CN220683866U - Regular conveying mechanism of assembled motor and motor assembly production line - Google Patents

Abstract

The utility model relates to an assembled motor regular conveying mechanism. It has solved current motor step by step and has carried the unreasonable technical problem of design. This regular conveying mechanism of equipment motor includes: the conveying rack is provided with a conveying channel for axially passing through a single assembly motor, the bottom of the conveying channel is provided with a directional guide bar arranged along the length direction, and the bottom of the conveying channel is provided with a through regular abdication hole and a regular jacking column which can vertically extend into the conveying channel along the regular abdication hole; the stepping conveying structure comprises a sliding seat which is arranged on the conveying rack in a sliding manner along the length direction of the conveying channel, and at least two U-shaped pliers which are connected with the sliding seat in a sliding manner along the length direction of the conveying channel and can synchronously extend into the conveying channel. The utility model has the advantages that: the consistency of the positioning state of the motor is maintained, the steering problem in the conveying process is avoided, meanwhile, the component installation in place is ensured, and the working efficiency of the subsequent station is improved.

Description

Regular conveying mechanism of assembled motor and motor assembly production line

Technical Field

The utility model belongs to the field of assembled motors, and relates to an assembled motor regular conveying mechanism and a motor assembly production line.

Background

For example, chinese patent literature discloses a step conveyor mechanism and a step conveyor [202123226845.7] including the same, including a main frame and a conveying plate attached to the main frame, further including: a drive rod reciprocally moving transversely relative to the main frame; the pushing piece is vertically arranged relative to the driving rod; the two ends of the connecting rod are hinged between the driving rod and the pushing piece; the pushing piece is vertically connected to the moving piece in a sliding manner; the driving rod drives the pushing piece to vertically slide and move relative to the moving piece through the connecting rod, and drives the pushing piece and the moving piece to transversely move.

The technical scheme has the defects that: directional conveying can not be completed aiming at conveying materials, meanwhile, conversion from single station to multiple stations is not achieved, and the regularity of motor inner cavity components can not be completed in the conveying process.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides an assembling motor regular conveying mechanism and a motor assembling production line.

The aim of the utility model can be achieved by the following technical scheme:

the regular conveying mechanism of equipment motor includes:

the conveying rack is provided with a conveying channel for axially passing through a single assembly motor, the bottom of the conveying channel is provided with a directional guide bar arranged along the length direction, and the bottom of the conveying channel is provided with a through regular abdication hole and a regular jacking column which can vertically extend into the conveying channel along the regular abdication hole;

the stepping conveying structure comprises a sliding seat which is arranged on the conveying rack in a sliding manner along the length direction of the conveying channel, and at least two U-shaped pliers which are connected with the sliding seat in a sliding manner along the length direction of the conveying channel and can synchronously extend into the conveying channel.

Further, a waste notch is arranged at the bottom of the front end of the conveying channel, and a sealing block which can seal the waste notch and is connected with the conveying channel is arranged on the conveying stand.

Further, a waste collection channel is connected below the waste notch.

Further, a translation seat is arranged at the rear end of the conveying channel, the translation seat is arranged on the conveying stand in a sliding manner, and one side of the translation seat is connected to the end part of the conveying channel.

Further, at least two directional notches which can be independently communicated with the conveying channel are arranged on one side of the translation seat close to the conveying channel at intervals.

Further, the inner wall of the conveying channel is provided with a plurality of groups of elastic protruding parts which are arranged at intervals, and the regular abdication holes are correspondingly arranged at the bottom of any group of elastic protruding parts of the conveying channel.

Further, the bottoms of the two orientation notches are provided with orientation guide bars connected with the conveying channel.

Further, the height of the conveying channel is lower than that of the assembled motor.

Further, one side of the U-shaped clamp far away from the sliding seat is provided with a leading-in inclined plane.

The utility model also provides a motor assembly production line, which is provided with the motor assembly regular conveying mechanism.

Compared with the prior art, the regular conveying mechanism of the assembly motor is characterized in that the conveying channel is used for providing outer frame limit, the directional guide bar is used for providing bottom conveying guide for the assembly motor, the consistency of motor positioning states is maintained, the steering problem in the conveying process is avoided, meanwhile, the regular operation of motor inner cavity components is completed in the conveying process, the components are ensured to be installed in place, the assembly motor outputting in a one-way array is enabled to complete multi-station conveying conversion through a plurality of directional gaps, and the working efficiency of the subsequent stations is improved.

Drawings

Fig. 1 is a schematic diagram of an assembled motor regular conveying mechanism provided by the utility model.

Fig. 2 is a schematic view of a conveying path of the assembled motor regular conveying mechanism of fig. 1.

Fig. 3 is a schematic view of a translation seat of the assembled motor regular conveying mechanism of fig. 1.

In the figure, D10, a conveying stand; d11, a conveying channel; d12, directional guide strips; d13, regular abdication holes; d14, regular jacking columns; d15, elastic convex parts; d20, a stepping conveying structure;

d21, a sliding seat; d22, U-shaped pliers; d23, leading-in inclined plane; d30, a waste notch; d31, a sealing block; d32, a waste collection channel; d40, a translation seat; d41, orientation notch.

Detailed Description

Example 1

Please refer to fig. 1 to 3, which are schematic structural diagrams of a magnetic block feeding mechanism and a motor assembling device according to the present utility model.

This regular conveying mechanism of equipment motor includes: a conveying rack D10, a conveying channel D11 arranged on the conveying rack D10, a translation seat D40 arranged at the rear end of the conveying channel D11, and a stepping conveying structure D20 arranged at one side of the conveying channel D11. The assembled motor is placed at the front end of the conveying channel D11, and is conveyed to the translation seat D40 by the stepping conveying structure D20. It is conceivable that the assembled motor regular transporting mechanism further includes other functional components and specific structures, such as electrical connection components, mounting structures, etc., which are all known techniques to those skilled in the art, and therefore will not be described in detail herein.

The conveying stand D10 is used as an installation carrier, so that the components can be integrated and assembled conveniently.

The upper end of the conveying stand D10 is provided with a conveying channel D11 arranged along the length direction, and the width of the conveying channel D11 is used for axially passing through a single assembly motor. The bottom of the front end of the conveying channel D11 is provided with a waste notch 30, and the conveying rack D10 is provided with a sealing block D31 which can seal the waste notch 30 and is connected with the conveying channel D11. The closing block D31 is connected with a cylinder for driving the closing block D31 to open or close the scrap opening 30. The conveying channel D11 is of a fixed slot structure, waste materials exist in the inner cavity of the assembled motor, and the situation that the waste materials of the assembled motor directly fall into the conveying channel D11 to cause blockage in the follow-up conveying process is avoided.

When feeding the conveying channel D11, the waste notch 30 is initially in an open state, so that waste falls into the waste collecting channel D32 through the lower part of the waste notch 30. When the motor to be assembled is lowered to the conveying channel D11, the sealing block D31 seals the waste notch 30, and the motor to be assembled can be placed in the conveying channel D11 smoothly.

The bottom of conveying passageway D11 is equipped with the directional guide strip D12 that sets up along length direction, and the bottom of equipment motor has the directional guide strip D12 of complex, and conveying passageway D11 provides the frame spacing, and directional guide strip D12 provides bottom conveying direction for the equipment motor, keeps motor positioning state uniformity, avoids taking place to turn to the problem at the transportation.

The stepping conveying structure D20 comprises a sliding seat D21 which is arranged on the conveying stand D10 in a sliding manner along the length direction of the conveying channel D11, and at least two U-shaped pliers D22 which are connected to the sliding seat D21 in a sliding manner along the length direction of the conveying channel D11 and can synchronously extend into the conveying channel D11. The sliding seat D21 is connected with an air cylinder, a guide rail matched with the sliding seat D21 is arranged on the conveyor table D10, the displacement of the U-shaped clamp D22 along the length direction of the conveying channel D11 is controlled, a sliding plate connected with the U-shaped clamp D22 is arranged on the sliding seat D21, in this embodiment, three U-shaped clamps D22 arranged at intervals are arranged on the sliding plate, and the air cylinder pushes the sliding plate to drive the U-shaped clamp D22 to move, namely, the displacement of the U-shaped clamp D22 along the width direction of the conveying channel D11 is controlled. In this embodiment, the height of the conveying channel D11 is lower than that of the assembling motor, the U-shaped pincers D22 extend into the conveying channel D11, each U-shaped pincers D22 corresponds to one assembling motor, one side of the U-shaped pincers D22, which is far away from the sliding seat D21, is provided with a guiding inclined plane D23, the U-shaped pincers D22 can be better clamped on the outer side of the assembling motor, and then the assembling motor is driven to move in a directional manner in the conveying channel D11 through the sliding seat D21 and maintain the distance. Dampers are arranged at two ends of the sliding seat D21 and used for controlling movement of the sliding seat D21 to form, and the distance of each reciprocating translation of the sliding seat D21 is consistent, namely the conveying distance of each assembled motor is consistent.

The inner wall of the conveying channel D11 is provided with a plurality of groups of elastic convex parts D15 which are arranged at intervals, the regular abdication holes D13 are correspondingly arranged at the bottoms of any group of elastic convex parts D15 of the conveying channel D11, the elastic convex parts D15 correspond to conveying positioning points of the assembling motors on each conveying channel D11, and good positioning effects can still be kept when the assembling motors are separated from the positioning of the U-shaped pliers D22 due to the elastic convex parts D15.

The rear end of the conveying channel D11 is provided with a translation seat D40, the translation seat D40 is arranged on the conveying frame table D10 in a sliding manner, one side of the translation seat D40 is connected to the end part of the conveying channel D11, at least two directional gaps D41 which can be independently communicated with the conveying channel D11 are arranged on one side of the translation seat D40 close to the conveying channel D11 at intervals, an assembly motor is conveyed into the directional gaps D41 through the conveying channel D11, the translation seat D40 is connected with a cylinder, the translation seat D40 is driven to move, the two directional gaps D41 are respectively abutted to the conveying channel D11, assembly shells are arranged in the two directional gaps D41, a directional guide strip D12 connected with the conveying channel D11 is arranged at the bottom of the two directional gaps D41, and a group of elastic protruding parts D15 enable the assembly motor conveyed onto the translation seat D40 to still maintain a directional positioning state, the assembly motor which is conveyed in a unidirectional array mode finishes multi-station conveying conversion through the plurality of directional gaps D41, and the working efficiency of subsequent stations is improved.

The bottom of the conveying channel D11 is provided with a through regular abdication hole D13, and the regular abdication hole D13 corresponds to the lower end of any group of elastic convex parts D15. Under the limit of the elastic protruding portion D15 and the U-shaped clamp D22, the assembled motor is in a locking state of the conveying channel D11, a regular jacking column D14 is arranged below the conveying channel D11, the regular jacking column D14 is connected with a cylinder, the regular jacking column D14 is driven to penetrate through a regular yielding hole D13, the inner cavity extends into the bottom of the assembled motor, the magnetizing block and the elastic piece are guaranteed to be clung to the inner wall of the motor shell, and the safety function of the motor assembled state before magnetizing is completed.

Example two

The utility model also provides a motor assembly production line, which is provided with the motor assembly regular conveying mechanism, and other parts except the motor assembly regular conveying mechanism are all parts in the prior art or are commercially available parts.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. Regular conveying mechanism of equipment motor, its characterized in that, the regular conveying mechanism of equipment motor includes:

the conveying rack is provided with a conveying channel for axially passing through a single assembly motor, the bottom of the conveying channel is provided with a directional guide bar arranged along the length direction, and the bottom of the conveying channel is provided with a through regular abdication hole and a regular jacking column which can vertically extend into the conveying channel along the regular abdication hole;

the stepping conveying structure comprises a sliding seat which is arranged on the conveying rack in a sliding manner along the length direction of the conveying channel, and at least two U-shaped pliers which are connected with the sliding seat in a sliding manner along the length direction of the conveying channel and can synchronously extend into the conveying channel.

2. The regular conveying mechanism of the assembled motor as claimed in claim 1, wherein a waste notch is arranged at the bottom of the front end of the conveying channel, and a sealing block capable of sealing the waste notch and connected with the conveying channel is arranged on the conveying stand.

3. The assembled motor regular transport mechanism of claim 2, wherein a waste collection channel is connected below the waste gap.

4. The regular conveyor mechanism of claim 1, wherein a translation seat is provided at the rear end of the conveyor channel, the translation seat is slidably disposed on the conveyor stand, and one side of the translation seat is connected to the end of the conveyor channel.

5. The assembled motor regular delivery mechanism according to claim 4, wherein at least two orientation notches capable of being independently communicated with the delivery channel are arranged on one side of the translation seat close to the delivery channel at intervals.

6. The regular conveying mechanism for assembled motors according to claim 1, wherein the inner wall of the conveying channel is provided with a plurality of groups of elastic protruding parts arranged at intervals, and the regular yielding holes are correspondingly arranged at the bottom of any group of elastic protruding parts of the conveying channel.

7. The assembled motor regular conveying mechanism as claimed in claim 1, wherein the bottoms of the two orientation notches are provided with orientation guide bars connected with the conveying channel.

8. The assembled motor organizer conveyor of claim 1, wherein the conveyor path has a height that is less than a height of the assembled motor.

9. The assembled motor regular transport mechanism according to claim 1, wherein a side of the U-shaped clamp away from the sliding seat is provided with a lead-in bevel.

10. A motor assembly line comprising the assembled motor regular delivery mechanism of any one of claims 1-9.