inside fluid box to be pushed back inside heat radiating water jacket again, to accelerate the heat exchanger effectiveness of coolant liquid, is improved The radiating efficiency of motor body.

3, the electric motor temperature reduction damping, the second drive shaft turns will drive coupled first pulley and rotate, and first Belt wheel can then drive the rotation of the second belt wheel by belt, and the second belt wheel drives bar rotation again to drive flabellum rotation to heat dissipation Interior of shell radiates.

4, motor body cooling damping, motor oscillating can push yielding rubber pad, and yielding rubber pad can squeeze branch Strut, support rod can squeeze pressure spring, and can under the reaction force of compression spring back pressure support rod to making motor body Buffering by a small margin up and down, avoids motor oscillating excessive and impaired, and push rod is by the second slide bar of ram extrusion, in second spring Allow the second slide bar that coupled second piston plate is driven to slidably reciprocate under effect, it will be inside heat-dissipating casing by exhaust tube Hot gas extraction, be discharged by escape pipe, to further radiate to motor body.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of electric motor temperature reduction damping proposed by the present invention；

Fig. 2 is a kind of one of electric motor temperature reduction damping schematic diagram of internal structure proposed by the present invention；

Fig. 3 is a kind of one of electric motor temperature reduction damping schematic diagram of internal structure proposed by the present invention；

Fig. 4 is a kind of electric motor temperature reduction damping reciprocator proposed by the present invention and refrigerant extraction component connection signal Figure；

Fig. 5 is a kind of electric motor temperature reduction damping air-dispersing component structure diagram proposed by the present invention；

Fig. 6 is a kind of electric motor temperature reduction damping shock-absorbing support column schematic internal view proposed by the present invention.

In figure: 1, motor body；101, the first drive shaft；102, the second drive shaft；2, pedestal；201, sliding slot；3, it radiates Water jacket；4, heat-dissipating casing；5, bidirectional cam；6, spin；7, the first slide bar；8, the first spring；9, support plate；10, fluid box； 1001, water pipe；11, first piston plate；12, paddle；13, first pulley；14, the second belt wheel；15, belt；16, bull stick；17, Flabellum；18, support housing；19, yielding rubber pad；20, shock-absorbing support column；2001, support tube；2002, support rod；2003, it presses Power spring；21, push rod；22, sliding block；23, gas tank；2301, exhaust tube；2302, escape pipe；24, the second slide bar；25, the second bullet Spring；26, second piston plate；27, check valve.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

In the description of the present invention, it is to be understood that, term " on ", "lower", "front", "rear", "left", "right", "top", The orientation or positional relationship of the instructions such as "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, merely to just In description the present invention and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with Specific orientation construction and operation, therefore be not considered as limiting the invention.

Embodiment 1:

Referring to Fig.1-3, a kind of electric motor temperature reduction damping, including motor body 1, heat-dissipating casing 4 and pedestal 2, motor master The outer wall of body 1 is fixedly connected with heat radiating water jacket 3, and motor body 1 is fixedly connected on inside heat-dissipating casing 4 by heat radiating water jacket 3, electricity 1 both ends of owner's body have been respectively fixedly connected with the first drive shaft 101 and the second drive shaft 102, and one end of the first drive shaft 101 passes through 4 side wall of heat-dissipating casing extends outwardly, and one end of the second drive shaft 102 passes through 3 side wall of heat radiating water jacket and extends in heat-dissipating casing 4 Portion is fixedly connected with symmetrically arranged support plate 9,9 side wall of support plate on the side wall that heat radiating water jacket 3 is placed in inside heat-dissipating casing 4 On be fixedly connected with refrigerant extraction component, be connected with reciprocating engine on the bar wall that the second drive shaft 102 is placed in inside heat-dissipating casing 4 Structure, the one end of reciprocator far from the second drive shaft 102 are connected with refrigerant extraction component, and the second drive shaft 102 is far from motor master One end of body 1 is connected with radiating subassembly, and Buffer Unit, Buffer Unit one end and heat dissipation far from pedestal 2 are connected at the top of pedestal 2 4 outer wall of shell is connected, and heat-dissipating casing 4 is connected with push rod 21 on the side wall of pedestal 2, and push rod 21 is far from heat-dissipating casing 4 One end be connected with 2 top slide of pedestal by sliding block 22, sliding block 22 is connected with air-dispersing component, air-dispersing far from one end of push rod 21 Component is connected by exhaust tube 2301 with 4 side wall of heat-dissipating casing；

Paddle 12 is fixedly connected on the outer wall that second drive shaft 102 is placed in inside heat radiating water jacket 3；

It will drive the rotation of the second drive shaft 102 when motor body 1 works, the second drive shaft 102 drives reciprocator's work Make, reciprocator can then be pushed back again the coolant liquid extraction inside heat radiating water jacket 3 by refrigerant extraction component, and coolant liquid is improved Exchange rate, the second drive shaft 102 drives radiating subassembly to radiating inside heat-dissipating casing 4 again, the second drive shaft 102 It also will drive paddle 12 coolant liquid inside heat radiating water jacket 3 be stirred and further increase liquid flow velocity, to mention High rate of heat exchange will drive push rod 21 and pull down and move with movable slider 22 when motor body 1, which works, generates vibration, Sliding block 22 then will drive air-dispersing component and the hot gas inside heat-dissipating casing 4 be discharged, and further radiate to motor body 1, with The connected Buffer Unit of 4 side wall of heat-dissipating casing can provide a cushion effect to motor body 1, and motor body 1 is avoided to be damaged To make motor body 1 may also speed up the flowing velocity of coolant liquid while damping to improve radiating efficiency.

Embodiment 2:

Referring to Fig. 4, a kind of electric motor temperature reduction damping is substantially the same manner as Example 1, the difference is that refrigerant extraction group Part includes fluid box 10, and 10 slide over side walls of fluid box is connected with the first slide bar 7, and the first slide bar 7 is placed in inside fluid box 10 One end is fixedly connected with first piston plate 11, and water pipe 1001 is plugged on 10 side wall of fluid box, and one end of water pipe 1001, which passes through, to be dissipated 3 side wall of hot water jacket extends to inside heat radiating water jacket 3；

Reciprocator includes bidirectional cam 5 and spin 6, and bidirectional cam 5 is connected to the second drive shaft 102 and is placed in heat-dissipating casing On outer wall inside 4, spin 6 is fixedly connected on first one end of slide bar 7 far from fluid box 10, bidirectional cam 5 and 6 phase of spin It supports, the first slide bar 7, which is located on the bar wall between 9 side wall of spin 6 and support plate, is socketed with the first spring 8；

The rotation of second drive shaft 102 can be to driving coupled bidirectional cam 5 to rotate, and bidirectional cam 5 will drive and it The spin 6 to offset is mobile, and spin 6 then will drive coupled the first slide bar 7 movement, and it is sliding that the first spring 8 is easy to implement first Bar 7 resets, thus make the first slide bar 7 that coupled first piston plate 11 be driven to move back and forth, it will be cold inside heat radiating water jacket 3 Water is also drawn onto inside fluid box 10 and is pushed back inside heat radiating water jacket 3 again, to accelerate the heat exchanger effectiveness of coolant liquid, improves motor master The radiating efficiency of body 1.

Embodiment 3:

Referring to Fig. 2-3, a kind of electric motor temperature reduction damping is substantially the same manner as Example 2, the difference is that radiating subassembly Including flabellum 17, flabellum 17 is movably connected on 4 inner sidewall of heat-dissipating casing by bull stick 16, is covered on 102 outer wall of the second drive shaft It is connected to first pulley 13, the second belt wheel 14 is socketed on 16 outer wall of bull stick, passes through skin between first pulley 13 and the second belt wheel 14 Band 15 is sequentially connected；

The rotation of second drive shaft 102 will drive coupled first pulley 13 and rotate, and first pulley 13 can then pass through skin Band 15 drives the rotation of the second belt wheel 14, and the second belt wheel 14 drives the rotation of bull stick 16 again to drive the rotation of flabellum 17 to heat-dissipating casing It radiates inside 4.

Embodiment 4:

Referring to Fig. 5-6, a kind of electric motor temperature reduction damping is substantially the same manner as Example 3, moreover, buffering group Part includes support housing 18, and support housing 18 is fixedly connected on 2 top of pedestal, is fixedly connected with damping rubber at the top of support housing 18 Rubber mat 19, yielding rubber pad 19 are connected with 4 side wall of heat-dissipating casing, and 18 bottom wall of support housing and yielding rubber pad connect between 19 bottom It is connected to shock-absorbing support column 20；

Shock-absorbing support column 20 includes support tube 2001 and support rod 2002, and support rod 2002 is slidably connected at support tube 2001 Inside is connected with compression spring 2003 between 2001 bottom interior wall of 2002 bottom of support rod and support tube；

Air-dispersing component includes gas tank 23, and 23 slide over side walls of gas tank is connected with the second slide bar 24, and the second slide bar 24 is far from gas One end of case 23 is fixedly connected with 22 side wall of sliding block, and one end that the second slide bar 24 is placed in inside gas tank 23 is connected with second piston plate 26, the second slide bar 24, which is located on the bar wall between 22 side wall of gas tank 23 and sliding block, is socketed with second spring 25, on 23 side wall of gas tank It is plugged with exhaust tube 2301 and escape pipe 2302；

Check valve 27, and exhaust tube 2301 and escape pipe 2302 are respectively connected on 2302 outer wall of exhaust tube 2301 and escape pipe For hose；

Sliding slot 201 is offered at the top of pedestal 2, sliding block 22 is slidably connected inside sliding slot 201；

The vibration of motor body 1 can push yielding rubber pad 19, and yielding rubber pad 19 can squeeze support rod 2002, support rod 2002 can squeeze pressure springs 2003, and can under the reaction force of compression spring 2003 back pressure support rod 2002 to making motor The buffering of about 1 main body by a small margin, avoids motor body 1 from vibrating excessive and impaired, and push rod 21 squeezes second by sliding block 22 and slides Bar 24 allows the second slide bar 24 that coupled second piston plate 26 is driven to slidably reciprocate under the action of second spring 25, The hot gas inside heat-dissipating casing 3 is extracted out by exhaust tube 2301, is discharged by escape pipe 2302, thus further to motor master Body 1 radiates.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (10)

1. a kind of electric motor temperature reduction damping, including motor body (1), heat-dissipating casing (4) and pedestal (2), which is characterized in that institute The outer wall for stating motor body (1) is fixedly connected with heat radiating water jacket (3), and the motor body (1) connects by the way that heat radiating water jacket (3) are fixed It connects in heat-dissipating casing (4) inside, motor body (1) both ends have been respectively fixedly connected with the first drive shaft (101) and second and have driven Moving axis (102), one end of first drive shaft (101) pass through heat-dissipating casing (4) side wall and extend outwardly, second drive shaft (102) one end passes through heat radiating water jacket (3) side wall and extends to heat-dissipating casing (4) inside, and it is outer that the heat radiating water jacket (3) is placed in heat dissipation It is fixedly connected with symmetrically arranged support plate (9) on the internal side wall of shell (4), is fixedly connected on support plate (9) side wall Refrigerant extraction component, second drive shaft (102) are placed on the internal bar wall of heat-dissipating casing (4) and are connected with reciprocator, institute It states the one end of reciprocator far from the second drive shaft (102) to be connected with refrigerant extraction component, second drive shaft (102) is separate One end of motor body (1) is connected with radiating subassembly, is connected with Buffer Unit at the top of the pedestal (2), the Buffer Unit is remote One end from pedestal (2) is connected with heat-dissipating casing (4) outer wall, and the heat-dissipating casing (4) activity on the side wall of pedestal (2) connects It is connected to push rod (21), the push rod (21) passes through sliding block (22) and pedestal (2) top slide phase far from the one end of heat-dissipating casing (4) Even, the sliding block (22) is connected with air-dispersing component far from the one end of push rod (21), and the air-dispersing component passes through exhaust tube (2301) It is connected with heat-dissipating casing (4) side wall.

2. a kind of electric motor temperature reduction damping according to claim 1, which is characterized in that the refrigerant extraction component includes Fluid box (10), fluid box (10) slide over side walls are connected with the first slide bar (7), and first slide bar (7) is placed in liquid The internal one end of case (10) is fixedly connected with first piston plate (11), is plugged with water pipe on fluid box (10) side wall (1001), one end of the water pipe (1001) passes through heat radiating water jacket (3) side wall and extends to heat radiating water jacket (3) inside.

3. a kind of electric motor temperature reduction damping according to claim 2, which is characterized in that the reciprocator includes two-way Cam (5) and spin (6), the bidirectional cam (5) are connected to the second drive shaft (102) and are placed in the outer of heat-dissipating casing (4) inside On wall, the spin (6) be fixedly connected on the first slide bar (7) far from fluid box (10) one end on, the bidirectional cam (5) with Spin (6) offsets, and first slide bar (7), which is located on the bar wall between spin (6) and support plate (9) side wall, is socketed with the first bullet Spring (8).

4. a kind of electric motor temperature reduction damping according to claim 3, which is characterized in that the radiating subassembly includes flabellum (17), the flabellum (17) is movably connected on heat-dissipating casing (4) inner sidewall by bull stick (16), second drive shaft (102) it is socketed on outer wall first pulley (13), is socketed with the second belt wheel (14), the first band on bull stick (16) outer wall It takes turns and is sequentially connected between (13) and the second belt wheel (14) by belt (15).

5. a kind of electric motor temperature reduction damping according to claim 4, which is characterized in that the Buffer Unit includes support Shell (18), the support housing (18) are fixedly connected at the top of pedestal (2), are fixedly connected at the top of the support housing (18) Yielding rubber pad (19), the yielding rubber pad (19) are fixedly connected with heat-dissipating casing (4) side wall, support housing (18) bottom Shock-absorbing support column (20) are connected between wall and yielding rubber pad (19) bottom.

6. a kind of electric motor temperature reduction damping according to claim 5, which is characterized in that shock-absorbing support column (20) packet Support tube (2001) and support rod (2002) are included, the support rod (2002) is slidably connected at support tube (2001) inside, described Compression spring (2003) are connected between support rod (2002) bottom and support tube (2001) bottom interior wall.

7. a kind of electric motor temperature reduction damping according to claim 6, which is characterized in that the air-dispersing component includes gas tank (23), gas tank (23) slide over side walls is connected with the second slide bar (24), and second slide bar (24) is far from gas tank (23) One end is fixedly connected with sliding block (22) side wall, and it is living that one end that second slide bar (24) is placed in gas tank (23) inside is connected with second Seben (26), second slide bar (24), which is located on the bar wall between gas tank (23) and sliding block (22) side wall, is socketed with second spring (25), exhaust tube (2301) and escape pipe (2302) are plugged on gas tank (23) side wall.

8. a kind of electric motor temperature reduction damping according to claim 7, which is characterized in that the exhaust tube (2301) and go out It is respectively connected with check valve (27) on tracheae (2302) outer wall, and the exhaust tube (2301) and escape pipe (2302) are hose.

9. a kind of electric motor temperature reduction damping according to claim 1-8, which is characterized in that second driving Axis (102) is placed on the internal outer wall of heat radiating water jacket (3) and is fixedly connected with paddle (12).

10. a kind of electric motor temperature reduction damping according to claim 1-8, which is characterized in that the pedestal (2) Top offers sliding slot (201), and it is internal that the sliding block (22) is slidably connected at sliding slot (201).