CN117559708A - Energy-saving noise-reducing three-phase asynchronous motor - Google Patents

Abstract

The invention relates to the technical field of motors and discloses an energy-saving and noise-reducing three-phase asynchronous motor which comprises a motor main body, wherein an air chamber and a motor rotor set are arranged in the motor main body, a through hole is formed in one side, far away from the motor rotor set, of the air chamber, a dust screen is arranged on the through hole, a lifter is arranged in the air chamber, a vibrator is arranged on the lifter, the vibrator is in contact with the dust screen, a temperature sensor is arranged in the motor main body, the temperature sensor is electrically connected with the lifter and the vibrator, and when the temperature sensor detects that the temperature in the motor body rises, the temperature sensor can control the lifter and the vibrator to operate, so that the vibrator drives the vibrator to move, the vibrator can vibrate uniformly on the dust screen, dust attached on the dust screen can be shaken off, the stable operation of a fan can be ensured, the energy consumption of the motor is prevented from increasing, and the noise is prevented from being generated, and the energy-saving and noise-reducing effects are achieved.

Description

Energy-saving noise-reducing three-phase asynchronous motor

Technical Field

The invention relates to the technical field of motors, in particular to an energy-saving and noise-reducing three-phase asynchronous motor.

Background

With the continuous development of the society in China, the industrial strength is gradually improved, a motor is an essential electrical device in industrial production, and a three-phase alternating current asynchronous motor is an electric dragging device for converting electric energy into mechanical energy. It is mainly composed of stator, rotor and air gap between them. After the stator winding is connected to a three-phase alternating current power supply, a rotating magnetic field is generated and the rotor is cut, so that torque is obtained. The three-phase alternating current asynchronous motor has the advantages of simple structure, reliable operation, low price, strong overload capacity, convenient use, installation and maintenance and the like, and is widely applied to various fields.

The existing three-phase asynchronous motor filters the air flow entering the machine body through the dust screen during operation, so that the damage to electric elements caused by dust entering the machine body in the air flow is avoided, the dust removal function of the dust screen is not achieved, the air flow entering the machine body is reduced due to excessive dust attached to the dust screen, the temperature in the machine body is increased, the rotating speed of the machine body control fan is increased, the effect of cooling the interior of the machine body is achieved, and energy consumption is increased and noise is generated.

Disclosure of Invention

The invention aims to provide an energy-saving and noise-reducing three-phase asynchronous motor so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an energy-conserving three-phase asynchronous motor that makes an uproar falls, this energy-conserving three-phase asynchronous motor that makes an uproar includes the motor main part, be provided with plenum and motor rotor group in the motor main part, install the fan on motor rotor group's the output shaft, the fan is in the plenum, the through-hole has been seted up to one side that the motor rotor group was kept away from to the plenum, install the dust screen on the through-hole, install the riser in the plenum, install the vibrator on the riser, the vibrator contacts with the dust screen, install temperature sensor in the motor main part, temperature sensor and riser and vibrator electric connection, through the operation of fan, inhale external air current and enter into the organism and cool down the processing, when temperature sensor detects that the temperature in the organism rises, temperature sensor can control riser and vibrator operation, makes the riser drive the vibrator and remove to can let the vibrator vibrate the dust that makes the dust that adheres to on the dust screen can be tremble down, and then can the steady operation of fan, avoid the energy consumption of motor to increase and noise reduction's production, energy-conserving effect that makes an uproar reaches.

As the preferable technical scheme, be provided with on the motor main part and rotate one-level and utilize the subassembly and rotate the second grade and utilize the subassembly, utilize the subassembly to provide the operation driving force for rotating one-level and rotating the second grade and utilize the subassembly through the rotation of fan.

As the preferable technical scheme, the rotary primary utilization component comprises a rotary hole, a rotary column, an electric telescopic rod, a bearing plate, a transmission bevel gear, a fixed ring, a chute, a sliding block, a connecting rod, a driven bevel gear, a connecting plate and a wiping brush;

a rotating hole is formed in one side, close to the through hole, of the air chamber, a rotating column is arranged in the rotating hole through a bearing, an electric telescopic rod is arranged at one end, close to the fan, of the rotating column, a retaining plate is arranged on the electric telescopic rod, a transmission bevel gear is arranged at the other end of the rotating column, a fixing ring is arranged on the motor main body, a sliding groove is formed in the inner diameter of the fixing ring, two groups of sliding blocks are arranged in the sliding groove in a sliding manner, the two groups of sliding blocks are symmetrically arranged, a connecting rod is arranged on the sliding blocks, a driven bevel gear is arranged on the connecting rod and meshed with the transmission bevel gear, install the connecting plate on the connecting rod, install on the connecting plate and clean the brush, clean the brush and contact with the dust screen, when temperature sensor detects the temperature in the organism and rises, electric telescopic handle control is kept out the board and is contradicted the fan, makes the fan can drive the revolving post and carry out synchronous rotation to let the revolving post drive transmission awl tooth rotate, through the gear cooperation of transmission awl tooth and driven awl tooth, make driven awl tooth can drive the slider through the connecting rod in the rotation process in the spout, and then let the connecting rod drive the brush of cleaning on the connecting plate and clear up the dust that adheres to on the dust screen at the circumference rotation in-process.

As the preferable technical scheme, electric telescopic rod and temperature sensor electric connection, the center of keeping out the board is in same horizontal axis with the fan, can ensure the transmission effect of fan to keeping out the board, realizes that the fan drives to keep out the board and carries out synchronous rotation.

As the preferable technical scheme, the rotating secondary utilization component comprises a screw rod, a movable seat, a supporting rod, a transmission block, a casing, a ring groove, a swivel, a connecting ring, a sleeve and a slide rail;

the novel sound insulation box is characterized in that a screw is arranged on the transmission bevel gear, a moving seat is arranged on the screw in a sliding manner, a supporting rod is arranged on the moving seat, a transmission block is arranged on the supporting rod, a shell is arranged on the motor main body, a ring groove is arranged on the shell, a rotating ring is arranged in the ring groove in a rotating manner, a connecting ring is arranged on the rotating ring, a sleeve is arranged on the connecting ring, a sliding rail is arranged on the inner wall of the sleeve, the sliding rail is in a spiral shape, the transmission block is in sliding fit with the sliding rail, when the transmission bevel gear rotates, the transmission bevel gear can drive the screw to synchronously rotate, the moving seat can move along the screw, the moving seat can drive the transmission block to synchronously move through the supporting rod, the sleeve can rotate clockwise along with the movement of the transmission block, and power driving can be provided for the expansion of the sound insulation cloth by the rotation of the sleeve.

As the preferred technical scheme, install the trigger in the slide rail, when moving the seat and sideslip, under the extrusion effort of drive block to the slide rail, move the seat and can drive the sleeve pipe and rotate clockwise, when moving the seat and remove to the most distal end, the drive block touches the trigger, trigger and electric telescopic handle electric connection, the sleeve pipe is connected with the cover shell through reset torsion spring, when moving the seat and driving the trigger in drive block and the slide rail and contact, trigger control electric telescopic handle drives and holds out the board and disconnect with the fan, because the sleeve pipe carries out clockwise rotation in-process and can warp reset torsion spring, after holding out the board and disconnected, the sleeve pipe can carry out anticlockwise rotation under the torsion effect of reset torsion spring to can realize moving the seat and reset on the lead screw under the effect of drive block and slide rail.

As the preferable technical scheme, the rolling jogged has the ball on the drive block, ball and slide rail point contact utilize the rotation of ball can weaken the removal frictional force of drive block in the slide rail, can also ensure the extrusion effect of drive block to the slide rail.

As the preferable technical scheme, the rotary secondary utilization component further comprises a sliding rod, a fixed block, a moving block, sliding holes, sound insulation cloth and rubber bands;

the connecting ring is provided with a plurality of sliding rods, the sliding rods are connected with the fixed blocks, the sliding rods are provided with moving blocks, sliding holes are formed in the moving blocks, the sliding rods penetrate through the sliding holes and are in sliding fit, the moving blocks are connected with sound insulation cloth, the moving blocks are circumferentially distributed, the moving blocks are connected with the fixed blocks through rubber bands, when the sleeve rotates, the sleeve can drive the connecting ring to synchronously rotate, the moving blocks can slide on the sliding rods through the sliding holes by utilizing the rotating centrifugal force of the connecting ring, so that the moving blocks can outwards move along the sliding rods, the sound insulation cloth can be unfolded, the sound insulation cloth can shield the opening end of the sleeve, and noise generated in the cleaning process of the wiping brush can be shielded by the sound insulation cloth.

Compared with the prior art, the invention has the following beneficial effects:

through the operation of fan, inhale external air current and enter into the organism and cool down the processing, when temperature sensor detects the temperature in the organism and rise, temperature sensor can control riser and vibrator operation, makes the riser drive the vibrator and removes to can let the vibrator carry out even vibration to the dust screen, make the dust that adheres to on the dust screen can be tremble off, and then can ensure the steady operation of fan, avoid the energy consumption increase of motor and the production of noise, reach energy-conserving effect of making an uproar that falls.

When temperature sensor detects the temperature in the organism and rises, electric telescopic handle control is kept out the board and is contradicted the fan, makes the fan can drive the steering column and carry out synchronous rotation to let the steering column drive transmission awl tooth rotate, through the gear cooperation of transmission awl tooth and driven awl tooth, make driven awl tooth can drive the slider and rotate in the spout at the rotation in-process, and then let the connecting rod drive clean the brush and clear up the dust that adheres to on the dust screen.

When the transmission bevel gear rotates, the transmission bevel gear can drive the screw rod to synchronously rotate, the movable seat can move along the screw rod, the movable seat can drive the transmission block to synchronously move through the supporting rod, the sleeve can rotate clockwise along with the movement of the transmission block by utilizing the extrusion of the transmission block to the sliding rail, and power driving can be provided for the expansion of the soundproof cloth by utilizing the rotation of the sleeve.

When the sleeve pipe rotates, the sleeve pipe can drive the connecting ring to synchronously rotate, and the movable block can be moved outwards along the sliding rod by utilizing the rotating centrifugal force of the connecting ring, so that the movable block can be used for unfolding the sound insulation cloth, the sound insulation cloth can be used for shielding the opening end of the casing, and noise generated in the cleaning process of the wiping brush can be shielded by the sound insulation cloth.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a first cut-away configuration of the present invention;

FIG. 3 is a second cut-away schematic view of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 5 is an enlarged schematic view of the structure at B in FIG. 3;

fig. 6 is an enlarged schematic view of the structure at C in fig. 3.

In the figure: 1. a motor main body; 2. an air chamber; 3. a motor rotor set; 4. a fan; 5. a through hole; 6. a dust screen; 7. a temperature sensor; 8. a lifter; 9. a vibrator;

10. rotating the primary utilization assembly; 1001. a turning hole; 1002. a rotating column; 1003. an electric telescopic rod; 1004. a retaining plate; 1005. driving bevel gear; 1006. a fixing ring; 1007. a chute; 1008. a slide block; 1009. a connecting rod; 1010. driven bevel teeth; 1011. a connecting plate; 1012. a wiping brush;

11. rotating the secondary utilization assembly; 1101. a screw rod; 1102. a movable seat; 1103. a support rod; 1104. a transmission block; 1105. a casing; 1106. a ring groove; 1107. a swivel; 1108. a connecting ring; 1109. a sleeve; 1110. a slide rail; 1111. a slide bar; 1112. a fixed block; 1113. a moving block; 1114. a slide hole; 1115. a soundproof cloth; 1116. a rubber band; 1117. and a reset torsion spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1-3, the present invention provides the following technical solutions: the utility model provides an energy-conserving three-phase asynchronous motor that makes an uproar falls, this energy-conserving three-phase asynchronous motor that makes an uproar falls includes motor main part 1, be provided with plenum 2 and motor rotor group 3 in the motor main part 1, install fan 4 on the output shaft of motor rotor group 3, fan 4 is in plenum 2, the through-hole 5 has been seted up to one side that the motor rotor group 3 was kept away from to plenum 2, install dust screen 6 on the through-hole 5, install riser 8 in the plenum 2, install vibrator 9 on the riser 8, vibrator 9 contacts with dust screen 6, install temperature sensor 7 in the motor main part 1, temperature sensor 7 and riser 8 and vibrator 9 electric connection, through the operation of fan 4, inhale external air current and enter into the organism and cool down the processing, when temperature sensor 7 detects the temperature in the organism and rise, temperature sensor 7 can control riser 8 and vibrator 9 operation, makes riser 8 drive the vibrator 9 and remove to make the vibrator 9 to evenly attach to dust screen 6, and the energy-conserving effect that can be shaken on the dust screen 6 is followed to the energy-conserving that can be shaken to the fan that the energy-conserving noise that can be avoided, and the energy-conserving noise that can be reduced to the vibration of the motor is produced and the steady that can reach the noise that can be reached.

The motor body 1 is provided with a rotary primary utilization assembly 10 and a rotary secondary utilization assembly 11, and the rotary primary utilization assembly 10 and the rotary secondary utilization assembly 11 are provided with operation driving forces through rotation of the fan 4.

As shown in fig. 2-5, the rotary stage utilizing assembly 10 includes a rotary hole 1001, a rotary column 1002, an electric telescopic rod 1003, a retaining plate 1004, a driving bevel 1005, a fixed ring 1006, a chute 1007, a slider 1008, a connecting rod 1009, a driven bevel 1010, a connecting plate 1011 and a wiper 1012;

the utility model discloses a dust collector is characterized by comprising a fan chamber 2, a fan 4, a connecting rod 1009, a connecting plate 1011, a wiper 1012, a retaining ring 1006, a fan 4, a connecting rod 1009, a driven bevel 1010 and a wiper 1012, wherein a rotating hole 1001 is formed in one side of the fan chamber 2, which is close to the through hole 5, the rotating hole 1001 is internally provided with the rotating post 1002 through a bearing, one end of the rotating post 1002, which is close to the fan 4, is provided with the electric telescopic rod 1003, a retaining plate 1004 is arranged on the electric telescopic rod 1003, the other end of the rotating post 1002 is provided with a transmission bevel 1005, a fixed ring 1006 is arranged on the motor main body 1, a sliding groove 1007 is arranged on the inner diameter of the ring of the fixed ring 1006, two groups of sliding blocks 1008 are arranged in a sliding way, the sliding block 1008 is symmetrically provided with the connecting rod 1009, the driven bevel 1010 is meshed with the transmission bevel 1005, the connecting rod 1011 is arranged on the connecting rod 1009, the wiper 1012 is provided with the wiper 1012, the wiper 1012 is contacted with the dust collecting net 6, when the temperature sensor 7 detects that the temperature in the machine rises, the electric telescopic rod 1003 controls the retaining plate 1004, the fan 4 can drive the rotating grooves 1002 synchronously, two groups of sliding blocks 1008, and the sliding blocks 1008, the rotating rod 1008, and the driven bevel 1009 are driven bevel 1010 and the connecting rod is driven by the rotating along the rotating rod through the connecting rod through the driving bevel 1010, and the driven bevel 1010.

The electric telescopic rod 1003 is electrically connected with the temperature sensor 7, the center of the retaining plate 1004 and the center of the fan 4 are positioned on the same horizontal axis, so that the transmission effect of the fan 4 on the retaining plate 1004 can be ensured, and the fan 4 drives the retaining plate 1004 to synchronously rotate.

As shown in fig. 1, 3 and 5-6, the rotary secondary utilization assembly 11 includes a screw 1101, a moving base 1102, a strut 1103, a transmission block 1104, a casing 1105, a ring groove 1106, a swivel 1107, a connecting ring 1108, a sleeve 1109 and a slide rail 1110;

the screw rod 1101 is mounted on the transmission bevel gear 1005, the movable seat 1102 is mounted on the screw rod 1101 in a sliding manner, the supporting rod 1103 is mounted on the movable seat 1102, the transmission block 1104 is mounted on the supporting rod 1103, the casing 1105 is mounted on the motor main body 1, the casing 1105 is provided with the annular groove 1106, the rotary ring 1107 is rotatably mounted in the annular groove 1106, the rotary ring 1107 is provided with the connecting ring 1108, the connecting ring 1108 is provided with the sleeve 1109, the sliding rail 1110 is arranged on the inner wall of the sleeve 1109, the sliding rail 1110 is in a spiral shape, the transmission block 1104 is slidably embedded in the sliding rail 1110, when the transmission bevel gear 1005 rotates, the transmission bevel gear 1005 can drive the screw rod 1101 to synchronously rotate, the movable seat 1102 can move along the screw rod 1101, the movable seat 1102 can drive the transmission block 1104 to synchronously move through the supporting rod 1103, the sleeve 1109 can rotate clockwise along with the movement of the transmission block 1104 by utilizing the extrusion of the transmission block 1104, and the rotation of the sleeve 1109 can provide power for the unfolding of the soundproof cloth 1115.

The trigger is installed in the sliding rail 1110, when the movable seat 1102 moves transversely, under the extrusion acting force of the transmission block 1104 to the sliding rail 1110, the movable seat 1102 can drive the sleeve 1109 to rotate clockwise, when the movable seat 1102 moves to the most far end, the transmission block 1104 touches the trigger, the trigger is electrically connected with the electric telescopic rod 1003, the sleeve 1109 is connected with the casing 1105 through the reset torsion spring 1117, when the movable seat 1102 drives the transmission block 1104 to contact with the trigger in the sliding rail 1110, the trigger controls the electric telescopic rod 1003 to drive the retaining plate 1004 to be disconnected with the fan 4, and as the sleeve 1109 can twist the reset torsion spring 1117 in the clockwise rotation process, after the retaining plate 1004 is disconnected, the sleeve 1109 can rotate anticlockwise under the torsion action of the reset torsion spring 1117, so that the movable seat 1102 can reset on the screw 1101 under the action of the transmission block 1104 and the sliding rail 1110.

The rolling jogged has the ball on the transmission piece 1104, the ball is with the slide rail 1110 point contact, utilizes the rotation of ball can weaken the removal frictional force of transmission piece 1104 in slide rail 1110, can also ensure the extrusion effect of transmission piece 1104 to slide rail 1110.

The rotating secondary utilization assembly 11 further comprises a sliding rod 1111, a fixed block 1112, a moving block 1113, sliding holes 1114, sound insulation cloth 1115 and rubber bands 1116;

the connecting ring 1108 is provided with a plurality of slide bars 1111, a plurality of slide bars 1111 are connected with a fixed block 1112, a plurality of moving blocks 1113 are arranged on the slide bars 1111, sliding holes 1114 are formed in the moving blocks 1113, the slide bars 1111 penetrate through the sliding holes 1114 and are in sliding fit, the moving blocks 1113 are connected with sound insulation cloth 1115, the moving blocks 1113 are circumferentially distributed, the moving blocks 1113 are connected with the fixed block 1112 through rubber bands 1116, when the sleeve 1109 rotates, the sleeve 1109 can drive the connecting ring 1108 to synchronously rotate, the moving blocks 1113 can slide on the slide bars 1111 through the sliding holes 1114, the moving blocks 1113 can be outwards moved along the slide bars 1111 by utilizing the rotating centrifugal force of the connecting ring 1108, so that the sound insulation cloth 1115 can be unfolded by the moving blocks 1113, the sound insulation cloth 1115 can cover the opening ends of the sleeve 1105 conveniently, and noise generated in the cleaning process of the sound insulation cloth 1012 can be shielded by the sound insulation cloth 1115.

The working principle of the invention is as follows:

through the operation of fan 4, inhale external air current and enter into the organism and cool down the processing, when temperature sensor 7 detects the temperature in the organism and rise, temperature sensor 7 can control the operation of riser 8 and vibrator 9, make riser 8 drive vibrator 9 and remove, thereby can let vibrator 9 evenly vibrate dust screen 6, make the dust that adheres to on the dust screen 6 can be tremble off, and then can ensure the steady operation of fan 4, avoid the energy consumption of motor to increase and the production of noise, reach energy-conserving effect of making an uproar that falls.

When temperature sensor 7 detects the temperature in the organism and rises, electronic telescopic rod 1003 control butt plate 1004 contradicts fan 4, make fan 4 can drive the column 1002 and rotate in step, thereby let column 1002 drive transmission awl tooth 1005 and driven awl tooth 1010's gear cooperation, make driven awl tooth 1010 can drive slider 1008 through connecting rod 1009 in the rotation process and rotate in spout 1007, and then let connecting rod 1009 drive the dust that is attached to on the dust screen 6 of wiping of brush 1012 on the connecting plate 1011 in the circumference rotation process.

When the transmission bevel 1005 rotates, the transmission bevel 1005 can drive the screw 1101 to synchronously rotate, so that the movable seat 1102 can move along the screw 1101, the movable seat 1102 can drive the transmission block 1104 to synchronously move through the support rod 1103, the sleeve 1109 can rotate clockwise along with the movement of the transmission block 1104 by utilizing the extrusion of the transmission block 1104 to the slide rail 1110, and the rotation of the sleeve 1109 can provide power drive for the expansion of the sound insulation cloth 1115.

When the movable seat 1102 drives the transmission block 1104 to contact with the trigger in the sliding rail 1110, the trigger controls the electric telescopic rod 1003 to drive the retaining plate 1004 to be disconnected with the fan 4, and as the sleeve 1109 can twist the reset torsion spring 1117 in the clockwise rotation process, after the retaining plate 1004 is disconnected, the sleeve 1109 can rotate anticlockwise under the torsion action of the reset torsion spring 1117, so that the movable seat 1102 can reset on the screw 1101 under the action of the transmission block 1104 and the sliding rail 1110.

When the sleeve 1109 rotates, the sleeve 1109 can drive the connecting ring 1108 to synchronously rotate, and the moving block 1113 can slide on the slide rod 1111 through the slide hole 1114, so that the moving block 1113 can move outwards along the slide rod 1111 by using the rotating centrifugal force of the connecting ring 1108, and the moving block 1113 can unfold the soundproof cloth 1115, so that the soundproof cloth 1115 can conveniently shield the opening end of the casing 1105, and noise generated in the cleaning process of the wiping brush 1012 can be shielded by the soundproof cloth 1115.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. An energy-saving noise-reducing three-phase asynchronous motor is characterized in that: this energy-conserving three-phase asynchronous motor that falls includes motor main part (1), be provided with plenum (2) and motor rotor group (3) in motor main part (1), install fan (4) on the output shaft of motor rotor group (3), fan (4) are in plenum (2), through-hole (5) have been seted up to one side that motor rotor group (3) was kept away from to plenum (2), install dust screen (6) on through-hole (5), install riser (8) in plenum (2), install vibrator (9) on riser (8), vibrator (9) are contacted with dust screen (6), install temperature sensor (7) in motor main part (1), temperature sensor (7) and riser (8) and vibrator (9) electric connection.

2. An energy-saving and noise-reducing three-phase asynchronous motor according to claim 1, characterized in that: the motor main body (1) is provided with a rotary primary utilization assembly (10) and a rotary secondary utilization assembly (11), and the rotary primary utilization assembly (10) and the rotary secondary utilization assembly (11) are provided with running driving forces through rotation of the fan (4).

3. An energy-saving and noise-reducing three-phase asynchronous motor according to claim 1, characterized in that: the rotary primary utilization assembly (10) comprises a rotary hole (1001), a rotary column (1002), an electric telescopic rod (1003), a bearing plate (1004), transmission bevel gears (1005), a fixed ring (1006), a sliding groove (1007), a sliding block (1008), a connecting rod (1009), driven bevel gears (1010), a connecting plate (1011) and a wiping brush (1012);

the utility model discloses a dust-proof device for a dust-proof device, including a fan (5), a wind chamber (2), a connecting rod (1005) and a connecting plate (1011), a rotating hole (1001) has been seted up to one side that wind chamber (2) is close to through-hole (5), install in rotating hole (1001) through the bearing swivel post (1002), install electric telescopic handle (1003) near one end of fan (4) swivel post (1002), install on electric telescopic handle (1003) and bear board (1004), transmission awl tooth (1005) are installed to the other end of swivel post (1002), install solid fixed ring (1006) on motor main part (1), be equipped with spout (1007) on the ring internal diameter of solid fixed ring (1006), guy spout (1007) slidable mounting has two sets of sliders (1008), two sets of slider (1008) symmetry set up, and install connecting rod (1009) on slider (1008), install driven awl tooth (1010) on connecting rod (1009), driven awl tooth (1010) mesh with transmission awl tooth (1009), install connecting plate (1011) on connecting plate (1011), install on connecting plate (1011) and clean brush (1012) with dust-proof net (6).

4. An energy-saving and noise-reducing three-phase asynchronous motor according to claim 3, characterized in that: the electric telescopic rod (1003) is electrically connected with the temperature sensor (7), and the center of the retaining plate (1004) and the center of the fan (4) are positioned on the same horizontal axis.

5. An energy-saving and noise-reducing three-phase asynchronous motor according to claim 3, characterized in that: the rotating secondary utilization assembly (11) comprises a screw rod (1101), a movable seat (1102), a supporting rod (1103), a transmission block (1104), a casing (1105), a ring groove (1106), a rotating ring (1107), a connecting ring (1108), a sleeve (1109) and a sliding rail (1110);

install lead screw (1101) on transmission awl tooth (1005), slidable mounting has on lead screw (1101) and removes seat (1102), remove and install branch (1103) on seat (1102), install transmission piece (1104) on branch (1103), install casing (1105) on motor main part (1), be equipped with annular (1106) on casing (1105), swivel (1107) are installed in annular (1106) rotation, install go-between (1108) on swivel (1107), install sleeve (1109) on go-between (1108), be equipped with slide rail (1110) on the inner wall of sleeve (1109), slide rail (1110) become the heliciform, transmission piece (1104) sliding fit is in slide rail (1110).

6. An energy-saving and noise-reducing three-phase asynchronous motor according to claim 5, wherein: install the trigger in slide rail (1110), when remove seat (1102) sideslip, under the extrusion effort of drive block (1104) to slide rail (1110), remove seat (1102) can drive sleeve pipe (1109) and carry out clockwise rotation, when remove seat (1102) remove to the most distal end, drive block (1104) touch trigger, trigger and electric telescopic handle (1003) electric connection, sleeve pipe (1109) are connected with cover shell (1105) through reset torsion spring (1117).

7. An energy-saving and noise-reducing three-phase asynchronous motor according to claim 5 or claim 6, characterized in that: the transmission block (1104) is in rolling fit with a ball, and the ball is in point contact with the sliding rail (1110).

8. An energy-saving and noise-reducing three-phase asynchronous motor according to claim 5, wherein: the rotary secondary utilization assembly (11) further comprises a sliding rod (1111), a fixed block (1112), a moving block (1113), sliding holes (1114), sound insulation cloth (1115) and rubber bands (1116);

the connecting ring (1108) is provided with a plurality of sliding rods (1111), the sliding rods (1111) are connected with fixed blocks (1112), the sliding rods (1111) are provided with moving blocks (1113), sliding holes (1114) are formed in the moving blocks (1113), the sliding rods (1111) penetrate through the sliding holes (1114) and are in sliding fit, the moving blocks (1113) are connected with sound insulation cloth (1115), the plurality of moving blocks (1113) are distributed circumferentially, and the moving blocks (1113) are connected with the fixed blocks (1112) through rubber bands (1116).