KR20120016974A - Manure moving control apparatus of manure spreader - Google Patents

Abstract

PURPOSE: A compost transferring and adjusting apparatus of a compost scattering unit is provided to suppress the waste of compost by scattering the required amount of compost to target points. CONSTITUTION: A compost transferring and adjusting apparatus of a compost scattering unit includes a base frame(100), a reinforcing frame(200), and a transferring conveyor(300). The base frame includes a sliding groove(301). The reinforcing frame is fixed to the bottom surface of the base frame. The transferring conveyor is engaged with regularly arranged drums(80) and rotates based on the torque of a motor(50). A plurality of hydraulic cylinders(10) is mounted at the reinforcing frame and is in connection with the base frame. A shaft(60) is embedded in the dram. A fixing plate(40), a belt pulley(70), and a roller(30) are successively mounted at both end parts of the shaft.

Description

Manure moving control apparatus of manure spreader

The present invention relates to a compost spreader, and more particularly, by implementing a series of mechanisms to spread the amount of compost to the desired point by the operator to control the amount of compost spread arbitrarily to suppress the use of unnecessary waste compost The present invention relates to a manure spreading control device of a manure spreader, which is configured to maximize the efficiency of composting, as well as reducing the spreading cost.

Conventionally, chemical fertilizers and composts are used to promote soil conditions such as rice fields and fields and to promote crop growth, and in recent organic methods, a large amount of compost is used instead of chemical fertilizers as part of producing quality crops.

However, the conventional farming method of spraying compost to rice fields and fields by using pure manpower has a lot of difficulties in the current situation in rural areas where manpower shortages are increasing, and accordingly, the compost spreader which automatically sprays compost by using agricultural machines such as tractors The situation is spreading in large quantities.

As described above, the conventional manure spreader includes a manure spreader mounted on a tractor trailer to spread manure and a manure directly mounted on a tractor to spread manure. Here, the latter method is made by having a compost stack of the enclosure shape surrounded by the slope, which is shown in detail in FIG.

1 is a view showing a conventional manure spreader.

Conventional manure spreader, the loading box (B) is mounted and connected to the rear of the tractor (not shown), the conveyor A is moved by a chain on the bottom of the loading box is installed.

The conveyor A is moved by a rotating shaft that receives and receives a rotational force generated by the tractor and a belt (not shown) connected thereto, that is, the belt supplies a rotational force to a chain for transporting a conveyor formed at the bottom of the loading box. To be connected.

The rear of the conveyor is equipped with a rotary device (D) provided with a plurality of rotary blades (C) rotated by a gear of the rotary shaft, in particular, the rear of the rotary device is provided with two disks (E) ) Is installed.

The conventional manure spreader configured as described above is connected to the tractor and mounted on the bottom of the loading box to receive power from the rotating shaft. The rotating shaft supplies a rotational force to the belt, whereby the chain is rotated so that the conveyor is conveyed backwards. When the conveyor (A) is transported, the compost in the stacking box (B) is transported to the rear and is crushed by a rotary device (D) consisting of a plurality of rotating grinding blades (C), two rotary devices installed at the rear of the rotary device The compost pulverized by the disk E is made in such a way that it is spread over the whole body.

However, the conventional manure spreader as described above is applied to the orchard where the cropping is done and standardized these days as the spreading method is composed of a disk rotation type or a rotary type, so that a large amount of compost is unnecessarily spread around a wide range. Inevitably, compost losses are excessive and face the problem of increasing production costs.

The present invention has been made to actively solve the above problems, and an object of the present invention is to provide a compost feed control apparatus for a high-efficiency manure spreader suitable for the current fruit structure.

In addition, another object of the present invention is to build a structure that can be driven sideways to extend or contract according to the over-structure structure to be used more widely.

Compost transfer control device of the compost spreader according to the present invention as a means for achieving the above object,

A loading box is mounted at the rear of a farm machine such as a tractor, and the loading box is configured to include a conveyor so that the compost is moved to the rear by rotating the rotary shaft with the power supplied from the tractor.

A base frame extending to face the sliding groove on an inner surface thereof;

A reinforcement frame fixed to the bottom of the base frame and having a plurality of hydraulic cylinders connected to the base frame;

It consists of a conveying conveyor which is rotated and driven by the driving force of the motor in engagement with the drum disposed at equal intervals,

A fixed plate, a belt pulley, and a roller are sequentially mounted on both ends of the shaft built in the transfer conveyor drum.

In addition, the transfer conveyor is configured to be orthogonal to each other and to the conveyor of the loading box to properly distribute the compost moved by the conveyor of the loading box, characterized in that the spraying exactly to the intended point.

In addition, the fixing plate is composed of an extension and a mounting portion,

The extension is perforated at equal intervals,

The mounting portion is characterized in that the motor is mounted, including one or more rollers are mounted on both sides to circulate along the guide groove of the base frame.

In addition, the one or more hydraulic cylinders are interposed between the base frame and the fixed plate, so that the fixed plate is linearly reciprocated as the rod of the hydraulic cylinder is relaxed or contracted.

According to the present invention having the above configuration, the amount of composting can be actively reduced to minimize the cost of production, and in particular, the necessary amount can be sprayed only at a desired position during composting, so that the growth of crops can be promoted by intensively spreading in a large portion of the root distribution. This is expected.

In addition, it can be applied to the most suitable structure for different orchard structure, there is an effect that can be used more widely.

1 is a perspective view of a manure spreader according to the prior art.
Figure 2 is a perspective view showing a compost spreader configured according to the most preferred embodiment of the present invention.
Figure 3 is a perspective view of the compost transfer device showing in detail the main portion of the present invention.
Figure 4 is a perspective view showing the internal configuration of FIG.
Figure 5 is an exploded perspective view of the compost transport apparatus configured in accordance with the most preferred embodiment of the present invention.
6 is an exemplary view showing the components embedded in the base frame of the present invention.
Figure 7 is a partially enlarged perspective view showing in detail the compost transport apparatus of the present invention.

In order to harvest large quantities of continuous, high-quality crops, it is important to administer the ground technology, but the importance of managing the soil environment for underground crops is well known.

The present invention relates to a series of apparatuses configured to minimize the spreading cost by allowing more precise and effective spreading of compost while allowing for more concentrated spreading where necessary.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the present invention. However, advantages and features of the present invention, and a method of achieving them will be apparent with reference to the embodiments described below in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be embodied in various forms, and only the present embodiments are provided to make the disclosure of the present invention complete, and are common in the art to which the present invention pertains. It is provided to fully inform those skilled in the art of the scope of the invention, which is to be defined only by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

A schematic configuration of the compost spreader 1 to which the present invention is applied is shown through FIG. 2.

Figure 2 shows a manure spreader configured in accordance with the most preferred embodiment of the present invention, is usually mounted on the rear of the tractor is provided with a loading box (3) consisting of a rectangular box shape so that a certain amount of compost can be accommodated On the bottom of the stacker, a conveyor 4 repeatedly rotated in one direction is installed.

In addition, the conveyor (4) is a useful means for transporting the compost to the rear of the tractor by a rotating shaft (not shown) to receive the rotational force generated by the tractor, and the chain or belt connected thereto, the rear behind the loading box Another device for spraying the compost transferred to the proper amount can be arranged to complete the structure of the spreading of the compost uniformly. Since this is similar to the same technical matters as the prior art, a detailed description thereof will be omitted.

On the other hand, as an example of the conventional prior art, there is a rotary device which is connected to the rotary shaft gear is rotated in the rear of the conveyor disposed in the loading box, characterized in that the rotary device is provided with a plurality of grinding blades. In particular, two disks were additionally installed at the rear of the rotary device to supply the composted crushed compost.

In the present invention is configured in order to spray the compost transferred from the loading box in the most appropriate manner as described above, by applying to the standardized orchard to improve the accessibility of the crop apart from the conventional disk rotation type or rotary type spraying method As well as the spreading amount, it is noted that the composting feed control device (2) of the compost spreader configured as a salvage only at the point where more precise composting is necessary by implementing a structure capable of adjusting the spreading angle and the distance.

Figure 3 is a perspective view of the compost transport apparatus showing in detail the main portion of the present invention, Figure 4 is a cutaway perspective view showing the internal configuration of Figure 3, Figure 5 is a compost transfer configured according to the most preferred embodiment of the present invention An exploded perspective view of the device.

As shown in the figure, the compost feed control device 2 of the present invention is a base frame 100; Reinforcement frame 200; Transfer conveyor 300; may be divided into.

The base frame 100 may be formed as a square frame with one side open, and is disposed separately at a point where the end of the conveyor ends at a position slightly lower than the conveyor 4 pre-installed in the tractor, in which case the base frame 100 The conveyor 4 is preferably arranged orthogonal to each other. The open one side of the base frame 100 is located behind the tractor side portion to be the discharge passage of the transport conveyor 300 to be described later, the overall length is a shape extending in a predetermined length than the width of the loading box in the tractor side to be discharged Can be configured.

In addition, the base frame 100 is provided with a predetermined sliding groove 301 in the longitudinal direction in the inner region extending to face each other, the sliding reciprocating drive as the sliding groove 301 is guided a plurality of rollers 30 Be sure to

The reinforcement frame 200 is slightly extended to one end to be shaped as shown in Figure 5 to be fixed on the back of the tractor body, and is connected to the pivot shaft 302 on the bottom of the base frame 100 is the pivot shaft ( A plurality of hydraulic cylinders 10 may be further mounted to allow the base frame 100 to be driven up and down from the 302. Hydraulic cylinder 10 is mounted to the other side end of the reinforcing frame 200 attached to the rotating shaft 302, as shown in the figure, and the cylinder rod and the cylinder rod as the drive is relaxed or reduced The connected base frame 100 was also able to be driven in an upward direction to a downward direction.

The transfer conveyor 300 has the same technical concept as a conventional conveyor, and in the present invention, a belt conveyor is used as the example.

Equally spaced shafts 60 are arranged in the outer periphery of the drum 80 of the friction material having a good friction force, and the fixed plate 40, the belt pulley 70, the roller 30 are sequentially on both ends of the shaft 60 It is made by combining.

As shown in FIG. 5, the fixing plate 40 includes an extension part 41 in which a through hole 43 is drilled at regular intervals, and a mounting part 42 formed of an appropriate space so that the motor 50 can be mounted. do.

The extension part 41 fits the shaft 60 through the through hole 43 to form an integrated shape, and the mounting part 42 is inside the base frame 100 in a state where the motor 50 is mounted. It becomes a means to repeat a certain distance driving through space.

Here, one or more rollers 44 may be further mounted on both sides of the fixing plate mounting part for sliding driving of the fixing plate 40, and the rollers 44 are sliding grooves 301 of the base frame 100. It was built in to allow a small linear reciprocating drive.

The belt pulley 70 is configured to be connected to the motor 50 mounted on the mounting portion 42 to transfer the rotational force of the motor to the shaft 60 and the drum 80 so that the continuous discharge of compost can be made ( 300 is a component that operates in one direction, the roller 30 acts to move the entire conveying conveyor 300 by the sliding groove 301 as described above.

At least one hydraulic cylinder 20 is further interposed on the same line between the base frame 100 and the fixing plate 40. That is, the mounting plate 42 of the fixed plate and one side of the base frame 100 is equipped with a conventional hydraulic cylinder is configured to push or pull the fixed plate 40 in accordance with the operation of the hydraulic cylinder fixed plate is moved The conveying conveyor 300 is also characterized in that the linear reciprocating drive.

Referring to the operation of the present invention and the resulting effects including the configuration as described above are as follows.

First, when the loading box 3 is mounted on the tractor, the power is applied by electrically connecting them to each other, and when the power is applied, the rotating shaft mounted on the bottom of the loading box is driven in one direction to power the conveyor 4. Will be supplied. That is, the rotating shaft may be supplied to the chain or belt constituting the conveyor, such as a rotational force to convey a large amount of compost placed on it while the conveyor is transported to the rear (3).

The compost conveyed to the rear by the conveyor 4 is transferred to another conveying conveyor 300 arranged in the orthogonal direction, and is intensively sprayed at the point where the root distribution is large. In other words, the compost gradually moved backwards on the conveyor loaded in the loading box drops instantaneously at the rear end of the conveyor, and the dropped compost is placed on another conveying conveyor 300 provided at the rear lower side of the conveying conveyor. While moving in the direction of rotation will be able to be discharged to the target point naturally.

In addition, in the present invention, the transfer conveyor 300 is configured to be driven in a vertical direction as well as in the left and right directions.

As shown in the drawing, a plurality of hydraulic cylinders 10 respectively mounted to the side ends of the reinforcement frame 200 are fixed and fastened at the bottom of the base frame 100, and as the hydraulic cylinder rods are drawn out or drawn in, the base frame 100 is The up and down driving can be freely implemented within a predetermined range as it is constrained by the rotation shaft 302. This is a useful means when the slope of the road surface or an inadequate gradient is formed to discharge the compost, the compost discharge can be smoothly adjusted by adjusting the angle to the most suitable angle to discharge the compost will be.

On the other hand, when driving another hydraulic cylinder 20 coupled to them in the space between the base frame 100 and the fixed plate 40 is pushed by pushing the rear of the fixed plate mounting portion 42 naturally with the rod pulled out, The pressurized mounting portion 42 is driven forward in a state in which the rollers 44 provided on both sides thereof are restrained to the sliding grooves 301.

When the mounting portion 42 is driven forward along the sliding groove 301, the shafts 60, which are connected to each other in the extension portion 41 of the fixed plate, move forward in the direction of travel of the fixed plate 40 in a stable manner. As a result, the entire transport conveyor 300 may protrude out of the base frame 100. Through the conveying conveyor 300 arranged in this process it is possible to close the crops more easily in the place where the tractor can not easily contact the discharge compost in the desired place.

Although the present invention described above has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments may be made by those skilled in the art. Should be clarified. Therefore, the true technical protection scope of the present invention should be interpreted by the appended claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

1: compost spreader 2: compost feeder
3: loading box 4: conveyor
10,20: hydraulic cylinder 30: roller
40: fixed plate 41: extension part
42: holder 43: through-hole
44: roller 50: motor
60: shaft 70: belt pulley
80: drum 100: base frame
200: reinforcement frame 300: conveying conveyor
301: sliding groove 302: rotating shaft
A: Conveyor
B: loading box
C: grinding blade
D: Rotary Device
E: disc

Claims (3)

A loading box 3 is mounted at the rear of a farm machine such as a tractor, and the loading box is a compost transport control apparatus for a compost spreader including a conveyor 4 so that the compost is moved to the rear by rotating a rotary shaft with the power supplied from the tractor. In
A base frame 100 which is formed to extend and face the sliding groove 301 on an inner surface thereof; A reinforcement frame 200 fixed to the bottom of the base frame and having a plurality of hydraulic cylinders 10 connected to the base frame; It is made of a conveying conveyor 300 is rotated by the driving force of the motor 50 in engagement with the drum 80 arranged at equal intervals;
The drum 80 of the conveying conveyor is built with a shaft 60 and the fixed plate 40, the belt pulley 70, the roller 30 are sequentially mounted on both ends of the shaft,
The conveying conveyor 300 is a compost spreading control device of the compost spreader, characterized in that configured to be orthogonal to each other and the conveyor 4 of the loading box.
The method according to claim 1,
The fixed plate 40 is composed of an extension portion 41 and the mounting portion 42,
The extension part 41 is perforated 43 is equally spaced apart,
The mounting portion 42 is a motor 50 is mounted and the compost disperser transport, characterized in that it comprises a roller 44 is mounted on both sides to reciprocate along the sliding groove 301 of the base frame Regulator.
The method according to claim 1,
One or more hydraulic cylinders 20 are further interposed between the base frame 100 and the fixed plate 40, and the rods of the hydraulic cylinders are relaxed or contracted to linearly reciprocate the fixed plate 40. Compost feed control device of the compost spreader.

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