CN217037875U - Bounding wall structure and agricultural machinery equipment - Google Patents

Abstract

The utility model discloses a bounding wall structure and agricultural machine equipment. The enclosing plate structure comprises an enclosing plate and at least one translation lifting mechanism; the first end of the translation lifting mechanism is rotatably connected with the enclosing plate, the second end of the translation lifting mechanism is rotatably connected with the rack, and the translation lifting mechanism can enable the enclosing plate to rotate above the rack to cover the rack or leave from the top of the rack to expose the rack. The enclosing plate structure of the embodiment utilizes the arranged translation lifting mechanism, and the enclosing plate can be rotated to the upper part of the rack to cover the rack or be separated from the upper part of the rack to expose the rack, so that the rack and internal mechanical components can be effectively protected, meanwhile, the rack and the mechanical components are convenient to overhaul and maintain, the service life of agricultural mechanical equipment is prolonged, and the use cost of the agricultural mechanical equipment is reduced.

Description

Coaming structure and agricultural mechanical equipment

Technical Field

The utility model relates to an agricultural machine auxiliary assembly technical field, in particular to bounding wall structure and agricultural machine equipment.

Background

The existing agricultural mechanical equipment, the rack and the components inside the rack are all exposed in the natural environment, so that the rack and the components inside the rack are easily polluted by external particle impurities and the like, the service life of the agricultural mechanical equipment is shortened, and the use cost of the agricultural mechanical equipment is improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least, provide a bounding wall structure and agricultural machine equipment.

In order to achieve the above object, a first aspect of the present invention provides a surrounding plate structure for an agricultural mechanical device, the agricultural mechanical device including a frame, the surrounding plate structure including a surrounding plate and at least one translation lifting mechanism;

the first end of the translation lifting mechanism is rotatably connected with the enclosing plate, the second end of the translation lifting mechanism is rotatably connected with the rack, and the translation lifting mechanism can enable the enclosing plate to rotate above the rack to cover the rack or move away from the rack to expose the rack.

Optionally, the translational lifting mechanism comprises a first side link and a second side link which are arranged at an interval;

the first end of the first connecting frame rod is hinged with the enclosing plate, and the second end of the first connecting frame rod is hinged with the rack;

the first end of the second side link is hinged with the coaming, and the second end of the second side link is hinged with the rack;

the frame, the first side link, the second side link and the coaming form a parallel four-bar mechanism.

Optionally, each side link comprises a first link portion and an arc-shaped second link portion;

the second connecting part is formed by bending and extending the end part of the first connecting part towards the direction of the machine frame.

Optionally, the translational lifting mechanism further includes a first support arm and a limiting member;

the first end of the first supporting arm is rotatably connected with the second end of the second side link, and the second end of the first supporting arm is fixedly connected with the rack;

the limiting part is arranged on one side, departing from the rack, of the first supporting arm.

Optionally, a folded edge formed by bending and extending from the enclosing plate to one side departing from the translation lifting mechanism is arranged on the periphery of the enclosing plate; and/or an operating handle is further arranged on one side, away from the translation lifting mechanism, of the enclosing plate.

Optionally, the enclosing plate structure comprises two translation lifting mechanisms, and the two translation lifting mechanisms are symmetrically arranged on the enclosing plate.

Optionally, a reinforcing rib is arranged on one side of the enclosing plate facing the translation lifting mechanism, and the reinforcing rib corresponds to the translation lifting mechanism in position.

Optionally, the enclosure structure further comprises at least one locking support mechanism;

the first end of the locking support mechanism is connected with the translation lifting mechanism, the second end of the locking support mechanism is connected with the rack, and the enclosing plate can be kept in a covering position or an exposing position by the locking support mechanism.

Optionally, the locking support mechanism comprises a gas spring and a second support arm;

when the translation lifting mechanism comprises a second side link, a telescopic rod of the gas spring is rotatably connected with the second side link, a cylinder body of the gas spring is rotatably connected with a first end of the second supporting arm, and a second end of the second supporting arm is fixedly connected with the rack.

The utility model discloses an on the other hand provides an agricultural machinery, including the preceding record the bounding wall structure.

The utility model discloses a bounding wall structure and agricultural mechanical equipment utilizes the translation elevating system that sets up, can rotate the bounding wall to the frame top in order to cover the frame or leave in order to expose the frame from the frame top to can effectively protect frame and inside mechanical component, simultaneously, still be convenient for overhaul frame and mechanical component and maintain, improve agricultural mechanical equipment's life, reduce agricultural mechanical equipment's use cost.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of a surrounding plate structure according to an embodiment of the present invention;

FIG. 2 is a front view of the enclosure structure shown in FIG. 1;

fig. 3 is a schematic structural diagram of a first linking rod according to another embodiment of the present invention;

fig. 4 is a schematic structural view of a second side link according to another embodiment of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

As shown in fig. 1, an embodiment of the present invention relates to an enclosing plate structure 100 for an agricultural mechanical device, the agricultural mechanical device includes a frame 200, and the enclosing plate structure 100 includes an enclosing plate 110 and at least one translational lifting mechanism. A first end of the translational elevating mechanism is rotatably connected with the enclosing plate 110, a second end of the translational elevating mechanism is rotatably connected with the frame 200, and the translational elevating mechanism can enable the enclosing plate 110 to rotate above the frame 200 to cover the frame 200 or move away from the frame 200 to expose the frame 200.

Specifically, during the daily use of agricultural machinery, as shown in fig. 1, the shroud 110 needs to cover the frame 200 to shield foreign materials from entering the frame 200 and other mechanical components inside the frame 200. In order to rotate the enclosing plate 110 above the frame 200, a user can operate the enclosing plate 110, and the enclosing plate 110 is rotated to the position right above the frame 200 by the arranged translation lifting mechanism, so that the frame 200 can be covered, and the frame 200 of the agricultural mechanical equipment and mechanical components inside the frame can be effectively protected. In addition to the operation of the shroud 110, the shroud 110 may be directly driven to rotate above the frame 200 by means of a translational lift mechanism. Conversely, when the rack 200 needs to be opened, such as when the rack 200 or internal mechanical components need to be serviced, the enclosure 110 can also be manipulated, and the enclosure 110 is moved away from the top of the rack 200 by the provided translational lifting mechanism, so as to open the rack 200.

The enclosing plate structure of the embodiment can rotate the enclosing plate to the upper part of the rack to cover the rack or leave from the upper part of the rack to expose the rack by utilizing the arranged translation lifting mechanism, so that the rack and internal mechanical components can be effectively protected, meanwhile, the rack and the mechanical components are convenient to overhaul and maintain, the service life of agricultural mechanical equipment is prolonged, and the use cost of the agricultural mechanical equipment is reduced.

Illustratively, as shown in fig. 1, the translational lifting mechanism includes a first side link 120 and a second side link 130 which are oppositely spaced. A first end of the first link 120 is hinged to the enclosure 110, and a second end of the first link 120 is hinged to the frame 200. A first end of the second side link 130 is hinged to the enclosure plate 110, and a second end of the second side link 130 is hinged to the frame 200. Thus, the frame 200, the first link 120, the second link 130 and the surrounding plate 110 form a parallelogram linkage.

Specifically, in the parallelogram linkage shown in fig. 1, the frame 200 is stationary and the enclosure 110 corresponds to a link that can translate and rotate about the first and second link bars 120 and 130 so that the enclosure 110 can be positioned above the frame 200 or removed from above the frame 200.

It should be noted that in the enclosing plate structure shown in fig. 1, it includes two sets of parallelogram linkages, and the two sets of parallelogram linkages are symmetrically arranged on the enclosing plate 110. Of course, besides this, those skilled in the art can design other numbers of parallelogram linkages according to actual needs, and this embodiment is not limited to this.

Illustratively, as shown in fig. 1, 3 and 4, each side link includes a first link portion L1 and a second link portion L2 having an arc shape. The second link portion L2 is formed by bending and extending from the end of the first link portion L1 toward the rack 200. As a specific example, as shown in fig. 3 and 4, the side link may have a "7" arc structure.

Illustratively, as shown in fig. 1, the translational lifting mechanism further includes a first support arm 140 and a stopper 150. The first end of the first support arm 140 is rotatably connected to the second end of the second side link 130, and the second end of the first support arm 140 is fixedly connected to the frame 200. The limiting member 150 is disposed on a side of the first support arm 140 facing away from the rack 200.

The enclosing plate structure of this embodiment through the first support arm and the locating part that set up, can rotate the in-process to the enclosing plate and carry on spacingly to can make the enclosing plate rotate to the frame top just in order to cover the frame completely.

For example, as shown in fig. 1, a folded edge 111 formed by bending and extending from the enclosing plate 110 to a side away from the translational lifting mechanism is disposed around the enclosing plate 110, and through the provided folded edge 111, a receiving chamber may be formed at a side of the enclosing plate 110 away from the translational lifting mechanism, so as to receive foreign matters and the like in an environment.

To facilitate the operation of the enclosure 110, as shown in fig. 2, an operating handle 112 may be provided on a side of the enclosure 110 facing away from the translational lift mechanism.

In order to improve the strength of the enclosing plate 110, as shown in fig. 1, a reinforcing rib 113 is provided on a side of the enclosing plate 110 facing the translational lifting mechanism, and the reinforcing rib 113 corresponds to the position of the translational lifting mechanism.

For example, as shown in fig. 1, in order to facilitate connection between the first side link 120 and the second side link 130, a connecting nose 114 may be provided on the enclosure plate 110, and the connecting nose 114 may be fixedly connected to the enclosure plate 110 by riveting or the like. First ends of the first link bar 120 and the second link bar 130 are hinged in the connecting nose 114.

Illustratively, as shown in fig. 1, the enclosure structure 100 further includes at least one locking support mechanism. The first end of the locking support mechanism is connected to the translational lifting mechanism, the second end of the locking support mechanism is connected to the frame 200, and the locking support mechanism can hold the enclosing plate 110 in the covering position or the exposing position.

Specifically, as shown in fig. 1, the locking support mechanism includes a gas spring 160 and a second support arm 170. The telescopic rod of the gas spring 160 is rotatably connected with the second side link 130, the cylinder body of the gas spring 160 is rotatably connected with the first end of the second support arm 170, and the second end of the second support arm 170 is fixedly connected with the rack 200.

The enclosing plate structure of the embodiment can keep the enclosing plate in a closed state when the enclosing plate rotates to the position covering the rack through the arranged gas spring and the second supporting arm, and can keep the enclosing plate in a supporting and opening state when the enclosing plate rotates to the position exposing the rack.

The utility model discloses an on the other hand provides an agricultural machinery, including in the foregoing record bounding wall structure, can specifically refer to in the foregoing relevant record, not repeated herein.

The agricultural mechanical equipment of the embodiment has the enclosing plate structure described above, and the arranged translation lifting mechanism can rotate the enclosing plate to the upper part of the rack to cover the rack or leave the enclosing plate from the upper part of the rack to expose the rack, so that the rack and internal mechanical components can be effectively protected, meanwhile, the rack and the mechanical components can be conveniently overhauled and maintained, the service life of the agricultural mechanical equipment is prolonged, and the use cost of the agricultural mechanical equipment is reduced.

It is to be understood that the above embodiments are merely exemplary embodiments adopted to illustrate the principles of the present invention, and the present invention is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and scope of the invention, and such modifications and improvements are also considered to be within the scope of the invention.

Claims (10)

1. A coaming structure for agricultural machinery, the agricultural machinery comprises a frame, and the coaming structure is characterized by comprising a coaming and at least one translation lifting mechanism;

the first end of the translation lifting mechanism is rotatably connected with the enclosing plate, the second end of the translation lifting mechanism is rotatably connected with the rack, and the translation lifting mechanism can enable the enclosing plate to rotate above the rack to cover the rack or move away from the rack to expose the rack.

2. The enclosure structure according to claim 1, wherein the translational lift mechanism includes first and second side link members spaced apart from one another;

the first end of the first connecting frame rod is hinged with the enclosing plate, and the second end of the first connecting frame rod is hinged with the rack;

the first end of the second side link is hinged with the coaming, and the second end of the second side link is hinged with the rack;

the frame, the first side link, the second side link and the coaming form a parallel four-bar mechanism.

3. A panel construction according to claim 2 wherein each side link comprises a first link portion and a second link portion which is arcuate;

the second connecting part is formed by bending and extending the end part of the first connecting part towards the direction of the machine frame.

4. The enclosure structure of claim 2, wherein the translating and elevating mechanism further comprises a first support arm and a stop;

the first end of the first supporting arm is rotatably connected with the second end of the second side link, and the second end of the first supporting arm is fixedly connected with the rack;

the limiting part is arranged on one side, departing from the rack, of the first supporting arm.

5. The enclosure structure according to any one of claims 1 to 4, wherein a folded edge is formed around the enclosure and extends from the enclosure to a side away from the translational lifting mechanism; and/or the like, and/or,

and an operating handle is further arranged on one side of the enclosing plate, which deviates from the translation lifting mechanism.

6. A closure arrangement according to any of claims 1 to 4, wherein the closure arrangement comprises two translational lift mechanisms, the two translational lift mechanisms being symmetrically disposed on the closure.

7. A coaming structure according to any one of claims 1 to 4, wherein a reinforcing rib is provided on a side of the coaming facing the translational lifting mechanism, the reinforcing rib corresponding to the translational lifting mechanism.

8. A closure arrangement according to any of claims 1 to 4, wherein the closure arrangement further comprises at least one locking support means;

the first end of the locking support mechanism is connected with the corresponding translation lifting mechanism, the second end of the locking support mechanism is connected with the rack, and the enclosing plate can be kept in the covering position or the exposing position by the locking support mechanism.

9. The enclosure structure of claim 8, wherein the locking support mechanism includes a gas spring and a second support arm;

when the translation lifting mechanism comprises a second side link, a telescopic rod of the gas spring is rotatably connected with the second side link, a cylinder body of the gas spring is rotatably connected with a first end of the second supporting arm, and a second end of the second supporting arm is fixedly connected with the rack.

10. An agricultural mechanical apparatus comprising a coaming structure according to any one of claims 1 to 9.

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