CN215380030U - Sectional adjustable diameter-variable threshing cylinder shaft roller - Google Patents

Abstract

A sectional adjustable variable-diameter threshing cylinder shaft roller belongs to agricultural machinery; the hollow shaft is rotatably inserted into the right part of the bracket, the solid shaft is rotatably inserted into the hollow shaft, the left end of the solid shaft is rotatably inserted into the left part of the bracket, the finned bidirectional positioning seat sleeve is rotatably sleeved on the middle part of the solid shaft, the driving wheel and the rotary power transmission body are rotatably sleeved on the left end part of the solid shaft, the finned left adjusting seat sleeve is arranged on the part of the solid shaft between the driving wheel and the rotary power transmission body through threads, the finned right adjusting seat sleeve is arranged on the outer part of the hollow shaft through threads, the left supporting rod A, B connects the left threshing toothed plate with the finned bidirectional positioning seat sleeve, the right supporting rod A, B connects the right threshing toothed plate with the finned bidirectional positioning seat sleeve, and the hand rods A, B are respectively arranged on the solid shaft and the hollow shaft; the roller realizes the sectional diameter-variable adjustment, and has the advantages of novel and unique structure, strong applicability, wide application range, good operation quality and reasonable power consumption.

Description

Sectional adjustable diameter-variable threshing cylinder shaft roller

Technical Field

The invention belongs to agricultural machinery, and mainly relates to a sectional adjustable variable-diameter threshing cylinder shaft roller matched with a threshing cylinder assembly.

Background

The traditional threshing cylinder comprises a threaded rod type threshing cylinder, a spike-tooth type threshing cylinder and an arch-tooth type threshing cylinder, which can not realize the adjustment and the change of the diameter of the cylinder, namely the diameter of the cylinder is fixed and unchanged. In the actual threshing operation, because the diameter of the roller can not be changed, the threshing space between the roller and the threshing concave plate is fixed, when the yield of the threshed grains is different or the feeding amount is different, the threshing quality is influenced, and the threshing quality comprises the operation indexes such as threshing rate, seed breakage rate and the like. When the crop yield is low or the feeding amount is small, the operation efficiency of the machine is reduced, and the threshing operation cost is increased; when the crop yield is high or the feeding amount is large, the threshing rate and the kernel recovery rate are reduced, the kernel breakage rate is improved, and the kernel loss is caused.

In order to solve the above problems, the applicant has studied a diameter-adjustable threshing cylinder, but since the threshing cylinder cannot be adjusted separately in sections and the diameter of the shaft roller of the whole threshing cylinder is always consistent, the adaptability to the axial-flow feeding threshing cylinder with a long axial size and the radial tangential-flow feeding threshing cylinder with a large width is poor, the diameter of the shaft roller of the threshing cylinder cannot be adjusted in sections according to the working conditions, and the adaptability is extremely required to be improved.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and researches and designs a sectional adjustable variable-diameter threshing cylinder shaft roller by combining actual requirements of operation and use of an axial flow feeding threshing cylinder with a longer axial size and a tangential flow feeding threshing cylinder with a larger width, so as to achieve the purposes of adapting to and meeting the sectional adjustment requirements of operation and use of the long axial flow feeding threshing cylinder and the tangential flow feeding threshing cylinder with the larger width, ensuring and improving the threshing operation quality and the grain recovery efficiency, and having scientific and reasonable power consumption.

The invention aims to realize the purposes that a hollow shaft is axially and radially positioned and circumferentially and rotatably supported and inserted on the right part of a bracket, a solid shaft is axially and radially positioned and circumferentially and rotatably inserted and matched in a shaft hole of the hollow shaft coaxially, and the left end part of the solid shaft is rotatably supported and inserted on the left part of the bracket; the middle part of the solid shaft is axially and radially positioned and circumferentially rotatably sleeved with a fin type bidirectional positioning seat sleeve, the left end part of the solid shaft is axially and radially positioned and circumferentially and rotatably sleeved with a driving wheel and a rotary power transmission body which are fixedly connected into a whole in turn, a fin type left adjusting seat sleeve is arranged on the solid shaft between the driving wheel and the rotary power transmission body in a way of axial adjustment and movement through threads, the rotary power transmission body and the fin type left adjusting seat sleeve are in crossed interval overlapping insertion fit, the left support rod B is hinged with the left support rod A, the inner end and the outer end of the left supporting rod A are respectively hinged with the fin type left adjusting seat sleeve and the right end of the left threshing tooth plate, the inner end of the left supporting rod B is hinged with the fin type bidirectional positioning seat sleeve, and the outer end of the left supporting rod B is hinged with a left sliding groove on the left end of the left threshing toothed plate in a left-right sliding manner; a fin type right adjusting seat sleeve is axially and movably arranged on the outer part of the left side of the hollow shaft through threads, a right supporting rod A is hinged with a right supporting rod B, the inner end and the outer end of the right supporting rod A are respectively hinged with the fin type right adjusting seat sleeve and the left end of a right threshing toothed plate, the inner end of the right supporting rod B is hinged with a fin type bidirectional positioning seat sleeve, and the outer end of the right supporting rod B is hinged with a right sliding chute on the right end of the right threshing toothed plate in a left-right sliding manner; a hand lever B is fixedly arranged on the outer part of the right end of the hollow shaft, and a hand lever A is fixedly arranged on the outer part of the right end of the solid shaft, so that the sectional adjustable variable-diameter threshing cylinder shaft roller is formed.

The invention adopts a combined structure of the hollow shaft and the solid shaft, and respectively uses the hollow shaft and the solid shaft to adjust the diameter sizes of the right threshing toothed plate and the left threshing toothed plate on the shaft in a segmented manner, thereby completing and realizing the segmented adjustment of variable diameters on the same threshing cylinder shaft roller.

Drawings

FIG. 1 is a schematic view of the general structure of a sectional adjustable variable diameter threshing cylinder arbor roll;

FIG. 2 is a sectional view taken along line A-A of FIG. 1;

fig. 3 is a three-dimensional schematic diagram of the general structure of a sectional adjustable variable-diameter threshing cylinder shaft roller.

Description of part numbers in the figures:

1. the device comprises a support, 2, a driving wheel, 3, a fin type left adjusting seat sleeve, 4, a left sliding groove, 5, left supporting rods B, 6, left threshing toothed plates, 7, left supporting rods A, 8, a fin type bidirectional positioning seat sleeve, 9, right supporting rods A, 10, right threshing toothed plates, 11, right supporting rods B, 12, right sliding grooves, 13, a fin type right adjusting seat sleeve, 14, a hollow shaft, 15, a solid shaft, 16, hand levers A, 17, hand levers B, 18 and a rotary power transmission body.

Detailed Description

The following detailed description of the inventive embodiments is provided in connection with the accompanying drawings. A diameter-variable threshing cylinder beam barrel with adjustable segmentation is characterized in that a hollow shaft 14 is axially and radially positioned and circumferentially rotatably supported and inserted on the right part of a support 1, a solid shaft 15 is axially and radially positioned, circumferentially rotatable and coaxially and concentrically inserted in a shaft hole of the hollow shaft 14, and the left end part of the solid shaft 15 is rotatably supported and inserted on the left part of the support 1; the middle part of the solid shaft 15 is axially and radially positioned and circumferentially rotatably sleeved with a fin type bidirectional positioning seat sleeve 8, the left end part of the solid shaft 15 is axially and radially positioned and circumferentially and rotatably sleeved with a driving wheel 2 and a rotary power transmission body 18 which are fixedly connected into a whole in turn, the finned left adjusting sleeve 3 is mounted on the solid shaft 15 between the driving wheel 2 and the rotary power transmission body 18 in an axially adjustable and movable manner through threads, the rotary power transmission body 18 and the fin type left adjusting seat cover 3 are in crossed interval overlapping insertion fit, a left support rod B5 is hinged with a left support rod A7, the inner end and the outer end of the left supporting rod A7 are respectively hinged with the right ends of the fin type left adjusting seat sleeve 3 and the left threshing toothed plate 6, the inner end of the left supporting rod B5 is hinged with the fin type bidirectional positioning seat sleeve 8, and the outer end of the left supporting rod B5 is hinged with the left sliding groove 4 on the left end of the left threshing toothed plate 6 in a left-right sliding manner; a fin type right adjusting seat sleeve 13 is axially and movably arranged on the outer portion of the left side of the hollow shaft 14 through threads, a right supporting rod A9 is hinged with a right supporting rod B11, the inner end and the outer end of the right supporting rod A9 are respectively hinged with the fin type right adjusting seat sleeve 13 and the left end of a right threshing toothed plate 10, the inner end of the right supporting rod B11 is hinged with a fin type bidirectional positioning seat sleeve 8, and the outer end of the right supporting rod B11 is hinged with a right sliding groove 12 on the right end of the right threshing toothed plate 10 in a left-right sliding manner; a hand lever B17 is fixed to the right end outer portion of the hollow shaft 14, and a hand lever A16 is fixed to the right end outer portion of the solid shaft 15.

During operation, the cylindrical mesh screen is fixedly sleeved and mounted on the outer side of the shaft roller. The external rotary power drives the fin type left adjusting seat sleeve 3 and the solid shaft 15 to synchronously rotate through the driving wheel 2 and the rotary power transmission body 18, the left threshing toothed plate 6 and the fin type bidirectional positioning seat sleeve 8 are driven to synchronously rotate by the left supporting rod A7 and the left supporting rod B5, the right threshing toothed plate 10 and the fin type right adjusting seat sleeve 13 are driven to synchronously rotate by the right supporting rod B11 and the right supporting rod A9, and the hollow shaft 14 is driven to synchronously rotate through the fin type right adjusting seat sleeve 13, so that the threshing operation is completed. When the diameter of the section is adjusted, the solid shaft 15 and the hollow shaft 14 can be respectively rotated through a hand lever A16 and a hand lever B17, the fin left adjusting seat sleeve 3 is axially moved by utilizing threads on the solid shaft 15, and the left threshing toothed plate 6 is radially moved relative to the solid shaft 15 through the left supporting rods A, B7 and 5, so that the diameter adjustment of the shaft roller of the left section is completed; similarly, the right adjusting sleeve 13 is moved axially by the screw thread on the hollow shaft 14, and the right threshing teeth plate 10 is moved radially relative to the hollow shaft 14 by the right supporting rods A, B9 and 11, so as to complete the diameter adjustment of the right section of the shaft roller.

Claims (1)

1. The utility model provides a variable diameter threshing cylinder beam barrel with adjustable segmentation which characterized in that: the hollow shaft (14) is axially and radially positioned and circumferentially and rotatably supported and inserted on the right part of the bracket (1), the solid shaft (15) is axially and radially positioned, circumferentially and rotatably inserted in a shaft hole of the hollow shaft (14) concentrically, and the left end part of the solid shaft (15) is rotatably supported and inserted on the left part of the bracket (1); the utility model discloses a threshing machine, it is characterized in that axial and radial location, circumference rotationally suit fin type two-way location seat cover (8) on solid axle (15) middle part axial and radial location, circumference rotationally suit in proper order on solid axle (15) left end portion links firmly integrative drive wheel (2) and rotatory power transmission body (18) axial and radial location, circumference are located and are installed fin type left side regulation seat cover (3) through screw thread axial adjustment removal on the position between drive wheel (2) and rotatory power transmission body (18), rotatory power transmission body (18) and fin type left side regulation seat cover (3) are alternately spaced to overlap and insert the cooperation, left branch pole B (5) and left branch pole A (7) hinged joint, the inside of left branch pole A (7), the outer end respectively with fin type left side regulation seat cover (3) and left side threshing teeth plate (6) right end hinged joint, the inside of left branch pole B (5) is connected with fin type two-way location seat cover (8), the outer end of the left supporting rod B (5) is hinged with a left sliding chute (4) on the left end of the left threshing toothed plate (6) in a left-right sliding manner; a fin type right adjusting seat sleeve (13) is axially and movably installed on the outer portion of the left side of the hollow shaft (14) through threads, a right supporting rod A (9) is hinged with a right supporting rod B (11), the inner end and the outer end of the right supporting rod A (9) are respectively hinged with the fin type right adjusting seat sleeve (13) and the left end of a right threshing toothed plate (10), the inner end of the right supporting rod B (11) is hinged with a fin type bidirectional positioning seat sleeve (8), and the outer end of the right supporting rod B (11) is hinged with a right sliding groove (12) in the right end of the right threshing toothed plate (10) in a left-right sliding mode; a hand lever B (17) is fixedly arranged on the outer part of the right end of the hollow shaft (14), and a hand lever A (16) is fixedly arranged on the outer part of the right end of the solid shaft (15).

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