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CN-122009911-A - RVV power cord automatic winding device

CN122009911ACN 122009911 ACN122009911 ACN 122009911ACN-122009911-A

Abstract

The invention discloses an RVV power line automatic winding device which comprises a main support frame, wherein a guide sleeve is fixed on the top surface of the left part of a top plate of the main support frame, a lifting support rod is inserted into the guide sleeve, the outer side wall of the lifting support rod is close to or clung to the inner side wall of the guide sleeve, the top end of the lifting support rod extends out of the top end of the guide sleeve and is provided with a guide, the bottom of the lifting support rod extends out of the bottom end of the guide sleeve and the bottom end of a through hole of the top plate of the main support frame, a first middle horizontal plate is fixed in the main support frame, a lifting cylinder is fixed on the bottom surface of the main support frame, the top end of a push rod of the lifting cylinder extends out of the first middle horizontal plate and is fixed on the bottom end of the lifting support rod, and the automatic winding device can wind a cable in a cross mode and has automatic tensioning adjustment when the cable is wound, so that the winding effect is ensured.

Inventors

  • SHENG HEFU

Assignees

  • 嵊州市安普电线电缆有限公司

Dates

Publication Date
20260512
Application Date
20260409

Claims (10)

  1. 1. An RVV power line automatic winding device comprises a main support frame (10) and is characterized in that a guide sleeve (11) is fixed on the top surface of the left part of a top plate of the main support frame (10), a lifting support rod (12) is inserted into the guide sleeve (11), the outer side wall of the lifting support rod is close to or clung to the inner side wall of the guide sleeve (11), and the top end of the lifting support rod (12) extends out of the top end of the guide sleeve (11) and is provided with a guide device (20); The bottom of the lifting support rod (12) extends out of the bottom end of the guide sleeve (11) and the bottom end of the through hole of the top plate of the main support frame (10), a first middle horizontal plate is fixed in the main support frame (10), a first lifting cylinder (13) is fixed on the bottom surface of the main support frame, and the top end of the push rod of the first lifting cylinder (13) extends out of the first middle horizontal plate and is fixed on the bottom end of the lifting support rod (12); An upper supporting frame (14) is fixed on the top surface of the rear part of the right part of the top plate of the main supporting frame (10), an upper winding motor (15) is installed on the top plate of the upper supporting frame (14), and a vertical rotating shaft (16) is fixed on an output shaft of the upper winding motor (15) and drives a winding cylinder body (100) sleeved on the upper winding motor to rotate.
  2. 2. The RVV power line automatic winding device according to claim 1, wherein an upper mounting seat (17) is fixed in the middle of the top surface of the top plate of the upper supporting frame (14), an upper winding motor (15) is fixed in the middle of the top surface of the top plate of the upper mounting seat (17), the upper part of the vertical rotating shaft (16) is movably connected to the top plate of the upper supporting frame (14) through a bearing, the top end of the vertical rotating shaft extends out of the top surface of the top plate of the upper supporting frame (14), and the bottom end of an output shaft of the upper winding motor (15) extends out of the top surface of the top plate of the upper supporting frame (14) and is connected with the top end of the vertical rotating shaft (16) through a coupler.
  3. 3. The automatic RVV power line winding device according to claim 2, wherein the outer side wall of the top end of the vertical rotating shaft (16) is provided with a radial extending edge (161), the outer side wall of the vertical rotating shaft (16) is provided with an external spline protrusion, the inner side wall of the middle through hole of the winding cylinder (100) is provided with a spline groove, the vertical rotating shaft (16) is inserted into the middle through hole of the winding cylinder (100), and the external spline protrusion is inserted into the spline groove and matched with the spline groove.
  4. 4. An RVV power cord automatic winding apparatus according to claim 3, characterized in that the middle part of the right part of the top plate of the main support frame (10) is formed with an upper through hole (18), the inside of the main support frame (10) at the lower part of the upper through hole (18) is provided with an inner water flat plate (19), the outer side wall of the inner water flat plate (19) is fixed on the inner side wall of the side plate of the main support frame (10), the middle part of the bottom surface of the inner water flat plate (19) is fixed with a lifting cylinder (191), the top end of the push rod of the lifting cylinder (191) extends out of the top surface of the inner water flat plate (19) and the top end of the upper through hole (18) and fixes a lifting plate (192), the top surface of the lifting plate (192) is pressed against the bottom end surface of the winding cylinder (100), and the top end surface of the winding cylinder (100) is pressed against the bottom surface of the radially extending side (161).
  5. 5. The automatic RVV power cord winding apparatus as set forth in claim 4, wherein the bottom surface of the lifting plate (192) is fixed with a plurality of vertical guide bars, and the vertical guide bars are inserted into guide through holes formed in the inner horizontal plate (19).
  6. 6. The automatic RVV power cord winding apparatus as set forth in claim 1, wherein the guide (20) includes a laterally extending elongated housing (21) having a bottom plate movably connected to the top ends of the lifting support bar (12) through bearings, the front and rear portions of the left and right ends of the elongated housing (21) are each fixed with a side plate body, the upper and lower portions of the outer sides of the front and rear corresponding two side plate bodies are each movably connected with a laterally extending guide roller (22), a lower connecting plate is fixed between the lower portions of the inner sides of the front and rear corresponding two side plate bodies, the bottoms of the front and rear corresponding two vertical guide rollers (23) are movably connected to the corresponding lower connecting plate through bearings, the top ends of the two vertical guide rollers (23) are movably connected to the corresponding upper connecting plate through bearings, the upper connecting plate is fixed to the upper inner side walls of the corresponding front and rear two side plates, the flow channel between the two lateral guide rollers (22) corresponds to the flow channel between the two vertical guide rollers, and the flow channel between the two vertical guide rollers is formed in the middle of the elongated housing (21) and corresponds to the left and right extending through holes.
  7. 7. The automatic RVV power line winding device according to claim 1, wherein the laser code spraying frame (50) is fixed on the ground at the left side of the main support frame (10), an upper fixing plate (51) is fixed on the top surface of a top plate of the laser code spraying frame (50), a vertical adjusting through groove (52) is formed in the upper portion of the middle of the upper fixing plate (51), a conveying driving motor (53) is fixed on the rear wall surface of the lower portion of the middle of the upper fixing plate (51), the front end of an output shaft of the conveying driving motor (53) extends out of the front wall surface of the upper fixing plate (51) and is fixedly provided with a lower driving wheel (54), an adjusting block (55) is inserted in the vertical adjusting through groove (52), an upper pressing wheel (56) is movably connected to the front wall surface of the adjusting block (55) through a hinge shaft, and the bottom surface of the upper pressing wheel (56) is close to the top surface of the lower driving wheel (54).
  8. 8. The automatic RVV power line winding device according to claim 7, wherein the left side wall and the right side wall of the upper fixing plate (51) are respectively fixed with a guide connecting plate (57), the outer ends of the guide connecting plates (57) are respectively and movably connected with a guide leaning wheel (58) through a hinge shaft, and the guide leaning wheels (58) are positioned in front of the guide connecting plates (57); A lower fixing plate is fixed on the front wall surface of the lower part at the inner end of the guide connecting plate (57), the top surface of the lower fixing plate is movably connected with two first vertical guide rollers (59) through bearings, and a first conveying channel is formed between the two first vertical guide rollers (59).
  9. 9. The automatic RVV power line winding device according to claim 7, wherein an upper fixing plate is fixed on the upper portion of the right side wall of the upper fixing plate (51), a laser spraying head (60) is fixed on the upper fixing plate, and a spray head of the laser spraying head (60) sprays codes on cables conveyed downwards vertically.
  10. 10. The RVV power line automatic winding device according to claim 9, wherein an air suction connecting pipe (70) is arranged above the laser spraying wharf (60), an air suction cover (71) is connected to the bottom end of the air suction connecting pipe, the air suction connecting pipe (70) is communicated with an air suction main pipe of a factory building, and the air suction main pipe is communicated with an air inlet of dust removing equipment.

Description

RVV power cord automatic winding device Technical Field The invention relates to the technical field of wire and cable processing equipment, in particular to an automatic winding device for RVV power lines. Background When the existing RVV cable is wound and packaged, the existing mode is generally that after the automatic winding is carried out through a winding machine, automatic winding equipment is suitable for winding in parallel along the axial direction of a winding drum and is not suitable for cross winding, so that many cross windings are carried out in a manual winding mode, and the efficiency is low and the effect is poor; meanwhile, when the cable is wound, the problem of excessive tensioning or overseeding of the cable due to the problems of winding speed and the like of the winding drum can occur, the winding effect can be influenced, and certain influence can be generated on the cable. Disclosure of Invention The invention aims to overcome the defects of the prior art and provides an RVV power line automatic winding device which can wind a cable in a crossed mode, and the winding device has automatic tension adjustment on the cable during winding, so that the winding effect is ensured. The scheme for solving the technical problems is as follows: An RVV power cord automatic winding device comprises a main support frame, wherein a guide sleeve is fixed on the top surface of the left part of a top plate of the main support frame, a lifting support rod is inserted into the guide sleeve, the outer side wall of the lifting support rod is close to or clung to the inner side wall of the guide sleeve, and the top end of the lifting support rod extends out of the top end of the guide sleeve and is provided with a guide; The bottom of the lifting support rod extends out of the bottom end of the guide sleeve and the bottom end of the through hole of the top plate of the main support frame, a first middle horizontal plate is fixed in the main support frame, a lifting cylinder is fixed on the bottom surface of the main support frame, and the top end of the push rod of the lifting cylinder extends out of the first middle horizontal plate and is fixed on the bottom end of the lifting support rod; An upper supporting frame is fixed on the top surface of the rear part of the right part of the top plate of the main supporting frame, an upper winding motor is mounted on the top plate of the upper supporting frame, and a vertical rotating shaft is fixed on an output shaft of the upper winding motor and drives a winding cylinder sleeved on the upper winding motor to rotate. The upper mounting seat is fixed in the middle of the top surface of the top plate of the upper support frame, the upper winding motor is fixed in the middle of the top surface of the top plate of the upper mounting seat, the upper part of the vertical rotating shaft is movably connected to the top plate of the upper support frame through a bearing, the top end of the upper winding motor extends out of the top surface of the top plate of the upper support frame, and the bottom end of the output shaft of the upper winding motor extends out of the top surface of the top plate of the upper support frame and is connected with the top end of the vertical rotating shaft through a coupler. The outer side wall of the top end of the vertical rotating shaft is provided with a radial extension edge, the outer side wall of the vertical rotating shaft is provided with an external spline bulge, the inner side wall of the middle through hole of the winding cylinder body is provided with a spline groove, the vertical rotating shaft is inserted into the middle through hole of the winding cylinder body, and the external spline bulge is inserted into the spline groove and matched with the spline groove. The middle part shaping of the right part of the roof of main support has the upper through hole, and the inside of the main support of the below department of upper through hole is equipped with interior water flat board, and the lateral wall of interior water flat board is fixed on the inside wall of the curb plate of main support frame, and the bottom surface middle part of interior water flat board is fixed with the lift cylinder, and the top of the push rod of lift cylinder stretches out the top of interior water flat board and the top of upper through hole and fixes the lifter plate, and the top surface of lifter plate presses on the bottom surface of winding barrel, and the top surface of winding barrel presses on the bottom surface of radial extension limit. The guide comprises a transversely extending long shell, a bottom plate of the guide comprises a bearing movably connected to the top end of a lifting support rod, side plate bodies are fixed at the front part and the rear part of the left end and the right end of the long shell, transverse guide rollers extending front and back are movably connected to the upper part and the lower part of the outer si