CN216140846U - Bobbin automatic feeding mechanism for winding machine - Google Patents

Abstract

The utility model discloses an automatic bobbin feeding mechanism for a winding machine, which comprises a rack, wherein the rack is in a cuboid structure, side plates are arranged on four sides of the rack in a surrounding manner, an extension plate is arranged at one end above one of the four side plates, a partition plate parallel to the extension plate is arranged in the middle of the rack, a material ejecting assembly is arranged between the side plate connected with the extension plate and the partition plate, a material bin is arranged in the middle of the rack, and a conveying line is arranged above one of the four side plates adjacent to the extension plate and close to the material ejecting assembly. The utility model has the beneficial effects that: the wire barrel is placed in the bin, the wire barrel is jacked from the bin to the conveying line through the jacking assembly, and the automatic conveying of the wire barrel is realized through the conveying line; the utility model provides a structure is ingenious, is fit for the automatic feeding of a bigger size bobbin, guarantees that bobbin can not appear the phenomenon of card material when the material loading, a bobbin of material loading at every turn, and the material loading is orderly, and this feed mechanism's compact structure, and occupation space is little, easy to maintain maintenance.

Description

Bobbin automatic feeding mechanism for winding machine

Technical Field

The utility model relates to the technical field of winding machine feeding, in particular to an automatic bobbin feeding mechanism for a winding machine.

Background

A winding machine is an apparatus for winding a linear object on a specific workpiece, such as a winding machine for various kinds of threads including cotton, nylon, and copper wires. The manufacturing industry of home textiles has a considerable proportion in the whole manufacturing industry, and articles such as quilts, bed sheets, pillow cores and the like have huge market demand and unlimited packaging market potential. In the production and processing of the cotton threads, the cotton threads are often required to be wound into a bundle, so that a winding machine and a thread bobbin are required to be used, and the cotton threads are wound on the thread bobbin through the winding machine, so that the packaging, carrying, storing and application of the cotton threads are facilitated. In a winding machine, some of the bobbins are manually fed, so that the feeding speed is low and the manual labor amount is large; some vibrating discs are used for feeding materials, but the vibrating discs are used for feeding materials to larger bobbins, and the phenomenon of material blocking often occurs; some rubber rollers adopt a plurality of rubber rollers for rolling feeding, but the structure is complex, the occupied space is large, and the feeding is unstable.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic bobbin feeding mechanism for a winding machine, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an automatic bobbin feeding mechanism for a winding machine comprises a rack, wherein the rack is of a cuboid structure, side plates are arranged on four sides of the rack in a surrounding mode, an extension plate is arranged at one end above one of the four side plates, a partition plate parallel to the extension plate is arranged in the middle of the rack, a material ejecting assembly is arranged between the side plate connected with the extension plate and the partition plate, a material bin is arranged in the middle of the rack, and a conveying line is arranged above one of the four side plates adjacent to the extension plate and close to the material ejecting assembly;

the storage bin comprises a first bin wall, a second bin wall and a third bin wall which are sequentially connected, the first bin wall, the second bin wall, the third bin wall and the partition plate are intersected in the middle of the rack, one edge of the first bin wall is connected with a side plate with an extension plate, and the other edge of the first bin wall is connected with the ejection assembly;

the liftout subassembly contains the liftout cylinder, the vertical setting of liftout cylinder, and its upper end tailpiece of the piston rod is connected with the first backup pad that the level set up, the top side of backup pad is equipped with the first liftout plate of vertical setting, the side of keeping away from first liftout plate in the top of first backup pad is equipped with the head rod of vertical setting, the upper end of head rod is connected with the second liftout plate that parallels with first liftout plate, the below of first backup pad is equipped with the second connecting rod of many vertical settings, many the second backup pad of level setting is connected to the lower extreme of second connecting rod, the second liftout plate end of keeping away from of second backup pad is equipped with the third liftout plate that parallels with first liftout plate.

Preferably, the first bin wall, the second bin wall and the third bin wall are inclined downwards from the upper end of the rack to the intersection points of the first bin wall, the second bin wall, the third bin wall and the partition plate.

Preferably, the third ejector plate, the first ejector plate and the second ejector plate are in an upward stepped structural design, and the upper end surfaces of the third ejector plate, the first ejector plate and the second ejector plate are all in an inclined structural design.

It is further preferred that a first distributing plate is arranged between the first ejector plate and the third ejector plate, a second distributing plate is arranged between the second ejector plate and the first ejector plate, a third distributing plate is arranged on the side face, far away from the first ejector plate, of the second ejector plate, the side edge, far away from the second ejector plate, of the third distributing plate is close to the conveying line, the two ends of the first distributing plate, the second distributing plate and the third distributing plate are connected with the partition plate, the side plate and the extending plate respectively, and the upper end faces of the first distributing plate, the second distributing plate and the third distributing plate are all designed in an inclined structure.

Preferably, a limiting plate is arranged between the side plate and the partition plate, and the limiting plate is arranged above the first material distribution plate.

Further preferably, the transfer chain contains conveyor belt, conveyor belt's the extension board end that is close to is equipped with conveyor motor, conveyor belt's the side that is close to the liftout subassembly is equipped with first baffle, conveyor belt's the side of keeping away from the liftout subassembly is equipped with the second baffle, be equipped with the bar breach on the first baffle.

Further preferably, a stop block is arranged at the end, far away from the conveyor, of the conveying belt and vertically fixed above the conveying belt, two side edges, close to the stop block, of the conveying belt are respectively provided with a side stop block which is connected with the stop block, and a rectangular groove is formed in the side stop block.

Has the advantages that: according to the automatic bobbin feeding mechanism for the winding machine, bobbins are placed through the storage bin, the bobbins are jacked from the storage bin to the conveying line through the jacking assembly, and the bobbins are automatically conveyed through the conveying line; the automatic feeding device is ingenious in structure, suitable for automatic feeding of bobbins with large sizes, capable of guaranteeing that the bobbins cannot be clamped when being fed, capable of feeding one bobbin each time, orderly and stably, high in feeding speed and small in manual labor amount; and the feeding mechanism has compact structure, small occupied space and easy maintenance.

Drawings

Fig. 1 is a schematic axial structure diagram of an automatic bobbin feeding mechanism for a winding machine according to an embodiment of the present invention;

fig. 2 is a schematic structural view of the bobbin automatic feeding mechanism for the winding machine according to the embodiment of the present invention;

fig. 3 is a schematic top view of the bobbin automatic feeding mechanism for the winding machine according to the embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a topping assembly according to an embodiment of the present disclosure;

fig. 5 is a schematic view illustrating a state of the ejector cylinder of the ejector assembly according to the embodiment of the present invention when it is ejected;

FIG. 6 is a schematic diagram of a state of the ejector assembly during recovery of the ejector cylinder according to the embodiment of the disclosure;

fig. 7 is a schematic structural diagram of the conveying line disclosed in the embodiment of the present invention.

Reference numerals: 1-frame, 11-side plate, 12-extension plate, 13-partition plate, 14-first material dividing plate, 15-second material dividing plate, 16-third material dividing plate, 17-limit plate, 2-bin, 21-first bin wall, 22-second bin wall, 23-third bin wall, 3-material ejecting component, 31-material ejecting cylinder, 32-first support plate, 321-first material ejecting plate, 33-first connecting rod, 331-second material ejecting plate, 34-second connecting rod, 35-second support plate, 351-third material ejecting plate, 36-bracket, 37-guide piece, 4-conveying line, 41-conveying belt, 42-conveying motor, 43-first baffle plate, 44-second baffle plate, 45-stop block and 46-side stop block.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-7, an automatic bobbin feeding mechanism for a winding machine comprises a frame 1, wherein the frame 1 is in a cuboid structure, side plates 11 are arranged on four sides of the frame 1 in a surrounding manner, an extension plate 12 is arranged at one end above one of the four side plates 11, a partition plate 13 parallel to the extension plate 12 is arranged in the middle of the frame 1, a material ejecting assembly 3 is arranged between the side plate 11 connected with the extension plate 12 and the partition plate 13, a material bin 2 is arranged in the middle of the frame 1, and a conveying line 4 is arranged above one of the four side plates 11 adjacent to the extension plate 12 and close to the material ejecting assembly 3;

the storage bin 2 comprises a first bin wall 21, a second bin wall 22 and a third bin wall 23 which are sequentially connected, the first bin wall 21, the second bin wall 22, the third bin wall 23 and the partition plate 13 are intersected in the middle of the rack 1, one edge of the first bin wall 21 is connected with the side plate 11 with the extension plate 12, and the other edge of the first bin wall 21 is connected with the ejection assembly 3;

liftout subassembly 3 contains liftout cylinder 31, the vertical setting of liftout cylinder 31, its upper end tailpiece of the piston rod is connected with the first backup pad 32 of level setting, a top side of backup pad 32 is equipped with the first liftout plate 321 of vertical setting, the side of keeping away from first liftout plate 321 in the top of first backup pad 32 is equipped with the head rod 33 of vertical setting, the upper end of head rod 33 is connected with the second liftout plate 331 that parallels with first liftout plate 321, the below of first backup pad 32 is equipped with the second connecting rod 34 of many vertical settings, the lower extreme of many second connecting rods 34 is connected with the second backup pad 35 of level setting, the second liftout plate 331 end of keeping away from of second backup pad 35 is equipped with the third liftout plate 351 that parallels with first liftout plate 321.

In this application, this feed mechanism is used for the automatic feeding of line section of thick bamboo 5, holds line section of thick bamboo 5 through feed bin 2, and is ejecting in 2 with line section of thick bamboo 5 follow feed bin through liftout subassembly 3 to on the transfer chain 2 is put on the top, realize the automatic of line section of thick bamboo 5 through transfer chain 2 and carry. Wherein, the work flow of liftout subassembly 3 is: when the liftout cylinder 31 drives the first supporting plate 32 to ascend, the first connecting rod 33 and the second connecting rod 34 connected with the liftout cylinder are driven to ascend synchronously, so that the third liftout plate 351, the first liftout plate 321 and the second liftout plate 331 are driven to ascend synchronously, and the bobbin 5 in the storage bin 2 is jacked on the conveying line 4 through the third liftout plate 351. Specifically, the bobbin 5 is jacked up upwards through the third ejector plate 351, when the third ejector plate 351 rises to the height of the first distributor plate 14, the bobbin 5 rolls from the third ejector plate 351 to the first distributor plate 14, meanwhile, the bobbin 5 on the first distributor plate 14 is jacked up to the second distributor plate 15 by the first ejector plate 321, and the bobbin 5 on the second distributor plate 15 is jacked up to the third distributor plate 16 by the second ejector plate 331 and then rolls to the conveying belt 41 of the conveying line 4 through the third distributor plate 16; when the ejector cylinder 31 drives the first supporting plate 32 to descend, when the third ejector plate 351 descends to the lower end of the first bin wall 21 of the bin 2, the bobbin 5 in the bin 2 rolls onto the third ejector plate 351, meanwhile, the bobbin 5 on the first splitter plate 14 rolls onto the first ejector plate 321, and the bobbin 5 on the second splitter plate 15 rolls onto the second ejector plate 331; the bobbin 5 is continuously conveyed to the conveying belt 41 of the conveying line 4 through continuous lifting of the material ejecting cylinder 31, and continuous feeding of the bobbin 5 is realized.

In this application, third ejector plate 351, first flitch 14, first ejector plate 321, second flitch 15, second ejector plate 331 and third flitch 16 all adopt the slope structural design, its incline direction is from preceding backward downward sloping, the plate width is greater than the diameter of a bobbin 5 and is less than the diameter of two bobbins simultaneously, guarantee bobbin 5 can loop through first ejector plate 14 from third ejector plate 351, first ejector plate 321, second ejector plate 15 and second ejector plate 331 roll to third flitch 16 on, and only a bobbin 5 carries out the material loading at every turn. The bobbin feeding mechanism is ingenious in structure, is suitable for automatic feeding of bobbins 5 with large sizes, ensures that the bobbins 5 cannot be blocked when being fed, and is orderly fed after one bobbin 5 is fed each time; and the feeding mechanism has compact structure, small occupied space and easy maintenance.

In this application, first bulkhead 21, second bulkhead 22 and third bulkhead 23 all incline downwards to the intersection of first bulkhead 21, second bulkhead 22, third bulkhead 23 and baffle 13 from the upper end of frame 1, guarantee that the bobbin 5 in feed bin 2 can keep always being located the minimum of feed bin 2 and be close to liftout subassembly 3 department, guarantee the continuous feed.

In this application, be equipped with limiting plate 17 between curb plate 11 and the baffle 13, limiting plate 17 sets up in the top of first minute flitch 14, through limiting plate 17's setting, guarantees that bobbin 5 can be with the horizontal roll to first minute flitch 14 on.

In the application, the conveying line 4 comprises a conveying belt 41, a conveying motor 42 is arranged at the end, close to the extension plate 12, of the conveying belt 41, a first baffle 43 is arranged on the side, close to the material ejecting assembly 3, of the conveying belt 41, a second baffle 44 is arranged on the side, far away from the material ejecting assembly 3, of the conveying belt 41, and a strip-shaped notch is formed in the first baffle 43; the end, far away from the conveying motor 42, of the conveying belt 41 is provided with a stop block 45 which is vertically fixed above the conveying belt 41, two side edges, close to the stop block 45, of the conveying belt 41 are respectively provided with a side stop block 46 which is connected with the stop block 45, and the side stop blocks 46 are provided with rectangular grooves.

In this application, transfer chain 4 is used for carrying bobbin 5 of liftout subassembly 3 jack-up to the wire winding position of coiling machine, drives conveyor belt 41 through conveying motor 42 and rotates, drives bobbin 5 and carries right, until dog 45 department. The first baffle 43, the second baffle 44 and the side baffle 46 are respectively arranged on two sides of the conveying belt, so that the bobbin 5 cannot fall off from the conveying belt 4 or the bobbin 5 is inclined, the bobbin 5 can conveniently roll into the conveying belt 41 from the third material distributing plate 16 through the strip-shaped notch on the first baffle 43, and the bobbin 5 can be conveniently clamped by a manipulator through the rectangular groove on the side baffle 46.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall be included in the contents of the present invention within the scope of the protection of the present invention.

Claims (7)

1. The utility model provides a bobbin automatic feeding mechanism for coiling machine which characterized in that: the automatic feeding device comprises a rack (1), wherein the rack (1) is of a cuboid structure, side plates (11) are arranged on four sides of the rack in an enclosing manner, an extension plate (12) is arranged at one end above one of the four side plates (11), a partition plate (13) parallel to the extension plate (12) is arranged in the middle of the rack (1), a material ejecting assembly (3) is arranged between the side plate (11) connected with the extension plate (12) and the partition plate (13), a storage bin (2) is arranged in the middle of the rack (1), a conveying line (4) is arranged above one of the four side plates (11) adjacent to the extension plate (12) and is arranged close to the material ejecting assembly (3);

the storage bin (2) comprises a first bin wall (21), a second bin wall (22) and a third bin wall (23) which are sequentially connected, the first bin wall (21), the second bin wall (22), the third bin wall (23) and a partition plate (13) are intersected in the middle of the rack (1), one side of the first bin wall (21) is connected with a side plate (11) with an extension plate (12), and the other side of the first bin wall (21) is connected with the ejection assembly (3);

the material ejecting component (3) comprises an ejecting cylinder (31), the ejecting cylinder (31) is vertically arranged, a first supporting plate (32) which is horizontally arranged is connected at the piston rod end of the upper end of the piston rod, a first ejector plate (321) which is vertically arranged is arranged on one side edge above the supporting plate (32), a first connecting rod (33) which is vertically arranged is arranged on the side edge of the upper part of the first supporting plate (32) far away from the first ejector plate (321), the upper end of the first connecting rod (33) is connected with a second ejector plate (331) parallel to the first ejector plate (321), a plurality of second connecting rods (34) which are vertically arranged are arranged below the first supporting plate (32), the lower ends of the second connecting rods (34) are connected with a second supporting plate (35) which is horizontally arranged, and a third ejector plate (351) parallel to the first ejector plate (321) is arranged at the end, far away from the second ejector plate (331), of the second support plate (35).

2. The bobbin automatic feeding mechanism for the winding machine according to claim 1, characterized in that: the first bin wall (21), the second bin wall (22) and the third bin wall (23) are inclined downwards from the upper end of the rack (1) to the intersection points of the first bin wall (21), the second bin wall (22), the third bin wall (23) and the partition plate (13).

3. The bobbin automatic feeding mechanism for the winding machine according to claim 1, characterized in that: the third ejector plate (351), the first ejector plate (321) and the second ejector plate (331) are designed to be of an upward stepped structure, and the upper end faces of the third ejector plate (351), the first ejector plate (321) and the second ejector plate (331) are all designed to be of an inclined structure.

4. The bobbin automatic feeding mechanism for the winding machine according to claim 1, characterized in that: be equipped with first flitch (14) that divides between first flitch (321) and third flitch (351), be equipped with second flitch (15) that divides between second flitch (331) and first flitch (321), the side of keeping away from first flitch (321) of second flitch (331) is equipped with third flitch (16) that divides, the side of keeping away from second flitch (331) of third flitch (16) is close to transfer chain (4) and sets up, the both ends of first flitch (14), second flitch (15) and third flitch (16) are connected with baffle (13) and curb plate (11) and extension board (12) thereof respectively, the up end of first flitch (14), second flitch (15) and third flitch (16) all adopts the slope structural design.

5. The bobbin automatic feeding mechanism for the winding machine according to claim 1, characterized in that: a limiting plate (17) is arranged between the side plate (11) and the partition plate (13), and the limiting plate (17) is arranged above the first material distributing plate (14).

6. The bobbin automatic feeding mechanism for the winding machine according to claim 1, characterized in that: the conveying line (4) comprises a conveying belt (41), the end, close to the extension plate (12), of the conveying belt (41) is provided with a conveying motor (42), the side, close to the ejection assembly (3), of the conveying belt (41) is provided with a first baffle (43), the side, far away from the ejection assembly (3), of the conveying belt (41) is provided with a second baffle (44), and a bar notch is formed in the first baffle (43).

7. The bobbin automatic feeding mechanism for the winding machine according to claim 6, characterized in that: the conveying belt is characterized in that a stop block (45) is arranged at the end, far away from the conveying motor (42), of the conveying belt (41) and is vertically fixed above the conveying belt (41), two side edges, close to the stop block (45), of the conveying belt (41) are respectively provided with a side stop block (46) which is connected with the stop block (45), and rectangular grooves are formed in the side stop blocks (46).

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