CN211089412U - Single-phase capacitor running asynchronous motor - Google Patents

Abstract

The utility model belongs to the technical field of asynchronous motor uses, specifically disclose single-phase electric capacity operation asynchronous motor, including steel sheet casing, end cover, big flange end cover, first bearing mounting groove, second bearing mounting groove, first bearing, second bearing, rotor shaft, rotor, have winding iron core, first wiring cover, second wiring cover, binding post, operation electric capacity and wire. The utility model discloses a single-phase electric capacity operation asynchronous motor's beneficial effect lies in: the high-torque high-speed motor has the advantages of reasonable design, high power, low noise, excellent starting performance, high torque, stable and reliable operation, and can meet the high-standard use requirements of safe and efficient operation performance in various occasions.

Description

Single-phase capacitor running asynchronous motor

Technical Field

The utility model belongs to the technical field of asynchronous motor uses, concretely relates to single-phase electric capacity operation asynchronous motor.

Background

An Electric machine (also known as "motor") refers to an electromagnetic device that converts or transmits Electric energy according to the law of electromagnetic induction. The motor is represented by a letter M (old standard is represented by a letter D) in a circuit, the motor mainly plays a role of generating driving torque and serving as a power source of electrical appliances or various machines, the generator is represented by a letter G in a circuit, and the generator mainly plays a role of converting mechanical energy into electric energy.

An asynchronous motor, also called an induction motor, is a device in which a rotor is placed in a rotating magnetic field, and under the action of the rotating magnetic field, a rotating torque is obtained, so that the rotor rotates, and the rotor is a rotatable conductor, and is usually in a squirrel cage shape.

The single-phase capacitor asynchronous motor with the existing structure has the advantages of low power, high noise, small starting torque, unstable operation and the like.

Based on the above problem, the utility model provides a single-phase electric capacity operation asynchronous motor.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at prior art not enough, provide single-phase electric capacity operation asynchronous motor, its reasonable in design, power is big, the noise is little, the startability is superior, the moment of torsion is big, the operation is stable, reliable, can realize safe, the high standard operation requirement of the multiple occasion operational dynamic force of efficient.

The technical scheme is as follows: the utility model provides a single-phase capacitor running asynchronous motor, which comprises a steel plate casing, end covers arranged at two ends of the steel plate casing, a large flange end cover, a first bearing mounting groove and a second bearing mounting groove which are respectively arranged at one side of the end cover and the large flange end cover, a first bearing and a second bearing which are respectively arranged in the first bearing mounting groove and the second bearing mounting groove, and a rotor shaft with two ends respectively penetrating through the first bearing and the second bearing, the rotor comprises a rotor shaft, a large flange end cover, a rotor, a winding iron core, a first wiring sleeve, a second wiring sleeve, a wiring terminal and a lead, wherein the large flange end cover protrudes out of one end of the rotor shaft, the rotor is arranged on the rotor shaft, the winding iron core is arranged on the inner wall of a steel plate shell, the first wiring sleeve and the second wiring sleeve are arranged on one surface of the large flange end cover, the wiring terminal is connected with the winding iron core through the first wiring sleeve, the lead penetrates through the second wiring sleeve, is connected with the winding iron core, and the lead is.

According to the technical scheme, the single-phase capacitor running asynchronous motor further comprises a group of lug plate positioning holes symmetrically formed in the outer wall of the edge of the large flange end cover and a limiting groove formed in the other face of the large flange end cover.

According to the technical scheme, the single-phase capacitor running asynchronous motor further comprises a positioning plate arranged on the running capacitor, a positioning plate through hole arranged in the positioning plate, and a binding post arranged on the running capacitor and connected with a lead.

Compared with the prior art, the utility model discloses a single-phase electric capacity operation asynchronous motor's beneficial effect lies in: the high-torque high-speed motor has the advantages of reasonable design, high power, low noise, excellent starting performance, high torque, stable and reliable operation, and can meet the high-standard use requirements of safe and efficient operation performance in various occasions.

Drawings

Fig. 1 is a schematic structural diagram of a single-phase capacitor-run asynchronous motor according to the present invention;

Fig. 2 is a right-view structural schematic diagram of the single-phase capacitor running asynchronous motor of the present invention.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Examples

The single-phase capacitor-run asynchronous motor as shown in fig. 1 and 2 comprises a steel plate housing 3, end caps 1 and large flange end caps 6 arranged at two ends of the steel plate housing 3, a first bearing mounting groove 9 and a second bearing mounting groove 10 respectively arranged at one side of the end caps 1 and the large flange end caps 6, a first bearing 2 and a second bearing 11 respectively arranged in the first bearing mounting groove 9 and the second bearing mounting groove 10, and a rotor shaft 20 with two ends respectively penetrating through the first bearing 2 and the second bearing 11, wherein one end of the rotor shaft 20 protrudes out of the large flange end caps 6, a rotor 5 arranged on the rotor shaft 20, a wound iron core 4 arranged on the inner wall of the steel plate housing 3, a first wiring sleeve 15 and a second wiring sleeve 16 arranged at one side of the large flange end caps 6, a wiring terminal 7 connected with the wound iron core 4 by the first wiring sleeve 15, and a wiring sleeve 16 connected with the wound iron core 4 by the second wiring sleeve 16, And the other end of the lead 12 is connected with the running capacitor 8 (wherein, the running capacitor is arranged on the steel plate shell, and the lead is an electric lead).

Further preferably, the single-phase capacitor running asynchronous motor further comprises a group of lug plate positioning holes 13 symmetrically arranged on the outer wall of the edge of the large flange end cover 6 and a limiting groove 14 arranged in the other surface of the large flange end cover 6; and the single-phase capacitor running asynchronous motor, and also comprises a positioning plate 17 arranged on the running capacitor 8, a positioning plate through hole 18 arranged in the positioning plate 17, and a binding post 19 arranged on the running capacitor 8 and connected with the lead 12.

The single-phase capacitor running asynchronous motor with the structure has the advantages of reasonable design, high power, low noise, excellent starting performance, high torque, stable and reliable running and capability of realizing high standard use requirements of safe and efficient running power in various occasions.

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

Claims (3)

1. Single-phase capacitor running asynchronous motor, its characterized in that: comprises a steel plate casing (3), end covers (1) and large flange end covers (6) which are arranged at two ends of the steel plate casing (3), a first bearing mounting groove (9) and a second bearing mounting groove (10) which are respectively arranged at one side of the end covers (1) and the large flange end covers (6), a first bearing (2) and a second bearing (11) which are respectively arranged in the first bearing mounting groove (9) and the second bearing mounting groove (10), and a rotor shaft (20) of which two ends respectively penetrate through the first bearing (2) and the second bearing (11), wherein one end of the rotor shaft (20) protrudes out of the large flange end cover (6), a rotor (5) arranged on the rotor shaft (20), a winding iron core (4) arranged on the inner wall of the steel plate casing (3), a first wiring sleeve (15) and a second wiring sleeve (16) which are arranged at one side of the large flange end covers (6), and a wiring terminal (7) which is connected with the winding iron core (4) which are arranged in a penetrating way, and a lead (12) with one end penetrating through the second wiring sleeve (16) and connected with the winding iron core (4) and the other end connected with the running capacitor (8).

2. The single-phase capacitively-running asynchronous motor of claim 1, characterized in that: the single-phase capacitor running asynchronous motor further comprises a group of lug plate positioning holes (13) symmetrically arranged on the outer wall of the edge of the large flange end cover (6), and a limiting groove (14) arranged in the other surface of the large flange end cover (6).

3. The single-phase capacitively-running asynchronous motor of claim 1, characterized in that: the single-phase capacitor running asynchronous motor further comprises a positioning plate (17) arranged on the running capacitor (8), a positioning plate through hole (18) arranged in the positioning plate (17), and a wiring terminal (19) arranged on the running capacitor (8) and connected with the conducting wire (12).

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