阅读说明：本技术 一种玉米切割打捆机的运输装置 (Conveyer of maize cutting bundling machine ) 是由 陈辉 邵磊 刘杰 靳怀卫 于 2020-07-23 设计创作，主要内容包括：本发明公开了一种玉米切割打捆机的运输装置,包括壳体,壳体右侧开设有进料口,壳体内设置有第一传送带,第一传送带上方设置有多个挤压组件,挤压组件包括开设在壳体内侧壁上的第一滑槽,第一滑槽内滑动设置有第一滑块和第二滑块,第一传送带上方设置有与第一滑块连接的第一固定板,第一固定板右侧铰接有第一左输送板,第一传送带上方设置有与第二滑块连接的第二固定板,第二固定板右侧铰接有第一右输送板,第一滑槽设置有驱动件,驱动件驱动第一滑块和第二滑块相向或者相反移动。本发明便于减少玉米秸秆之间的空隙,进而提高存在的空间。(The invention discloses a conveying device of a corn cutting and bundling machine, which comprises a shell, wherein a feed inlet is formed in the right side of the shell, a first conveying belt is arranged in the shell, a plurality of extruding assemblies are arranged above the first conveying belt, each extruding assembly comprises a first sliding groove formed in the inner side wall of the shell, a first sliding block and a second sliding block are arranged in the first sliding groove in a sliding manner, a first fixing plate connected with the first sliding block is arranged above the first conveying belt, a first left conveying plate is hinged to the right side of the first fixing plate, a second fixing plate connected with the second sliding block is arranged above the first conveying belt, a first right conveying plate is hinged to the right side of the second fixing plate, a driving piece is arranged on the first sliding groove, and the driving piece drives the first sliding block and. The invention is convenient for reducing the gap between the corn straws, thereby improving the existing space.)

1. The conveying device of the corn cutting bundling machine is characterized by comprising a shell (1), a feeding hole (2) is formed in the right side of the shell (1), a first conveying belt (8) is arranged in the shell (1), the first conveying belt (8) comprises a first rotating shaft and a second rotating shaft, the first rotating shaft and the second rotating shaft are connected through a transmission belt in a transmission mode, the first conveying belt (8) is located on the left side of the feeding hole (2), a plurality of extruding assemblies are arranged above the first conveying belt (8), each extruding assembly comprises a first sliding groove (3) formed in the inner side wall of the shell (1), a first sliding block (6) and a second sliding block (7) are arranged in the first sliding groove (3) in a sliding mode, a first fixing plate (9) connected with the first sliding block (6) is arranged above the first conveying belt (8), a first left conveying plate (4) is hinged to the right side of the first fixing plate (9), a first driving telescopic push rod (11) is connected to the middle of the lower end face of the first fixing plate (9), the telescopic end of the first driving telescopic push rod (11) is hinged to the middle of the first left conveying plate (4), a second fixing plate (10) connected with the second sliding block (7) is arranged above the first conveying belt (8), a first right conveying plate (5) is hinged to the right side of the second fixing plate (10), a second driving telescopic push rod (12) is connected to the middle of the lower end face of the second fixing plate (10), the telescopic end of the second driving telescopic push rod (12) is hinged to the middle of the first right conveying plate (5), and the first fixing plate (9) and the second fixing plate (10) are both arranged in parallel to the upper end face of the first conveying belt (8), the first sliding groove (3) is provided with a driving piece, and the driving piece drives the first sliding block (6) and the second sliding block (7) to move oppositely or oppositely.

2. The transportation device of the corn cutting and bundling machine according to claim 1, characterized in that a processor is arranged outside the housing (1), the processor is connected with the first driving telescopic push rod (11) and the second driving telescopic push rod (12), a pressure sensor connected with the processor is arranged on the left side surface of the first left conveying plate (4) and the first right conveying plate (5), the processor is connected with the driving member, and the end of the first rotating shaft is connected with a first motor connected with the processor.

3. The transportation device of the corn cutting and bundling machine according to claim 1, characterized in that a plurality of storage boxes (14) are arranged below the first conveyor belt (8), and the upper ends of the storage boxes (14) are provided with placing openings.

4. A transporting device of a corn cutting and bundling machine according to claim 3, characterized in that a second conveyor belt (13) is arranged under the storage box (14), and the left and right sides of the second conveyor belt (13) are provided with a conveying opening and an output opening which are arranged on the shell (1).

5. The transporting device of the corn cutting and bundling machine as claimed in claim 4, wherein at least one limiting rail is arranged on the second conveyor belt (13), and a limiting block clamped with the limiting rail is arranged on the lower end face of the storage box (14).

6. The transportation device of a corn cutting and bundling machine according to claim 1, characterized in that the first driving telescopic push rod (11) and the second driving telescopic push rod (12) are driven by electric or hydraulic pressure, and the first driving telescopic push rod (11) and the second driving telescopic push rod (12) are electric telescopic rods or hydraulic telescopic rods.

7. The transportation device of the corn cutting and bundling machine according to the claim 3, characterized in that, a hammering component is arranged at the left side of the first conveyor belt (8), the hammering component comprises a live wrapping telescopic piece, and the lower end of the telescopic piece is connected with a hammering plate (25).

8. The transportation device of the corn cutting and bundling machine as claimed in claim 7, wherein the telescopic member comprises a third driving telescopic push rod, the telescopic end of the third driving telescopic push rod is connected with the middle part of the upper end surface of the hammer press plate (25), and fixing rods are arranged on two sides of the third driving telescopic push rod.

9. The corn cutting and bundling machine conveying device according to claim 7, wherein the telescopic member comprises a first rotating shaft (15) in transmission connection with the first rotating shaft, a rotating disc (16) coaxially arranged with the first rotating shaft is connected to the end portion of the first rotating shaft (15), an eccentric shaft (23) is arranged at an eccentric position on the front side of the rotating disc (16), a first track (17) and a second track (18) which are vertically arranged are arranged on the left side and the right side of the rotating disc (16), a first limit slider (19) and a second limit slider (20) are respectively connected in the first track (17) and the second track (18) in a sliding manner, a T-shaped frame (21) is arranged on the front side of the rotating disc (16), and the first limit slider (19) and the second limit slider (20) are respectively connected to the left end and the right end of the upper portion of the T-shaped frame (21), the lower end of the T-shaped frame (21) is connected with the hammer pressing plate (25), a straight hole (22) in sliding connection with the eccentric shaft (23) is formed in the upper portion of the T-shaped frame (21), and the straight hole (22) and the hammer pressing plate (25) are arranged in parallel.

10. The transportation device of the corn cutting and bundling machine according to claim 7, wherein a cavity is formed in the middle of the hammer pressing plate (25), a heating plate is arranged in the cavity, a plurality of protrusions are uniformly arranged on the lower end surface of the hammer pressing plate (25), air holes communicated with the cavity are formed in the periphery of the protrusions, an air pipe is arranged on the hammer pressing plate (25), an air pump is arranged on the air pipe and used for inputting outside air into the cavity, and the air heated by the heating plate in the cavity is discharged through the air holes.

Technical Field

The invention relates to the technical field of corn cutting and bundling machines, in particular to a conveying device of a corn cutting and bundling machine.

Background

Straw, known as ligusticum, also known as grass straw, refers to the stem and leaf parts of the mature and threshed gramineous crops such as rice, wheat and corn. The straw is an important byproduct of crops, is an important production resource for industrial and agricultural production, and can be used as a fuel, a fertilizer, a feed, an industrial raw material and the like. According to statistics, the yield of the straws is large every year in China, and the application is wide. With the rapid development of animal husbandry and biomass power plants in China, the demand of straws is increasing day by day. However, because the straw recycling machine is delayed, people adopt an incineration treatment mode for most straws, and smoke generated by incineration causes environmental pollution.

The corn straws account for 40 percent of the total amount of the straws in China, are thick, long and hard, and the traditional forage grass baler has low baling efficiency and high failure rate, so that the operation requirement cannot be met; in order to facilitate the binding of the straws by workers, the corn straws are usually bound by a small binding device, but the difficulty is brought to the matching of the throughput of the harvester and the binding machine, the throughput of the harvester is large, and the small binding device cannot be directly butted with the harvester; the existing straws are collected and treated and then are filled, and because larger gaps exist among the straws, the directly filled packaging bag is large, and occupies more space.

Disclosure of Invention

In view of the above, the present invention is directed to a transporting device of a corn cutting and bundling machine, which is designed to solve all or one of the problems of the related art.

Based on the above purpose, the invention provides a transportation device of a corn cutting and bundling machine, which comprises a shell, wherein a feed inlet is formed in the right side of the shell, a first conveying belt is arranged in the shell and comprises a first rotating shaft and a second rotating shaft, the first rotating shaft and the second rotating shaft are in transmission connection through a transmission belt, the first conveying belt is positioned on the left side of the feed inlet, a plurality of extrusion assemblies are arranged above the first conveying belt and comprise a first sliding groove formed in the inner side wall of the shell, a first sliding block and a second sliding block are arranged in the first sliding groove in a sliding manner, a first fixing plate connected with the first sliding block is arranged above the first conveying belt, a first left conveying plate is hinged to the right side of the first fixing plate, and a first driving telescopic push rod is connected to the middle part of the lower end face of the first fixing plate, the flexible end of the flexible push rod of first drive with first left delivery board middle part is articulated to be connected, first conveyer belt top be provided with the second fixed plate that the second slider is connected, second fixed plate right side articulates there is first right delivery board, second fixed plate lower extreme middle part is connected with the flexible push rod of second drive, the flexible end of the flexible push rod of second drive with first right delivery board middle part is articulated, first fixed plate with the second fixed plate all with first conveyer belt up end parallel arrangement, first spout is provided with the driving piece, the driving piece drive first slider with the second slider is in opposite directions or opposite movement.

Optionally, a processor is arranged on the outer side of the shell, the processor is connected with the first driving telescopic push rod and the second driving telescopic push rod, pressure sensors connected with the processor are arranged on the left side faces of the first left conveying plate and the first right conveying plate, the processor is connected with the driving piece, and the end portion of the first rotating shaft is connected with a first motor connected with the processor.

Optionally, a plurality of storage boxes are arranged below the first conveyor belt, and a placement opening is formed in the upper end of each storage box.

Optionally, a second conveyor belt is arranged below the storage box, and a conveying port and an output port which are arranged on the shell are arranged on the left side and the right side of the second conveyor belt.

Optionally, the second conveyor belt is provided with at least one limiting track, and the lower end face of the storage box is provided with a limiting block clamped with the limiting track.

Optionally, the first driving telescopic push rod and the second driving telescopic push rod are driven electrically or hydraulically, and the first driving telescopic push rod and the second driving telescopic push rod are electric telescopic rods or hydraulic telescopic rods.

Optionally, a hammering assembly is arranged on the left side of the first conveying belt and comprises a movable telescopic piece, and a hammering pressing plate is connected to the lower end of the telescopic piece.

Optionally, the telescopic part comprises a third driving telescopic push rod, the telescopic end of the third driving telescopic push rod is connected with the middle of the upper end face of the hammer pressing plate, and fixing rods are arranged on two sides of the third driving telescopic push rod.

Optionally, the telescopic part comprises a first rotating shaft in transmission connection with the first rotating shaft, the end of the first rotating shaft is connected with a rotating disc coaxially arranged with the first rotating shaft, an eccentric shaft is arranged at an eccentric position on the front side of the rotating disc, a first track and a second track which are vertically arranged are arranged on the left side and the right side of the rotating disc, a first limiting slide block and a second limiting slide block are respectively connected in the first track and the second track in a sliding manner, a T-shaped frame is arranged on the front side of the rotating disc, the left end and the right end of the upper portion of the T-shaped frame are respectively connected with the first limiting slide block and the second limiting slide block, the lower end of the T-shaped frame is connected with the hammer pressing plate, a linear hole in sliding connection with the eccentric shaft is formed in the upper portion of the T-shaped frame, and the linear hole and the hammer.

Optionally, a cavity is formed in the middle of the hammer pressing plate, a heating plate is arranged in the cavity, a plurality of bulges are uniformly arranged on the lower end face of the hammer pressing plate, air holes communicated with the cavity are formed in the peripheries of the bulges in an enclosing mode, a ventilation pipe is arranged on the hammer pressing plate, an air pump is arranged on the ventilation pipe and used for inputting outside air into the cavity, and the air heated by the heating plate in the cavity is discharged through the air holes.

From the above, the transporting device of the corn cutting and bundling machine provided by the invention is convenient for increasing more space occupied by corn straws, when the corn straws need to be processed, the corn straws to be processed are transported into the shell through the feeding hole, in the transporting process of the first conveyor belt, the second driving telescopic push rod is contracted at the beginning so as to drive the first right transporting plate to rotate towards the left side, the corn straws to be processed are convenient to move to the left side of the first right transporting plate in the first extrusion assembly, then the second driving telescopic push rod is extended so as to vertically arrange the first right transporting plate in the first extrusion assembly, at the moment, the corn straws are positioned between the first left transporting plate and the first right transporting plate in the first extrusion assembly, the driving piece is started so as to drive the first left transporting plate and the first right transporting plate in the first extrusion assembly to move towards each other so as to extrude the corn straws, after the first extrusion treatment, the first left conveying plate in the first extrusion assembly is convenient to drive the first left conveying plate in the first extrusion assembly to rotate leftwards under the contraction treatment of the first driving telescopic push rod, the corn straws subjected to the first extrusion treatment are conveyed to the left side of the first left conveying plate in the first extrusion assembly through the first conveying belt, at least one extrusion assembly is arranged on the left side of the first left conveying plate in the first extrusion assembly, the corn straws subjected to the first extrusion treatment are positioned between the first right conveying plate in the second extrusion assembly and the first left conveying plate in the first extrusion assembly, the driving piece is started to drive the first left conveying plate and the first right conveying plate to move oppositely, the first right conveying plate in the second extrusion assembly and the first left conveying plate in the first extrusion assembly to move oppositely to extrude the corn straws, be convenient for further carry out extrusion processing to maize straw for maize straw is transported all the right side from the left side and is handled through multistage extrusion, is convenient for reduce the space between the maize straw, and then improves the space that exists.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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

In the figure: the device comprises a shell 1, a feeding hole 2, a first chute 3, a first left conveying plate 4, a first right conveying plate 5, a first sliding block 6, a second sliding block 7, a first conveying belt 8, a first fixing plate 9, a second fixing plate 10, a first driving telescopic push rod 11, a second driving telescopic push rod 12, a second conveying belt 13, a storage box 14, a first rotating shaft 15, a rotating disc 16, a first track 17, a second track 18, a first limit sliding block 19, a second limit sliding block 20, a T-shaped frame 21, a straight hole 22, an eccentric shaft 23, a second driving part 24 and a hammer pressing plate 25.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to specific embodiments and the accompanying drawings.

It is to be noted that technical terms or scientific terms used in the embodiments of the present invention should have the ordinary meanings as understood by those having ordinary skill in the art to which the present disclosure belongs, unless otherwise defined. The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

A conveying device of a corn cutting and bundling machine comprises a shell 1, wherein a feed inlet 2 is formed in the right side of the shell 1, a first conveying belt 8 is arranged in the shell 1, the first conveying belt 8 comprises a first rotating shaft and a second rotating shaft, the first rotating shaft and the second rotating shaft are connected through a transmission belt in a transmission mode, the first conveying belt 8 is located on the left side of the feed inlet 2, a plurality of extruding assemblies are arranged above the first conveying belt 8, each extruding assembly comprises a first sliding groove 3 formed in the inner side wall of the shell 1, a first sliding block 6 and a second sliding block 7 are arranged in the first sliding groove 3 in a sliding mode, a first fixing plate 9 connected with the first sliding block 6 is arranged above the first conveying belt 8, a first left conveying plate 4 is hinged to the right side of the first fixing plate 9, and a first driving telescopic push rod 11 is connected to the middle of the lower end face of the first fixing plate, the telescopic end of the first driving telescopic push rod 11 is hinged with the middle part of the first left conveying plate 4, a second fixed plate 10 connected with the second slide block 7 is arranged above the first conveying belt 8, the right side of the second fixed plate 10 is hinged with the first right conveying plate 5, the middle part of the lower end face of the second fixed plate 10 is connected with a second driving telescopic push rod 12, the telescopic end of the second driving telescopic push rod 12 is hinged with the middle part of the first right conveying plate 5, the first fixed plate 9 and the second fixed plate 10 are both arranged in parallel with the upper end face of the first conveying belt 8, the first chute 3 is provided with a driving piece which drives the first slide block 6 and the second slide block 7 to move oppositely or oppositely, so that more space occupied by the corn straws is improved, when the corn straws are required to be treated, the corn straws to be treated are conveyed into the shell 1 through the feed inlet 2, in the process of conveying the first conveyor belt 8, at the beginning, the second driving telescopic push rod 12 is contracted so as to drive the first right conveying plate 5 to rotate towards the left side, so that the corn straws to be processed move to the left side of the first right conveying plate 5 in the first extrusion assembly, then the second driving telescopic push rod 12 is extended so as to vertically arrange the first right conveying plate 5 in the first extrusion assembly, at the moment, the corn straws are positioned between the first left conveying plate 4 and the first right conveying plate 5 in the first extrusion assembly, the driving piece is started so as to drive the first left conveying plate 4 and the first right conveying plate 5 in the first extrusion assembly to move oppositely so as to extrude the corn straws, after the first extrusion treatment is carried out, the first left conveying plate 4 in the first extrusion assembly is convenient to drive the first left conveying plate 4 in the first extrusion assembly to rotate towards the left side under the contraction treatment of the first driving telescopic push rod 11, the corn stalks after primary extrusion processing are conveyed to the left side of a first left conveying plate 4 in a first extrusion assembly through a first conveyor belt 8, at least one extrusion assembly is arranged on the left side of the first left conveying plate 4 in the first extrusion assembly, the corn stalks after primary extrusion processing are positioned between a first right conveying plate 5 and the first left conveying plate 4 in the first extrusion assembly in a second extrusion assembly, a driving piece is started to drive the first left conveying plate 4 and the first right conveying plate 5 to move oppositely, the first right conveying plate 5 in the second extrusion assembly and the first left conveying plate 4 in the first extrusion assembly are driven to move oppositely to extrude the corn stalks, the corn stalks are further extruded, the corn stalks are conveyed from the left side to the right side and are subjected to multi-stage extrusion processing, and gaps among the corn stalks are reduced, thereby increasing the space available.

In order to facilitate better extrusion control of the corn straws, a processor is arranged on the outer side of the shell 1 and connected with a first driving telescopic push rod 11 and a second driving telescopic push rod 12, pressure sensors connected with the processor are arranged on the left side surfaces of the first left conveying plate 4 and the first right conveying plate 5, the processor is connected with a driving piece, and the end part of the first rotating shaft is connected with a first motor connected with the processor.

In order to collect the corn straws subjected to multistage extrusion, a plurality of storage boxes 14 are arranged below the first conveyor belt 8, and a placement opening is formed in the upper end of each storage box 14.

In order to collect and improve the collection efficiency to the maize straw through multistage extrusion, storage box 14 below is provided with second conveyer belt 13, second conveyer belt 13 left side and right side are provided with and set up delivery port and delivery outlet on casing 1.

In order to facilitate the collection of the corn straws subjected to multistage extrusion and improve the collection efficiency, at least one limiting track is arranged on the second conveyor belt 13, and a limiting block clamped with the limiting track is arranged on the lower end face of the storage box 14.

In order to facilitate the extrusion treatment of the corn straws, the first driving telescopic push rod 11 and the second driving telescopic push rod 12 are driven electrically or hydraulically, and the first driving telescopic push rod 11 and the second driving telescopic push rod 12 are electric telescopic rods or hydraulic telescopic rods.

In order to further extrude the corn straws, a hammering assembly is arranged on the left side of the first conveying belt 8 and comprises a movable telescopic piece, a hammering plate 25 is connected to the lower end of the telescopic piece, the corn straws which are subjected to multi-stage extrusion are conveyed to the storage box 14, and in order to further improve the space utilization rate, the hammering plate 25 extrudes the multi-stage extruded corn straws which fall into the storage box 14 again, so that the space utilization rate is improved.

In order to facilitate the corn straw to be further extruded, the telescopic part comprises a third driving telescopic push rod, the telescopic end of the third driving telescopic push rod is connected with the middle of the upper end face of the hammer pressing plate 25, and fixing rods are arranged on two sides of the third driving telescopic push rod.

In order to facilitate the further extrusion treatment of the corn stalks, the telescopic part comprises a first rotating shaft 15 in transmission connection with the first rotating shaft, the first rotating shaft is in transmission connection with the first rotating shaft 15 through a second transmission part 24, the end part of the first rotating shaft 15 is connected with a rotating disc 16 coaxially arranged with the first rotating shaft, the eccentric position of the front side surface of the rotating disc 16 is provided with an eccentric shaft 23, the left side and the right side of the rotating disc 16 are respectively provided with a first track 17 and a second track 18 which are vertically arranged, the first track 17 and the second track 18 are respectively connected with a first limiting slide block 19 and a second limiting slide block 20 in a sliding way, the front side of the rotating disc 16 is provided with a T-shaped frame 21, the left end and the right end of the upper part of the T-shaped frame 21 are respectively connected with the first limiting slide block 19 and the second limiting slide block 20, the lower end of the T-shaped frame 21 is connected with the hammer, the upper part of the T-shaped frame 21 is provided with a straight hole 22 which is in sliding connection with the eccentric shaft 23, the straight hole 22 and the hammer pressing plate 25 are arranged in parallel, when the first rotating shaft rotates, the rotating disc 16 is driven to rotate, the T-shaped frame 21 is then driven to move up and down 2, and the hammer pressing plate 25 is driven to further extrude the corn straws.

The second transmission piece 24 is a conveying belt; or the second transmission member 24 includes a first gear and a second gear, the first gear is sleeved on the first rotating shaft, the second gear is sleeved on the first rotating shaft 15, and the first gear and the second gear are connected in a chain transmission manner.

In order to facilitate drying treatment of the corn straws, the space utilization rate is further improved, a cavity is formed in the middle of the hammer pressing plate 25, a heating plate is arranged in the cavity, a plurality of protrusions are evenly arranged on the lower end face of the hammer pressing plate 25, air holes communicated with the cavity are formed in the periphery of the protrusions, a ventilating pipe is arranged on the hammer pressing plate 25, an air pump is arranged on the ventilating pipe and used for inputting external air into the cavity, and the air heated by the heating plate is discharged through the air holes.

In order to facilitate the matching of the throughput of the harvester and the bundling machine, a plurality of storage boxes can be arranged on the bundling machine device, thereby ensuring the constant input of the bundling machine device as much as possible, being more beneficial to the operation of the bundling machine device and the improvement of the bundling quality, in order to facilitate the improvement of the occupation of more space by the corn straws, when the corn straws need to be processed, the corn straws to be processed are conveyed into the shell 1 through the feed inlet 2, in the conveying process of the first conveyor belt 8, the second driving telescopic push rod 12 is contracted at the beginning so as to drive the first right conveying plate 5 to rotate towards the left side, the corn straws to be processed are moved to the left side of the first right conveying plate 5 in the first extrusion assembly, then the second driving telescopic push rod 12 is extended so that the first right conveying plate 5 in the first extrusion assembly is vertically arranged, and at the moment, the corn straws are positioned between the first left conveying plate 4 and the first right conveying plate 5 in the first extrusion assembly, the driving part is started to drive the first left conveying plate 4 and the first right conveying plate 5 in the first extrusion assembly to move oppositely so as to extrude corn straws, after primary extrusion treatment, the first left conveying plate 4 in the first extrusion assembly is convenient to drive the first left conveying plate 4 in the first extrusion assembly to rotate leftwards under the contraction treatment of the first driving telescopic push rod 11, the corn straws subjected to the primary extrusion treatment are conveyed to the left side of the first left conveying plate 4 in the first extrusion assembly through the first conveying belt 8, at the moment, at least one extrusion assembly is arranged on the left side of the first left conveying plate 4 in the first extrusion assembly, the corn straws subjected to the primary extrusion treatment are positioned in the second extrusion assembly between the first right conveying plate 5 and the first left conveying plate 4 in the first extrusion assembly, the driving part is started so as to drive the first left conveying plate 4 and the first right conveying plate 5 to move oppositely, be convenient for drive in the second extrusion subassembly first right delivery board 5 and first extrusion subassembly in first left delivery board 4 moves in opposite directions and extrudees the processing to corn stalk, is convenient for further extrude the processing to corn stalk for corn stalk is through multistage extrusion processing from left side transportation right side all, is convenient for reduce the space between the corn stalk, and then improves the space that exists.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the spirit of the present disclosure, features from the above embodiments or from different embodiments may also be combined, steps may be implemented in any order, and there are many other variations of different aspects of one or more embodiments of the present description as described above, which are not provided in detail for the sake of brevity.

In addition, well-known power/ground connections to Integrated Circuit (IC) chips and other components may or may not be shown in the provided figures, for simplicity of illustration and discussion, and so as not to obscure one or more embodiments of the disclosure. Furthermore, devices may be shown in block diagram form in order to avoid obscuring the understanding of one or more embodiments of the present description, and this also takes into account the fact that specifics with respect to implementation of such block diagram devices are highly dependent upon the platform within which the one or more embodiments of the present description are to be implemented (i.e., specifics should be well within purview of one skilled in the art). Where specific details (e.g., circuits) are set forth in order to describe example embodiments of the disclosure, it should be apparent to one skilled in the art that one or more embodiments of the disclosure can be practiced without, or with variation of, these specific details. Accordingly, the description is to be regarded as illustrative instead of restrictive.

While the present disclosure has been described in conjunction with specific embodiments thereof, many alternatives, modifications, and variations of these embodiments will be apparent to those of ordinary skill in the art in light of the foregoing description. For example, other memory architectures (e.g., dynamic ram (dram)) may use the discussed embodiments.

It is intended that the one or more embodiments of the present specification embrace all such alternatives, modifications and variations as fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements, and the like that may be made without departing from the spirit and principles of one or more embodiments of the present disclosure are intended to be included within the scope of the present disclosure.