CN112046842A - Transmission mechanism of cotton press - Google Patents

Abstract

The invention discloses a transmission mechanism of a cotton baler, which structurally comprises: the cotton collecting assembly comprises a cotton collecting box and a transmission chain plate arranged at the bottom of the cotton collecting box, and the cotton collecting assembly is used for receiving cotton and integrally transmitting the cotton; the traction assembly is used for arranging the cotton in the cotton collecting assembly and then outputting the cotton to the cotton forming box; the pressing component is used for receiving the cotton output by the traction component, performing multiple extrusion and pressing into pieces and outputting the pieces into the packaging cavity; the innovation points are as follows: its structure still includes the transmission band, and conveyer belt intercommunication collection cotton case and cotton shaping case, the head end and the transmission link joint of conveyer belt connect mutually, and its end pastes with the bundling belt in packing chamber mutually, and traction assembly and preforming subassembly all set up the top at the conveyer belt. The cotton picking machine adopts the design of the through type transmission channel, so that the transmission efficiency of cotton is accelerated, the picked cotton is simply and quickly transmitted into the packaging cavity for packaging and outputting, and the labor hour is effectively saved.

Description

Transmission mechanism of cotton press

The technical field is as follows:

the invention relates to the technical field of cotton packing equipment, in particular to a transmission mechanism of a cotton packing machine.

Background art:

with the increasing of cotton yield year by year in China, particularly in Xinjiang areas, the cotton planting scale is large, the manual picking and manual packing of traditional agriculture can not meet the requirements of social development, and at present, a cotton packing machine is mainly used for packing cotton rapidly, so that the packing efficiency of cotton is greatly improved. Cotton baling press among the prior art, its transmission path adopts stirring formula hob design, directly transmits to the packing chamber through the belt pulley in, has following several kinds of defects: 1. the transmission channel is narrow, cotton is easy to block and block in the feeding mechanism, and the transmission efficiency is low; 2. the extrusion effect of spiral shell swiveling wheel is poor, and the cotton piece can't effectively extrude, leads to the packing compactness of bundling not enough, influences the quality of packing.

The invention content is as follows:

it is an object of the present invention to provide a transport mechanism for a cotton baler that solves one or more of the above-mentioned problems of the prior art.

The invention relates to a transmission mechanism of a cotton baler, which structurally comprises:

the cotton collecting assembly comprises a cotton collecting box for receiving and containing cotton and a transmission chain plate arranged at the bottom of the cotton collecting box, and the cotton collecting assembly is used for receiving the cotton and integrally transmitting the cotton;

the cotton collecting assembly is used for collecting cotton in the cotton collecting assembly and outputting the cotton to the cotton forming box, the cotton forming box comprises a filling cavity and a packing cavity, and the filling cavity receives the cotton output by the cotton collecting assembly;

the pressing component is used for receiving the cotton output by the traction component, performing multiple extrusion and pressing into pieces and outputting the pieces into the packaging cavity;

the innovation points are as follows: its structure still includes the transmission band, and conveyer belt intercommunication collection cotton case and cotton shaping case, the head end and the transmission link joint of conveyer belt connect mutually, and its end pastes with the bundling belt in packing chamber mutually, and traction assembly and preforming subassembly all set up the top at the conveyer belt.

Furthermore, be equipped with the transmission path with cotton collection subassembly intercommunication on the cotton shaping case, transmission path intercommunication is in the inside of filling the chamber, transmission path's below is the conveyer belt, the direction of transfer of conveyer belt is towards transmission path, transmission path forms a transfer port in cotton collection case one side and conveyer belt, cotton collection case and cotton shaping case are separated to the transfer port, it leads cotton baffle to be provided with the cotton baffle of leading that can open and shut in the top of the cotton one side of transfer port one-tenth, the height of leading cotton baffle equals with transmission path's height, the direction of opening of leading cotton baffle is towards cotton shaping case.

Furthermore, the traction assembly is distributed on one cotton collecting side of the conveying opening and arranged at the head end of the conveying belt, a feed back channel is formed between the traction assembly and the conveying belt, and cotton scattered in the filling cavity returns to the cotton collecting box through the feed back channel for secondary cotton collecting;

the preforming subassembly distributes in transmission passage's top and distributes along transmission passage's extending direction, forms the extrusion passageway between preforming subassembly and the conveyer belt, packs intracavity arrangement fashioned cotton and transmits into the packing intracavity after extruding the piece many times through the extrusion passageway.

Further, the traction assembly comprises a plurality of driving rollers which are sequentially arranged and traction rollers which are perpendicular to the driving rollers, the driving rollers which are horizontally distributed form a rectangular driving roller group, the traction rollers which are vertically distributed form a traction roller group, and the circumferential surfaces of the driving rollers and the traction rollers are provided with poking teeth.

Furthermore, the upper surface of the transmission roller group is horizontal to the transmission chain plate, a cotton swallowing opening is formed between the upper surface of the transmission roller group and the traction roller, and the cotton swallowing opening is close to the conveying opening; a feed back channel is formed between the lower surface of the transmission roller group and the conveyor belt, and a feed back outlet is formed between the side edge of the transmission roller group and the side edge of the transmission chain plate.

Further, the tabletting assembly sequentially comprises a guide wheel, a compression roller set and a cotton guide assembly from left to right, and the rotation directions of the guide wheel and the compression roller set are the same as the transmission direction of the conveyor belt; 6 same round rods are equidistantly distributed on the outer side of the guide wheel and rotate along with the guide wheel, the compression roller group comprises 3 compression rollers which are connected from left to right through chain transmission, the height of the compression roller group is smaller than that of the guide wheel, the cotton guide assembly comprises an elastic rotating shaft and a plurality of cotton guide tooth welding strips welded on the outer side of the elastic rotating shaft, the cotton guide tooth welding strips are distributed in parallel and equidistantly to form a cotton guide surface, a packing cavity is arranged above the cotton guide surface, and an extrusion channel is arranged below the cotton guide surface;

the transmission mechanism of the invention is provided with the traction component and the tabletting component in the transmission channel on the conveyor belt, and has the advantages that: 1. the cotton conveying efficiency is improved, the picked cotton is simply and quickly conveyed into the packing cavity to be packed and output, and the labor and time are effectively saved; 2. due to the design of the through type traction assembly, the phenomena of idling and jamming of cotton in the transmission process are effectively avoided, and the transmission safety is improved; 3. the multi-aspect preforming setting carries out the maximize extrusion to the cotton piece, effectively guarantees follow-up bundling weight and the unity of specification, increases the compactness of cotton bale.

Description of the drawings:

fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged view of the overall structure of the present invention.

Figure 3 is a schematic view of the construction of the sheeting assembly of the present invention.

The specific implementation mode is as follows:

for the purpose of enhancing the understanding of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, which are only used for explaining the present invention and are not to be construed as limiting the scope of the present invention.

In describing embodiments of the present invention, the terms "upper," "lower," "left," "right," "top," "bottom," and the like are used in an orientation or positional relationship indicated in the accompanying drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore the above-described terms should not be construed as limiting the present invention.

As shown in fig. 1 to 3, a conveying mechanism of a cotton baler according to an embodiment of the present invention comprises:

the cotton collecting assembly 1 comprises a cotton collecting box 11 for receiving and containing cotton and a transmission chain plate 12 arranged at the bottom of the cotton collecting box 11, and the cotton collecting assembly 1 is used for receiving the cotton and integrally transmitting the cotton;

the traction assembly 2 is used for arranging the cotton in the cotton collecting assembly 1 and outputting the cotton to the cotton forming box 4, the cotton forming box 4 comprises a filling cavity 41 and a packing cavity 42, and the filling cavity 41 receives the cotton output by the traction assembly 2;

the tabletting component 3 is used for receiving the cotton output by the traction component 2, extruding the cotton for multiple times into pieces and outputting the pieces into the packing cavity 42;

the cotton bale press further comprises a conveying belt 5, the conveying belt 5 is communicated with the cotton collecting box 11 and the cotton forming box 4, the head end of the conveying belt 5 is connected with a conveying chain plate 12, the tail end of the conveying belt 5 is attached to a bundling belt of the bundling cavity 42, and the traction assembly 2 and the pressing assembly 3 are arranged above the conveying belt 5.

In the invention, a conveying channel 6 communicated with the cotton collecting component 1 is arranged on the cotton forming box 4, the conveying channel 6 is communicated in the filling cavity 41, a conveyor belt 5 is arranged below the conveying channel 6, the conveying direction of the conveyor belt 5 faces to the conveying channel, the conveying channel 6 and the conveyor belt 5 form a conveying opening 7 on one side of the cotton collecting box 11, and the conveying opening 7 separates the cotton collecting box 11 from the cotton forming box 4.

In the invention, the cotton picking equipment puts the picked cotton into the cotton collecting box 11, the put cotton is conveyed by the conveying chain plate 12 and is conveyed and pulled to the inside of the conveying channel 6 by the traction assembly 2, the conveying belt 5 conveys the cotton to the lower part of the tabletting assembly 3 and extrudes the cotton into pieces when the cotton is in the conveying channel 6, and the conveying channel 6 conveys the cotton pieces to the packing cavity 42.

In the invention, an openable cotton guide baffle 8 is arranged above the cotton forming side of the delivery opening 7, the height of the cotton guide baffle 8 is equal to that of the delivery channel 6, and the opening direction of the cotton guide baffle 8 faces the cotton forming box 4.

In the invention, the traction assembly 2 is distributed at the cotton collecting side of the conveying opening 7 and is arranged at the head end of the conveying belt 5, the tabletting assemblies 3 are distributed above the conveying channel 6 and are distributed along the extending direction of the conveying channel 6, an extrusion channel 10 is formed between the tabletting assemblies 3 and the conveying belt 5, and cotton finished and formed in the filling cavity 41 is extruded into tablets for multiple times through the extrusion channel 10 and then is conveyed into the packing cavity 42.

In the invention, cotton in the cotton collecting box 11 forms a whole block-shaped cotton piece after passing through the traction assembly 2, the traction assembly 2 pushes the cotton piece to be transmitted to the cotton forming side from the position of the delivery opening 7, the cotton guide baffle 8 is in a closed state at the moment, and the cotton piece pushes the cotton guide baffle 8 open under the action of the pushing force, so that the cotton piece falls into the filling cavity 41 along the direction of the cotton guide baffle 8. As the cotton guide baffle 8 is made of soft rubber and falls back downwards under the action of self gravity, cotton sheets in the filling cavity 41 are pre-compressed once and then are conveyed into the lower part of the tabletting component 3 along with the conveying belt 5 to be completely compressed.

In the present invention, to explain the specific structure of the pulling assembly 2 specifically, the pulling assembly 2 includes a plurality of driving rollers 21 placed in sequence and a plurality of pulling rollers 22 perpendicular to the driving rollers 21, a plurality of driving rollers 21 distributed horizontally form a rectangular driving roller group 23, a plurality of pulling rollers 22 distributed vertically form a pulling roller group 25, and the circumferential surfaces of the driving rollers 21 and the pulling rollers 22 are both provided with shifting teeth 24, and the shifting teeth 24 push and control the traveling direction of the cotton.

In the invention, the upper surface of the driving roller group 23 is horizontal to the transmission chain plate 12, a cotton swallowing opening 201 is formed between the upper surface of the driving roller group 23 and the drawing roller 22, the cotton swallowing opening 201 is close to the transmission opening 7, and the cotton after being finished is transmitted to the next section of structure from the cotton swallowing opening 201.

In the invention, a feed back channel 9 is formed between the lower surface of the driving roller group 23 and the conveyor belt 5, a feed back outlet 91 is formed between the side edge of the driving roller group 23 and the side edge of the conveying chain plate 12, as the driving roller group 23 is arranged above the conveyor belt 5, and the staggered shifting teeth 24 are arranged on the driving roller 21, a small amount of scattered cotton falls into the feed back channel 9 of the conveyor belt 5 in the conveying process, one part of the scattered cotton is continuously conveyed to the tabletting assembly 3 along with the conveyor belt 5, and the other part of the scattered cotton is conveyed back to the cotton collecting box 11 from the feed back outlet 91 along with the shifting teeth 24 of the driving roller 21 for re-conveying.

It should be noted that, when a situation that cotton is jammed during transportation and the traction roller 22 idles, the conveyor belt 5 stops conveying, the rotation directions of the traction roller 22 and the conveyor roller 21 are changed to the original opposite directions to rotate, at this time, the cotton in the cotton swallowing port 201 is rotated and scattered, and is sent back to the cotton collecting box 11 again, the conveyor belt 5 resumes conveying, and the traction assembly 2 is changed back to the forward rotation again.

In the present invention, in order to specifically describe the specific structure of the sheeting component 3, the sheeting component 3 sequentially comprises a guide wheel 31, a press roller set 32 and a cotton guide component 33 from left to right, and the rotation direction of the guide wheel 31 and the press roller set 32 is the same as the transmission direction of the conveyor belt 5;

6 identical round rods 311 are equidistantly distributed on the outer side of the guide wheel 31, the round rods 311 rotate along with the guide wheel 31, the press roll set 32 comprises 3 press rolls 321 which are connected from left to right through chain transmission, the height of the press roll set 32 is smaller than that of the guide wheel 31, the cotton guide assembly 33 comprises an elastic rotating shaft 331 and a plurality of cotton guide tooth welding strips 332 welded on the outer side of the elastic rotating shaft 331, the cotton guide tooth welding strips 332 are parallelly and equidistantly distributed to form a cotton guide surface 333, a packing cavity 42 is arranged above the cotton guide surface 333, and an extrusion channel 10 is arranged below the cotton guide surface 333;

in the invention, cotton in the filling cavity 41 is extruded for the first time through the guide wheel 31, the round roller 311 on the guide wheel 31 pushes the cotton to enter the compression roller group 32 for the second extrusion, the formed cotton sheet is pushed by the conveyor belt 5 to push the cotton guide surface 333 to enter the packaging cavity, and the cotton guide surface 333 extrudes the cotton sheet for the last time under the action of self weight.

The transmission mechanism of the invention is provided with the traction component 2 and the tabletting component 3 in the transmission channel 6 on the conveyor belt 5, and has the advantages that: 1. the cotton conveying efficiency is improved, the picked cotton is simply and quickly conveyed into the packing cavity to be packed and output, and the labor and time are effectively saved; 2. due to the design of the through type traction assembly, the phenomena of idling and jamming of cotton in the transmission process are effectively avoided, and the transmission safety is improved; 3. the multi-aspect preforming setting carries out the maximize extrusion to the cotton piece, effectively guarantees follow-up bundling weight and the unity of specification, increases the compactness of cotton bale.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A transmission mechanism of a cotton press comprises:

the cotton collecting assembly (1), the cotton collecting assembly (1) comprises a cotton collecting box (11) for receiving and containing cotton and a transmission chain plate (12) arranged at the bottom of the cotton collecting box (11), and the cotton collecting assembly (1) is used for receiving the cotton and integrally transmitting the cotton;

the cotton collecting assembly (1) is used for collecting cotton in the cotton collecting assembly (2) and outputting the cotton to a cotton forming box (4), the cotton forming box (4) comprises a filling cavity (41) and a packing cavity (42), and the filling cavity (41) receives the cotton output after passing through the cotton collecting assembly (2);

the tabletting component (3) is used for receiving the cotton output by the traction component (2), extruding the cotton for multiple times into tablets and outputting the tablets into the packing cavity (42);

the method is characterized in that: the cotton bale packing machine is characterized by further comprising a conveyor belt (5), wherein the conveyor belt (5) is communicated with the cotton collecting box (11) and the cotton forming box (4), the head end of the conveyor belt (5) is connected with the transmission chain plate (12), the tail end of the conveyor belt is attached to a bundling belt of the packing cavity (42), and the traction assembly (2) and the pressing sheet assembly (3) are arranged above the conveyor belt (5).

2. The cotton baler transfer mechanism of claim 1, wherein: a transmission channel (6) communicated with the cotton collecting component (1) is arranged on the cotton forming box (11), the conveying channel (6) is communicated with the interior of the filling cavity (41), the conveying belt (5) is arranged below the conveying channel (6), the conveying direction of the conveying belt (5) faces to the conveying channel (6), the conveying channel (6) and the conveying belt (5) form a conveying opening (7) at one side of the cotton collecting box (11), the conveying opening (7) separates the cotton collecting box (11) from the cotton forming box (4), an openable cotton guide baffle (8) is arranged above the cotton forming side of the delivery port (7), the height of the cotton guide baffle (8) is equal to that of the conveying channel (6), the opening direction of the cotton guide baffle (8) faces the cotton forming box (4).

3. The cotton baler transmission mechanism of claim 2, wherein: the traction assembly (2) is distributed on the cotton collecting side of the conveying opening (7) and is arranged at the head end of the conveyor belt (5), a material return channel (9) is formed between the traction assembly (2) and the conveyor belt (5), and cotton scattered in the filling cavity (41) returns to the cotton collecting box (11) through the material return channel (9) for secondary cotton collection;

the pressing piece assembly (3) is distributed above the transmission channel (6) and distributed along the extending direction of the transmission channel (6), an extrusion channel (10) is formed between the pressing piece assembly (3) and the conveyor belt (5), and cotton finished and formed in the filling cavity (41) is extruded into pieces for multiple times through the extrusion channel (10) and then is transmitted into the packing cavity (42).

4. A cotton baler transport mechanism as claimed in claim 3, wherein: traction assembly (2) include a plurality of driving roller (21) and the perpendicular to of placing in order a plurality of carry over pinch rolls (22) of driving roller (21), a plurality of horizontal distribution drive roller (21) form drive roller set (23) of a rectangle form, a plurality of vertical distribution carry over pinch rolls (22) form and draw roller set (25), driving roller (21) reach all be equipped with on the periphery of carry over pinch rolls (22) and dial tooth (24).

5. The cotton baler transmission mechanism of claim 4, wherein: the upper surface of the driving roller group (23) is horizontal to the conveying chain plate (12), a cotton swallowing opening (201) is formed between the upper surface of the driving roller group (23) and the drawing roller (22), and the cotton swallowing opening (201) is close to the conveying opening (7);

the material return channel (9) is formed between the lower surface of the driving roller group (23) and the conveyor belt (5), and a material return outlet (91) is formed between the side edge of the driving roller group (23) and the side edge of the conveying chain plate (12).

6. A cotton baler transport mechanism as claimed in claim 3, wherein: the tabletting assembly (3) sequentially comprises a guide wheel (31), a press roller group (32) and a cotton guide assembly (33) from left to right, and the rotating directions of the guide wheel (31) and the press roller group (32) are the same as the conveying direction of the conveyor belt (5);

the outside equidistance of leading wheel (31) distributes and has 6 the same round rod (311), round rod (311) rotate along with leading wheel (31), compression roller group (32) include 3 from left to right through 3 compression roller (321) that chain drive connects, the height of compression roller group (32) is less than the height of leading wheel (31), lead cotton subassembly (33) including elasticity pivot (331) and welding in a plurality of cotton tooth seam strip (332) of leading in elasticity pivot (331) outside, lead the parallel equidistance distribution of cotton tooth seam strip (331) form and lead cotton face (333), the top of leading cotton face (333) is packing chamber (42), and the below is extrusion passageway (10).

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