CN116724763A - Threshing machine for flax - Google Patents

Abstract

The application relates to the technical field of flax threshing, in particular to a flax threshing machine which comprises a machine base, a control box, a feeding hopper, a storage box and a threshing outer barrel, wherein a discharging seat is arranged in the threshing outer barrel, the discharging seat is communicated with the feeding hopper, a plurality of discharging windows are annularly distributed on the threshing outer barrel, the storage box is arranged on the machine base and is positioned at one side of the threshing outer barrel, and the threshing machine further comprises: the power element is arranged on the machine base, and the output end of the power element is connected with the threshing outer barrel; the threshing inner barrel is movably arranged on the inner side of the threshing outer barrel, and the threshing inner barrel is movably connected with the discharging seat; the position-adjusting execution module is arranged in the threshing outer barrel and is connected with the threshing inner barrel; the power output module is arranged on the threshing outer barrel; the threshing device can not only perform collision threshing on the flax, but also perform turning processing on the flax by utilizing the cooperation between the convex disc and the split barrel body, and has better threshing effect compared with the traditional single collision threshing mode.

Description

Threshing machine for flax

Technical Field

The application relates to the technical field of flax threshing, in particular to a flax threshing machine.

Background

The flax is commonly called flax for oil and flax for oil fiber in northwest China and North China. The flax plants are generally short and small, have more branches and stems, thicker stems, lower fiber content and poorer quality, the plant height is generally 60-85 cm, the process length is 30-45 cm, the thousand seed weight is more than 6.0 g, and the oil content is higher (more than 38%), so that the grain harvesting and the oil extraction are mainly performed.

The threshing machine is usually required to remove the flax seeds of the flax pods, and then crushing and oil pressing work is carried out on the flax seeds by using related equipment, but the existing threshing machine has the following defects:

the existing threshing machine is simple in structure, the flax is directly piled in the equipment to be subjected to shell breaking treatment through friction force or collision force, so that the threshing speed is low, the flax at the inner layer cannot be impacted, and the threshing effect is poor.

Disclosure of Invention

The application aims to provide a threshing machine for flax, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions:

the utility model provides a thresher for flax, includes frame, control box, feed hopper, storage case and threshing outer bucket, control box and feed hopper all set up on the frame, threshing outer bucket activity sets up on the frame, is provided with the row material seat in the threshing outer bucket, row material seat and feed hopper intercommunication, it has a plurality of row material window to encircle the cloth on the threshing outer bucket, the storage case sets up on the frame and is located one side of threshing outer bucket, the thresher still includes:

the power element is arranged on the machine base, and the output end of the power element is connected with the threshing outer barrel;

the threshing inner barrel is movably arranged on the inner side of the threshing outer barrel, and the threshing inner barrel is movably connected with the discharging seat;

the position-adjusting execution module is arranged in the threshing outer barrel and connected with the threshing inner barrel, and is used for adjusting the position of the threshing inner barrel; and

the power output module is arranged on the threshing outer barrel and used for controlling the position-adjusting execution module to work; wherein the method comprises the steps of

The threshing inner barrel comprises a plurality of barrel separating bodies, a plurality of convex plates and a connecting ring;

the threshing device comprises a threshing outer barrel, a plurality of sub-barrels, convex plates, connecting rings and connecting rings, wherein the plurality of sub-barrels are equidistantly arranged in the threshing outer barrel, the convex plates are arranged between two adjacent sub-barrels, the connecting rings are arranged on two sides of each convex plate in a sliding insertion mode and are arranged in the sub-barrels, and the circle center positions of the connecting rings are located at the eccentric positions of the convex plates.

The application further adopts the technical scheme that: the threshing outer barrel is obliquely arranged relative to the storage box.

The application further adopts the technical scheme that: and two adjacent convex discs are distributed in a staggered way.

The application further adopts the technical scheme that: the positioning execution module comprises:

the driving seat is arranged in the threshing outer barrel, a first guide groove is formed in the driving seat, the first guide groove is in a cross shape, and a second guide groove with the same shape as the first guide groove is formed in the first guide groove;

the movable seat is movably arranged in the second guide groove and is movably connected with the threshing inner barrel through a driving shaft;

the pushing blocks are arranged in a plurality, are annularly distributed around the movable seat, and are movably arranged in the second guide groove and are in abutting fit with the movable seat; and

the number of the air cylinders is the same as that of the pushing blocks, the air cylinders are arranged on the driving seat, the movable ends of the air cylinders are connected with the pushing blocks, and the power output module controls the air cylinders to stretch and retract when working.

The application further adopts the technical scheme that: the movable seat is movably provided with a gear, a plurality of racks are arranged in the first guide groove, the racks are positioned on the moving path of the gear, and the gear is coaxially connected with the threshing inner barrel.

The application further adopts the technical scheme that: the power output module includes:

the threshing machine comprises an output seat, a threshing cylinder and a threshing cylinder, wherein the output seat is arranged on a machine base and is connected with the threshing cylinder, a plurality of cavities are annularly distributed in the output seat, exhaust holes are formed in the cavities, two cavities which are oppositely distributed are communicated, and the exhaust holes are communicated with the cylinder;

the number of the piston rods is a plurality, and the piston rods are movably arranged in the cavity and are elastically connected with the output seat; and

the positioning baffle is arranged on the machine base and is positioned on the moving path of the piston rod.

The application further adopts the technical scheme that: the piston rod is provided with a resistance reducing piece for reducing friction resistance when the piston rod passes through the positioning baffle.

Compared with the prior art, the technical scheme provided by the embodiment of the application has the following beneficial effects:

according to the embodiment of the application, the threshing inner barrel is arranged in the threshing outer barrel, the power output module and the positioning execution module are matched in the process of controlling the threshing outer barrel to rotate by the stepping motor, so that the threshing inner barrel can effectively reciprocate while rotating in the threshing outer barrel, and the connecting rings and the convex plates are arranged, so that each barrel body on the threshing inner barrel can perform irregular movement, the flax can be collided and threshed, and the flax can be turned by the matching between the convex plates and the barrel bodies, so that the threshing effect of the threshing device is better compared with that of the traditional single-collision threshing mode.

Drawings

FIG. 1 is a schematic view showing the structure of a thresher for flax according to an embodiment of the present application;

FIG. 2 is an enlarged schematic view of the structure of the thresher for flax according to the embodiment of the application at A;

FIG. 3 is a schematic diagram showing the structure of a positioning execution module in a threshing machine for flax according to an embodiment of the application;

FIG. 4 is a schematic view showing the structure of a power output module in a thresher for flax according to an embodiment of the present application;

fig. 5 is a schematic view showing the structure of a lug plate and a connecting ring in a thresher for flax according to an embodiment of the application.

Reference numerals in the schematic drawings illustrate:

the device comprises a 1-base, a 2-control box, a 3-feeding hopper, a 4-storage box, a 5-threshing outer barrel, a 6-discharging window, a 7-stepping motor, an 8-threshing inner barrel, an 81-barrel body, an 82-convex disc, an 83-connecting ring, a 9-discharging seat, a 10-positioning executing module, a 101-driving seat, a 102-cylinder, a 103-first guide groove, a 104-second guide groove, a 105-gear, a 106-rack, a 107-pushing block, a 108-driving shaft, a 109-moving seat, an 11-power output module, a 111-output seat, a 112-piston rod, a 113-roller, a 114-cavity, a 115-exhaust hole and a 116-positioning baffle.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art without making any inventive effort, based on the embodiments of the present application are within the scope of the present application, and the present application is further described below with reference to the embodiments.

Referring to fig. 1-5, in one embodiment of the present application, a threshing machine for flax includes a base 1, a control box 2, a feeding funnel 3, a storage box 4, and a threshing outer barrel 5, wherein the control box 2 and the feeding funnel 3 are both disposed on the base 1, the threshing outer barrel 5 is movably disposed on the base 1, a discharging seat 9 is disposed in the threshing outer barrel 5, the discharging seat 9 is communicated with the feeding funnel 3, a plurality of discharging windows 6 are circumferentially disposed on the threshing outer barrel 5, the storage box 4 is disposed on the base 1 and is located at one side of the threshing outer barrel 5, and the threshing machine further includes:

the power element is arranged on the machine base 1, and the output end of the power element is connected with the threshing outer barrel 5;

the threshing inner barrel 8 is movably arranged on the inner side of the threshing outer barrel 5, and the threshing inner barrel 8 is movably connected with the discharging seat 9;

the position-adjusting execution module 10 is arranged in the threshing outer barrel 5 and connected with the threshing inner barrel 8, and is used for adjusting the position of the threshing inner barrel 8; and

the power output module 11 is arranged on the threshing outer barrel 5 and used for controlling the position-adjusting execution module 10 to work; wherein the method comprises the steps of

The threshing inner barrel 8 comprises a plurality of barrel separating bodies 81, a plurality of convex plates 82 and a connecting ring 83;

the threshing outer barrels (5) are distributed with a plurality of sub barrels (81) at equal intervals, a convex disc (82) is arranged between two adjacent sub barrels (81), connecting rings (83) are arranged on two sides of each convex disc (82), the connecting rings (83) are inserted in the sub barrels (81) in a sliding mode, and the circle center of the connecting rings (83) is located at the eccentric position of the convex disc (82).

It should be noted that, the power element may be a stepper motor 7 or a servo motor, in this embodiment, the power element is preferably a stepper motor 7, the stepper motor 7 is disposed on the base 1, and the output end of the stepper motor 7 is connected to the threshing outer barrel 5, and as for specific model parameters of the stepper motor 7, an optimal choice may be made according to actual situations, which is not listed herein.

In a specific case of this embodiment, the threshing outer tub 5 is arranged obliquely with respect to the storage bin 4.

In another specific case of this embodiment, two adjacent convex plates 82 are staggered.

During practical application, the flax is poured into the discharging seat 9 along the feeding funnel 3 and finally discharged into the threshing outer barrel 5, the stepping motor 7 is controlled by the control box 2 to be electrified to rotate so as to drive the threshing outer barrel 5 to rotate, the power output module 11 can be driven to work in the rotating process of the threshing outer barrel 5, the power output module 11 works so as to drive the positioning execution module 10 to synchronously work, the positioning execution module 10 can control the threshing inner barrel 8 to reciprocate in the threshing outer barrel 5 and simultaneously rotate, the threshing inner barrel 8 can collide and extrude the flax in the threshing outer barrel 5, so that the flax shells are broken and finally threshing is realized, and flax grains finally fall into the storage box 4 along the discharging window 6, and the flax grains can be conveniently discharged from the threshing outer barrel 5 through the inclined arrangement of the threshing outer barrel 5.

Referring to fig. 1, 3 and 5, as another preferred embodiment of the present application, the positioning execution module 10 includes:

the driving seat 101 is arranged in the threshing outer barrel 5, a first guide groove 103 is formed in the driving seat 101, the first guide groove 103 is in a cross shape, and a second guide groove 104 with the same shape as the first guide groove 103 is formed in the first guide groove 103;

the movable seat 109 is movably arranged in the second guide groove 104 and is movably connected with the threshing inner barrel 8 through a driving shaft 108;

the number of the pushing blocks 107 is a plurality, the pushing blocks 107 are annularly distributed around the moving seat 109, and the pushing blocks 107 are movably arranged in the second guide groove 104 and are in interference fit with the moving seat 109; and

the number of the air cylinders 102 is the same as that of the pushing blocks 107, the air cylinders 102 are arranged on the driving seat 101, the movable ends of the air cylinders 102 are connected with the pushing blocks 107, and the power output module 11 controls the air cylinders 102 to stretch and retract when working.

In this embodiment, the moving seat 109 is movably provided with a gear 105, the first guide slot 103 is internally provided with a plurality of racks 106, the racks 106 are located on a moving path of the gear 105, and the gear 105 is coaxially connected with the threshing inner barrel 8.

It should be noted that, in the present embodiment, the position of the moving seat 109 in the second guide groove 104 is not limited to the cylinder 102, but a linear motor or an electric cylinder may be used instead, which is not illustrated herein.

In the process that the stepping motor 7 drives the threshing outer barrel 5 and the threshing inner barrel 8 to rotate, the power output module 11 can be driven to work, and when the power output module 11 works, the cylinders 102 at different positions can be controlled to sequentially do telescopic motion once, so that under the action of the push block 107, the cylinders 102 at opposite sides do opposite telescopic motion, the threshing inner barrel 8 is controlled to do reciprocating motion inside the threshing outer barrel 5, and the moving seat 109 reciprocates along the second guide groove 104, meanwhile, the threshing inner barrel 8 is driven to reciprocate under the meshing action between the gear 105 and the rack 106 and rotate, so that the cam 82 is driven to rotate, and as the circle centers of the connecting ring 83 on the cam 82 and the cam 82 are not in the same position, a plurality of sub-barrels 81 can be in irregular motion and can be matched with the threshing outer barrel 5, so that the flax shells can be broken and threshed, the flax can also be threshed, the conventional flax overturning device has low automation degree, simple structure and high automation degree and better effect.

Referring to fig. 1, 3, 4 and 5, as another preferred embodiment of the present application, the power output module 11 includes:

the threshing machine comprises an output seat 111, a threshing cylinder and a threshing cylinder, wherein the output seat 111 is arranged on a machine base 1 and is connected with the threshing cylinder 5, a plurality of cavities 114 are annularly distributed in the output seat 111, exhaust holes 115 are formed in the cavities 114, two cavities 114 which are oppositely distributed are communicated, and the exhaust holes 115 are communicated with the cylinder 102;

the number of the piston rods 112 is a plurality, and the piston rods 112 are movably arranged in the cavity 114 and are elastically connected with the output seat 111; and

the positioning baffle 116 is disposed on the base 1 and located on the moving path of the piston rod 112.

In this embodiment, for example, a drag reducing member is disposed on the piston rod 112, so as to reduce the friction resistance that the piston rod 112 receives when passing through the positioning baffle 116.

It should be noted that, the resistance reducing member may be a ball or a roller 113, and in this embodiment, the resistance reducing member is preferably a roller 113, and the roller 113 is movably disposed on the piston rod 112.

In the process that the stepping motor 7 drives the threshing outer barrel 5 to rotate, the output seat 111 can be driven to synchronously rotate, the output seat 111 drives the piston rod 112 to rotate when rotating, the roller 113 on the piston rod 112 sequentially meets the positioning baffle 116 and contracts into the cavity 114, air in the cavity 114 is extruded into the air cylinder 102, and accordingly the air cylinders 102 at different positions are driven to sequentially stretch and retract, and the position adjustment work of the moving seat 109 and the threshing inner barrel 8 is achieved.

The working principle of the application is as follows:

the flax is poured into the discharging seat 9 along the feeding funnel 3 and finally discharged into the threshing outer barrel 5, the stepping motor 7 is controlled to be electrified to rotate through the control box 2 to drive the threshing outer barrel 5 to rotate, the output seat 111 can be driven to synchronously rotate in the process that the stepping motor 7 drives the threshing outer barrel 5 to rotate, the output seat 111 rotates to drive the piston rod 112 to rotate, the idler wheels 113 on the piston rod 112 meet with the positioning baffle 116 successively and shrink into the cavity 114, air in the cavity 114 is extruded into the air cylinder 102, and accordingly the air cylinders 102 at different positions are driven to stretch out and draw back successively, and the adjustment work of the positions of the movable seat 109 and the threshing inner barrel 8 is achieved. Therefore, under the action of the push block 107, the opposite side air cylinders 102 do opposite telescopic motions, so that the threshing inner barrel 8 is controlled to reciprocate in the threshing outer barrel 5, and under the meshing action between the gear 105 and the rack 106 while the moving seat 109 reciprocates along the second guide groove 104, the threshing inner barrel 8 is driven to reciprocate and rotate, so that the convex disc 82 is driven to rotate, and as the connecting ring 83 on the convex disc 82 and the circle center of the convex disc 82 are not positioned at the same position, a plurality of sub-barrels 81 do irregular motions, can be matched with the threshing outer barrel 5 to collide with the flax, so that the flax shell is broken and threshed, and the flax turning work can be realized.

The application and its embodiments have been described above by way of illustration and not limitation, and the application is illustrated in the accompanying drawings and described in the drawings in which the actual structure is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present application.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. The utility model provides a thresher for flax, includes frame, control box, feed hopper, storage case and threshing outer bucket, control box and feed hopper all set up on the frame, threshing outer bucket activity sets up on the frame, is provided with the row material seat in the threshing outer bucket, row material seat and feed hopper intercommunication, it has a plurality of row material window to encircle on the threshing outer bucket, the storage case sets up on the frame and is located one side of threshing outer bucket, its characterized in that, the thresher still includes:

the power element is arranged on the machine base, and the output end of the power element is connected with the threshing outer barrel;

the threshing inner barrel is movably arranged on the inner side of the threshing outer barrel, and the threshing inner barrel is movably connected with the discharging seat;

the position-adjusting execution module is arranged in the threshing outer barrel and connected with the threshing inner barrel, and is used for adjusting the position of the threshing inner barrel; and

the power output module is arranged on the threshing outer barrel and used for controlling the position-adjusting execution module to work; wherein the method comprises the steps of

The threshing inner barrel comprises a plurality of barrel separating bodies, a plurality of convex plates and a connecting ring;

the threshing device comprises a threshing outer barrel, a plurality of sub-barrels, convex plates, connecting rings and connecting rings, wherein the plurality of sub-barrels are equidistantly arranged in the threshing outer barrel, the convex plates are arranged between two adjacent sub-barrels, the connecting rings are arranged on two sides of each convex plate in a sliding insertion mode and are arranged in the sub-barrels, and the circle center positions of the connecting rings are located at the eccentric positions of the convex plates.

2. The threshing machine for flax according to claim 1, wherein said outer threshing cylinder is disposed obliquely with respect to the storage bin.

3. The thresher for flax according to claim 1, wherein adjacent two of said lugs are staggered.

4. The threshing machine for flax according to claim 1, wherein said positioning execution module comprises:

the driving seat is arranged in the threshing outer barrel, a first guide groove is formed in the driving seat, the first guide groove is in a cross shape, and a second guide groove with the same shape as the first guide groove is formed in the first guide groove;

the movable seat is movably arranged in the second guide groove and is movably connected with the threshing inner barrel through a driving shaft;

the pushing blocks are arranged in a plurality, are annularly distributed around the movable seat, and are movably arranged in the second guide groove and are in abutting fit with the movable seat; and

the number of the air cylinders is the same as that of the pushing blocks, the air cylinders are arranged on the driving seat, the movable ends of the air cylinders are connected with the pushing blocks, and the power output module controls the air cylinders to stretch and retract when working.

5. The threshing machine for flax according to claim 4, wherein a gear is movably arranged on the moving seat, a plurality of racks are arranged in the first guide groove, the racks are positioned on the moving path of the gear, and the gear is coaxially connected with the threshing inner barrel.

6. The threshing machine for flax of claim 4, wherein said power take-off module comprises:

the threshing machine comprises an output seat, a threshing cylinder and a threshing cylinder, wherein the output seat is arranged on a machine base and is connected with the threshing cylinder, a plurality of cavities are annularly distributed in the output seat, exhaust holes are formed in the cavities, two cavities which are oppositely distributed are communicated, and the exhaust holes are communicated with the cylinder;

the number of the piston rods is a plurality, and the piston rods are movably arranged in the cavity and are elastically connected with the output seat; and

the positioning baffle is arranged on the machine base and is positioned on the moving path of the piston rod.

7. The threshing machine for the flax according to claim 6, wherein the piston rod is provided with a resistance reducing member for reducing the friction resistance of the piston rod when the piston rod passes through the positioning baffle.