Search

CN-224217351-U - Wire feeding module

CN224217351UCN 224217351 UCN224217351 UCN 224217351UCN-224217351-U

Abstract

The application discloses a wire feeding module, which relates to the field of automatic equipment and comprises a first mounting plate, a first wire combining wheel and a second wire combining wheel which are arranged on the first mounting plate at intervals in a first direction, a hot air gun which is arranged on the first mounting plate and positioned above the second wire combining wheel, a cutter clamping jaw assembly which is connected to the first mounting plate in a sliding mode, wherein the cutter clamping jaw assembly is positioned on one side, away from the first wire combining wheel, of the second wire combining wheel, a first sliding rail which extends in a second direction is arranged on the second mounting plate, the first mounting plate is connected to the first sliding rail in a sliding mode, a third mounting plate is arranged on the third mounting plate, a second sliding rail which extends in the first direction is arranged on the third mounting plate, the second mounting plate is connected to the second sliding rail in a sliding mode, a third sliding rail which extends in a vertical direction is arranged on the first mounting seat, and the third mounting plate is connected to the third sliding rail in a sliding mode. The wire feeding module integrates the functions of wire combining, guiding, heating and shaping and cutting, and can realize flexible and accurate adjustment of each functional module on the space position.

Inventors

  • SUN FENG
  • LIU DEWANG
  • ZENG ZHI

Assignees

  • 苏州赛腾精密电子股份有限公司

Dates

Publication Date
20260508
Application Date
20260325

Claims (10)

  1. 1. A wire feeding module, comprising: a first mounting plate; The first parallel wire wheel and the second parallel wire wheel are arranged on the first mounting plate at intervals in the first direction, the first parallel wire wheel is close to the wire inlet end, and the second parallel wire wheel is close to the wire outlet end; the hot air gun is arranged above the first doubling wheel and the second doubling wheel; The cutter clamping jaw assembly is connected to the first mounting plate in a sliding manner, and is positioned on one side of the second parallel wire wheel, which is away from the first parallel wire wheel; The first mounting plate is provided with a first sliding rail extending along a second direction, and the first mounting plate is connected with the first sliding rail in a sliding manner; The second mounting plate is provided with a second sliding rail extending along the first direction, and the second mounting plate is connected with the second sliding rail in a sliding manner; The first installation seat is provided with a third sliding rail extending along the vertical direction, and the third installation plate is connected with the third sliding rail in a sliding way.
  2. 2. The wire feeding module of claim 1, wherein the cutter jaw assembly comprises: the second installation seat is fixedly provided with a lower clamping jaw; an upper clamping jaw which is connected to the second mounting seat in a sliding manner in the vertical direction; The cutter is fixedly connected with the upper clamping jaw and is positioned at one side of the upper clamping jaw, which is away from the second doubling wheel; the first driving piece is arranged on the second mounting seat, and the output end of the first driving piece is fixedly connected with the upper clamping jaw and is used for driving the upper clamping jaw and the cutter to move along the vertical direction.
  3. 3. The wire feeding module according to claim 2, wherein the bottom of the cutter is provided with an inclined surface, the inclined surface gradually approaches to the side surface of the upper clamping jaw from top to bottom, and the bottom surface of the cutter is higher than the bottom surface of the upper clamping jaw.
  4. 4. The wire feeding module according to claim 3, wherein the upper clamping jaw is further fixedly connected with a wire blocking pin, the bottom surface of the wire blocking pin is lower than the bottom surface of the upper clamping jaw, and the wire blocking pin is located at the center of the upper clamping jaw.
  5. 5. The wire feeding module according to claim 2, wherein a fourth mounting plate is fixedly connected to one end of the first mounting plate, which is close to the second wire doubling wheel, a fourth sliding rail extending in the vertical direction is arranged on the fourth mounting plate, a fifth mounting plate is slidably connected to the fourth sliding rail, a fifth sliding rail extending in the second direction is arranged on the fifth mounting plate, a sixth mounting plate is slidably connected to the fifth sliding rail, and the second mounting seat is fixedly connected to the sixth mounting plate.
  6. 6. The wire feeding module according to claim 1, wherein the first mounting plate is slidably connected to the first sliding rail through a first sliding block, a second driving member is mounted on the second mounting plate, and an output end of the second driving member is fixedly connected to the first sliding block and is used for driving the first sliding block and the first mounting plate to move along a second direction; The second mounting plate is connected to the second sliding rail in a sliding manner through a second sliding block, a third driving piece is mounted on the third mounting plate, and the output end of the third driving piece is fixedly connected with the second sliding block and used for driving the second sliding block and the second mounting plate to move along the first direction; The third mounting plate is connected to the third sliding rail in a sliding manner through a third sliding block, a fourth driving piece is mounted on the first mounting seat, and the output end of the fourth driving piece is fixedly connected with the third sliding block and used for driving the third sliding block and the third mounting plate to move along the vertical direction.
  7. 7. The wire feeding module according to claim 1, wherein a seventh mounting plate is fixedly arranged on the first mounting plate, a sixth sliding rail extending along the first direction is arranged on the seventh mounting plate, an eighth mounting plate is connected to the sixth sliding rail in a sliding manner, and the first wire combining wheel, the second wire combining wheel and the hot air gun are fixedly connected to the eighth mounting plate.
  8. 8. The wire feeding module of claim 1, wherein the air outlet of the heat gun is downwardly disposed and positioned between the second combining wheel and the cutter jaw assembly.
  9. 9. The wire feeding module according to claim 1, wherein the first wire winding wheel comprises two sub-wheels which are distributed at intervals in the vertical direction, and a gap between the two sub-wheels is larger than the diameter of the wire arrangement and smaller than twice the diameter of the wire arrangement.
  10. 10. The wire feeding module according to claim 1, wherein two third sliding rails are respectively arranged on two sides of the first mounting seat along the second direction, and the number of the first mounting plate, the second mounting plate, the third mounting plate, the first doubling wheel, the second doubling wheel, the heat gun and the cutter clamping jaw assemblies is two, and the first mounting plate, the second mounting plate, the third mounting plate, the first doubling wheel, the second doubling wheel, the heat gun and the cutter clamping jaw assemblies are symmetrically arranged in the second direction.

Description

Wire feeding module Technical Field The specification relates to automation equipment technical field, especially relates to a send line module. Background In the production process of electronic components such as motors, transformers, inductors, and the like, a winding device is one of core equipment for neatly and tightly winding wires (such as enameled wires) on a skeleton. With the miniaturization of products and the improvement of performance requirements, the winding process is increasingly complex, and multiple strands of wires are often required to be combined and wound so as to improve the electrical performance of the products or meet special design requirements. The existing winding device has certain limitation in the process of coping with multi-strand doubling winding. In the wire combining process, the multi-strand wires need to be guided and combined before entering the winding nozzle, but the traditional wire feeding guiding structure is fixed in position and is difficult to flexibly adjust according to the wire diameter, the strand number and the winding tension of the wires. In addition, in the multi-strand doubling winding process, stress or loosening is easy to generate between the wires, the winding compactness and consistency are affected, and the existing equipment generally lacks the function of heating and shaping the wires after doubling, so that the wound coil is poor in forming effect and easy to loose and deform. More critical, when it is desired to pre-treat the wire prior to winding, such as cutting excess wire ends or cutting specific lengths, conventional winding devices often require moving the wire to a special cutting station or adding a separate cutting module. The method not only increases the volume and the cost of the equipment, but also reduces the positioning accuracy due to the deviation between the cutting position and the winding position, and influences the cutting quality and the winding efficiency. Meanwhile, in order to adapt to winding frameworks or winding paths of different specifications, the relative positions among the wire feeding guide assembly, the heating assembly and the cutting assembly need to be frequently adjusted, and an adjusting mechanism of the existing equipment is generally complex and has a limited adjusting range, so that quick and accurate multidimensional position adjustment is difficult to realize. Therefore, how to integrate the doubling guiding, heating shaping and cutting functions in the winding device and realize flexible and accurate adjustment of each functional module on the space position so as to adapt to the doubling winding requirement of wires with various specifications becomes a problem to be solved in the field of current winding equipment. Disclosure of utility model In view of the shortcomings of the prior art, an object of the present specification is to provide a wire feeding module, which integrates the functions of wire combining, guiding, heating and shaping, and cutting, and can realize flexible and precise adjustment of each functional module in space position. To achieve the above object, an embodiment of the present disclosure provides a wire feeding module, including: a first mounting plate; The first parallel wire wheel and the second parallel wire wheel are arranged on the first mounting plate at intervals in the first direction, the first parallel wire wheel is close to the wire inlet end, and the second parallel wire wheel is close to the wire outlet end; the hot air gun is arranged above the first doubling wheel and the second doubling wheel; The cutter clamping jaw assembly is connected to the first mounting plate in a sliding manner, and is positioned on one side of the second parallel wire wheel, which is away from the first parallel wire wheel; The first mounting plate is provided with a first sliding rail extending along a second direction, and the first mounting plate is connected with the first sliding rail in a sliding manner; The second mounting plate is provided with a second sliding rail extending along the first direction, and the second mounting plate is connected with the second sliding rail in a sliding manner; The first installation seat is provided with a third sliding rail extending along the vertical direction, and the third installation plate is connected with the third sliding rail in a sliding way. As a preferred embodiment, the cutter jaw assembly comprises: the second installation seat is fixedly provided with a lower clamping jaw; an upper clamping jaw which is connected to the second mounting seat in a sliding manner in the vertical direction; The cutter is fixedly connected with the upper clamping jaw and is positioned at one side of the upper clamping jaw, which is away from the second doubling wheel; the first driving piece is arranged on the second mounting seat, and the output end of the first driving piece is fixedly connected with the upper clamping jaw and is used f