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CN-224233468-U - Multi-motor conveying wiring structure

CN224233468UCN 224233468 UCN224233468 UCN 224233468UCN-224233468-U

Abstract

The utility model relates to the technical field of motor conveying, in particular to a multi-motor conveying wiring structure which comprises a mounting frame, a mounting guide rail, conveying motors, mounting elements and a hub, wherein the mounting guide rail is arranged on the mounting frame, the conveying motors are arranged in a plurality, the conveying motors are continuously distributed along the conveying direction of the mounting guide rail, the mounting elements are arranged on the conveying motors and used for fixing the fixed ends of the conveying motors on the mounting guide rail, the hub is provided with a plurality of line concentration interfaces and at least one output interface, the output interfaces are electrically connected with the line concentration interfaces, and the line concentration interfaces are used for controlling interface connection of the conveying motors. The system can uniformly transmit and control signals to a plurality of motors, realizes centralized management, ensures that the whole multi-motor conveying system is more convenient and accurate to control, integrally improves the running efficiency and performance of the system, and is suitable for complex working scenes of multi-motor connection.

Inventors

  • YU YANAN
  • YANG YINGJIE
  • GUO JIAN

Assignees

  • 本末动力(北京)科技股份有限公司

Dates

Publication Date
20260512
Application Date
20250418

Claims (10)

  1. 1. The multi-motor conveying wiring structure is characterized by comprising a mounting frame, a mounting guide rail, conveying motors, a mounting element and a hub, wherein the mounting guide rail is arranged on the mounting frame, the conveying motors are arranged in a plurality, the conveying motors are continuously distributed along the conveying direction of the mounting guide rail, the mounting element is arranged on the conveying motors and used for fixing the fixed ends of the conveying motors on the mounting guide rail, the hub is provided with a plurality of line concentration interfaces and at least one output interface, the output interface is electrically connected with the line concentration interfaces, and the line concentration interfaces are used for connecting control interfaces of the conveying motors.
  2. 2. The multi-motor conveying wiring structure according to claim 1, wherein the mounting frame is formed by assembling a plurality of section bar square strips, and a supporting angle rib is arranged between two adjacent section bar square strips and is used for fixedly connecting the two adjacent section bar square strips.
  3. 3. The multi-motor conveying wiring structure according to claim 1, wherein the mounting frame is provided with a guide surface on the upper side of the mounting rail, and the guide surface forms a right angle with the outer periphery of the conveying motor.
  4. 4. The multi-motor conveying wiring structure according to claim 1, wherein the mounting element comprises a base, a connecting portion and a fixing portion which are sequentially connected, a cavity is formed in the mounting element, the cavity penetrates through the base, the connecting portion and the fixing portion, a through groove is formed in the connecting portion, one end of the through groove is communicated with the cavity, a positioning portion is arranged at one end, close to the fixing portion, of the connecting portion, and used for positioning in the axial direction when the mounting element is mounted, and a locking fixing end is arranged on the fixing portion and used for locking and fixing the mounting element.
  5. 5. The multi-motor conveying wiring structure according to claim 4, wherein the mounting guide rail is provided with a mounting positioning groove and a mounting through hole, the mounting through hole penetrates through the mounting positioning groove along the groove depth direction of the mounting positioning groove, the positioning part is used for being matched with the mounting positioning groove, one end of the fixing part penetrates through the mounting through hole, and the locking fixing end is fixed on the mounting guide rail through a screw cap.
  6. 6. The multi-motor transportation wiring structure according to claim 5, wherein the locking fixed end comprises a threaded portion provided at the fixed portion for engaging a nut for locking and fixing the mounting member to the mounting through hole.
  7. 7. The multi-motor transportation connection structure according to claim 4, wherein the positioning portion comprises positioning planes oppositely arranged at two sides of the connecting portion, the positioning planes at two sides are parallel to each other, and the positioning planes are used for matching with the installation positioning grooves to position the installation direction of the installation element.
  8. 8. The multi-motor conveying wiring structure according to claim 4, wherein the conveying motor comprises a stator assembly, a rotor assembly, an end cover, a rotating shaft assembly and a control board, the stator assembly is arranged on a base, the rotating shaft assembly is arranged in a cavity, the rotor assembly comprises a rotor shell and rotor magnetic shoes, the rotor magnetic shoes are arranged on the inner diameter of the rotor shell and are opposite to the stator assembly, the rotating shaft assembly is connected with the rotor shell, the end cover is arranged at one end of the rotor shell and is connected with a connecting part, the control board is arranged between the base and the connecting seat, and the through groove is used for wiring the control board.
  9. 9. The multi-motor conveying wiring structure according to claim 8, wherein the base is provided with a connecting platform, the connecting portion is arranged on the connecting platform, the connecting platform is provided with fixing holes and connecting columns, the fixing holes and the connecting columns are all provided with a plurality of fixing holes, the control board is arranged on the connecting platform and connected with the fixing holes, and the end cover is arranged on the connecting column.
  10. 10. The multi-motor transmission wiring structure according to claim 8, wherein the outer periphery of the base is provided with a positioning ring, the stator assembly comprises a stator framework and a coil winding, the stator framework is provided with a plurality of stator winding arms, the coil winding is arranged on the stator winding arms, the stator framework is arranged on the base and positions the end parts of the stator framework through the positioning ring, the rotating shaft assembly comprises a bearing and a rotating shaft, the cavity is provided with a positioning step, the bearing is arranged in the cavity and is used for positioning the end face of the bearing through the positioning step, and the first end of the rotating shaft is connected with the bearing, and the second end of the rotating shaft is connected with the rotor shell.

Description

Multi-motor conveying wiring structure Technical Field The utility model relates to the technical field of motor conveying, in particular to a multi-motor conveying wiring structure. Background An electric motor, which is a device for converting electric energy into mechanical energy (or vice versa), plays a vital role in modern industry and daily life. From a professional perspective, the motor mainly works based on the principle of electromagnetic induction, and the core components of the motor generally comprise a stator, a rotor, electromagnetic windings and the like. In an electric machine, the stator is provided as a stationary part, typically with electromagnetic windings for generating a rotating magnetic field. The rotor is used as a rotating part and is stressed to rotate in a rotating magnetic field through electromagnetic induction, so that electric energy is converted into mechanical energy. In addition, the motor is also provided with a plurality of types so as to adapt to different application scenes. In the conveying process, a mechanism for conveying the material as external rotor power by a motor is provided. When the motor is used as a conveying roller, each motor needs to be controlled, so that each motor needs to be connected, the wiring structure in the conveying of the plurality of motors is complex, and new design is needed for the wiring of the plurality of motors. Disclosure of utility model In order to solve the problems, the utility model can uniformly perform signal transmission and control on a plurality of motors, realizes centralized management, ensures that the control of the whole multi-motor conveying system is more convenient and accurate, integrally improves the running efficiency and performance of the system, and is suitable for a multi-motor conveying wiring structure of a complex working scene of multi-motor connection. The technical scheme includes that the multi-motor conveying wiring structure comprises a mounting frame, a mounting guide rail, conveying motors, a mounting element and a hub, wherein the mounting guide rail is arranged on the mounting frame, the conveying motors are arranged in a plurality, the conveying motors are continuously arranged along the conveying direction of the mounting guide rail, the mounting element is arranged on the conveying motors and used for fixing the fixed ends of the conveying motors on the mounting guide rail, the hub is provided with a plurality of line concentration interfaces and at least one output interface, the output interface is electrically connected with the line concentration interfaces, and the line concentration interfaces are used for connecting the control interfaces of the conveying motors. The mounting frame is formed by assembling a plurality of section bars, supporting angle ribs are arranged between two adjacent section bars, and the supporting angle ribs are used for fixedly connecting the two adjacent section bars. In a further improvement of the above scheme, the installation frame is provided with a guide surface on the upper side of the installation guide rail, and the guide surface and the periphery of the conveying motor form a right angle. The mounting element comprises a base, a connecting part and a fixing part which are sequentially connected, wherein a cavity is formed in the mounting element, the cavity penetrates through the base, the connecting part and the fixing part, the connecting part is provided with a through groove, one end of the through groove is communicated with the cavity, one end, close to the fixing part, of the connecting part is provided with a positioning part, the positioning part is used for positioning in the axial direction when the mounting element is mounted, and the fixing part is provided with a locking fixing end for locking and fixing the mounting element. The further improvement to above-mentioned scheme does, the installation guide rail is provided with installation constant head tank and installation through-hole, the installation through-hole runs through along the groove depth direction of installation constant head tank, location portion is used for the cooperation on the installation constant head tank, the one end of fixed part is passed the installation through-hole, the lock fixation end passes through the nut to be fixed on the installation guide rail. In a further improvement of the above scheme, the locking fixed end comprises a threaded portion arranged on the fixed portion, and the threaded portion is used for being matched with a nut so as to be used for locking and fixing the mounting element on the mounting through hole. The technical scheme is further improved in that the positioning part comprises positioning planes which are oppositely arranged at two sides of the connecting part, the positioning planes at two sides are parallel to each other, and the positioning planes are used for being matched with the mounting positioning grooves so as to