CN219729963U

CN219729963U - Prevent online automatic allele device of coiled material deformation

Info

Publication number: CN219729963U
Application number: CN202320235395.8U
Authority: CN
Inventors: 沈宏伟; 薛俊男
Original assignee: Broadenwin Machinery Jiangsu Co ltd
Current assignee: Broadenwin Machinery Jiangsu Co ltd
Priority date: 2023-02-16
Filing date: 2023-02-16
Publication date: 2023-09-22
Anticipated expiration: 2033-02-16

Abstract

The utility model relates to an online automatic equipotential device for preventing coiled material deformation, which comprises a roll shaft friction mechanism, a non-return mechanism, a buffer pushing mechanism, a coiled material generation conveying line frame and a position sensor, wherein the roll shaft friction mechanism is arranged on the roll shaft friction mechanism; a conveying guide rail is arranged at the top of the coiled material generation conveying line frame; the position sensor is fixed in the positioning groove through the connecting hole; the roll shaft friction mechanism comprises a friction wheel, a driving mechanism and a fixed bracket; the check mechanism comprises a check rod, a spring and a first connecting part; the buffer pushing mechanism comprises a rotating rod, a pushing cylinder and a second connecting part; the two ends of the rotating rod are respectively a pushing end and a blocking end. The utility model has the advantages that: simple structure, the dismouting of being convenient for, through the combination of non return device and buffering pushing equipment, it is spacing on the friction pulley with roller and coiled material, buffering pushing equipment both can play the cushioning effect to roller and coiled material in the continuous roll, also can be when the unloading is needed, pushes away the coiled material fast, realizes the online automatic equipotential of coiled material.

Description

Prevent online automatic allele device of coiled material deformation

Technical Field

The utility model relates to the technical field of coiled material rolling auxiliary equipment, in particular to an online automatic equipotential device for preventing coiled material deformation.

Background

When coiled materials are hung on a rack for a long time, because the weight of the coiled materials and the roll shafts is large, the coiled materials or the roll shafts are bent and deformed under the condition that dead weight is applied to the coiled materials or the roll shafts, and the service life of the roll shafts and the quality of the coiled materials are influenced. The coiled material can be driven to rotate slowly, so that the coiled material deformation caused by long-time standing and suspending of the coiled material is avoided. On the production line, the coiled material on the production line needs to be manually moved to the equipotential device for operation, and the roller shaft just after rolling is in a high-speed rotating state, and the manual operation can be performed only after waiting for standing time, so that the efficiency is low.

Therefore, there is a need to develop an equipotential device that can solve the above-mentioned inefficiency.

Disclosure of Invention

The utility model aims to provide an online automatic equipotential device for preventing coiled material deformation, which can realize online automatic equipotential so as to prevent long-time suspended coiled material bending deformation.

In order to achieve the aim of the utility model, an online automatic equipotential device for preventing coiled material deformation is provided, which comprises a roll shaft friction mechanism, a non-return mechanism, a buffer pushing mechanism, a coiled material generation conveying line frame and a position sensor;

a conveying guide rail is arranged at the top of the coiled material generation conveying line frame; the conveying guide rail is provided with a positioning groove and a mounting groove; the mounting groove is positioned right below the positioning groove, the positioning groove is provided with a connecting hole, and the position sensor is fixed in the positioning groove through the connecting hole;

the roll shaft friction mechanism comprises a friction wheel, a driving mechanism and a fixed bracket; the friction wheel is connected with the driving mechanism and is positioned at one side of the positioning groove; the driving mechanism is fixed on the side edge of the coiled material generation conveying line frame through the fixing support;

the non-return mechanism comprises a non-return rod, a spring and a first connecting part, wherein the middle part of the non-return rod is rotationally connected to the coiled material generation conveying line rack through the first connecting part; one end of the spring is fixed with the bottom end of the check rod, the other end of the spring is fixed with the coil generating conveyor line frame, and the top end of the check rod extends out of the top of the coil generating conveyor line frame;

the buffer pushing mechanism comprises a rotating rod, a pushing cylinder and a second connecting part; the two ends of the rotating rod are respectively a pushing end and a blocking end, the middle part of the rotating rod is rotationally connected with the coiled material generation conveying line frame through the second connecting part, the cylinder body of the pushing cylinder is rotationally connected to the coiled material generation conveying line frame, and the piston rod of the pushing cylinder is rotationally connected with the blocking end; the material blocking end is provided with a material blocking component, and the material blocking component extends out of the top of the coiled material generation conveying line frame.

The utility model further improves the height adjusting mechanism, which comprises a height adjusting cylinder, a height adjusting mounting bracket, a sliding block and a guide rail; the cylinder body of the height-adjusting cylinder is fixed on the height-adjusting mounting bracket, and the piston rod of the height-adjusting cylinder is fixed at the bottom of the fixing bracket; the fixed support is L-shaped, the driving mechanism is fixed on one side of the L-shaped fixed support, the other side of the fixed support is connected with the guide rail through the sliding block, and the guide rail is vertically fixed on the coil generating conveyor line frame.

As a further improvement of the utility model, the inner side of the material blocking part is provided with a rubber buffer block.

As a further improvement of the utility model, the pushing end of the rotating rod is provided with a connecting groove, and a sliding wheel is rotationally connected in the connecting groove.

According to the online automatic equipotential device for preventing coiled material deformation, coiled materials are wound on the roller shafts, the roller shafts roll to the positioning grooves along the conveying guide rails, the position sensor below the positioning grooves senses signals, the friction wheels are driven by the driving mechanism to rotate, the friction wheels are in contact friction with the coiled roller shafts, the roller shafts are driven to rotate slowly, the equipotential purpose is achieved, and the coiled materials are prevented from being suspended for a long time to cause bending deformation of the coiled materials; before the roll shaft reaches the positioning groove, the roll shaft firstly collides and presses the extending part of the check rod, the check rod is pressed by pressure to rotate downwards by taking the first connecting part as a fulcrum, and the roll shaft is pressed by the check rod to roll forwards; after the roll shaft moves to the positioning groove, the check rod is rebounded and reset by taking the first connecting part as a fulcrum under the action of the spring after losing the pressure of the roll shaft, the material blocking part can block the roll shaft which continues to roll forwards due to inertia, the check rod can limit the return distance of the roll shaft after collision with the material blocking part, and the roll shaft is stopped between the extension part of the check rod and the material blocking part, so that the roll shaft is ensured to stay in the positioning groove; when the suspended coiled material is required to be discharged, the pushing cylinder retracts the piston rod, the rotating rod rotates by taking the second connecting part as a fulcrum, the height of the material blocking part is lowered, the roller shaft loses the limit function of the material blocking part on the roller shaft, the pushing end of the rotating rod rotates upwards and provides thrust for the roller shaft staying in the positioning groove, and the roller shaft is pushed to continuously roll forwards along with the coiled material.

Compared with the prior art, the online automatic equipotential device for preventing coiled material deformation has the advantages that:

simple structure, the dismouting of being convenient for, through the combination of non return device and buffering pushing equipment, it is spacing on the friction pulley with roller and coiled material, buffering pushing equipment both can play the cushioning effect to roller and coiled material in the continuous roll, also can be when the unloading is needed, pushes away the coiled material fast, realizes the online automatic equipotential of coiled material.

Drawings

FIG. 1 is a schematic diagram of an on-line automatic equipotential device for preventing deformation of a web;

FIG. 2 is a schematic view of a roller friction mechanism;

FIG. 3 is a schematic view of a height adjustment mechanism;

FIG. 4 is a schematic diagram of a pre-operative state of a coil;

FIG. 5 is a schematic illustration of an in-service coil position;

FIG. 6 is a schematic view showing the state of the coil after the end of the equipotential operation;

fig. 7 is a schematic structural diagram of a buffer pushing mechanism.

Detailed Description

The utility model is further described below with reference to the drawings and specific examples.

As shown in FIG. 1, the online automatic equipotential device for preventing coiled material deformation comprises a roll shaft friction mechanism 1, a non-return mechanism 2, a buffer pushing mechanism 3, a coiled material generation conveying line frame 4 and a position sensor 7;

a conveying guide rail 42 is arranged at the top of the coil generating conveying line frame 4; the conveying guide rail 42 is provided with a positioning groove 421 and a mounting groove 41; the mounting groove 41 is positioned right below the positioning groove 421, the positioning groove 421 is provided with a connecting hole 422, and the position sensor 7 is fixed in the positioning groove 422 through the connecting hole 422;

as shown in fig. 2, the roller shaft friction mechanism 1 includes a friction wheel 11, a driving mechanism 12, and a fixed bracket 13; the friction wheel 11 is connected with the driving mechanism 12, the driving mechanism 12 can be an existing motor and a speed reducer, and the friction wheel 11 is positioned at one side of the positioning groove 421; the driving mechanism 12 is fixed on the side edge of the coiled material generation conveying line frame 4 through a fixed bracket 13;

as shown in fig. 4, the check mechanism 2 includes a check rod 21, a spring 22, and a first connecting member 23, wherein the middle portion of the check rod 21 is rotatably connected to the coil generation conveyor line frame 4 via the first connecting member 23, and the first connecting member 23 may be a connecting shaft such as a bolt; one end of the spring 22 is fixed with the bottom end of the check rod 21, the other end of the spring 22 is fixed with the coil generation conveying line frame 4, and the top end of the check rod 21 extends out of the top of the coil generation conveying line frame 4;

as shown in fig. 7, the buffer pushing mechanism 3 includes a rotating rod 31, a pushing cylinder 32, and a second connecting member 311; the two ends of the rotating rod 31 are respectively a pushing end and a blocking end, the middle part of the rotating rod 31 is rotationally connected with the coiled material generation conveying line frame 4 through a second connecting part 311, the cylinder body of the pushing cylinder 32 is rotationally connected to the coiled material generation conveying line frame 4, and the piston rod of the pushing cylinder 32 is rotationally connected with the blocking end; the material blocking end is provided with a material blocking part 33, and the material blocking part 33 extends out of the top of the coil generating conveyor line frame 4.

According to the online automatic equipotential device for preventing coiled material deformation, coiled materials are wound on the roller shafts 5, the roller shafts 5 roll to the positioning grooves 421 along the conveying guide rail 42, the position sensor 7 below the positioning grooves 421 senses signals, the driving mechanism 12 drives the friction wheels 11 to rotate, the friction wheels 11 are in contact with the coiled roller shafts 5 to rub, the roller shafts 5 are driven to rotate slowly, the equipotential purpose is achieved, and the coiled materials are prevented from being suspended for a long time to cause bending deformation of the coiled materials; as shown in fig. 4, before the roller 5 reaches the positioning groove 421, the roller 5 first collides with the protruding portion of the check rod 21, the check rod 21 is pressed to rotate downward with the first connecting member 23 as a fulcrum, and the roller 5 continues to roll forward while pressing the check rod 21; as shown in fig. 5, after the roller 5 moves to the positioning groove 421, after the non-return rod 21 loses the pressure of the roller 5, the non-return rod 21 is rebound and reset by taking the first connecting part 23 as a fulcrum due to the action of the spring 22, the material blocking part 33 can block the roller 5 which continues to roll forwards due to inertia, the non-return rod 21 can limit the return distance after the collision of the roller 5 and the material blocking part 33, the roller 5 is stopped between the protruding part of the non-return rod 21 and the material blocking part 33, and the roller 5 is ensured to stay in the positioning groove 421; as shown in fig. 6, when the suspended coiled material is required to be discharged, the pushing cylinder 32 retracts the piston rod, the rotating rod 31 rotates with the second connecting part 311 as a pivot, the height of the blocking part 33 is lowered, the roller shaft 5 loses the limit function of the blocking part 33 on the blocking part, the pushing end of the rotating rod 31 rotates upwards and provides pushing force for the roller shaft 5 staying in the positioning groove 421, and the roller shaft 5 is pushed to continuously roll forwards along with the coiled material.

The inboard that keeps off material part 33 is equipped with rubber buffer 34, compares in roller 5 direct and keeps off material part 33 and bump, and rubber buffer 34 can play the cushioning effect to rolling roller 5, avoids roller 5 and keeps off material part 33 to damage because of violent collision.

The pushing end of the rotating rod 31 is provided with a connecting groove 35, a sliding wheel 36 is rotationally connected in the connecting groove 35, after the rotating rod 31 rotates, when the pushing end pushes the roller shaft 5 to roll forwards, the roller shaft 5 is relatively heavy compared with the pushing end which directly pushes the roller shaft 5, the sliding wheel 36 and the roller shaft 5 roll and rub, the rotating rod 31 is subjected to shock resistance and buffering, and the working stability of the rotating rod 31 is enhanced.

As shown in fig. 2-3, the online automatic equipotential device for preventing coiled material deformation of the present utility model further comprises a height adjusting mechanism 6, wherein the height adjusting mechanism 6 comprises a height adjusting cylinder 61, a height adjusting mounting bracket 62, a sliding block 63 and a guide rail 64; the cylinder body of the height-adjusting cylinder 61 is fixed on the height-adjusting mounting bracket 62, and the piston rod of the height-adjusting cylinder 61 is fixed at the bottom of the fixed bracket 13; the fixed bolster 13 is "L" shape, and actuating mechanism 12 is fixed in "L" shape fixed bolster 13 one side, and the another side of fixed bolster 13 passes through slider 63 to be connected with guide rail 64, and guide rail 64 is vertical to be fixed on coiled material production transfer chain frame 4.

In order to be suitable for the transmission of multiple roller spindle heads, the height of friction wheel 11 can be adjusted according to the spindle head size of roller 5, the height of roller friction mechanism 1 is adjusted through height-adjusting cylinder 61, guide rail 64 plays a limiting and guiding role, fixed support 13 is lifted along guide rail 64, height-adjusting cylinder 61 and guide rail 64 cooperate, and height adjustment of friction wheel 11 can be realized fast.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the utility model.

Claims

1. An online automatic equipotential device for preventing coiled material deformation is characterized by comprising a roll shaft friction mechanism, a non-return mechanism, a buffer pushing mechanism, a coiled material generation conveying line frame and a position sensor;

2. The online automatic allele device for preventing deformation of coiled material according to claim 1, further comprising a height adjusting mechanism, wherein the height adjusting mechanism comprises a height adjusting cylinder, a height adjusting mounting bracket, a sliding block and a guide rail; the cylinder body of the height-adjusting cylinder is fixed on the height-adjusting mounting bracket, and the piston rod of the height-adjusting cylinder is fixed at the bottom of the fixing bracket; the fixed support is L-shaped, the driving mechanism is fixed on one side of the L-shaped fixed support, the other side of the fixed support is connected with the guide rail through the sliding block, and the guide rail is vertically fixed on the coil generating conveyor line frame.

3. An on-line automatic equipotential device for preventing deformation of a web according to claim 1 wherein a rubber buffer block is provided on the inner side of said material blocking member.

4. The online automatic equipotential device for preventing deformation of a coiled material according to claim 1, wherein a connecting groove is provided at a pushing end of the rotating rod, and a sliding wheel is rotatably connected in the connecting groove.