CN220098080U - Paper spreading mechanism of rotary paper folding machine - Google Patents

Abstract

The present utility model relates to a sheet spreader mechanism for a rotary sheet folder. The problems to be solved are: at present, a rotary paper folding machine does not have a paper stretching mechanism. The key points of the technical scheme are as follows: the C servo motor synchronous pulley is connected with a paper supporting driving synchronous belt, 2 paper supporting driven synchronous belt clamping plates are arranged at two ends of a paper supporting driven synchronous belt connecting plate and connected with the paper supporting driven synchronous belt connecting plate, the paper supporting driven synchronous belt connecting plate is connected with a paper supporting front and rear sliding block seat, the C sliding block is connected with a C linear guide rail, 2D sliding blocks are symmetrically arranged on a paper supporting front and rear supporting plate, 2D linear guide rails are respectively connected with a D cylinder at two ends of a paper supporting upper plate seat, the D servo motor synchronous pulley is connected with a paper supporting up-and-down driving synchronous belt, the paper supporting upper and lower driven synchronous belt is connected with one end of a paper supporting ball screw, a paper supporting upper and lower guide plate is connected with an E linear guide rail E sliding block, the paper supporting upper and lower guide plates are respectively connected with F sliding blocks. The method is applied to automatic production for folding the roll paper into an organ shape.

Description

Paper spreading mechanism of rotary paper folding machine

Technical Field

The utility model relates to paper processing equipment, in particular to a paper spreading mechanism of a rotary paper folding machine.

Background

The rotary paper folding machine is used for folding the roll paper into an organ shape, the existing rotary paper folding machine outputs paper in a horizontal mode, manual cutting is needed, and then the paper folding machine is manually supported to enable the paper stack to be in a vertical state and conveyed to the next station. Therefore, the manual operation is needed once every a certain number, the operation is frequent, the labor intensity is high, the labor cost is high, and the production efficiency is low. At present, the rotary paper folding machine has no functions of paper cutting, paper layering, paper opening and vertical paper collection, and cannot realize automatic production. The paper spreading mechanism is an important component for realizing automatic production and processing.

Disclosure of Invention

The utility model aims to provide a paper layering mechanism of a rotary paper folding machine, which aims to solve the problems in the prior art: the existing rotary paper folding machine needs to be operated manually frequently, has high labor intensity, high labor cost and low production efficiency, and has no problem of paper stretching mechanism. The technical scheme adopted for solving the technical problems is as follows: the servo motor passes through and is connected with the bottom plate of the servo motor, the bottom plate of the servo motor is connected with the supporting shaft of the bottom plate of the servo motor, the supporting shaft of the bottom plate of the servo motor is connected with the wallboard A, the shaft end of the servo motor is connected with the synchronous pulley of the servo motor, the synchronous pulley of the servo motor is connected with the synchronous belt of the paper supporting drive, the synchronous belt of the paper supporting drive is connected with the synchronous pulley of the paper supporting drive, the paper supporting drive shaft passes through the wallboard A and the wallboard B respectively, the paper supporting drive shafts are respectively provided with 2 driven synchronous pulleys of the paper supporting on the wallboard A and the wallboard B, the driven synchronous pulley of the paper supporting on the wallboard A is connected with the driven synchronous belt of the paper supporting, the supporting driven synchronous belt of the paper supporting is supported by the supporting wheel of the driven synchronous belt of the paper supporting, the clamping plates of the driven synchronous belt of the paper supporting are arranged at two ends of the connecting plates of the driven synchronous belt of the paper supporting drive and are connected with the connecting plates of the driven synchronous belt of the paper supporting, simultaneously connecting a paper supporting driven synchronous belt, connecting a paper supporting driven synchronous belt connecting plate with a paper supporting front and rear sliding block seat, connecting a paper supporting front and rear sliding block seat with a C sliding block, connecting a C linear guide rail with a C linear guide rail, connecting an A wallboard with a B wallboard side paper supporting driven synchronous belt wheel, connecting the A wallboard side and the B wallboard side paper supporting front and rear sliding block seat with two ends of a paper supporting front and rear supporting plate respectively, symmetrically arranging 2D sliding blocks on the paper supporting front and rear supporting plate, connecting 2D linear guide rails with 2D linear guide rails, connecting 2D linear guide rails with a paper supporting upper plate seat respectively, connecting the paper supporting upper plate with a paper supporting upper plate, connecting two ends of the paper supporting upper plate seat with D cylinders respectively, connecting a paper supporting lower plate with D cylinders, penetrating and connecting a D servo motor plate with the D servo motor plate, connecting the D servo motor plate with a D servo motor plate supporting shaft, the supporting shaft of the D servo motor plate is connected with the paper supporting upper and lower bottom plates, the shaft end of the D servo motor is connected with the D servo motor synchronous belt pulley, the D servo motor synchronous belt pulley is connected with the paper supporting upper and lower driving synchronous belt, the paper supporting upper and lower driving synchronous belt is connected with the paper supporting upper and lower driven synchronous belt, the paper supporting upper and lower driven synchronous belt is connected with one end of a paper supporting ball screw, the paper supporting ball screw passes through the paper supporting upper and lower bottom plates, the paper supporting ball screw is connected with a paper supporting ball screw seat, the paper supporting ball screw seat is connected with the paper supporting upper and lower guide plates, the paper supporting upper and lower guide plates are connected with the E linear guide, the E slide block slides on the E linear guide, the E slide block is connected with the paper supporting upper and lower slide block seat, the paper supporting upper and lower slide block seat is connected with the upper and lower driving connecting plates, the upper and lower driving connecting plates are connected with the paper supporting upper and lower plate seat, the two ends of the paper supporting upper and lower guide plates are respectively connected with the F slide block, the F slide block is connected with the F linear guide, the F linear guide is connected with the F linear guide seat, the F linear guide seat is respectively connected with the two ends of the F linear guide bottom plate, the F linear guide bottom plate seat is connected with the paper supporting upper and lower bottom plate.

Compared with the prior art, the utility model has the following beneficial effects: by adopting the technical scheme, the paper spreading mechanism is characterized in that a device capable of spreading continuously stacked papers is arranged on a machine body, a C servo motor penetrates through and is connected with a C servo motor bottom plate, the C servo motor bottom plate is connected with a C servo motor bottom plate supporting shaft, the C servo motor bottom plate supporting shaft is connected with an A wallboard, the shaft end of the C servo motor rotates to drive a C servo motor synchronous pulley, the C servo motor synchronous pulley rotates to drive a paper spreading driving synchronous belt, the paper spreading driving synchronous belt drives a paper spreading driving synchronous pulley, the paper spreading driving synchronous pulley is connected with one end of a paper spreading driving shaft so as to drive the paper spreading driving shaft to rotate, the paper spreading driving shaft respectively penetrates through an A wallboard and a B wallboard, and 2 paper spreading driven synchronous pulleys are respectively arranged on the inner sides of the A wallboard and the B wallboard so as to drive the paper spreading driven synchronous pulley to rotate; the paper supporting driven synchronous belt wheels on the side of the wallboard A are connected with the paper supporting driven synchronous belt, the paper supporting driven synchronous belt supporting wheels support the paper supporting driven synchronous belt, the 2 paper supporting driven synchronous belt clamping plates are arranged at two ends of the paper supporting driven synchronous belt connecting plates and connected with the paper supporting driven synchronous belt connecting plates, the paper supporting driven synchronous belt is connected with the paper supporting driven synchronous belt simultaneously, the synchronous belt connecting plates are connected with the paper supporting front and rear sliding block seats, the paper supporting front and rear sliding block seats are connected with the C sliding blocks, the C sliding blocks slide on the C linear guide rails, the C linear guide rails are connected with the wallboard A, so that the transverse movement of the paper supporting front and rear sliding block seats is driven, and the structural forms of the paper supporting driven synchronous belt wheels on the side of the wallboard B and the paper supporting driven synchronous belt wheels on the side of the wallboard A are the same; the paper supporting upper plate seat is connected with the paper supporting upper plate, two ends of the paper supporting upper plate seat are respectively connected with a D cylinder, and the D cylinders are connected with a paper supporting lower plate so as to drive the paper supporting lower plate to longitudinally move and the paper supporting upper plate and the paper supporting lower plate to transversely move; the D servo motor passes through and is connected with a D servo motor plate, the D servo motor plate is connected with a D servo motor plate supporting shaft, the D servo motor plate supporting shaft is connected with a paper supporting upper bottom plate and a paper supporting lower bottom plate, the shaft end of the D servo motor rotates to drive a D servo motor synchronous belt wheel, the D servo motor synchronous belt wheel drives a paper supporting up-down driving synchronous belt, the paper supporting up-down driving synchronous belt is connected with a paper supporting up-down driven synchronous belt wheel, the paper supporting up-down driven synchronous belt wheel is connected with one end of the paper supporting ball screw, thereby driving the ball screw to rotate, the paper supporting ball screw passes through the paper supporting upper bottom plate and the paper supporting lower bottom plate, the paper supporting ball screw is connected with the paper supporting ball screw so as to drive the paper supporting ball screw to longitudinally move, the paper supporting ball screw is connected with the paper supporting ball screw seat, the paper supporting ball screw seat is connected with the paper supporting upper and lower guide plates, the paper supporting upper and lower guide plates are connected with the E linear guide rail, the E sliding block slides on the E linear guide rail, the E sliding block is connected with the paper supporting upper and lower sliding block seat, the paper supporting upper and lower sliding block seat is connected with the upper and lower driving connecting plates, and the upper and lower driving connecting plates are connected with the paper supporting upper plate seat so as to drive the paper supporting upper plate and the paper supporting lower plate on the front and rear supporting plates to transversely move; f sliding blocks are respectively connected to two ends of the upper and lower paper supporting guide plates, F linear guide rails are connected to the F sliding blocks, F linear guide rails are connected to F linear guide rail seats, F linear guide rail seats are respectively connected to two ends of a bottom plate of the F linear guide rail, the bottom plate of the F linear guide rail is connected to the bottom plate seat of the F linear guide rail, the bottom plate of the F linear guide rail is connected to the upper and lower paper supporting plates, the conversion between the transverse working position and the waiting position of the upper paper supporting plates and the conversion between the longitudinal working position and the waiting position are completed, the functions of supporting the upper paper supporting plates and the lower paper supporting plates to prop open continuous paper to provide paper cutting space for blades and the like are achieved, the automatic production of the rotary paper folding machine is improved, and necessary mechanism equipment is provided for improving the production efficiency, reducing the labor cost and labor intensity.

Drawings

Fig. 1 is a schematic view of a sheet stretching mechanism of the present utility model. Fig. 2 is a top view of fig. 1. Fig. 3 is a C-C cross-sectional view of fig. 1. Fig. 4 is a D-D cross-sectional view of fig. 1. Fig. 5 is a B-B cross-sectional view of fig. 2. Fig. 6 is an isometric view of fig. 1.

Detailed Description

Examples: referring to fig. 1 to 6, a sheet stretching mechanism of a rotary sheet folding machine is characterized in that: the C servo motor 301 passes through and is connected with the C servo motor bottom plate 302, the C servo motor bottom plate 302 is connected with the C servo motor bottom plate supporting shaft 303, the C servo motor bottom plate supporting shaft 303 is connected with the A wallboard 304, the shaft end of the C servo motor 301 is connected with the C servo motor synchronous pulley 305, the C servo motor synchronous pulley 305 is connected with the paper supporting driving synchronous belt 306, the paper supporting driving synchronous belt 306 is connected with the paper supporting driving synchronous pulley 307, the paper supporting driving synchronous pulley 307 is connected with one end of the paper supporting driving shaft 308, the paper supporting driving shaft 308 respectively passes through the A wallboard 304 and the B wallboard 309, the paper supporting driving shaft 308 is respectively provided with 2 paper supporting driven synchronous pulleys 310 at the inner sides of the A wallboard 304 and the B wallboard 309, the paper supporting driven synchronous pulley 310 at the side of the A wallboard 304 is connected with the paper supporting driven synchronous belt 311, the paper supporting driven synchronous belt supporting pulley 312 supports the paper supporting driven synchronous belt 311,2, the paper supporting driving synchronous belt clamping plates 313 are arranged at the two ends of the paper supporting driven synchronous belt connecting plate 314 and connected with the paper supporting driven synchronous belt connecting plate 314, simultaneously, the paper supporting driven synchronous belt 311 is connected, the paper supporting driven synchronous belt connecting plate 314 is connected with the paper supporting front and rear sliding block seat 315, the paper supporting front and rear sliding block seat 315 is connected with the C sliding block 316, the C sliding block 316 is connected with the C linear guide rail 317, the C linear guide rail 317 is connected with the A wallboard 304, the B wallboard 309 side paper supporting driven synchronous belt pulley 310 and the A wallboard 304 side paper supporting driven synchronous belt pulley 310 have the same structure, the A wallboard 304 side and the B wallboard 309 side paper supporting front and rear sliding block seat 315 are respectively connected with the two ends of the paper supporting front and rear supporting plate 318, 2D sliding blocks 319,2 are symmetrically arranged on the paper supporting front and rear supporting plate 318 and connected with 2D linear guide rails 320,2D linear guide rails 320 respectively connected with the paper supporting upper plate seat 321, the paper supporting upper plate seat 321 is connected with the paper supporting upper plate 322, the two ends of the paper supporting upper plate seat 321 are respectively connected with the D air cylinders 323, the D cylinder 323 is connected with the paper supporting lower plate 324, the D servo motor 325 penetrates through and is connected with the D servo motor plate 326, the D servo motor plate 326 is connected with the D servo motor plate supporting shaft 327, the D servo motor plate supporting shaft 327 is connected with the paper supporting upper and lower bottom plate 328, the shaft end of the D servo motor 325 is connected with the D servo motor synchronous pulley 329, the D servo motor synchronous pulley 329 is connected with the paper supporting up and down driving synchronous belt 330, the paper supporting up and down driving synchronous belt 330 is connected with the paper supporting up and down driven synchronous pulley 331, the paper supporting up and down driven synchronous pulley 331 is connected with one end of the paper supporting ball screw 332, the paper supporting ball screw 332 penetrates through the paper supporting upper and lower bottom plate 328, the paper supporting ball screw 332 is connected with the paper supporting ball screw 333, the paper supporting ball screw 333 is connected with the paper supporting ball screw seat 334, the paper supporting ball screw nut seat 334 is connected with the paper supporting up-down guide plate 335, the paper supporting up-down guide plate 335 is connected with the E linear guide rail 336, the E sliding block 337 slides on the E linear guide rail 336, the E sliding block 337 is connected with the paper supporting up-down sliding block seat 338, the paper supporting up-down sliding block seat 338 is connected with the up-down driving connecting plate 339, the up-down driving connecting plate 339 is connected with the paper supporting up-down plate seat 321, two ends of the paper supporting up-down guide plate 335 are respectively connected with the F sliding block 340, the F linear guide rail 341 is connected with the F linear guide rail seat 342, the F linear guide rail seat 342 is respectively connected with two ends of the F linear guide rail bottom plate 343, the F linear guide rail bottom plate 343 is connected with the F linear guide rail bottom plate seat 344, and the F linear guide rail bottom plate seat 344 is connected with the paper supporting up-down bottom plate 328.

Claims (1)

1. A paper spreader mechanism for a rotary paper folder, comprising: the servo motor (301) passes through and is connected with the servo motor bottom plate (302), the servo motor bottom plate (302) is connected with the servo motor bottom plate supporting shaft (303), the servo motor bottom plate supporting shaft (303) is connected with the wallboard (304), the shaft end of the servo motor (301) is connected with the servo motor synchronous pulley (305), the servo motor synchronous pulley (305) is connected with the supporting paper driving synchronous belt (306), the supporting paper driving synchronous belt (306) is connected with the supporting paper driving synchronous belt (307), the supporting paper driving synchronous belt (307) is connected with one end of the supporting paper driving shaft (308), the supporting paper driving shaft (308) respectively passes through the wallboard (304) and the wallboard (309), the supporting paper driving shaft (308) is respectively provided with 2 supporting paper driven synchronous belt wheels (310) on the inner sides of the wallboard (304) and the wallboard (309), the supporting paper driven synchronous belt (310) on the side of the wallboard (304) is connected with the supporting paper driven synchronous belt (311), the supporting paper driven synchronous belt (312) is supported by the supporting paper driven synchronous belt supporting wheel (311), the 2 supporting paper driven synchronous belt clamping plates (313) are arranged on the supporting paper driven synchronous belt (314) and the supporting paper driving synchronous belt connecting plates (314) respectively, the two supporting paper driven synchronous belt connecting plates (314) are connected with the connecting plates (315), the front and back slider seat (315) of the paper supporting is connected with the C slider (316), the C slider (316) is connected with the C linear guide rail (317), the C linear guide rail (317) is connected with the A wallboard (304), the B wallboard (309) side paper supporting driven synchronous pulley (310) is the same with the structure of the A wallboard (304) side paper supporting driven synchronous pulley (310), the A wallboard (304) side and the B wallboard (309) side paper supporting front and back slider seat (315) are respectively connected with the two ends of the front and back supporting plates (318) of the paper supporting, 2D sliders (319) are symmetrically arranged on the front and back supporting plates (318) of the paper supporting, 2D sliders (319) are connected with 2D linear guide rails (320), 2D linear guide rails (320) are respectively connected with the paper supporting upper plate seat (321), the paper supporting upper plate seat (321) is connected with the paper supporting upper plate (322), two ends of the paper supporting upper plate seat (321) are respectively connected with a D cylinder (323), the D cylinder (323) is connected with the paper supporting lower plate (324), the D servo motor (325) passes through and is connected with the D servo motor plate (326), the D servo motor plate (326) is connected with the two ends of the supporting shaft (327) of the paper supporting plate (327), the upper supporting shaft (328) is connected with the lower servo motor plate (328), the D servo motor synchronous pulley (329) is connected with a paper supporting up-down driving synchronous belt (330), the paper supporting up-down driving synchronous belt (330) is connected with a paper supporting up-down driven synchronous pulley (331), the paper supporting up-down driven synchronous pulley (331) is connected with one end of a paper supporting ball screw (332), the paper supporting ball screw (332) passes through a paper supporting up-down bottom plate (328), the paper supporting ball screw (332) is connected with a paper supporting ball screw (333), the paper supporting ball screw (333) is connected with a paper supporting ball screw seat (334), the paper supporting ball screw seat (334) is connected with a paper supporting up-down guide plate (335), the paper supporting upper-lower guide plate (335) is connected with an E linear guide rail (336), the E sliding block (337) slides on the E linear guide rail (336), the E sliding block (337) is connected with a paper supporting up-down sliding block seat (338), the paper supporting up-down sliding block seat (338) is connected with an up-down driving connecting plate (339), two ends of the paper supporting ball screw seat (321), the paper supporting up-down guide plate (335) are respectively connected with a sliding block (340), the F (340) is connected with the F (341) linear guide rail seat (342) and the F (341) is connected with the F (342) linear guide rail seat (343), the F-shaped linear guide rail base plate seat (344) is connected with the paper supporting upper and lower base plates (328).