Search

CN-224204041-U - Novel iron core hinging mechanism

CN224204041UCN 224204041 UCN224204041 UCN 224204041UCN-224204041-U

Abstract

The utility model relates to the technical field of relay assembly and discloses a novel iron core hinging mechanism which comprises a frame, a workbench, a tool, a positioning module and a hinging module, wherein the workbench is arranged on the frame and is provided with a sliding channel which is used for being in butt joint with and communicated with an external conveying mechanism, a hinging station is arranged on the sliding channel, the tool is in sliding connection with the sliding channel of the workbench and is used for accommodating and limiting a workpiece to be hinged, the positioning module is arranged on the workbench and is arranged opposite to the hinging station, the positioning module is used for positioning the workpiece to be hinged on the hinging station, and the hinging module is arranged on the frame and is positioned above the hinging station and is used for pressing down the workpiece to be hinged on the hinging station so as to press an iron core of the workpiece to be hinged into a yoke. The utility model can solve the problem of how to improve the production efficiency.

Inventors

  • CHENG QINGFENG
  • CHEN HONGDE
  • ZHAO ZICHENG
  • HUANG RUIJUN

Assignees

  • 厦门迎丰自动化科技有限公司

Dates

Publication Date
20260505
Application Date
20250603

Claims (7)

  1. 1. Novel iron core hinge mechanism, characterized by includes: A frame; The workbench is arranged on the frame and is provided with a sliding channel which is used for being in butt joint with and communicated with an external conveying mechanism, and a hinging station is arranged on the sliding channel; The tool is in sliding connection with the sliding channel of the workbench and is used for accommodating and limiting a workpiece to be hinged; the positioning module is arranged on the workbench and is opposite to the hinging station, and the positioning module is used for positioning the workpiece to be hinged on the hinging station; the hinging module is arranged on the frame and is positioned above the hinging station, and the hinging module is used for pressing down a workpiece to be hinged on the hinging station so as to press an iron core of the workpiece to be hinged into a yoke.
  2. 2. The novel core hinge mechanism according to claim 1, wherein the table comprises: The movable table can vertically slide on the frame and is provided with a first channel for sliding connection with the tool, a sliding track of the movable table comprises a first position and a second position which are vertically arranged, an elastic piece is arranged between the movable table and the frame and has elastic force for driving the movable table to slide towards the first position, the positioning module is arranged on the movable table, and the hinging station is arranged on the first channel; The two fixed tables are fixedly arranged on the frame, the two fixed tables are respectively positioned at two sides of the movable table, and a second channel for sliding connection with the tool is arranged on the fixed tables; When the movable table is at the first position, the positioning module opens two ends of the first channel, and the two ends of the first channel are respectively butted and communicated with the two second channels to form a sliding channel in a combined way; when the movable table is at the second position, the positioning module seals the two ends of the first channel, and the first channel and the second channel are completely staggered.
  3. 3. The novel core hinge mechanism according to claim 1, wherein the table comprises: The movable table can vertically slide on the frame and is provided with a first channel, the first channel is configured as the sliding channel, the sliding track of the movable table comprises a first position and a second position which are vertically arranged, an elastic piece is arranged between the movable table and the frame and has elastic force for driving the movable table to slide towards the first position, and the positioning module is arranged on the movable table; when the movable table is at the first position, the positioning module opens two ends of the first channel, and the sliding channel is in butt joint and communication with an external conveying mechanism; when the movable table is at the second position, the positioning module seals the two ends of the first channel, and the sliding channel and the external conveying mechanism are staggered.
  4. 4. A novel core hinging mechanism according to claim 2 or 3, wherein the positioning module comprises: The two positioning blocks are respectively arranged at two sides of the movable table, one opposite sides of the two positioning blocks are respectively provided with a limiting groove, and a limiting space is formed between the two limiting grooves; the positioning block driving assembly is arranged on the movable table and is in transmission connection with the two positioning blocks, the positioning block driving assembly is used for driving the two positioning blocks to be close to or far away from each other along a first direction, and the first direction is perpendicular to the extending direction and the vertical direction of the sliding channel.
  5. 5. A novel iron core hinging mechanism according to any one of claims 1-3, wherein the hinging block comprises a press post and a press post driving member, the press post is arranged above the hinging station and is arranged opposite to the iron core on the hinging station, the press post driving member is arranged on the frame and is in transmission connection with the press post, and the press post driving member is used for driving the press post to move towards or away from the hinging station so as to press the iron core into the socket of the yoke.
  6. 6. The novel core hinging mechanism of claim 5, wherein the hinging block further comprises a press block, wherein the press block is arranged opposite to the tooling position and is in transmission connection with the press column driving piece, and the press column driving piece is used for driving the press column and the press block to move together towards or away from the hinging station.
  7. 7. The novel core hinging mechanism of claim 5, wherein the hinging die block further comprises a support column, the support column is fixedly arranged on the frame and is opposite to the pressing column, and the workbench and the tooling are provided with yielding channels for the support column to penetrate through.

Description

Novel iron core hinging mechanism Technical Field The utility model relates to the technical field of relay assembly, in particular to a novel iron core hinging mechanism. Background In the technical field of modern electronic control, a relay is used as a key electronic control device and is widely applied to various automatic control circuit systems. The iron core, the yoke iron and the coil are important components in the relay, and in the manufacturing process of the relay, the yoke iron and the iron core are matched with each other very importantly, and the yoke iron, the yoke iron and the iron core are required to form an integrated structure through hinging processing so as to ensure effective transmission and concentration of electromagnetic force. At present, the iron core hinging process commonly adopted in the industry comprises the steps of firstly inserting an iron core into a coil, combining the iron core, the coil and a yoke iron to form a workpiece to be hinged, then applying downward pressure to the iron core by means of a special iron core hinging mechanism, enabling the bottom end of the iron core to penetrate out of the coil and firmly press into a socket preset in the yoke iron, and finally tightly combining the yoke iron, the coil and the iron core into a whole. However, the existing iron core hinging mechanism has some problems to be solved in practical application. The existing iron core hinging mechanism needs to be additionally matched with a mechanical arm to finish the hinging operation flow. In the operation process, the manipulator firstly needs to convey the workpieces to be hinged on the conveyor belt to the working positions of the iron core hinging mechanism one by one, and after the hinging operation is completed by the iron core hinging mechanism, the manipulator needs to convey the hinged workpieces back to the conveyor belt again so as to enter the next working procedure. This mode of operation has obvious disadvantages. On the one hand, the introduction of the manipulator increases the complexity and cost of the equipment, and on the other hand, the whole operation flow requires the manipulator to frequently reciprocate between the iron core hinging mechanism and the conveyor belt, which not only reduces the production efficiency, but also increases the uncertainty and the fault risk in the production process. In view of the drawbacks of the existing iron core hinging mechanism, it is particularly necessary to develop a novel iron core hinging mechanism. Disclosure of utility model (One) solving the technical problems The utility model provides a novel iron core hinging mechanism, which at least solves the technical problem of how to improve the production efficiency. (II) technical scheme In order to solve the technical problems, the utility model provides the following technical scheme that the novel iron core hinging mechanism comprises: A frame; The workbench is arranged on the frame, and is provided with a sliding channel which is used for being in butt joint with and communicated with an external conveying mechanism, and a hinging station is arranged on the sliding channel; The tool is in sliding connection with the sliding channel of the workbench and is used for accommodating and limiting a workpiece to be hinged; The positioning module is arranged on the workbench and is opposite to the hinging station, and the positioning module is used for positioning the workpiece to be hinged on the hinging station; the hinging module is arranged on the frame and is positioned above the hinging station, and the hinging module is used for pressing down the workpiece to be hinged on the hinging station so as to press the iron core of the workpiece to be hinged into the yoke. Further, the workbench includes: The movable table can be vertically arranged on the frame in a sliding manner and is provided with a first channel which is used for being connected with the tool in a sliding manner, the sliding track of the movable table comprises a first position and a second position which are vertically arranged, an elastic piece is arranged between the movable table and the frame and has elasticity for driving the movable table to slide towards the first position, the positioning module is arranged on the movable table, and the hinging station is arranged on the first channel; the two fixed tables are fixedly arranged on the frame, are respectively positioned at two sides of the movable table, and are provided with a second channel for sliding connection with the tool; When the movable table is in the second position, the positioning module blocks the two ends of the first channel, and the first channel and the second channel are completely staggered. Further, the workbench includes: The movable table can vertically slide on the frame and is provided with a first channel, the first channel is configured as a sliding channel, the sliding track of the movable table comprises a first p