CN219499183U - Carrier structure of outer rotor motor stator - Google Patents

Abstract

The utility model belongs to the technical field of carriers, and particularly relates to a carrier structure of an outer rotor motor stator, which comprises a stator carrier seat, a bending hanger and a rotary fluted disc; the upper end of the stator carrying seat is provided with a carrying hole, and the central shaft of the outer rotor motor stator can be inserted into the carrying hole; the rotary fluted disc is arranged below the stator carrying seat and can drive the stator carrying seat to synchronously rotate; the lower end of the bending hanging frame is positioned below the stator carrying seat and is rotatably connected with the rotary fluted disc; the upper end of the bending hanging frame is positioned above the stator carrying seat and is provided with a hanging part for external connection. The scheme utilizes the coordination of the parts such as the bent hanging frame and the stator carrying seat, can effectively realize the suspension carrying of the outer rotor motor stator, and meanwhile, the arranged rotary fluted disc can drive the stator carrying seat and the outer rotor motor stator placed on the stator carrying seat to rotate, so that the spraying uniformity can be improved in the spraying process of the insulating varnish, and the spraying quality of the varnish is ensured.

Description

Carrier structure of outer rotor motor stator

Technical Field

The utility model belongs to the technical field of carriers, and particularly relates to a carrier structure of an outer rotor motor stator.

Background

After winding the coils, the outer rotor motor stator often needs to be coated with insulating varnish, and the implementation mode mainly comprises two modes of dipping and spraying. Such as: in the patent with the application number of CN202210997110.4, a method and a device for insulating and impregnating a motor winding are disclosed, wherein the method comprises an impregnating resin container, a sealing cover arranged at the top of the impregnating resin container, a motor stator arranged in the impregnating resin container and a vacuum tank connected with the impregnating resin container; the motor stator is fixed in the impregnating resin container through a fixing frame; the cable passes through the sealing cover to connect the stator winding of the motor stator with the power supply. The formed motor winding insulation PDIV is greatly improved, and the applicable voltage of the motor can be improved; the technology adopts a dipping mode to coat insulating varnish. And, for example: in the patent application CN200680011881.0, a coating method is referred to for an end winding of an electric machine, wherein the end winding comprises a plurality of wires to be coated. The coating material to be applied is atomized by a spraying device. Applying an electrostatic potential difference between the spraying device and the wire to be coated, thereby conveying atomized particles of the coating material along the formed power line in the direction of the wire to be coated of the end winding; the technology adopts a spraying mode to coat insulating varnish.

In the above technology, the dipping mode is adopted, and the action is complex because the stator needs to be immersed into a container, so that smooth circulation of the stator among different processes is difficult to realize, and automation is difficult to realize; in contrast, the automation degree can be effectively improved by adopting a spraying mode, but the problem that the conveyor belt is polluted by varnish is easily caused by adopting a conveyor belt supporting mode; therefore, it is necessary to design a carrier structure that can achieve inline varnish coating in a suspended manner.

Disclosure of Invention

In order to solve the problem of stator suspension carrying, the scheme provides a carrier structure of an outer rotor motor stator.

The technical scheme adopted by the utility model is as follows:

a carrier structure of an outer rotor motor stator comprises a stator carrier seat, a bending hanger and a rotary fluted disc; the upper end of the stator carrying seat is provided with a carrying hole, and the central shaft of the outer rotor motor stator can be inserted into the carrying hole; the rotary fluted disc is arranged below the stator carrying seat and can drive the stator carrying seat to synchronously rotate; the lower end of the bending hanging frame is positioned below the stator carrying seat and is rotatably connected with the rotary fluted disc; the upper end of the bending hanging frame is positioned above the stator carrying seat and is provided with a hanging part for external connection.

Alternative or complementary designs of the carrier structure of the outer rotor motor stator are as follows: the bent hanging rack is C-shaped; the lower end of the bending hanging rack is provided with a rotary seat part; the rotary seat part is annular, a rotatable rotating shaft is arranged in an annular hole of the rotary seat part, and the rotating shaft is coaxially connected with the rotary fluted disc.

Alternative or complementary designs of the carrier structure of the outer rotor motor stator are as follows: the upper end of the rotating shaft is fixedly connected with the stator carrying seat, and the lower end of the rotating shaft is connected with the rotating fluted disc.

Alternative or complementary designs of the carrier structure of the outer rotor motor stator are as follows: the stator carrier is provided with a flow guide carrier disc, and the stator carrier is positioned at the center of the stator carrier.

Alternative or complementary designs of the carrier structure of the outer rotor motor stator are as follows: the stator carrying seat is in a circular tube shape, and the flow guide carrying disc is connected to the lower end of the stator carrying seat and is positioned above the lower end of the bending hanging frame.

Alternative or complementary designs of the carrier structure of the outer rotor motor stator are as follows: the hanging connection part is U-shaped and is provided with a connecting port which is opened upwards; the frame body of the bending hanging frame is connected to the outer side wall of the hanging connection part; the hanging connection part is provided with a pin hole which is vertically intersected with the connecting port.

Alternative or complementary designs of the carrier structure of the outer rotor motor stator are as follows: the hanging part is used for externally connecting with a transmission chain; a T-shaped suspension support is arranged on the transmission chain; the lower end of the hanging support is connected with the hanging connection part through a connecting pin.

Alternative or complementary designs of the carrier structure of the outer rotor motor stator are as follows: the gap between the upper end and the lower end of the bent hanging frame is larger than the height of the outer rotor motor stator.

The beneficial effects of the utility model are as follows:

1. in the scheme, the suspension carrying of the outer rotor motor stator can be effectively realized by utilizing the coordination of the bent hanging frame, the stator carrying seat and other parts, and meanwhile, the arranged rotary fluted disc can drive the stator carrying seat and the outer rotor motor stator placed on the stator carrying seat to rotate, so that the spraying uniformity can be improved and the spraying quality of the varnish can be ensured in the spraying process of the insulating varnish;

2. in this scheme, the water conservancy diversion carrier plate of design can shelter from the junction of rotatory fluted disc and rotatory seat and rotation axis to avoid insulating varnish to soak into the junction, and influence the rotation of carrier.

Drawings

In order to more clearly illustrate the embodiments of the present solution or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a structural view of a carrier structure of an outer rotor motor stator in the present embodiment;

fig. 2 is a view showing a use state of the carrier structure of the stator of the outer rotor motor in this embodiment.

In the figure: 1-bending a hanging frame; 2-a hanging part; 3-a diversion carrier plate; 4-a stator carrier; 5-rotating the seat; 6-rotating shaft; 7-rotating the fluted disc; 8-connecting pins; 9-hanging a support; 10-drive chain.

Detailed Description

The technical solutions of the present embodiment will be clearly and completely described below with reference to the accompanying drawings, and the described embodiments are only some embodiments, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any creative effort based on the embodiments of the present embodiment are all within the protection scope of the present solution.

Example 1

As shown in fig. 1, the embodiment designs a carrier structure of an outer rotor motor stator, which comprises a stator carrier seat 4, a bending hanger 1, a rotary fluted disc 7 and other parts.

The stator carrying seat 4 is in a circular tube shape, a carrying hole is formed at the upper end of the stator carrying seat 4, and when the outer rotor motor stator is placed on the stator carrying seat 4, the central shaft of the outer rotor motor stator is inserted into the carrying hole, so that the stator carrying seat 4 supports the rotor motor stator, and meanwhile falling of the outer rotor motor stator is avoided.

The bent hanging frame 1 can be of a C-shaped structure, the gap between the upper end and the lower end of the bent hanging frame 1 needs to be larger than the height of the outer rotor motor stator, and the lower end of the bent hanging frame 1 is provided with a rotary seat part 5; the rotating seat part 5 is annular, a rotatable rotating shaft 6 is arranged in an annular hole of the rotating seat part 5, and the rotating shaft 6 is fixedly connected with the stator carrying seat 4. The upper end of the bending hanging rack 1 is provided with a hanging connection part 2 for external connection, and the hanging connection part 2 can be of a U-shaped structure and is provided with an upward opening connecting port; the frame body of the bending hanging frame 1 is connected to the outer side wall of the hanging connection part 2; the hanging part 2 is provided with a pin hole which is vertically intersected with the connecting port. In addition, the above U-shaped hanging connection part 2 belongs to one of external connection structures, and when the transportation equipment is different, the hanging connection part 2 can be set into a shape such as a hook, and the hanging connection between the bent hanging frame 1 and the transportation equipment can be realized.

The flow guiding carrier plate 3 is connected to the lower end of the stator carrier seat 4, and meanwhile the stator carrier seat 4 is located at the center of the stator carrier seat 4. It should be noted that the diversion carrier 3 needs to be arranged above the lower end of the bending hanger 1; the effect of this water conservancy diversion carrier plate 3 is sheltering from and water conservancy diversion to the varnish, consequently, this water conservancy diversion carrier plate 3 can adopt the structure of middle part arch, when the varnish from the top down sprays, perhaps when spraying from the side, can utilize water conservancy diversion carrier plate 3 to shelter from the rotatory seat 5 and the rotation axis 6 of curved stores pylon 1 lower extreme to avoid both adhesion varnishes, and influence the rotation of rotation axis 6.

The rotary fluted disc 7 is arranged below the stator carrying seat 4 and can drive the stator carrying seat to synchronously rotate; the lower end of the bending hanging frame 1 is positioned below the stator carrying seat 4 and is rotatably connected with the rotary fluted disc 7; the upper end of the bending hanging frame 1 is positioned above the stator carrying seat 4, the upper end of the rotating shaft 6 is fixedly connected with the stator carrying seat 4, and the lower end of the rotating shaft 6 is connected with the rotating fluted disc 7; the rotation shaft 6 may be provided below the rotary fluted disc 7. In addition, teeth may be provided at the edge of the deflector carrier disc 3, the deflector carrier disc 3 serving as the rotary toothed disc 7. The rack can be arranged on the conveying route of the outer rotor motor stator, and when the rack is meshed with the rotary fluted disc 7, the rotary motion of the stator carrier 4 in the transportation process can be realized.

Example 2

As shown in fig. 1 to 2, this embodiment designs an outer rotor electronic customized carrying line, which includes a suspension support 9, a transmission chain 10 and a carrier structure.

The transmission chain 10 adopts a chain structure, and a driving gear and a driven gear are respectively arranged at two ends of the transmission chain 10, so that the rotation of the driving gear is utilized to drive the movement of the transmission chain 10, and the movement of the carrier structure along the production line mode is controlled.

The suspension support 9 is T-shaped, the cross arm part of the suspension support 9 is connected to the transmission chain 10, and the lower end of the vertical arm part of the suspension support 9 is connected to the carrier structure.

The carrier structure comprises a stator carrier seat 4, a bending hanging rack 1, a rotary fluted disc 7 and other parts.

The stator carrying seat 4 is in a circular tube shape, a carrying hole is formed at the upper end of the stator carrying seat 4, and when the outer rotor motor stator is placed on the stator carrying seat 4, the central shaft of the outer rotor motor stator is inserted into the carrying hole, so that the stator carrying seat 4 supports the rotor motor stator, and meanwhile falling of the outer rotor motor stator is avoided.

The bent hanging frame 1 can be of a C-shaped structure, the gap between the upper end and the lower end of the bent hanging frame 1 needs to be larger than the height of the outer rotor motor stator, and the lower end of the bent hanging frame 1 is provided with a rotary seat part 5; the rotating seat part 5 is annular, a rotatable rotating shaft 6 is arranged in an annular hole of the rotating seat part 5, and the rotating shaft 6 is fixedly connected with the stator carrying seat 4. The upper end of the bending hanging rack 1 is provided with a hanging connection part 2 for external connection, and the hanging connection part 2 can be of a U-shaped structure and is provided with an upward opening connecting port; the frame body of the bending hanging frame 1 is connected to the outer side wall of the hanging connection part 2; the hanging part 2 is provided with a pin hole which is vertically intersected with the connecting port. When the hanging support 9 is connected with the hanging connection part 2, the lower end of the vertical arm part of the hanging support 9 is inserted into the connecting port of the hanging connection part 2, and then the connecting pin 8 is used for penetrating through the hanging connection part 2 and the hanging support 9, so that the connection between the hanging connection part and the hanging connection part is realized.

The flow guiding carrier plate 3 is connected to the lower end of the stator carrier seat 4, and meanwhile the stator carrier seat 4 is located at the center of the stator carrier seat 4. It should be noted that the diversion carrier 3 needs to be arranged above the lower end of the bending hanger 1; the effect of this water conservancy diversion carrier plate 3 is sheltering from and water conservancy diversion to the varnish, consequently, this water conservancy diversion carrier plate 3 can adopt the structure of middle part arch, when the varnish from the top down sprays, perhaps when spraying from the side, can utilize water conservancy diversion carrier plate 3 to shelter from the rotatory seat 5 and the rotation axis 6 of curved stores pylon 1 lower extreme to avoid both adhesion varnishes, and influence the rotation of rotation axis 6.

The rotary fluted disc 7 is arranged below the stator carrying seat 4 and can drive the stator carrying seat to synchronously rotate; the lower end of the bending hanging frame 1 is positioned below the stator carrying seat 4 and is rotatably connected with the rotary fluted disc 7; the upper end of the bending hanging frame 1 is positioned above the stator carrying seat 4, the upper end of the rotating shaft 6 is fixedly connected with the stator carrying seat 4, and the lower end of the rotating shaft 6 is connected with the rotating fluted disc 7; the rotation shaft 6 may be provided below the rotary fluted disc 7. In addition, teeth may be provided at the edge of the deflector carrier disc 3, and the deflector carrier disc 3 may be used as the rotary toothed disc 7.

The above examples are presented for the purpose of illustration only and are not intended to be limiting of the embodiments; it is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present technology.

Claims (8)

1. The utility model provides a carrier structure of external rotor motor stator which characterized in that: comprises a stator carrying seat (4), a bending hanging rack (1) and a rotary fluted disc (7); a carrying hole is formed in the upper end of the stator carrying seat (4), and the central shaft of the outer rotor motor stator can be inserted into the carrying hole; the rotary fluted disc (7) is arranged below the stator carrying seat (4) and can drive the stator carrying seat to synchronously rotate; the lower end of the bending hanging frame (1) is positioned below the stator carrying seat (4) and is rotatably connected with the rotary fluted disc (7); the upper end of the bending hanging frame (1) is positioned above the stator carrying seat (4) and is provided with a hanging connection part (2) for external connection.

2. The carrier structure of an external rotor electric machine stator of claim 1, wherein: the bending hanging rack (1) is C-shaped; a rotary seat (5) is arranged at the lower end of the bending hanging frame (1); the rotary seat part (5) is annular, a rotatable rotary shaft (6) is arranged in an annular hole of the rotary seat part (5), and the rotary shaft (6) is coaxially connected with the rotary fluted disc (7).

3. The carrier structure of an external rotor electric machine stator according to claim 2, characterized in that: the upper end of the rotating shaft (6) is fixedly connected with the stator carrying seat (4), and the lower end of the rotating shaft (6) is connected with the rotating fluted disc (7).

4. A carrier structure for an external rotor motor stator according to any one of claims 1-3, characterized in that: the stator carrier seat (4) is provided with a diversion carrier disc (3), and the stator carrier seat (4) is positioned at the center of the stator carrier seat (4).

5. The carrier structure of an external rotor electric machine stator of claim 4, wherein: the stator carrying seat (4) is in a circular tube shape, and the flow guide carrying disc (3) is connected to the lower end of the stator carrying seat (4) and is positioned above the lower end of the bent hanging frame (1).

6. A carrier structure for an external rotor motor stator according to any one of claims 1-3, characterized in that: the hanging connection part (2) is U-shaped and is provided with an upward opening connecting port; the frame body of the bending hanging frame (1) is connected to the outer side wall of the hanging connection part (2); the hanging connection part (2) is provided with a pin hole which is vertically intersected with the connecting port.

7. The carrier structure of an external rotor electric machine stator of claim 6, wherein: the hanging part (2) is used for externally connecting with a transmission chain (10); a T-shaped suspension support (9) is arranged on the transmission chain (10); the lower end of the hanging support (9) is connected with the hanging part (2) through a connecting pin (8).

8. The carrier structure of an external rotor electric machine stator of claim 1, wherein: the gap between the upper end and the lower end of the bending hanging frame (1) is larger than the height of the outer rotor motor stator.