KR20180085985A - Grain Transfer Unit of Combine - Google Patents

Abstract

The present invention relates to a grain transfer apparatus for a combine, comprising: a case forming an outer shape; a rotary rod inserted into the case and constituting a rotary shaft; and a screw member coupled to the outer surface of the rotary rod and rotating about the rotary rod to form a feeding path of grain. At an end of the screw member, a protruding member for preventing detachment of the grain is provided.

Description

[0001] Grain Transfer Unit of Combine [

The present invention relates to a grain conveying apparatus for conveying grain in a threshing section of a combine, and more particularly, to a grain conveying apparatus for conveying grain in a threshing section of a combine, The present invention relates to a grain conveying device of a combine capable of greatly improving the yield.

Generally, the combine harvests grains of rice, barley, and the like, and is a device that can select grains and rice straw. Such a combine has a structure in which various devices such as a harvesting device, a threshing device, a sorting device, and a grain tank are mounted on a single body.

The sorting device is a device for sorting grains, that is, grains, in a harvested product through a cut-off part. The sorting device is a device for sorting grains, which are threshed through the threshing device, and other straws such as hell and straw Device.

Through this process, the selected grains are stored in the grain tank through the grain transfer device. The grain conveying apparatus includes a screw member forming a rotational movement path of the grain. That is, the grain selected through the sorting device moves upward along the screw member and is stored in the grain tank.

However, as disclosed in Japanese Utility Model Laid-Open No. 20-2009-0006330, there is a problem that the screw member of the conventional grain conveying apparatus is not equipped with a device for preventing the detachment of grain.

Specifically, according to the above conventional literature, the grain moving upward along the screw member is separated from the upper surface of the screw member by the rotational force and falls downward. At this time, there is a problem that the grains falling downward take a lot of load and damage such as crumbling or cracking of the grain occurs. In addition, there is a problem that the amount of grain moving through the grain conveying device is significantly reduced due to the separation phenomenon, and the harvesting efficiency is greatly reduced.

Korean Utility Model Publication No. 20-2009-0006330.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a combine harvester which can greatly improve the feeding efficiency and the damage prevention efficiency of grains by preventing the grains from falling down from the screw member when the grains are disposed on the upper surface of the screw member, To provide a grain conveying device.

In order to overcome the limitations and disadvantages of the related art, the present invention provides an electronic device including a casing forming an outer shape, a rotating rod inserted into the casing and constituting a rotating shaft, and a rotating rod coupled to an outer surface of the rotating rod, There is provided a grain conveying device for a combine including a screw member for forming a conveying path of the grain, and a protruding member for preventing the detachment of the grain is provided at the end of the screw member.

According to the present invention, there is an advantage that the conveyance efficiency of the grain can be greatly improved since the phenomenon that the grains moved through the grain conveying device are separated from the screw member is minimized.

As a result, it is possible to prevent cracking or crumbling of the grains, which occurs when the grains fall downward due to separation of the grains, thereby greatly improving the damage prevention efficiency of the grains.

1 is a perspective view showing the overall structure of a combine according to the present invention.
2 is an exploded perspective view showing a detailed configuration of a threshing portion of the combine.
3 is an exploded perspective view showing a detailed configuration of the grain conveying device in the threshing section.
4 is a view showing a structure of a grain conveying apparatus according to an embodiment of the present invention.
5 is a view showing the structure of a grain conveying apparatus according to another embodiment of the present invention.
6 is a view showing a structure of a grain conveying apparatus according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

1 is a perspective view showing the overall structure of a combine according to the present invention. 2 is an exploded perspective view showing the detailed configuration of the threshing portion of the combine.

Referring to FIGS. 1 and 2, the combine according to the present invention is configured to perform a linear movement in the forward and backward direction or a rotational movement in the left and right direction through a pair of travel portions 1 positioned at the lower portion thereof.

The combine has a control unit 3 in which a driver's seat 2 is formed and a curled portion 5 and a curled-up packaging unit 6 are formed at the rear of the control unit 3. The pre-processing unit 12 and the feeder unit 11 are formed in front of the control unit 3 to form a pre-processing unit 10. The combine having such a structure can be used for harvesting grains such as rice, barley and the like.

The preprocessor 12 is connected to the front end of the feeder 11 and can be lowered by the upper and lower operation of the feeder 11 so as to be placed in an operating state or can be raised to a non-working state.

A pair of dividers 15 positioned in front of the pretreatment apparatus 12 separate the objects to be cut and non-object to be cut, when the combine is driven in a state where the pre-loading unit 10 placed in the working state is descending. Then, the object to be cut is collected by a rotary reel 17 formed in the preload portion 10, and the collected object to be cut is introduced into the inlet of the feeder 11 through the collecting roll 19.

The object to be cut, which is drawn into the inlet of the feeder 11, is delivered to a threshing section 5. The threshing object is subjected to a threshing process in the threshing section 5, and a threshing process is selected from straw , And moves the selected curled-leaf to the curled-up packaging portion (6). Although not shown in Fig. 1, the bag-shaped packaging portion 6 is provided with a bag, and finally the bag-shaped bag is accommodated in the bag.

Hereinafter, the process of moving the curl to the curled packing section 6 through the threshing section 5 will be described in more detail.

First, the mixture of the grain and the stem drawn through the feeder 11 is moved to the threshing cylinder 51. [ The threshing cylinder 51 is a mesh-shaped part, and a part of the mixture is filtered through the threshing cylinder 51. The mixture having a small volume, which is filtered from the threshing cylinder (51), is moved downward by the sorting plate (52). Straws such as stems in the mixture placed on the sorting plate 52 are discharged to the outside by blowing air and other substances are moved downward to the transfer plate 53 by the swinging motion of the sorting plate 52. At this time, the selected curved grains are moved upward through the first grain conveying device 100 and moved to the curled packing portion 6 through the grain tank 102, and the curved grains mixed with foreign matter are conveyed to the second grain conveying device (200), and moves again on the sorting plate (52), so that a re-sorting process is performed.

It is necessary to prevent a phenomenon such as dropping during the upward movement for smooth movement of the curved grains moving through the first grain conveyance device 100 or the second grain conveyance device 200. [ Hereinafter, the detailed configuration of the improved grain conveying device taking this necessity into consideration will be described. However, since the first grain conveying apparatus 100 and the second grain conveying apparatus 200 have the same detailed structure, the first grain conveying apparatus 100 (hereinafter referred to as a grain conveying apparatus) The description of the second grain conveyor 200 will be omitted.

3 is an exploded perspective view showing a detailed configuration of the grain conveying device in the threshing section. 4 is a view illustrating a structure of a grain conveying apparatus according to an embodiment of the present invention.

The present invention relates to a grain conveying apparatus 100. The grain conveying apparatus 100 includes a case 110 forming an outer shape, a rotating rod 120 inserted into the case 110 and constituting a rotating shaft, And a screw member 130 coupled to an outer surface of the rotating rod 120 and rotating about the rotating rod 120 to form a feeding path of the grain.

Specifically, the grains transferred to the conveying plate 53 are moved into the case 110 through the inlet port 101 formed at one side of the case 110. The grain moved upward in the inner space of the case 110 is moved to the grain packing section 6 through the grain tank 102. That is, the grain must be moved from the bottom to the top in the inner space of the case 110. This upward movement of the grain can be accomplished by the screw member 130 rotating about the rotating rod 120.

A predetermined gap is formed between the inner surface of the case 110 and the end of the screw member 130 for smooth rotation of the screw member 130. With such an interval, a proper tolerance can be secured when the case 110 and the screw member 130 are assembled.

The screw member 130 is inserted into the inner space of the case 110 and is coupled to the outer surface of the rotating rod 120 and extends in a spiral shape upward. And the grain is moved upward along the upper surface of the screw member 130. This moving power is generated by the rotation of the rotating rod 120.

At the end of the screw member 130, a protruding member 131 for preventing the detachment of the grain is installed. That is, when the grain is moved upward along the upper surface of the screw member 130, the screw member 130 may be provided with the projecting member 131 Is formed. 4, the protruding member 131 is a circular member that is seated on the top of the screw member 130, for example. It is possible to prevent the grains moving along the upper portion of the screw member 130 from being separated by the projecting member 131.

The screw member 130 includes a first region 141 (see FIG. 4A) for forming a feeding path of the grain, a second region 141 (see FIG. 4A) for forming a feeding path of the grain, (See FIG. 4C) and a second region 142 (see FIG. 4B) disposed between the first region 141 and the third region 143 to form an intermediate conveyance path of the grain . That is, the first region 141 is a portion adjacent to the inlet 101, the third region 143 is a portion adjacent to the grain tank 102, and the second region 142 is a portion adjacent to the inlet 101, Refers to a portion between the first region 141 and the third region 143. [

At this time, the projecting members formed in the first to third regions may have different lengths. For example, the protrusion member formed in the second region 142 is formed to have a relatively longer length than the protrusion member formed in the first region 141 and the third region 143. Accordingly, the grain can smoothly flow into the first region 141 from the inlet 101, and can be smoothly discharged from the third region 143 to the grain tank 102. Since the protruding member of the second region 142 is formed to have a relatively long length, it is possible to prevent the downward dropping of the screw member 130 when the grain is moved upward.

Another example of the shape of the projecting member is shown in Figs. 5 and 6. Fig.

FIG. 5 is a view showing the structure of a grain conveying apparatus according to another embodiment of the present invention, and FIG. 6 is a view showing the structure of a grain conveying apparatus according to another embodiment of the present invention.

5, the protruding member 132 may have a shape to be fitted to an end of the screw member 130 so as to extend over the upper surface and the lower surface of the screw member 130 ). In other words, the protruding member 132 is provided with a predetermined groove and the side member of the screw member 130 is fitted into the groove, 130 can be prevented.

As another example, the projecting member 133 may be a straight member extending vertically upward from the upper surface of the screw member 120. According to the present embodiment, the protrusion member 131 is easy to manufacture and can be easily coupled with the screw member 120, compared to a circular shape.

When the grain conveying apparatus 100 according to the present invention is used, the grain processing efficiency is improved by 30 to 40% as compared with the conventional method. That is, the present invention has an effect of preventing the grain from being separated from the grain by the protruding member by 30 to 40% as compared with the conventional one. In addition, the breakage prevention efficiency of the grain was improved by 7 to 8% in comparison with the conventional one in the state of the grains having been moved. That is, the present invention is improved by 7 ~ 8% in comparison with the conventional art in preventing damage such as cracking or cracking of grain by the protruding member.

As described above, according to the present invention, the phenomenon that the grains moved through the grain conveying apparatus 100 are released from the screw member 120 to the outside is minimized, so that the feeding efficiency of the grain can be greatly improved.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

5: threshing part 100: grain conveying device
110: Case 120:
130: screw member 131, 132, 133: projecting member

Claims (7)

An outer case;
A rotating rod inserted into the case and constituting a rotating shaft; And
And a screw member coupled to an outer surface of the rotating rod and rotating about the rotating rod to form a feeding path of the grain,
And a protruding member for preventing the detachment of the grain is provided at the end of the screw member.
The method according to claim 1,
Wherein the protruding member is seated on an upper surface of the screw member to form a separation preventing barrier for the grain moving along the screw member.
3. The method of claim 2,
Wherein the shape of the protruding member is circular or linear.
The method according to claim 1,
Wherein the protruding member has a shape that fits in an end portion of the screw member so as to be formed over an upper surface and a lower surface of the screw member.
The method according to claim 1,
The screw member includes a first region forming a feeding path of the grain, a third region forming a discharge path of the grain, and a second region disposed between the first region and the third region, And a second region forming an intermediate transfer path,
Wherein the projecting members formed in the first to third regions have different lengths.
6. The method of claim 5,
Wherein a protrusion member formed in the second region has a relatively longer length than a protrusion member formed in the first region and the third region.
The method according to claim 1,
Wherein a predetermined gap is formed between the inner surface of the case and the end of the screw member.

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