CN115378194A

CN115378194A - Energy-saving self-radiating motor

Info

Publication number: CN115378194A
Application number: CN202211118978.9A
Authority: CN
Inventors: 李小璇
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-09-13
Filing date: 2022-09-13
Publication date: 2022-11-22

Abstract

The invention discloses an energy-saving self-radiating motor which comprises a motor box and a main shaft, wherein an annular block is fixed on the circumferential side wall of the main shaft, a circular cavity is formed in the end part of the main shaft, a plurality of fixing plates are fixed on the inner wall of the annular block and can form a plurality of storage spaces, an arc-shaped moving plate is hermetically and slidably connected to the inner wall of each storage space, the end part of each arc-shaped moving plate is fixed to the inner wall of the annular block through a connecting spring, and each storage space is communicated with the inside of the circular cavity through a cooling pipe and a connecting pipe. Has the advantages that: utilize the motor spindle to rotate the in-process, the ejector pin can realize the reciprocating motion of the inside arc movable plate of storage space along the slip of ring and fixed dog, and then can make the coolant liquid along the circulation flow of circular cavity and cooling tube to can realize the absorption of the temperature of electric motor rotor, stator and main shaft part, and then can make the structure radiating effect of motor better.

Description

Energy-saving self-radiating motor

Technical Field

The invention relates to the technical field of motors, in particular to an energy-saving self-radiating motor.

Background

The motor is an electromagnetic device for realizing electric energy conversion or transmission according to the law of electromagnetic induction, the main function is to generate driving torque, as the power source of electrical equipment or various machines, the motor works, the inside of the motor can generate a large amount of heat, the circulation flow of cooling oil is one of the better modes of motor heat dissipation, and the cooling fan can be paired to accelerate airflow flow, the heat dissipation is convenient, the existing pipeline is generally and directly fixed to the inside of the motor, the heat dissipation of a motor rotor and a rotating shaft part cannot be realized, the heat dissipation effect of the heat dissipation structure is poor, and the circulation flow of the fan and oil liquid needs to be supplied with energy through an external power supply or equipment, so that the energy consumption is large, and an energy-saving self-heat-dissipation motor with more thorough heat dissipation needs to be designed.

Disclosure of Invention

The invention aims to solve the problem of poor heat dissipation effect in the prior art, and provides an energy-saving self-heat-dissipation motor.

In order to achieve the purpose, the invention adopts the following technical scheme:

an energy-saving self-radiating motor comprises a motor box and a main shaft, wherein an annular block is fixed on the circumferential side wall of the main shaft, a circular cavity is formed in the end part of the main shaft, a plurality of fixing plates are fixed on the inner wall of the annular block and can form a plurality of storage spaces, an arc moving plate is connected to the inner wall of each storage space in a sealing and sliding mode, the end part of the arc moving plate is fixed to the inner wall of the annular block through a connecting spring, each storage space is communicated with the inside of the circular cavity through a cooling pipe and a connecting pipe, a circular ring is fixed on the inner wall of the motor box, a plurality of fixed stop blocks are fixed on the inner wall of the circular ring, an ejector rod is fixed on the side wall of the arc moving plate and penetrates through the outside of the annular block and abuts against the inner wall of the circular ring, an automatic triggering device is arranged inside the motor box, and a radiating device is arranged on the side wall of the motor box;

the storage tank is formed in one end of each arc-shaped moving plate, piezoelectric ceramics are fixed on the inner wall of the storage tank, extrusion blocks are fixed on the circumferential side wall of the main shaft and correspond to the arc-shaped moving plates, a protection plate is fixed inside each storage space and is an L-shaped plate, an annular cavity is formed in the inner wall of the motor box, and a plurality of semiconductor refrigerating pieces are jointly arranged inside the storage spaces and the annular cavity.

In foretell an energy-saving is from among the heat dissipation motor, heat abstractor is including the circular lid that is fixed in motor case lateral wall, the inner wall of circular lid rotates through the bearing and is connected with the bull stick, the tip and the circumference lateral wall of circular lid all run through and have seted up a plurality of grooves of breathing in, the end fixing of bull stick has the dead lever, the inner wall in circular chamber runs through and has seted up logical groove, the dead lever runs through logical groove and extends to circular intracavity portion, the circumference lateral wall of dead lever and bull stick all is fixed with a plurality of commentaries on classics leaves, the circumference lateral wall of dead lever is fixed with the sealing washer, the sealing washer corresponds with logical groove.

In foretell an energy-saving from heat dissipation motor, the lateral wall and the inner wall of motor case are provided with the thermoelectric generation piece jointly, the thermoelectric generation piece corresponds with one of them groove of taking a breath, the inner wall of annular chamber runs through and has seted up a plurality of radiating grooves, and is a plurality of the radiating groove all is circular evenly distributed with a plurality of grooves of taking a breath.

In the energy-saving self-radiating motor, the induction device includes an induction block fixed inside the motor box, a partition is fixed on an inner wall of the induction block, a moving block penetrates through and is connected to a side wall of the partition in a sliding manner, the moving block is connected to the side wall of the partition through a horizontal spring, and evaporation liquid is filled in a side end of the moving block and the induction block.

In the energy-saving self-radiating motor, a horizontal groove is formed in the other end of the moving block, a horizontal plate is fixed on the side wall of the induction block, the horizontal plate corresponds to the horizontal groove, the upper end of the horizontal plate is slidably connected with a mounting plate, the side wall of one end of the mounting plate is connected with the inside of the induction block through a reset spring, a control button is fixed on the side wall of the other end of the mounting plate, and the control button corresponds to the semiconductor refrigerating piece.

In foretell energy-saving from heat dissipation motor, the sealed sliding connection in bottom of horizontal plate has the closing plate, the one end of closing plate is filled with electrorheological fluids, the other end of closing plate passes through a plurality of spacing springs and movable block end connection, the lateral wall of movable block and closing plate all is fixed with the circular telegram piece, the upper end of motor case is fixed with the alarm, two circular telegram piece is connected with the alarm.

Compared with the prior art, the invention has the advantages that:

1: utilize the motor spindle to rotate the in-process, the ejector pin can realize the reciprocating motion of the inside arc movable plate of storage space along the slip of ring and fixed dog, and then can make the coolant liquid along the circulation flow of circular cavity and cooling tube to can realize the absorption of the temperature of electric motor rotor, stator and main shaft part, and then can make the structure radiating effect of motor better.

2: through the response of evaporating liquid to the inside temperature of motor case, when motor incasement portion temperature is higher, can be automatic to the power supply for the semiconductor refrigeration piece of PN junction, realize the derivation to heat in the liquid, and then the usable commentaries on classics leaf of rotatory when flowing along with liquid, can accelerate the quick flow of heat dissipation part air current, need not to realize that the air current can realize the heat dissipation to the motor through motor is inside, can effectively avoid impurity such as dust to get into inside the motor, thereby can be convenient for the safe handling of motor.

3: in the reciprocating movement process of the arc-shaped moving plate, the reciprocating extrusion of the piezoelectric ceramics and the extrusion block at the bottom of the arc-shaped moving plate can be realized, and further, the electric energy generated when the piezoelectric ceramics deform can be stored by utilizing the capacitor, so that the electric energy can be used for supplying power to the semiconductor refrigeration piece, the heat dissipation in the motor box is realized, and a certain energy-saving effect can be achieved.

4: and when motor incasement portion temperature lasted to rise, can make two circular telegram blocks contact to realize the intercommunication warning of alarm, and through setting up the thermoelectric generation piece near the scavenger channel, can utilize the hot junction air to flow fast and realize the intercommunication of alarm when the continuous transmission of heat in the motor, can play the warning effect when motor incasement portion temperature risees fast, make things convenient for operating personnel to discover to overhaul.

Drawings

Fig. 1 is a schematic structural diagram of an energy-saving self-cooling motor according to the present invention;

fig. 2 is a schematic structural diagram of a ring block portion in an energy-saving self-cooling motor according to the present invention;

fig. 3 is a side sectional view of a ring block portion in an energy-saving self-cooling motor according to the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is an enlarged view of portion B of FIG. 2;

fig. 6 is a side sectional view of a circular cover portion in an energy-saving self-heat-dissipating motor according to the present invention;

fig. 7 is a main sectional view of an induction block portion in an energy-saving self-cooling motor according to the present invention.

In the figure: 1 motor box, 2 main shaft, 3 circular cavity, 4 annular block, 5 fixed plate, 6 arc movable plate, 7 connecting spring, 8 storage space, 9 cooling pipe, 10 connecting pipe, 11 circular ring, 12 fixed block, 13 top rod, 14 storage tank, 15 piezoelectric ceramic, 16 extrusion block, 17 capacitor, 18 sliding groove, 19 limited block, 20 protective plate, 21 annular cavity, 22 semiconductor refrigeration piece, 23 radiating fin, 24 radiating groove, 25 circular cover, 26 ventilation groove, 27 rotating rod, 28 fixed rod, 29 through groove, 30 rotating blade, 31 sealing ring, 32 induction block, 33 thermoelectric generation piece, 34 clapboard, 35 moving block, 36 evaporated liquid of moving block, 37 horizontal spring, 38 horizontal groove, 39 horizontal plate, 40 mounting plate, 41 reset spring, 42 control button, 43 alarm, 44 sealing plate, 45 electrorheological fluid, 46 block, 47 limit spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, an energy-saving self-heat-dissipation motor comprises a motor box 1 and a main shaft 2, wherein an annular block 4 is fixed on the circumferential side wall of the main shaft 2, a circular cavity 3 is formed at the end part of the main shaft 2, a plurality of fixing plates 5 are fixed on the inner wall of the annular block 4, the plurality of fixing plates 5 can form a plurality of storage spaces 8, an arc-shaped moving plate 6 is hermetically and slidably connected with the inner wall of each storage space 8, the end part of each arc-shaped moving plate 6 is fixed on the inner wall of the annular block 4 through a connecting spring 7, each storage space 8 is communicated with the inside of the circular cavity 3 through a cooling pipe 9 and a connecting pipe 10, a check valve is arranged in a port where the cooling pipe 9 and the connecting pipe 10 are connected with the storage spaces 8, a plurality of fixed stop blocks 12 are fixed on the inner wall of the circular ring 11, an arc-shaped ejector rod 13 is fixed on the side wall of the moving plate 6, the ejector rod 13 penetrates through the outside of the annular block 4 and abuts against the inner wall of the circular cavity 11, and an automatic trigger device is arranged on the inner wall of the motor box 1; reserve tank 14 has all been seted up to the one end of every arc movable plate 6, the inner wall of reserve tank 14 is fixed with piezoceramics 15, set up condenser 17 on the annular piece 4, condenser 17 is connected with a plurality of piezoceramics 15, can realize the storage to the electric quantity that piezoceramics 15 deformation produced, the circumference lateral wall of main shaft 2 is fixed with extrusion piece 16, extrusion piece 16 corresponds with arc movable plate 6, every storage space 8's inside all is fixed with protection shield 20, protection shield 20 is the L template, annular chamber 21 has been seted up to the inner wall of motor case 1, the inside of a plurality of storage space 8 and annular chamber 21 is provided with a plurality of semiconductor refrigeration pieces 22 jointly, the primary structure is the PN junction, the cold junction sets up inside protection shield 20, and the hot junction sets up inside annular chamber 21, the hot junction can be inside rotatory in annular chamber 21, supply power jointly with condenser 17 and external power source, the electric energy of utilizing capacitor 17 to store preferentially supplies power, certain energy-conserving effect can be played.

The heat dissipation device comprises a circular cover 25 fixed on the side wall of the motor box 1, the inner wall of the circular cover 25 is rotatably connected with a rotating rod 27 through a bearing, the end part and the circumferential side wall of the circular cover 25 are both provided with a plurality of ventilation grooves 26 in a penetrating manner, the end part of the rotating rod 27 is fixed with a fixing rod 28, the inner wall of the circular cavity 3 is provided with a through groove 29 in a penetrating manner, the fixing rod 28 penetrates through the through groove 29 and extends into the circular cavity 3, the circumferential side walls of the fixing rod 28 and the rotating rod 27 are both fixed with a plurality of rotating blades 30, the circumferential side wall of the fixing rod 28 is fixed with a sealing ring 31, and the sealing ring 31 corresponds to the through groove 29; the lateral wall and the inner wall of motor case 1 are provided with thermoelectric generation piece 33 jointly, thermoelectric generation piece 33 corresponds with one of them groove 26 of breathing freely, the inner wall of annular chamber 21 runs through and has seted up a plurality of radiating grooves 24, a plurality of radiating grooves 24 all are circular evenly distributed with a plurality of groove 26 of breathing freely, utilize rotatory commentaries on classics leaf 30 when flowing along with liquid, can accelerate the quick flow of radiating part air current, need not to realize that the air current can realize the heat dissipation to the motor through motor inside, can effectively avoid impurity such as dust to get into inside the motor, thereby can be convenient for the safe handling of motor.

The induction device comprises an induction block 32 fixed in the motor box 1, a partition plate 34 is fixed on the inner wall of the induction block 32, a moving block 35 penetrates through the side wall of the partition plate 34 and is connected with the side wall of the partition plate 34 in a sliding mode, the moving block 35 is connected with the side wall of the partition plate 34 through a horizontal spring 37, the side end of the moving block 35 and the induction block 32 are filled with evaporating liquid 36, the evaporating liquid 36 is diethyl ether, and the evaporating temperature is 34.6 ℃; a horizontal groove 38 is formed in the other end of the moving block 35, a horizontal plate 39 is fixed on the side wall of the induction block 32, the horizontal plate 39 corresponds to the horizontal groove 38, an installation plate 40 is connected to the upper end of the horizontal plate 39 in a sliding manner, the side wall of one end of the installation plate 40 is connected with the inside of the induction block 32 through a return spring 41, a control button 42 is fixed on the side wall of the other end of the installation plate 40, the control button 42 is a limit-free switch and can control the starting of the semiconductor refrigeration piece 22 in a wireless manner, and the control button 42 corresponds to the semiconductor refrigeration piece 22; the bottom sealing sliding connection of horizontal plate 39 has the closing plate 44, the one end of closing plate 44 is filled with electrorheological fluids 45, the other end of closing plate 44 passes through a plurality of spacing springs 47 and moving block 35 end connection, the lateral wall of moving block 35 and closing plate 44 all is fixed with circular telegram piece 46, the upper end of motor case 1 is fixed with alarm 43, two circular telegram pieces 46 are connected with alarm 43, through setting up alarm 43, can continuously rise or the temperature is gathered when rising at the temperature, realize alarm 43's warning, thereby can play certain warning effect.

In the invention, in the process of the power-on operation of the motor, the motor spindle 2 can rotate, at the moment, the spindle 2 can drive the annular block 4 to rotate, so that the ejector rod 13 can slide along the inner wall of the annular ring 11, when the ejector rod 13 reaches the position of the fixed stop block 12, the ejector rod 13 can be pushed, so that the arc-shaped moving plate 6 can move along the storage space 8, and meanwhile, the connecting spring 7 can extend, and after the ejector rod 13 reaches the middle position of the fixed stop block 12, the arc-shaped moving plate 6 can gradually reset under the action of the connecting spring 7, so that the arc-shaped moving plate 6 can reciprocate in the process of the spindle 2 driving the annular block 4 to rotate, further, under the action of the cooling pipe 9, the connecting pipe 10 and the internal one-way valve, the liquid in the storage space 8 can continuously flow along the circular cavity 3, the cooling pipe 9 and the connecting pipe 10, and further, the continuous flow of the liquid can be utilized to absorb the heat of the spindle 2, the rotor and the sub-heat, so that the heat of the internal parts of the motor can be effectively dissipated;

in the reciprocating process of the arc-shaped moving plate 6, the contact with the squeezing block 16 can be achieved in a reciprocating mode, the piezoelectric ceramics 15 are arranged at the bottom of the arc-shaped moving plate 6, the squeezing block 16 can squeeze the piezoelectric ceramics 15 in a reciprocating mode in the reciprocating process of the arc-shaped moving plate 6, and then electric energy generated when the piezoelectric ceramics 15 are deformed can be stored by the capacitor 17, so that subsequent utilization is facilitated;

the temperature inside the motor box 1 can be sensed by using the evaporated liquid 36 inside the sensing block 32, after the temperature inside the motor box 1 reaches the evaporation temperature of the evaporated liquid 36, the evaporated liquid 36 can absorb heat and evaporate, so that the moving block 35 is pushed to move and the compression of the horizontal spring 37 is realized, after the moving block 35 is contacted and extruded with the control button 42, the connection of a non-limiting contact switch can be realized, so that the starting of the semiconductor chilling plate 22 can be not controlled, at the moment, the electric energy stored in the capacitor 17 is preferentially used for supplying power to the semiconductor chilling plate, so that the heat absorption end and the heat release end of a PN junction structure in the semiconductor chilling plate 22 are utilized when the power is on, the continuous absorption of the heat in the liquid can be realized by using the cold end positioned inside the storage space 8, then the heat release is carried out through the hot end inside the annular cavity 21, and the contact between the heat and the air can be accelerated by combining with the radiating fins 23 on the hot end, and the heat conduction is convenient for the heat conduction;

in the process that liquid continuously flows along the inside of the circular cavity 3, the rotating blade 30 and the fixed rod 28 inside the circular cavity 3 can be driven to rotate, so that the rotating rod 27 and the rotating blade 30 on the rotating rod 27 can be driven to rotate, quick pumping of air inside and outside the circular cover 25 can be achieved along the air exchange groove 26, and further flowing of air around the radiating fin 23 can be facilitated, so that the radiating effect is good, heat dissipation inside the motor box 1 can be achieved without utilizing air flow passing through the inside of the motor box 1, safety use of the motor is facilitated, and through the temperature difference power generation fin 33 above the air exchange groove 26, air flow which quickly flows at the hot end of the temperature difference power generation fin 33 can be utilized, temperature difference at two ends can be continuously guaranteed, continuous storage of electric energy can be achieved while continuous slow heat dissipation can be achieved, so that the heat deriving effect is good, and heat dissipation use of the motor is facilitated;

when the temperature in the motor box 1 continues to be high, the evaporating liquid 36 can continuously push the moving block 35 to move, the reset spring 41 can be extruded after the moving block 35 abuts against the control button 42, the mounting plate 40 can move along with the moving, the communication of the control button 42 can be continuously ensured, and when the end part of the moving block 35 is in contact with the electrified block 46 at the end part of the sealing plate 44 in the moving process of the moving block 35 along the horizontal plate 39 and the induction block 32, the communication of the alarm 43 can be realized, so that the alarm can be realized when the temperature continues to be high;

and utilize the electrorheological fluids 45 of being connected with thermoelectric generation piece 33, rise rapidly at the inside temperature of motor case 1, the thermoelectric generation piece 33 both ends difference in temperature is too big promptly, thereby can produce great instantaneous current, thereby can realize electrorheological fluids 45's circular telegram inflation, and then can promote the closing plate 44 to remove to movable block 35 direction, realize two circular telegram blocks 46's intercommunication, thereby can lead to when the temperature accumulation risees in the motor at motor fault, realize the autoalarm of alarm 43, can play certain warning effect, can make the security that the motor used higher.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. An energy-saving self-radiating motor comprises a motor box (1) and a spindle (2), and is characterized in that an annular block (4) is fixed on the circumferential side wall of the spindle (2), a circular cavity (3) is formed in the end portion of the spindle (2), a plurality of fixing plates (5) are fixed on the inner wall of the annular block (4), a plurality of storage spaces (8) can be formed by the plurality of fixing plates (5), the inner wall of each storage space (8) is hermetically and slidably connected with an arc-shaped moving plate (6), the end portion of each arc-shaped moving plate (6) is fixed on the inner wall of the annular block (4) through a connecting spring (7), each storage space (8) is communicated with the inside of the circular cavity (3) through a cooling pipe (9) and a connecting pipe (10), a circular ring (11) is fixed on the inner wall of the motor box (1), a plurality of fixed stop blocks (12) are fixed on the inner wall of the circular ring (11), an ejector rod (13) is fixed on the side wall of the arc-shaped moving plate (6), the ejector rod (13) penetrates through the outside of the annular block (4) and abuts against the inner wall of the circular ring (11), and an automatic triggering device is arranged on the motor box (1);

every hold up tank (14) have all been seted up to the one end of arc movable plate (6), the inner wall of hold up tank (14) is fixed with piezoceramics (15), the circumference lateral wall of main shaft (2) is fixed with extrusion piece (16), extrusion piece (16) correspond with arc movable plate (6), every the inside of storage space (8) all is fixed with protection shield (20), protection shield (20) are the L template, annular chamber (21) have been seted up to the inner wall of motor case (1), and is a plurality of the inside of storage space (8) and annular chamber (21) is provided with a plurality of semiconductor refrigeration pieces (22) jointly.

2. The energy-saving self-radiating motor according to claim 1, wherein the heat sink includes a circular cover (25) fixed to a side wall of the motor case (1), an inner wall of the circular cover (25) is rotatably connected with a rotating rod (27) through a bearing, an end portion and a circumferential side wall of the circular cover (25) are both penetrated by a plurality of air exchanging grooves (26), a fixing rod (28) is fixed to an end portion of the rotating rod (27), an inner wall of the circular cavity (3) is penetrated by a through groove (29), the fixing rod (28) is penetrated by the through groove (29) and extends into the circular cavity (3), a plurality of rotating blades (30) are fixed to circumferential side walls of the fixing rod (28) and the rotating rod (27), a sealing ring (31) is fixed to a circumferential side wall of the fixing rod (28), and the sealing ring (31) corresponds to the through groove (29).

3. The energy-saving self-heat-dissipation motor according to claim 2, wherein a thermoelectric generation piece (33) is disposed on a side wall and an inner wall of the motor case (1) together, the thermoelectric generation piece (33) corresponds to one of the ventilation slots (26), a plurality of heat dissipation slots (24) are formed through the inner wall of the annular cavity (21), and the plurality of heat dissipation slots (24) and the plurality of ventilation slots (26) are uniformly distributed in a circular shape.

4. The energy-saving self-heat-dissipation motor according to claim 1, wherein the induction device comprises an induction block (32) fixed inside the motor case (1), a partition plate (34) is fixed on an inner wall of the induction block (32), a moving block (35) is connected to a side wall of the partition plate (34) in a penetrating and sliding manner, the moving block (35) is connected to a side wall of the partition plate (34) through a horizontal spring (37), and an evaporation liquid (36) is filled in side ends of the moving block (35) and the induction block (32).

5. The energy-saving self-radiating motor according to claim 4, wherein a horizontal groove (38) is formed in the other end of the moving block (35), a horizontal plate (39) is fixed to a side wall of the induction block (32), the horizontal plate (39) corresponds to the horizontal groove (38), an installation plate (40) is slidably connected to the upper end of the horizontal plate (39), a side wall of one end of the installation plate (40) is connected with the inside of the induction block (32) through a return spring (41), a control button (42) is fixed to a side wall of the other end of the installation plate (40), and the control button (42) corresponds to the semiconductor refrigeration piece (22).

6. The energy-saving self-radiating motor according to claim 5, wherein a sealing plate (44) is connected to the bottom of the horizontal plate (39) in a sealing and sliding manner, an electrorheological fluid (45) is filled in one end of the sealing plate (44), the other end of the sealing plate (44) is connected with the end of the moving block (35) through a plurality of limiting springs (47), energizing blocks (46) are fixed to the side walls of the moving block (35) and the sealing plate (44), an alarm (43) is fixed to the upper end of the motor box (1), and the two energizing blocks (46) are connected with the alarm (43).