CN220274315U - Swing box transmission mechanism for bundling machine shifting fork and swing box mechanism - Google Patents

Abstract

The utility model discloses a swinging box transmission mechanism and a swinging box mechanism for a bundling machine shifting fork, wherein the swinging box transmission mechanism comprises a swinging power mechanism, a rotary power mechanism, a swinging box mechanism and a shifting fork power transmission mechanism, the swinging box mechanism comprises a swinging rotary shaft, a rotary power receiving wheel and a swinging box, and the swinging box comprises a box body, a rotary power main distribution wheel, a rotary power auxiliary distribution wheel and a shifting fork power distribution shaft; the swing rotating shaft is driven by the swing power mechanism to rotate in a reciprocating manner; the swing rotating shaft is provided with a shaft sleeve, the rotating power receiving wheel and the rotating power main distributing wheel are arranged on the shaft sleeve, and the shaft sleeve rotates relative to the swing rotating shaft; the rotary power is arranged on a shifting fork power distribution shaft from the distribution wheel, and the shifting fork power distribution shaft passes through the box body to be exposed; the box body is hinged with the shaft sleeve and is fixed with the swinging rotary shaft. The swinging box mechanism is provided with a shifting fork power transmission mechanism which rotates and swings simultaneously, so that the highest point of each upward picking of the shifting fork mechanism is different, and each time a complete grass sheet is compressed, the uniformity and the integrity of the bales are improved.

Description

Swing box transmission mechanism for bundling machine shifting fork and swing box mechanism

Technical Field

The utility model belongs to the technical field of bundling machine prepressing, and particularly relates to a swinging box transmission mechanism for a bundling machine shifting fork and a swinging box mechanism.

Background

Bundling machine obtains popularizing at agriculture straw recycling in-process, and theory of operation is pickup mechanism picks up agriculture straw and carries to waiting to compress the chamber behind the breakage, and the shift fork picks up agriculture straw and carries the pre-compaction intracavity, and the shift fork is reciprocal to be chosen and is carried agriculture straw and carry the compression intracavity to the pre-compaction intracavity, and the present shift fork is reciprocal to be chosen and send the height all the same each time for the compressed grass piece of compression room can form a complete grass piece through multiple compression, and the monolithic integrality compression efficiency of compression bundle is lower.

Disclosure of Invention

In order to overcome the defects described in the prior art, the utility model provides a swinging box transmission mechanism for a shifting fork of a bundling machine and the swinging box mechanism.

The technical scheme adopted by the utility model is as follows:

the swing box transmission mechanism for the shifting fork of the bundling machine comprises a swing power mechanism, a rotary power mechanism, a swing box mechanism and a shifting fork power transmission mechanism, wherein the swing box mechanism comprises a swing rotating shaft, a rotary power receiving wheel and a swing box, the swing box comprises a box body, and a rotary power main distribution wheel, a rotary power auxiliary distribution wheel and a shifting fork power distribution shaft are arranged in the box body; the input end part of the swing rotating shaft is in transmission connection with the swing power mechanism and is driven by the swing power mechanism to rotate in a reciprocating manner; the swing rotating shaft is provided with a shaft sleeve, a rotary power receiving wheel is arranged on the shaft sleeve and is in transmission connection with the rotary power mechanism, the rotary power receiving wheel drives the shaft sleeve to rotate relative to the swing rotating shaft, and a rotary power main distribution wheel is arranged at the part of the shaft sleeve extending into the box body; the rotary power main distribution wheel is in transmission connection with the rotary power auxiliary distribution wheel, the rotary power auxiliary distribution wheel is arranged on a shifting fork power distribution shaft, the shifting fork power distribution shaft is positioned below the swinging rotary shaft, the shifting fork power distribution shaft penetrates through the box body to be exposed and then is connected with a shifting fork power transmission mechanism, and the shifting fork power distribution shaft rotates relative to the box body; the output end of the swing rotating shaft penetrates through the shaft sleeve and the box body, the end, close to the rotating power receiving wheel, of the box body is hinged to the shaft sleeve, and the end, far away from the rotating power receiving wheel, of the box body is fixedly connected with the swing rotating shaft.

As a preferred embodiment of the utility model, the swing rotation shaft is provided with a support member, the joint of the support member and the swing rotation shaft is hinged, and the top of the support member is fixed on the big frame of the bundling machine.

As a preferable mode of the utility model, the swing power mechanism comprises a swing power cam, a swing transmission connecting rod and a swing power receiving piece; the oscillating power cam is arranged on a piston power output shaft of the gearbox, and the end face of the oscillating power cam is hinged with one end part of the oscillating transmission; the other end of the swing transmission connecting rod is hinged with a swing power receiving piece, and the swing power receiving piece is fixed at the input end of the swing rotating shaft. The swing power cam rotates under the drive of the piston power output shaft, and due to the structure of the cam, the swing transmission connecting rod moves in a swinging mode when the swing transmission connecting rod rotates in a following mode, and then the swing power receiving piece connected with the swing transmission connecting rod rotates in a reciprocating mode, the swing rotating shaft rotates in a reciprocating mode, the swing box swings in a reciprocating mode along with the swing rotating shaft, rotary power in the swing box swings along with the distribution wheel and the shifting fork power distribution shaft, but the rotary power main distribution wheel drives the rotary power to rotate simultaneously from the distribution wheel and the shifting fork power distribution shaft, and the shifting fork power distribution shaft rotates when swinging.

As a preferable scheme of the utility model, the rotary power mechanism comprises a rotary transmission part and a rotary power wheel, wherein the rotary power wheel is arranged on a shifting fork power output shaft of the gearbox, and the rotary power wheel is in transmission connection with a rotary power receiving wheel through the rotary transmission part.

As a preferable scheme of the utility model, the shifting fork power transmission mechanism comprises a shifting fork power transmission part and a shifting fork transmission connecting rod, wherein the shifting fork power transmission part is arranged on a shifting fork power distribution shaft, one end part of the shifting fork transmission connecting rod is hinged with the shifting fork power transmission part, and the other end part of the shifting fork transmission connecting rod is used as a connecting part hinged with the shifting fork mechanism.

The embodiment also provides a swinging box mechanism which comprises a swinging rotating shaft, a rotating power receiving wheel and a swinging box, wherein the swinging box comprises a box body, and a rotating power main distributing wheel, a rotating power auxiliary distributing wheel and a shifting fork power distributing shaft are arranged in the box body; the input end part of the swing rotating shaft is provided with a swing power connecting part; the swing rotating shaft is provided with a shaft sleeve, the rotating power receiving wheel is arranged on the shaft sleeve, the rotating power receiving wheel drives the shaft sleeve to rotate relative to the swing rotating shaft, and a rotating power main distributing wheel is arranged at the part of the shaft sleeve extending into the box body; the rotary power main distribution wheel is in transmission connection with the rotary power auxiliary distribution wheel, the rotary power auxiliary distribution wheel is arranged on a shifting fork power distribution shaft, the shifting fork power distribution shaft is positioned below the swinging rotary shaft, a shifting fork power transmission connection part is arranged at the end, exposed out of the box body, of the shifting fork power distribution shaft, and the shifting fork power distribution shaft rotates relative to the box body; the output end of the swing rotating shaft penetrates through the shaft sleeve and the box body, the end, close to the rotating power receiving wheel, of the box body is hinged to the shaft sleeve, and the end, far away from the rotating power receiving wheel, of the box body is fixedly connected with the swing rotating shaft.

As a preferable scheme of the utility model, the swing rotating shaft is hinged with a supporting piece, the top of the supporting piece is provided with a fixing part, and the fixing part is connected with the big frame of the bundling machine and is used for supporting the swing box mechanism.

The swinging box mechanism can swing and rotate simultaneously, so that the shifting fork power transmission mechanism can swing while rotating, the highest swinging point connected with the shifting fork mechanism is changed due to swinging, the shifting fork power distribution shaft can rotate relative to the box body, the shifting fork power transmission mechanism rotates, the repeated lifting position of the shifting fork mechanism is not positioned at the same height position due to the connecting rod type structure, sufficient lifting of the shifting fork into the pre-pressing chamber can be realized, the material in the pre-pressing chamber is lifted into the compression chamber for the last time, and the lifting quantity can form a complete grass sheet for one time, so that the uniformity and the integrity of the bales are improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of the present utility model assembled on a baler.

Fig. 2 is a second schematic view of the present utility model assembled on a baler.

Fig. 3 is a schematic structural view of the swing case mechanism of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without any inventive effort, are intended to be within the scope of the utility model.

Examples:

a swinging box transmission mechanism for a bundling machine shifting fork is shown in figures 1 and 2 and comprises a swinging power mechanism, a rotary power mechanism, a swinging box mechanism and a shifting fork power transmission mechanism.

The swing power mechanism comprises a swing power cam, a swing transmission connecting rod and a swing power receiving piece; the swing power cam is arranged on a piston power output shaft 301 of the gearbox 3, and the end face of the swing power cam is hinged with one end part of swing transmission; the other end of the swing transmission connecting rod is hinged with a swing power receiving piece, and the swing power receiving piece is fixed at the input end of a swing rotating shaft of the swing box mechanism.

As shown in fig. 3, the swing box mechanism comprises a swing rotating shaft 100, a rotary power receiving wheel 101 and a swing box, wherein the swing box comprises a box body 102, and a rotary power main distributing wheel 103, a rotary power auxiliary distributing wheel 104 and a shifting fork power distributing shaft 105 are arranged in the box body; the swing rotating shaft is mounted on the big frame of the bundling machine through a supporting piece, the swing rotating shaft is connected with the supporting piece through a bearing, and the input end part of the swing rotating shaft 100 is provided with a swing power receiving piece and is driven by the swing power receiving piece to rotate in a reciprocating manner; the swing rotating shaft is provided with a shaft sleeve, the rotating power receiving wheel 101 is arranged on the shaft sleeve, the rotating power receiving wheel 101 is in transmission connection with a rotating power mechanism, the rotating power mechanism comprises a rotating transmission piece 400 and a rotating power wheel 401, the rotating power wheel is arranged on a shifting fork power output shaft 300 of the gearbox 3, and the rotating power wheel is in transmission connection with the rotating power receiving wheel through the rotating transmission piece.

The rotary power receiving wheel 101 drives the shaft sleeve to rotate relative to the swinging rotary shaft, and a rotary power main distributing wheel is arranged at the part of the shaft sleeve extending into the box body; the rotary power main distribution wheel is in transmission connection with the rotary power auxiliary distribution wheel, the rotary power auxiliary distribution wheel is arranged on a shifting fork power distribution shaft, the shifting fork power distribution shaft is positioned below the swinging rotary shaft, and the shifting fork power distribution shaft rotates relative to the box body; the output end of the swing rotating shaft passes through the shaft sleeve and the box body 102, the end of the box body 102 close to the rotary power receiving wheel is hinged on the shaft sleeve, the end of the box body far away from the rotary power receiving wheel is fixedly connected with the swing rotating shaft, and the shifting fork power distribution shaft passes through the box body to be exposed and then is connected with the shifting fork power transmission mechanism. The shifting fork power transmission mechanism comprises a shifting fork power transmission part 201 and a shifting fork transmission connecting rod 200, wherein the shifting fork power transmission part is arranged on a shifting fork power distribution shaft, one end part of the shifting fork transmission connecting rod 200 is hinged with the shifting fork power transmission part, and the other end part of the shifting fork transmission connecting rod is used as a connecting part hinged with the shifting fork mechanism.

The swing power cam rotates under the drive of the piston power output shaft, and due to the structure of the cam, the swing transmission connecting rod moves in a swinging mode when the swing transmission connecting rod rotates in a following mode, and then the swing power receiving piece connected with the swing transmission connecting rod rotates in a reciprocating mode, the swing rotating shaft rotates in a reciprocating mode, the swing box swings in a reciprocating mode along with the swing rotating shaft, rotary power in the swing box swings along with the distribution wheel and the shifting fork power distribution shaft, but the rotary power main distribution wheel drives the rotary power to rotate simultaneously from the distribution wheel and the shifting fork power distribution shaft, and the shifting fork power distribution shaft rotates when swinging.

Example 2:

1-3, a swing box mechanism comprises a swing rotating shaft 100, a rotary power receiving wheel 101 and a swing box, wherein the swing box comprises a box body 102, and a rotary power main distributing wheel 103, a rotary power auxiliary distributing wheel 104 and a shifting fork power distributing shaft 105 are arranged in the box body; the swing rotation shaft 100 is hinged with a support member, the top of which is provided with a fixing part, and the fixing part is connected with a big frame of the baler for supporting the swing box mechanism.

The input end of the swing rotation shaft 100 is provided with a swing power connection part, and the swing power connection part receives swing power to enable the swing rotation shaft to rotate in a reciprocating manner; the swing rotating shaft is provided with a shaft sleeve, the rotary power receiving wheel 101 is arranged on the shaft sleeve, the rotary power receiving wheel 101 drives the shaft sleeve to rotate relative to the swing rotating shaft, and a rotary power main distributing wheel is arranged at the part of the shaft sleeve extending into the box body; the rotary power main distribution wheel is in transmission connection with the rotary power auxiliary distribution wheel, the rotary power auxiliary distribution wheel is arranged on a shifting fork power distribution shaft, the shifting fork power distribution shaft is positioned below the swinging rotary shaft, a shifting fork power transmission connection part is arranged at the end, exposed out of the box body, of the shifting fork power distribution shaft, and the shifting fork power distribution shaft rotates relative to the box body; the output end of the swing rotation shaft passes through the shaft sleeve and the box body 102, and the end of the box body 102 close to the rotary power receiving wheel is hinged on the shaft sleeve, and the end of the box body far away from the rotary power receiving wheel is fixedly connected with the swing rotation shaft.

In the description of the present specification, reference to the terms "one embodiment," "example," "specific example," and the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides a bundling machine swing case drive mechanism for shift fork which characterized in that: the rotary power transmission device comprises a swing power mechanism, a rotary power mechanism, a swing box mechanism and a shifting fork power transmission mechanism, wherein the swing box mechanism comprises a swing rotary shaft (100), a rotary power receiving wheel (101) and a swing box, the swing box comprises a box body (102), and a rotary power main distribution wheel, a rotary power auxiliary distribution wheel and a shifting fork power distribution shaft are arranged in the box body; the input end part of the swing rotary shaft (100) is in transmission connection with the swing power mechanism and is driven by the swing power mechanism to rotate in a reciprocating manner; the swing rotating shaft is provided with a shaft sleeve, a rotary power receiving wheel (101) is arranged on the shaft sleeve, the rotary power receiving wheel (101) is in transmission connection with the rotary power mechanism, the rotary power receiving wheel (101) drives the shaft sleeve to rotate relative to the swing rotating shaft, and a rotary power main distribution wheel is arranged at the part of the shaft sleeve extending into the box body; the rotary power main distribution wheel is in transmission connection with the rotary power auxiliary distribution wheel, the rotary power auxiliary distribution wheel is arranged on a shifting fork power distribution shaft, the shifting fork power distribution shaft is positioned below the swinging rotary shaft, the shifting fork power distribution shaft penetrates through the box body to be exposed and then is connected with a shifting fork power transmission mechanism, and the shifting fork power distribution shaft rotates relative to the box body; the output end part of the swinging rotary shaft penetrates through the shaft sleeve and the box body (102), the end part of the box body (102) close to the rotary power receiving wheel is hinged to the shaft sleeve, and the end part of the box body far away from the rotary power receiving wheel is fixedly connected with the swinging rotary shaft.

2. The swing case transmission for a baler fork of claim 1, wherein: the swing rotation shaft (100) is provided with a support.

3. The swing case transmission for a baler fork according to claim 1 or 2, characterized in that: the swing power mechanism comprises a swing power cam, a swing transmission connecting rod and a swing power receiving piece; the oscillating power cam is arranged on a piston power output shaft of the gearbox, and the end face of the oscillating power cam is hinged with one end part of the oscillating transmission; the other end of the swing transmission connecting rod is hinged with a swing power receiving piece, and the swing power receiving piece is fixed at the input end of the swing rotating shaft.

4. A swing case transmission for a baler fork as claimed in claim 3, wherein: the rotary power mechanism comprises a rotary transmission part and a rotary power wheel, wherein the rotary power wheel is arranged on a shifting fork power output shaft of the gearbox, and the rotary power wheel is in transmission connection with a rotary power receiving wheel through the rotary transmission part.

5. A swing case transmission for a baler fork as claimed in claim 3, wherein: the shifting fork power transmission mechanism comprises a shifting fork power transmission part and a shifting fork transmission connecting rod, wherein the shifting fork power transmission part is arranged on a shifting fork power distribution shaft, one end part of the shifting fork transmission connecting rod is hinged with the shifting fork power transmission part, and the other end part of the shifting fork transmission connecting rod is used as a connecting part hinged with the shifting fork mechanism.

6. A swing case mechanism, characterized in that: the rotary power transmission device comprises a swinging rotary shaft (100), a rotary power receiving wheel (101) and a swinging box, wherein the swinging box comprises a box body (102), and a rotary power main distribution wheel, a rotary power auxiliary distribution wheel and a shifting fork power distribution shaft are arranged in the box body; an input end part of the swing rotating shaft (100) is provided with a swing power connecting part; the swing rotating shaft is provided with a shaft sleeve, a rotary power receiving wheel (101) is arranged on the shaft sleeve, the rotary power receiving wheel (101) drives the shaft sleeve to rotate relative to the swing rotating shaft, and a rotary power main distributing wheel is arranged at the part of the shaft sleeve extending into the box body; the rotary power main distribution wheel is in transmission connection with the rotary power auxiliary distribution wheel, the rotary power auxiliary distribution wheel is arranged on a shifting fork power distribution shaft, the shifting fork power distribution shaft is positioned below the swinging rotary shaft, a shifting fork power transmission connection part is arranged at the end, exposed out of the box body, of the shifting fork power distribution shaft, and the shifting fork power distribution shaft rotates relative to the box body; the output end part of the swinging rotary shaft penetrates through the shaft sleeve and the box body (102), the end part of the box body (102) close to the rotary power receiving wheel is hinged to the shaft sleeve, and the end part of the box body far away from the rotary power receiving wheel is fixedly connected with the swinging rotary shaft.

7. The swing case mechanism according to claim 6, wherein: the swing rotating shaft (100) is hinged with a supporting piece, and the top of the supporting piece is provided with a fixing part.