CN211064124U - Supporting seat for operation arm of seeder - Google Patents

Abstract

The utility model provides a supporting seat of a working arm of a seeder, which comprises a translation component, a transverse moving part and a longitudinal moving part, wherein the transverse moving part and the longitudinal moving part are vertically arranged; the slope subassembly, including the fixed base that sets up and rotate the piece, the one end and the base of rotating the piece are articulated to relative base rotates, and the vertical moving member in the translation subassembly slides and sets up on rotating the piece. The utility model provides a seeder operation arm supporting seat has realized two-way position control through setting up mutually perpendicular's horizontal moving member and vertical moving member, has set up the function that the angle modulation has been realized to the slope subassembly.

Description

Supporting seat for operation arm of seeder

Technical Field

The utility model relates to the technical field of agricultural machinery, especially, relate to a seeder operation arm supporting seat.

Background

In agricultural production activities, agricultural machines play an important role, and the agricultural machines are mainly mechanical equipment such as large and small tractors, land leveling machines and various seeders, greatly liberate labor force and improve the agricultural production efficiency, so that the agricultural machines are indispensable in the process of agricultural modernization. At present, in most agricultural activities, an agricultural machine traction is often used as power, such as a common tractor and the like, and after the traction machine, agricultural machine appliances with specific functions, such as a tractor cloak, a plowing device, a seeder and the like are often connected.

The operation arm of the existing seeder is usually fixedly connected, and the operation arm can not effectively adjust the seeding discharge position according to the seeding requirements of different crops, and is inconvenient to adjust before operation.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section and in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the invention.

Therefore, the to-be-solved technical problem of the utility model lies in overcoming the inconvenient defect of seeder operation arm position adjustment among the prior art to a seeder operation arm supporting seat that can both way junction and angle of adjustment is provided.

In order to solve the technical problem, the utility model provides a following technical scheme: a supporting seat of a working arm of a seeding machine, which comprises,

the translation assembly comprises a transverse moving member and a longitudinal moving member which are vertically arranged, and the transverse moving member is arranged on the longitudinal moving member in a sliding manner;

the tilting assembly comprises a base and a rotating part, wherein the base and the rotating part are fixedly arranged, one end of the rotating part is hinged to the base and is opposite to the base in rotation, and a longitudinal moving part in the translation assembly is arranged on the rotating part in a sliding mode.

As a preferred scheme of seeder operation arm supporting seat, wherein: the base sets up along vertical direction, the upper end of rotating the piece pass through the articulated shaft with the base is articulated, under initial condition the rotation piece is pressed close to the base.

As a preferred scheme of seeder operation arm supporting seat, wherein: the rotating part comprises a flat mounting surface, and the translation assembly is arranged on the mounting surface in a sliding mode.

As a preferred scheme of seeder operation arm supporting seat, wherein: the rotating part and the base are also provided with a pushing structure, and the pushing structure drives the rotating part to rotate relative to the base.

As a preferred scheme of seeder operation arm supporting seat, wherein: promote the structure including locating guide slot on the rotation piece to and slide set up in along linear motion's on the base promotes the piece, the one end that promotes the piece is in slide in the guide slot, the drive rotate the piece and wind the articulated shaft rotates.

As a preferred scheme of seeder operation arm supporting seat, wherein: the guiding groove is arranged on the side wall of the rotating part, the guiding groove extends from the rotating part to the free end from the hinged end hinged to the base, and the distance between the guiding groove and the base is gradually increased from the free end to the hinged end.

As a preferred scheme of seeder operation arm supporting seat, wherein: the transverse moving member and the longitudinal moving member are plate members arranged in parallel to the mounting surface.

As a preferred scheme of seeder operation arm supporting seat, wherein: the transverse moving member is connected to the longitudinal moving member through a transverse sliding structure, and the longitudinal moving member is connected to the rotating member through a longitudinal sliding structure.

As a preferred scheme of seeder operation arm supporting seat, wherein: the transverse sliding structure and the longitudinal sliding structure both comprise

The guide sliding rail is arranged in parallel to the motion direction of the transverse moving piece or the longitudinal moving piece;

the guide sliding block is arranged in the guide sliding rail in a sliding manner and is fixedly connected with the transverse moving piece or the longitudinal moving piece;

and the driving device comprises a linear rack which is arranged on the transverse moving part or the longitudinal moving part in parallel to the guide sliding rail, and a driving gear meshed with the linear rack.

The utility model has the advantages that: the utility model provides a seeder operation arm supporting seat has realized two-way position control through setting up mutually perpendicular's horizontal moving member and vertical moving member, has set up the function that the angle modulation has been realized to the slope subassembly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor. Wherein:

FIG. 1 is a schematic view of the overall structure of a working arm of the seeding machine;

FIG. 2 is a schematic structural view of a tilt assembly;

FIG. 3 is a schematic view of a pushing structure;

FIG. 4 is a schematic view of the connection of the lateral moving member with the longitudinal moving member;

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Example 1

The embodiment provides a seeder operation arm supporting seat, its structure is shown in figure 1: the translation assembly 100 comprises a transverse moving member 110 and a longitudinal moving member 120 which are vertically arranged, wherein the transverse moving member 110 is arranged on the longitudinal moving member 120 in a sliding manner. The tilting assembly 200 comprises a base 220 and a rotating member 210, wherein the base 220 and the rotating member 210 are fixedly arranged, one end of the rotating member 210 is hinged to the base 220 and rotates relative to the base 220, and the longitudinal moving member 120 in the translation assembly 100 is slidably arranged on the rotating member 210.

The transverse moving member 110 in the translation assembly 100 can move in the horizontal direction to adjust the horizontal position of the working arm, and the longitudinal moving member 120 can move in the vertical direction to adjust the height of the working arm, so that the height of a seeding discharge port on the working arm from the ground can be conveniently adjusted. The rotating member 210 in the tilting assembly 200 is used to change the angle of the working arm, thereby changing the direction of sowing.

The bidirectional position adjustment is realized by the arrangement of the transverse moving member 110 and the longitudinal moving member 120 which are perpendicular to each other, and the inclination assembly 200 is arranged to realize the angle adjustment function. The seeding machine can implement and adjust the seeding mode according to the needs of crops and fields in the operation process.

Example 2

The embodiment provides a seeder operation arm supporting seat, its structure is shown in figure 1: the translation assembly 100 comprises a transverse moving member 110 and a longitudinal moving member 120 which are vertically arranged, wherein the transverse moving member 110 is arranged on the longitudinal moving member 120 in a sliding manner. The tilting assembly 200 comprises a base 220 and a rotating member 210, wherein the base 220 and the rotating member 210 are fixedly arranged, one end of the rotating member 210 is hinged to the base 220 and rotates relative to the base 220, and the longitudinal moving member 120 in the translation assembly 100 is slidably arranged on the rotating member 210.

The transverse moving member 110 in the translation assembly 100 can move in the horizontal direction to adjust the horizontal position of the working arm, and the longitudinal moving member 120 can move in the vertical direction to adjust the height of the working arm, so that the height of a seeding discharge port on the working arm from the ground can be conveniently adjusted. The rotating member 210 in the tilting assembly 200 is used to change the angle of the working arm, thereby changing the direction of sowing.

The bidirectional position adjustment is realized by the arrangement of the transverse moving member 110 and the longitudinal moving member 120 which are perpendicular to each other, and the inclination assembly 200 is arranged to realize the angle adjustment function. The seeding machine can implement and adjust the seeding mode according to the needs of crops and fields in the operation process.

As shown in fig. 2, the base 220 in this embodiment is disposed in a vertical direction, the upper end of the rotation member 210 is hinged to the base 220 through a hinge shaft 230, and the rotation member 210 is adjacent to the base 220 in an initial state. Meanwhile, the rotating member 210 includes a flat mounting surface 212, and the translating assembly 100 is slidably disposed on the mounting surface 212. Specifically, the base 220 in this embodiment is vertically and fixedly installed at the front end of the seeding machine, and the working arm of the seeding machine is hung on the supporting seat. When the rotation member 210 rotates, it is lifted upward by a certain angle.

Example 3

The embodiment provides a seeder operation arm supporting seat, its structure is shown in figure 1: the translation assembly 100 comprises a transverse moving member 110 and a longitudinal moving member 120 which are vertically arranged, wherein the transverse moving member 110 is arranged on the longitudinal moving member 120 in a sliding manner. The tilting assembly 200 comprises a base 220 and a rotating member 210, wherein the base 220 and the rotating member 210 are fixedly arranged, one end of the rotating member 210 is hinged to the base 220 and rotates relative to the base 220, and the longitudinal moving member 120 in the translation assembly 100 is slidably arranged on the rotating member 210.

The transverse moving member 110 in the translation assembly 100 can move in the horizontal direction to adjust the horizontal position of the working arm, and the longitudinal moving member 120 can move in the vertical direction to adjust the height of the working arm, so that the height of a seeding discharge port on the working arm from the ground can be conveniently adjusted. The rotating member 210 in the tilting assembly 200 is used to change the angle of the working arm, thereby changing the direction of sowing.

The bidirectional position adjustment is realized by the arrangement of the transverse moving member 110 and the longitudinal moving member 120 which are perpendicular to each other, and the inclination assembly 200 is arranged to realize the angle adjustment function. The seeding machine can implement and adjust the seeding mode according to the needs of crops and fields in the operation process.

As shown in fig. 2, the base 220 in this embodiment is disposed in a vertical direction, the upper end of the rotation member 210 is hinged to the base 220 through a hinge shaft 230, and the rotation member 210 is adjacent to the base 220 in an initial state. Meanwhile, the rotating member 210 includes a flat mounting surface 212, and the translating assembly 100 is slidably disposed on the mounting surface 212. Specifically, the base 220 in this embodiment is vertically and fixedly installed at the front end of the seeding machine, and the working arm of the seeding machine is hung on the supporting seat. When the rotation member 210 rotates, it is lifted upward by a certain angle.

As shown in fig. 3, a pushing structure is further disposed between the rotating component 210 and the base 220 in this embodiment, and the pushing structure drives the rotating component 210 to rotate relative to the base 220. Specifically, the pushing structure includes a guiding groove 211 disposed on the rotating member 210, and a pushing block 221 slidably disposed on the base 220 and moving along a straight line, wherein one end of the pushing block 221 slides in the guiding groove 211 to drive the rotating member 210 to rotate around the hinge shaft 230.

The guide groove 211 is formed in a side wall of the rotation member 210, and the guide groove 211 extends from a hinge end of the rotation member 210 hinged to the base 220 to a free end, and a distance from the free end to the hinge end is gradually increased from the base 220.

One end of the pushing block 221 is slidably disposed on the base 220 through a linear slide rail, and the other end is a cylindrical pushing end and slidably disposed in the guiding groove 211. Since the length of the pushing block 221 is not changed, when the pushing block 221 is close to the free end, the distance between the guide groove 211 and the base 220 is smaller, and the rotating member 210 must change the distance between the guide groove 211 and the base 220 through rotation so that the pushing block 221 can pass through, therefore, the movement of the pushing block 221 is converted into the angle change of the rotating member 210, and the rotating function is realized.

Example 4

The embodiment provides a seeder operation arm supporting seat, its structure is shown in figure 1: the translation assembly 100 comprises a transverse moving member 110 and a longitudinal moving member 120 which are vertically arranged, wherein the transverse moving member 110 is arranged on the longitudinal moving member 120 in a sliding manner. The tilting assembly 200 comprises a base 220 and a rotating member 210, wherein the base 220 and the rotating member 210 are fixedly arranged, one end of the rotating member 210 is hinged to the base 220 and rotates relative to the base 220, and the longitudinal moving member 120 in the translation assembly 100 is slidably arranged on the rotating member 210.

The transverse moving member 110 in the translation assembly 100 can move in the horizontal direction to adjust the horizontal position of the working arm, and the longitudinal moving member 120 can move in the vertical direction to adjust the height of the working arm, so that the height of a seeding discharge port on the working arm from the ground can be conveniently adjusted. The rotating member 210 in the tilting assembly 200 is used to change the angle of the working arm, thereby changing the direction of sowing.

The bidirectional position adjustment is realized by the arrangement of the transverse moving member 110 and the longitudinal moving member 120 which are perpendicular to each other, and the inclination assembly 200 is arranged to realize the angle adjustment function. The seeding machine can implement and adjust the seeding mode according to the needs of crops and fields in the operation process.

As shown in fig. 2, the base 220 in this embodiment is disposed in a vertical direction, the upper end of the rotation member 210 is hinged to the base 220 through a hinge shaft 230, and the rotation member 210 is adjacent to the base 220 in an initial state. Meanwhile, the rotating member 210 includes a flat mounting surface 212, and the translating assembly 100 is slidably disposed on the mounting surface 212. Specifically, the base 220 in this embodiment is vertically and fixedly installed at the front end of the seeding machine, and the working arm of the seeding machine is hung on the supporting seat. When the rotation member 210 rotates, it is lifted upward by a certain angle.

As shown in fig. 3, a pushing structure is further disposed between the rotating component 210 and the base 220 in this embodiment, and the pushing structure drives the rotating component 210 to rotate relative to the base 220. Specifically, the pushing structure includes a guiding groove 211 disposed on the rotating member 210, and a pushing block 221 slidably disposed on the base 220 and moving along a straight line, wherein one end of the pushing block 221 slides in the guiding groove 211 to drive the rotating member 210 to rotate around the hinge shaft 230.

The guide groove 211 is formed in a side wall of the rotation member 210, and the guide groove 211 extends from a hinge end of the rotation member 210 hinged to the base 220 to a free end, and a distance from the free end to the hinge end is gradually increased from the base 220.

One end of the pushing block 221 is slidably disposed on the base 220 through a linear slide rail, and the other end is a cylindrical pushing end and slidably disposed in the guiding groove 211. Since the length of the pushing block 221 is not changed, when the pushing block 221 is close to the free end, the distance between the guide groove 211 and the base 220 is smaller, and the rotating member 210 must change the distance between the guide groove 211 and the base 220 through rotation so that the pushing block 221 can pass through, therefore, the movement of the pushing block 221 is converted into the angle change of the rotating member 210, and the rotating function is realized.

As shown in fig. 1 and 4, the lateral moving member 110 and the longitudinal moving member 120 in this embodiment are plate members disposed parallel to the mounting surface 212. The transverse moving member 110 is connected to the longitudinal moving member 120 through a transverse sliding structure 111, and the longitudinal moving member 120 is connected to the rotating member 210 through a longitudinal sliding structure 121. So that the horizontal moving member 110 can be horizontally moved and the vertical moving member 120 can be vertically moved.

Specifically, as shown in fig. 4, the lateral sliding structure 111 and the longitudinal sliding structure 121 both include a guide rail 130, which is arranged parallel to the moving direction of the lateral moving member 110 or the longitudinal moving member 120; the guide sliding block 140 is slidably disposed in the guide sliding rail 130 and fixedly connected to the lateral moving member 110 or the longitudinal moving member 120; the driving device 150 includes a linear rack 151 disposed on the traverse member 110 or the longitudinal moving member 120 in parallel with the guide rail 130, and a driving gear 152 engaged with the linear rack 151.

The linear motion of the linear rack 151 is driven by the rotation of the driving gear 152, so that the generated displacement along the direction of the linear rack 151, and the linear motion pair formed by the matching of the linear guide rail and the linear slider is used for stabilizing the motion direction of the traverse member 110 and the wale moving member.

It should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a seeder operation arm supporting seat which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the translation assembly (100) comprises a transverse moving member (110) and a longitudinal moving member (120) which are vertically arranged, wherein the transverse moving member (110) is arranged on the longitudinal moving member (120) in a sliding manner;

the tilting assembly (200) comprises a base (220) and a rotating part (210) which are fixedly arranged, one end of the rotating part (210) is hinged to the base (220) and rotates relative to the base (220), and a longitudinal moving part (120) in the translation assembly (100) is arranged on the rotating part (210) in a sliding mode.

2. The support of the work arm of the seeding machine according to claim 1, wherein: the base (220) sets up along vertical direction, the upper end of rotating the piece (210) pass through articulated shaft (230) with base (220) are articulated, under initial condition rotate piece (210) and press close to base (220).

3. The support of the work arm of the seeding machine according to claim 2, wherein: the rotating part (210) comprises a flat mounting surface (212), and the translation assembly (100) is arranged on the mounting surface (212) in a sliding mode.

4. The planter work arm support stand of claim 3, wherein: a pushing structure is further arranged between the rotating part (210) and the base (220), and the pushing structure drives the rotating part (210) to rotate relative to the base (220).

5. The planter work arm support stand of claim 4, wherein: the pushing structure comprises a guide groove (211) arranged on the rotating piece (210) and a pushing block (221) which is arranged on the base (220) in a sliding mode and moves along a straight line, one end of the pushing block (221) is arranged in the guide groove (211) in a sliding mode, and the rotating piece (210) is driven to rotate around the hinge shaft (230).

6. The planter work arm support stand of claim 5, wherein: the guide slot (211) is arranged on the side wall of the rotating piece (210), the guide slot (211) extends from the hinged end of the rotating piece (210) and the base (220) to the free end, and the distance between the guide slot (211) and the base (220) is gradually increased from the free end to the hinged end.

7. The planter work arm support stand of claim 5 or 6, wherein: the transverse moving part (110) and the longitudinal moving part (120) are plate parts arranged in parallel to the mounting surface (212).

8. The planter work arm support stand of claim 7, wherein: the transverse moving part (110) is connected to the longitudinal moving part (120) through a transverse sliding structure (111), and the longitudinal moving part (120) is connected to the rotating part (210) through a longitudinal sliding structure (121).

9. The planter work arm support stand of claim 8, wherein: the transverse sliding structure (111) and the longitudinal sliding structure (121) both comprise

The guide sliding rail (130) is arranged in parallel to the motion direction of the transverse moving member (110) or the longitudinal moving member (120);

the guide sliding block (140) is arranged in the guide sliding rail (130) in a sliding manner and is fixedly connected with the transverse moving part (110) or the longitudinal moving part (120);

the driving device (150) comprises a linear rack (151) which is arranged on the transverse moving part (110) or the longitudinal moving part (120) in parallel with the guide sliding rail (130), and a driving gear (152) which is meshed with the linear rack (151).

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