CN108636712B - Rotary oiling mechanism and motor assembly device - Google Patents

Abstract

The invention provides a rotary oiling mechanism and a motor assembly device, and relates to the technical field of assembly devices, wherein the rotary oiling mechanism comprises a rotary driving piece, a speed reduction assembly, an oiling rotating shaft, a slip ring and an oiling valve; the rotary driving piece is in transmission connection with the speed reducing assembly, and the speed reducing assembly is in transmission connection with the oiling rotating shaft; the slip ring comprises a stator and a rotor, the stator is fixedly connected to the supporting component, the rotor is rotationally connected with the stator, and the oiling rotating shaft is in transmission connection with the rotor and the oiling valve; the stator is equipped with first chamber that holds, and the rotor is equipped with the second and holds the chamber, and first chamber that holds and second hold the chamber intercommunication, and the stator is equipped with the oil inlet that holds the chamber intercommunication with first, and the rotor is equipped with the oil-out that holds the chamber intercommunication with the second, and the oiling valve passes through the connecting pipe and communicates with the oil-out. The rotary oiling mechanism provided by the invention relieves the technical problem that the pipeline is easy to be blocked due to infinite rotation of the rotary oiling mechanism in the related technology.

Description

Rotary oiling mechanism and motor assembly device

Technical Field

The invention relates to the technical field of assembly devices, in particular to a rotary oiling mechanism and a motor assembly device.

Background

And in the motor production process, the rotary oiling mechanism is utilized to carry out one circle of oiling on the motor so as to lubricate and protect the motor.

The rotary oiling mechanism in the related mechanism comprises an oiling valve and a rotary driving assembly, oil is conveyed to the oiling valve through an oil pipe, and the rotary driving assembly drives the oiling valve to rotate so as to carry out one-circle oiling on the motor. When the rotary driving assembly drives the oil injection valve to rotate, the air path, the oil path and the circuit which lead to the oil injection valve rotate infinitely along with the oil injection valve, and the problem of pipeline blocking easily occurs.

Disclosure of Invention

The invention aims to provide a rotary oiling mechanism so as to solve the technical problem that pipelines are easy to be blocked due to infinite rotation of the rotary oiling mechanism in the related art.

The rotary oiling mechanism provided by the invention comprises: the device comprises a rotary driving piece, a speed reducing assembly, an oiling rotating shaft, a slip ring and an oiling valve; the rotary driving piece is in transmission connection with the speed reduction assembly, and the speed reduction assembly is in transmission connection with the oiling rotating shaft;

the slip ring comprises a stator and a rotor, the stator is fixedly connected to the supporting component, the rotor is rotationally connected with the stator, and the oiling rotating shaft is in transmission connection with the rotor and the oiling valve;

the stator is equipped with first chamber that holds, the rotor is equipped with the second and holds the chamber, first chamber with the second holds the chamber intercommunication, the stator be equipped with the oil inlet that first chamber intercommunication holds, the rotor be equipped with the second holds the oil-out that the chamber communicates, the oiling valve pass through the connecting pipe with the oil-out intercommunication.

Further, the rotary oiling mechanism further comprises an oiling valve fixing plate, and the oiling valve fixing plate is in transmission connection with the oiling rotating shaft; the oil filling valve is arranged on the oil filling valve fixing plate.

Further, the rotary oiling mechanism further comprises an oiling valve adapter plate, the oiling valve adapter plate is rotationally connected with the oiling valve fixing plate, and the oiling valve is installed on the oiling valve fixing plate through the oiling valve adapter plate.

Further, the rotary oiling mechanism further comprises a heating plate, and the heating plate is installed on the oiling valve adapter plate and opposite to the oiling valve.

Further, the speed reduction assembly comprises a speed reducer and a rotating module, the rotating driving piece is connected with an input shaft of the speed reducer, and an output shaft of the speed reducer is connected with an input shaft of the rotating module;

and an output shaft of the rotating module is in transmission connection with the oiling rotating shaft.

Further, the rotary driving piece comprises a stepping motor, and the stepping motor is connected with an input shaft of the speed reducer.

Further, the support assembly includes a rotary oiling support plate, and the rotary module is mounted to the rotary oiling support plate.

Further, the number of the speed reducers is two, the two speed reducers are in transmission connection, one speed reducer is in transmission connection with the rotary driving piece, and the other speed reducer is in transmission connection with the rotary module.

Further, the rotary oiling mechanism further comprises a speed reducer connecting plate, and the two speed reducers are connected with the speed reducer connecting plate.

The invention further aims to provide a motor assembly device so as to solve the technical problem that a pipeline is easy to be blocked due to infinite rotation of a rotary oiling mechanism in the related art.

The motor assembly device provided by the invention comprises the rotary oiling mechanism.

The invention provides a rotary oiling mechanism and a motor assembly device, wherein the rotary oiling mechanism comprises: the device comprises a rotary driving piece, a speed reducing assembly, an oiling rotating shaft, a slip ring and an oiling valve; the rotary driving piece is in transmission connection with the speed reducing assembly, and the speed reducing assembly is in transmission connection with the oiling rotating shaft; the slip ring comprises a stator and a rotor, the stator is fixedly connected to the supporting component, the rotor is rotationally connected with the stator, and the oiling rotating shaft is in transmission connection with the rotor and the oiling valve; the stator is equipped with first chamber that holds, and the rotor is equipped with the second and holds the chamber, and first chamber that holds and second hold the chamber intercommunication, and the stator is equipped with the oil inlet that holds the chamber intercommunication with first, and the rotor is equipped with the oil-out that holds the chamber intercommunication with the second, and the oiling valve passes through the connecting pipe and communicates with the oil-out. When the rotary oiling mechanism provided by the invention is used for oiling a motor for one circle, oil is injected into the first accommodating cavity through the oil inlet, the oil in the first accommodating cavity enters the second accommodating cavity, and the oil in the second accommodating cavity enters the oiling valve through the oil outlet and the connecting pipe; the rotary driving piece drives the speed reducing assembly, the speed reducing assembly drives the oiling rotating shaft to rotate around the axis of the oiling rotating shaft, and the oiling rotating shaft drives the rotor and the oiling valve to rotate around the axis of the oiling rotating shaft, so that one circle of oiling on the motor is realized.

Compared with the related art, the oiling rotating shaft in the rotary oiling mechanism provided by the invention drives the rotor, the oiling valve and the connecting pipe to rotate simultaneously, so that the phenomenon that the pipeline is blocked after the oiling valve infinitely rotates is prevented.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the related art, the drawings that are required to be used in the description of the embodiments or the related art will be briefly described, and it is apparent that the drawings in the description below are some embodiments of the present invention, and other drawings may be obtained according to the drawings without inventive effort for those skilled in the art.

Fig. 1 is a schematic structural diagram of a rotary oiling mechanism according to an embodiment of the present invention.

Icon: 100-step motor; 210-a speed reducer; 220-a rotation module; 300-oiling rotating shaft; 410-a stator; 420-rotor; 500-oiling valve; 510-an oil filling valve fixing plate; 520-oiling valve adapter plate; 530-heating plate; 600-rotating the oiling support plate.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. 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.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Example 1

Fig. 1 is a schematic structural diagram of a rotary oiling mechanism according to an embodiment of the present invention, and as shown in fig. 1, the rotary oiling mechanism according to an embodiment of the present invention includes: the device comprises a rotary driving piece, a speed reducing assembly, an oiling rotating shaft 300, a slip ring and an oiling valve 500; the rotary driving piece is in transmission connection with the speed reducing assembly, and the speed reducing assembly is in transmission connection with the oiling rotating shaft 300;

the slip ring comprises a stator 410 and a rotor 420, the stator 410 is fixedly connected to the supporting component, the rotor 420 is rotationally connected with the stator 410, and the oiling rotating shaft 300 is in transmission connection with the rotor 420 and the oiling valve 500;

the stator 410 is provided with a first accommodating cavity, the rotor 420 is provided with a second accommodating cavity, the first accommodating cavity is communicated with the second accommodating cavity, the stator 410 is provided with an oil inlet communicated with the first accommodating cavity, the rotor 420 is provided with an oil outlet communicated with the second accommodating cavity, and the oil filling valve 500 is communicated with the oil outlet through a connecting pipe.

Specifically, the sections of the outer circumferences of the stator 410 and the rotor 420 are circular, and the oil inlet is arranged on the outer circumferential wall of the stator 410 and is communicated with the first accommodating cavity; the oil outlet is arranged on the peripheral wall of the rotor 420 and is communicated with the second accommodating cavity;

the opening of the first accommodating cavity is arranged at the lower end of the stator 410, the opening of the second accommodating cavity is arranged at the upper end of the rotor 420, the opening of the first accommodating cavity is positioned in the second accommodating cavity, and the outer peripheral wall of the first accommodating cavity is in contact with the inner peripheral wall of the second accommodating cavity;

the oiling spindle 300 passes through the stator 410 and is fixedly connected with the rotor 420, the axis of the oiling spindle 300 coincides with the axis of the rotor 420, and the oiling spindle 300 drives the rotor 420 to rotate around the axis of the oiling spindle 300.

The oil enters the first accommodating cavity through the oil inlet, the oil in the first accommodating cavity flows out of the first accommodating cavity and flows into the second accommodating cavity through the opening of the second accommodating cavity, the oil in the second accommodating cavity flows out of the oil outlet and enters the oil injection valve 500 through the connecting pipe.

Further, the rotary oiling mechanism further comprises an oiling valve fixing plate 510, and the oiling valve fixing plate 510 is in transmission connection with the oiling rotating shaft 300; the oil filling valve 500 is mounted to the oil filling valve fixing plate 510.

The rotary oiling mechanism further comprises a left hoop and a right hoop, and the oiling valve fixing plate 510 is connected to the right hoop through bolts; the left anchor ear and the right anchor ear are oppositely arranged, the oiling rotating shaft 300 is positioned between the left anchor ear and the right anchor ear, and the left anchor ear and the right anchor ear are connected through bolts, so that the oiling valve fixing plate 510 is connected with the oiling rotating shaft 300, and meanwhile, the oiling rotating shaft is convenient to install and detach.

Further, the rotary oiling mechanism further comprises an oiling valve adapter plate 520, wherein the oiling valve adapter plate 520 is rotationally connected with the oiling valve fixing plate 510, and the oiling valve 500 is installed on the oiling valve fixing plate 510 through the oiling valve adapter plate 520.

The oil injection valve adapter plates 520 are provided with arc-shaped guide grooves and connecting through holes, the arc-shaped guide grooves protrude towards the direction away from the connecting through holes, the number of the oil injection valve adapter plates 520 is two, and the two oil injection valve adapter plates 520 are positioned on two sides of the oil injection valve fixing plate 510; the end surfaces of the fixed oiling valve plates 510 opposite to the two adapter oiling valve plates 520 are respectively provided with a guide post, and the guide posts are perpendicular to the end surfaces where the guide posts are positioned.

The bolts pass through the connecting through holes to be connected with the oil filling valve fixing plate 510, and the guide posts are positioned in the arc-shaped guide holes of the oil filling valve adapter plate 520 at the corresponding side. The oiling valve 500 is installed on the oiling valve adapter plate 520, the oiling valve adapter plate 520 is adjusted to drive the oiling valve 500 to rotate around the axis of the connecting through hole, and the inclination angle of the oiling valve 500 is adjusted, so that the oiling valve 500 can carry out oiling on motors with different outer diameters, in the adjusting process, the guide post is matched with the arc-shaped guide groove, the stability of the oiling valve adapter plate 520 in adjustment is improved, and meanwhile the rotation range of the oiling valve adapter plate 520 can be limited.

Further, the rotary oiling mechanism further includes a heating plate 530, and the heating plate 530 is mounted to the oiling valve adapter plate 520 opposite to the oiling valve 500.

The heating plate 530 is located between the two oil filling valve transferring plates 520 and is connected to the two oil filling valve transferring plates 520, respectively.

Further, the speed reducing assembly comprises a speed reducer 210 and a rotating module 220, the rotating driving piece is connected with an input shaft of the speed reducer 210, and an output shaft of the speed reducer 210 is connected with an input shaft of the rotating module 220; the output shaft of the rotary module 220 is in transmission connection with the oiling spindle 300.

Further, the rotation driving part includes a stepping motor 100, and the stepping motor 100 is connected to an input shaft of the speed reducer 210.

An output shaft of the stepper motor 100 is connected with an input shaft of the speed reducer 210, the speed reducer 210 is used for first speed reduction, the rotation module 220 is used for second speed reduction, the speed of the oiling rotating shaft 300 for driving the oiling valve 500 to rotate is smaller than the rotating speed of the stepper motor 100, and the stability of the oiling valve 500 in oiling is improved.

Further, the support assembly includes a spin basket 600, and the spin module 220 is mounted to the spin basket 600.

The number of the rotary oiling support plates 600 is two, the two rotary oiling support plates 600 are located on two sides of the slip ring, the rotary module 220 is mounted on the top of one rotary oiling support plate 600, and the end face of the other rotary oiling support plate 600 is opposite to the rotary module 220. The two rotary oiling support plates 600 support and protect the rotary module 220 and protect the slip ring.

Further, the number of the speed reducers 210 is two, and the two speed reducers 210 are in transmission connection, wherein one speed reducer 210 is in transmission connection with the rotary driving piece, and the other speed reducer 210 is in transmission connection with the rotary module 220.

Further, the rotary oiling mechanism further comprises a speed reducer connecting plate, and the two speed reducers 210 are connected with the speed reducer connecting plate.

One speed reducer 210 is located at the upper end of a speed reducer connecting plate, the other speed reducer 210 is located at the lower end of the speed reducer connecting plate, and the speed reducer connecting plate is used for supporting the two speed reducers 210.

The stepper motor 100 operates through two 3: the speed reducer 210 of 1 increases the torque by 9 times; and then through 3:1 increases the torque by 3 times, and at this time, the torque of the whole transmission mechanism is increased by 27 times, thereby preventing the oiling valve 500 from being subjected to resistance during oiling to affect the oiling operation.

Example two

The embodiment of the invention provides a motor assembly device, which is used for solving the technical problem that a pipeline is easy to be blocked due to infinite rotation of a rotary oiling mechanism in the related art.

The motor assembly device provided by the embodiment of the invention comprises the rotary oiling mechanism.

The embodiment of the invention provides a rotary oiling mechanism and a motor assembly device, wherein the rotary oiling mechanism comprises: the device comprises a rotary driving piece, a speed reducing assembly, an oiling rotating shaft 300, a slip ring and an oiling valve 500; the rotary driving piece is in transmission connection with the speed reducing assembly, and the speed reducing assembly is in transmission connection with the oiling rotating shaft 300; the slip ring comprises a stator 410 and a rotor 420, the stator 410 is fixedly connected to the supporting component, the rotor 420 is rotationally connected with the stator 410, and the oiling rotating shaft 300 is in transmission connection with the rotor 420 and the oiling valve 500; the stator 410 is provided with a first accommodating cavity, the rotor 420 is provided with a second accommodating cavity, the first accommodating cavity is communicated with the second accommodating cavity, the stator 410 is provided with an oil inlet communicated with the first accommodating cavity, the rotor 420 is provided with an oil outlet communicated with the second accommodating cavity, and the oil filling valve 500 is communicated with the oil outlet through a connecting pipe. When the rotary oiling mechanism provided by the embodiment of the invention is used for oiling the motor for one circle, oil is injected into the first accommodating cavity through the oil inlet, the oil in the first accommodating cavity enters the second accommodating cavity, and the oil in the second accommodating cavity enters the oiling valve 500 through the oil outlet and the connecting pipe; the rotation driving piece drives the speed reducing assembly, the speed reducing assembly drives the oiling rotating shaft 300 to rotate around the axis of the oiling rotating shaft 300, and the oiling rotating shaft 300 drives the rotor 420 and the oiling valve 500 to rotate around the axis of the oiling rotating shaft 300, so that oiling of the motor for one circle is realized.

Compared with the related art, the oiling shaft 300 in the rotary oiling mechanism provided by the embodiment of the invention drives the rotor 420, the oiling valve 500 and the connecting pipe to rotate simultaneously, so that the condition that the pipeline is blocked after the oiling valve 500 rotates infinitely is prevented.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (8)

1. A rotary oiling mechanism, comprising: the device comprises a rotary driving piece, a speed reducing assembly, an oiling rotating shaft, a slip ring and an oiling valve; the rotary driving piece is in transmission connection with the speed reduction assembly, and the speed reduction assembly is in transmission connection with the oiling rotating shaft;

the slip ring comprises a stator and a rotor, the stator is fixedly connected to the supporting component, the rotor is rotationally connected with the stator, and the oiling rotating shaft is in transmission connection with the rotor and the oiling valve;

the stator is provided with a first accommodating cavity, the rotor is provided with a second accommodating cavity, the first accommodating cavity is communicated with the second accommodating cavity, the stator is provided with an oil inlet communicated with the first accommodating cavity, the rotor is provided with an oil outlet communicated with the second accommodating cavity, and the oil injection valve is communicated with the oil outlet through a connecting pipe;

the rotary oiling mechanism further comprises an oiling valve fixing plate, and the oiling valve fixing plate is in transmission connection with the oiling rotating shaft; the oil injection valve is arranged on the oil injection valve fixing plate;

the rotary oiling mechanism further comprises an oiling valve adapter plate, the oiling valve adapter plate is rotationally connected with the oiling valve fixing plate, and the oiling valve is installed on the oiling valve fixing plate through the oiling valve adapter plate.

2. The rotary oiling mechanism of claim 1 further comprising a heating plate mounted to said oiling valve adapter plate opposite said oiling valve.

3. The rotary oiling mechanism of claim 1, wherein the reduction assembly comprises a speed reducer and a rotary module, the rotary drive is connected with an input shaft of the speed reducer, and an output shaft of the speed reducer is connected with an input shaft of the rotary module;

and an output shaft of the rotating module is in transmission connection with the oiling rotating shaft.

4. A rotary oiling mechanism according to claim 3, wherein said rotary drive member comprises a stepper motor connected to an input shaft of said speed reducer.

5. A rotary oiling mechanism according to claim 3 wherein said support assembly comprises a rotary oiling support plate to which said rotary module is mounted.

6. A rotary oiling mechanism according to claim 3, wherein the number of said speed reducers is two, and two said speed reducers are in driving connection, wherein one said speed reducer is in driving connection with said rotary driving member, and the other said speed reducer is in driving connection with said rotary module.

7. The rotary oiling mechanism of claim 6 further comprising a speed reducer connection plate, both of said speed reducers being connected to said speed reducer connection plate.

8. A motor assembly apparatus comprising a rotary oiling mechanism according to any one of claims 1 to 6.