CN217050509U - Roll up core feed mechanism - Google Patents

Abstract

The utility model discloses a roll core feeding mechanism, which comprises a workbench; the sliding frame moves along the length direction of the workbench under the action of the horizontal driving piece; the lifting frame is arranged on the sliding frame and can move up and down along the sliding frame under the action of the lifting driving piece. The conveying device comprises a fine adjustment assembly arranged on the lifting plate and a conveying assembly connected with the fine adjustment assembly, the fine adjustment assembly can push the conveying assembly to move in the width direction of the workbench, and the conveying assembly is used for conveying the winding cores. Can carry out stable material loading to rolling up the core, the regulation of accessible conveying component improves the precision of transmission simultaneously, and the single realizes a plurality of core material loadings of rolling up simultaneously, has improved work efficiency.

Description

Roll up core feed mechanism

Technical Field

The utility model relates to a stock form processing equipment technical field especially relates to a roll up core feed mechanism.

Background

Roll-type face washing towels are increasingly popular with consumers, the face washing towels are sanitary products which can be in high-frequency contact with each day, consumption is large, and the face washing towels need to be purchased frequently. The washcloth comprises a core roll paper and a coreless roll paper, and the cored washcloth is formed by winding a paper towel outside a hard roll core. In the processing process of the washcloth with the core, the winding core needs to be placed on a fixing shaft of a winding mechanism to wind the washcloth. A plurality of roll cores can be sleeved on a fixed shaft to perform synchronous winding, how to perform quick feeding on the roll cores, and the problem that the feeding speed is increased to be solved is solved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a roll up core feed mechanism can carry out stable material loading to rolling up the core, and the precision of transmission is improved in accessible transport assembly's regulation simultaneously, and the single realizes a plurality of roll core material loadings simultaneously, has improved work efficiency.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a roll core feeding mechanism comprises a workbench; the sliding frame moves along the length direction of the workbench under the action of the horizontal driving piece; the lifting frame is arranged on the sliding frame and can move up and down along the sliding frame under the action of a lifting driving piece; the conveying device comprises a fine adjustment assembly arranged on the lifting plate and a conveying assembly connected with the fine adjustment assembly, the fine adjustment assembly can push the conveying assembly to move in the width direction of the workbench, and the conveying assembly is used for conveying the winding cores.

The beneficial effects of the utility model reside in that: horizontal driving piece drive conveying assembly moves on workstation length direction, and lift driving piece drive conveying assembly moves at the direction of height, and fine setting subassembly can drive conveying assembly and remove at workstation width direction, and then has realized conveying assembly at three ascending removal of axial, has improved the precision of conveying assembly at certain in-process. Roll up the core through the transport assembly connection simultaneously, rethread horizontal driving piece removes rolls up the core, can deposit a plurality of book cores on transport assembly, realizes the material loading of a plurality of book cores of single, has improved work efficiency.

Further say, the fine setting subassembly is including rotating the lead screw of connection on the lifter plate, lead screw threaded connection has the transport base, the axis of lead screw extends along width direction on the workstation, just the lead screw can be under the effect of lead screw driving piece along axial rotation, transport assembly sets up on carrying the base. The driving screw rod rotates to quickly adjust the position of the conveying assembly.

Further, the conveying assembly comprises two conveying lines symmetrically arranged on the conveying base, and each conveying line is inclined towards the other conveying line from top to bottom. Roll up core and get into conveyor components, follow between two transfer chains, to rolling up the core spacing under two transfer chains on the horizontal plane promptly, avoid rolling up the core swing in the horizontal plane, improved stability. Meanwhile, the friction force between the conveying line and the winding core can be utilized to provide power for the movement of the winding core from two sides.

Further, an inclined plane consistent with the inclination angle of the conveying line is arranged on the conveying base, and the conveying line is arranged on the inclined plane.

Further, conveyor still includes the clamp plate that is located the conveyor components top, the clamp plate can compress tightly the book core that is located the conveyor components, the clamp plate reciprocates under the clamp plate driving piece effect, the clamp plate driving piece is setting up on the crane. The clamp plate has improved the stability that rolls up a core and remove, and when conveying mechanism will roll up a core and carry conveying assembly on, the clamp plate shifts up, and the core of being convenient for is rolled up and is removed conveying assembly on. However, in the process that the horizontal driving part drives the sliding frame to move, the pressing plate is always pressed on the winding core, and the stability of the movement of the winding core is improved.

Further say, the clamp plate is provided with the elastic layer with the butt face of rolling up the core, and the elastic layer has effectively protected the core of rolling up with roll up core flexible contact, avoids the damage to rolling up the core.

Further, the lifting frame comprises a first transverse plate and two first vertical plates perpendicular to the first transverse plate, the two first vertical plates extend downwards along two end portions of the transverse plate respectively, first sliding blocks are arranged on the first vertical plates, and first guide rails for the first sliding blocks to slide are arranged on the sliding frame. The stability that the lifter plate removed has been improved in the cooperation of first guide rail and first slider.

Further, the sliding frame comprises a second transverse plate, a second vertical plate which is parallel to and corresponds to the first vertical plate is vertically arranged on the second transverse plate, the first guide rail is fixed on the second vertical plate, and a connecting plate which is perpendicular to the first vertical plate is arranged between the first vertical plate and the second vertical plate.

Further, a fixed rod extending along the conveying direction is arranged on one conveying line, and a sensor is arranged on the fixed rod. The sensor is used for counting the number of cores entering the conveying line.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is another angle structure diagram of the embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

fig. 4 is a schematic perspective view of the sliding rack according to the embodiment of the present invention.

In the figure:

1. a work table; 2. a carriage; 21. a second transverse plate; 22. a second vertical plate; 221. a first guide rail; 23. a connecting plate; 3. a horizontal drive member; 4. a lifting frame; 41. a first transverse plate; 42. a first vertical plate; 421. a first slider; 5. a lifting drive member; 6. a fine adjustment component; 61. a screw rod; 62. a conveying base; 621. a bevel; 7. a delivery assembly; 71. a conveying line; 8. pressing a plate; 9. a platen drive; 10. a fixing rod;

100. a winding mechanism; 200. and (6) winding cores.

Detailed Description

The following description of the preferred embodiments of the present invention will be provided with reference to the accompanying drawings, so that the advantages and features of the present invention can be easily understood by those skilled in the art, and the scope of the present invention can be clearly and clearly defined.

Examples

Referring to fig. 1-2, the utility model discloses a roll up core feed mechanism, including workstation 1, carriage 2, crane 4 and conveyor. The table 1 is provided between a conveying mechanism (not shown) and the winding mechanism 100, and a core feeder mechanism moves the cores 200 conveyed by the conveying mechanism to the winding mechanism 100.

The carriage 2 is moved by the horizontal drive 3 along the length of the table 1, i.e. the carriage 2 can be moved back and forth between the transport mechanism and the winding mechanism 100. The horizontal driving member 3 may be a horizontal cylinder fixed outside the working platform 1, and a piston rod of the horizontal cylinder is fixedly connected to the sliding frame 2, so that when the horizontal cylinder is actuated, the sliding frame 2 is pushed to move back and forth between the conveying mechanism and the winding mechanism 100.

The sliding frame 2 is connected with a lifting frame 4 which moves up and down under the action of a lifting driving piece 5 in a sliding way, and the lifting frame 4 and the sliding frame 2 synchronously and horizontally slide and can move up and down along the sliding frame 2. The lifting driving piece 5 is fixed on the sliding frame 2 and provides power for the lifting frame 4 to move up and down. The lifting driving piece 5 can be a lifting cylinder, and a piston rod of the lifting cylinder is fixedly connected with the lifting frame 4.

The lifting frame 4 is provided with a conveying device which synchronously moves with the lifting frame, and the conveying device comprises a fine adjustment assembly 6 fixed on the lifting plate and a conveying assembly 7 connected with the fine adjustment assembly 6. The fine adjustment assembly 6 can push the conveying assembly 7 to move in the width direction of the workbench 1, and the conveying assembly 7 is used for conveying the winding cores.

Horizontal drive piece 3 drive carriage 2 removes towards conveying mechanism, and conveying component 7 plugged into with conveying mechanism this moment, and the last book core of conveying mechanism removes one by one and gets into on conveying component 7, then conveying component 7 carries to roll up the core, guarantees to deposit a plurality of book cores on the conveying component 7. The horizontal drive 3 then drives the carriage 2 towards the winding mechanism 100, while the transport assembly 7 is docked with the winding mechanism 100. Then the conveying component 7 acts to move the core on the conveying component 7 to the winding shaft of the winding mechanism 100, when the core is pushed to the winding shaft, in order to reduce the friction between the conveying component 7 and the core, the lifting driving component 5 drives the lifting frame 4 and the conveying component 7 on the lifting frame 4 to move downwards, and at the moment, the conveying component 7 is separated from the core. Then the horizontal driving piece 3 drives the sliding frame 2 to reset, when the sliding frame 2 moves to the position of the conveying mechanism, the descending driving piece drives the lifting frame 4 and the conveying assembly 7 positioned on the lifting frame 4 to move upwards, and at the moment, the conveying assembly 7 is connected with the winding mechanism 100. Conveying component 7 and horizontal driving piece 3's cooperation guarantees a plurality of rolls up core 200 material loading simultaneously, and the cooperation of lifting driving piece 5 and conveying component 7 simultaneously lets roll up the core material loading and accomplishes the back, and conveying component 7 can separate with rolling up core 200, reduces and roll up the friction of core 200, avoids when conveying component 7 returns to the throne, will roll up core 200 and take out around rolling up mechanism 100.

In one embodiment, the conveying device further comprises a pressing plate 8 positioned above the conveying assembly 7, the pressing plate 8 can press the winding core positioned on the conveying assembly 7, the pressing plate 8 moves up and down under the action of a pressing plate driving part 9, and the pressing plate driving part 9 is arranged on the lifting frame 4. The pressing plate 8 and the conveying component 7 move synchronously and can move up and down under the action of the pressing plate driving part 9, and when moving down, the winding core on the conveying component 7 can be pressed tightly.

The pressing plate 8 improves the stability of the movement of the winding core, and when the conveying mechanism conveys the winding core 200 to the conveying assembly 7, the pressing plate 8 moves upwards, so that the winding core can be conveniently moved to the conveying assembly 7. However, in the process that the horizontal driving element 3 drives the sliding rack 2 to move, the pressing plate 8 is always pressed on the winding core 200, and the moving stability of the winding core 200 is improved.

In one embodiment, a guide rod is fixed on the pressure plate 8 and positioned on one side of the conveying component 7, and a guide sleeve for the guide rod to slide is arranged on the lifting frame 4.

In one embodiment, the abutting surface of the pressing plate 8 and the winding core 200 is provided with an elastic layer, and the elastic layer avoids rigid contact between the pressing plate 8 and the winding core 200, so that damage to the winding core is reduced. The elastic layer can be rubber or silica gel and is adhered to the pressing plate 8.

Referring to fig. 3, the fine adjustment assembly 6 includes a screw rod 61 rotatably connected to the lifting plate, the screw rod 61 is in threaded connection with a conveying base 62, an axis of the screw rod 61 extends along a width direction of the workbench 1, the screw rod 61 can rotate axially under the action of a driving member of the screw rod 61, and the conveying assembly 7 is arranged on the conveying base 62. The screw driving member may be a hand wheel, and manually drives the screw 61 to rotate, so as to adjust the position of the conveying base 62. The fine adjustment assembly 6 is used for fine adjustment of the position of the conveying assembly 7, the conveying assembly 7 and the conveying mechanism are aligned in the width direction of the workbench 1, and the connection accuracy of the conveying assembly 7 is improved.

The conveying assembly 7 comprises two conveying lines 71 symmetrically arranged on the conveying base 62, and each conveying line 71 is inclined towards the other conveying line 71 from top to bottom. The two conveying lines 71 are of an inverted eight-shaped structure and are abutted to the outer wall of the winding core, so that the cylindrical winding core can be conveniently conveyed.

Each conveying line 71 comprises a driving wheel and a driven wheel which are obliquely arranged, an upper plate is arranged above the driving wheel and the driven wheel, a lower plate is arranged below the driving wheel and the driven wheel, the conveying wheels and the driven wheels are rotatably connected between the upper part and the lower part, and a closed-loop conveying belt is wound outside the driving wheel and the driven wheels. The transmission band is abutted against the outer wall of the winding core, and the winding core is conveyed by means of friction force. The upper plate is fixed with a transmission driving piece which drives the driving wheel to rotate.

A fixed rod 10 extending along the conveying direction is arranged on one conveying line 71, and a sensor is arranged on the fixed rod 10. The fixed bar 10 is fixed to the upper plate, and a sensor is provided on the side of the upper plate close to the conveying mechanism, and the sensor is used for counting the number of the winding cores on the metal conveying line 71. When a set number of cores is entered on the conveyor line 71, the carriage 2 is driven to slide by the horizontal drive member 3.

The conveying base 62 is provided with a slope 621 which has the same inclination angle with the conveying line 71, and the conveying line 71 is arranged on the slope 621.

In one embodiment, the lifting frame 4 includes a first horizontal plate 41 and two first vertical plates 42 perpendicular to the first horizontal plate 41, the two first vertical plates 42 respectively extend downwards along two ends of the horizontal plate, a first sliding block 421 is disposed on the first vertical plates 42, and a first guide rail 221 for sliding the first sliding block 421 is disposed on the sliding frame 2. The first guide rail 221 and the first slide block 421 are matched, so that the lifting stability of the lifting frame 4 is improved. Meanwhile, the lifting frame 4 is of a door-shaped structure and stable in structure, and provides stable support for the conveying device.

Referring to fig. 4, the sliding rack 2 includes a second horizontal plate 21, a second vertical plate 22 parallel to and corresponding to the first vertical plate 42 is vertically disposed on the second horizontal plate 21, the first guide rail 221 is fixed on the second vertical plate 22, and a connecting plate 23 perpendicular to the first vertical plate 42 is disposed between the first vertical plate 42 and the second vertical plate 22. The carriage 2 provides stable support for the removal of crane 4 through second riser 22, and the setting of connecting plate 23 has improved the holistic stability of carriage 2 simultaneously.

In one embodiment, in order to improve the sliding stability of the sliding frame 2, the workbench 1 is provided with a second guide rail along the length direction thereof, and a second sliding block capable of sliding along the second guide rail is fixed on the lower end surface of the second transverse plate 21. When the horizontal driving member 3 drives the sliding frame 2 to slide, the sliding frame 2 slides along the second guide rail.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (9)

1. The utility model provides a roll up core feed mechanism which characterized in that: comprises that

A work table;

the sliding frame moves along the length direction of the workbench under the action of the horizontal driving piece;

the lifting frame is arranged on the sliding frame and can move up and down along the sliding frame under the action of the lifting driving piece;

the conveying device comprises a fine adjustment assembly arranged on the lifting plate and a conveying assembly connected with the fine adjustment assembly, the fine adjustment assembly can push the conveying assembly to move in the width direction of the workbench, and the conveying assembly is used for conveying the winding cores.

2. The core loading mechanism of claim 1, wherein: the fine setting subassembly is including rotating the lead screw of connection on the lifter plate, lead screw threaded connection has the transport base, the axis of lead screw extends along width direction on the workstation, just the lead screw can be under the effect of lead screw driving piece along axial rotation, the transport assembly sets up on carrying the base.

3. Core feed mechanism according to claim 2, characterized in that: the conveying assembly comprises two conveying lines symmetrically arranged on a conveying base, and each conveying line is inclined towards the other conveying line from top to bottom.

4. The core loading mechanism of claim 3, wherein: the conveying base is provided with an inclined plane consistent with the inclination angle of the conveying line, and the conveying line is arranged on the inclined plane.

5. Core feed mechanism according to any of claims 1-4, characterized in that: the conveying device further comprises a pressing plate located above the conveying assembly, the pressing plate can compress a roll core located on the conveying assembly, the pressing plate moves up and down under the action of a pressing plate driving piece, and the pressing plate driving piece is arranged on the lifting frame.

6. Core feed mechanism according to claim 5, characterized in that: and an elastic layer is arranged on the abutting surface of the pressing plate and the winding core.

7. The core loading mechanism of claim 1, wherein: the crane comprises a first transverse plate and two first vertical plates which are perpendicular to the first transverse plate, the first vertical plates extend downwards along two end portions of the transverse plate respectively, first sliding blocks are arranged on the first vertical plates, and first guide rails for the first sliding blocks to slide are arranged on the sliding frame.

8. Core feed mechanism according to claim 7, characterized in that: the sliding frame comprises a second transverse plate, a second vertical plate which is parallel to and corresponds to the first vertical plate is vertically arranged on the second transverse plate, the first guide rail is fixed on the second vertical plate, and a connecting plate which is vertical to the first vertical plate is arranged between the first vertical plate and the second vertical plate.

9. The core loading mechanism of claim 3, wherein: and a fixed rod extending along the conveying direction is arranged on one conveying line, and a sensor is arranged on the fixed rod.

Images