JPS59102728A - Method of throwing grains into grain tank - Google Patents

Abstract

PURPOSE:To reduce a space in a tank not filled with grain as possible by successively moving a grain throwing inlet when the height of the grain accumulated in the tank becomes a prescribed value at the stoppage position of the grain throwing inlet. CONSTITUTION:Upon throwing-in grain, a tank 8 into which the grains are to be thrown, e.g., No.7 tank 8 is firstly selected from plural tanks 8, and the throwing inlet 12 of a belt conveyor 9 is moved to the No.7 tank 8 while starting a moving motor 14. Then, when the throwing inlet 12 reaches an optical detecting element 18 provided on the No.7 tank 8, the movement of the belt conveyor 9 is stopped, and the throwing-in of grains is started while actuating the belt conveyors 5, 9. And, when accumulated the grains reaches the prescribed height, a switch means 13 is turned on, and the belt conveyor 9 is again advanced while starting the moving motor 14. The operations described above are repeated, and grains are thrown in order into the respective tanks 8.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for charging grain into a grain tank.

For grain storage and drying facilities, etc., grain tanks are used to temporarily store grain. The grain tank here includes a silo and 5 storage bins.

Conventionally, as a method of inputting grain into this grain tank, as shown schematically in FIG. It was.

Therefore, unlike liquid, the grain 4 charged into the grain tank forms a mountain with the top near the input port 2 of the chute, and the grain is disposed between the mountainside of the grain and the inner wall of the grain tank l. This resulted in an inability to effectively utilize the space inside the grain tank 1.

The present invention was made to solve all of the above problems.
It is an object of the present invention to provide a method for introducing grains that can minimize the occurrence of a space A that is not filled with grains in an upper dpi and can effectively utilize the space inside a grain tank.

In order to achieve this object, the present invention has a standby system which is arranged above the grain tank and is movable by a drive means, and a grain inlet provided in the grain inlet. and a switch means for activating the front dpi drive means when the pile of grains charged into the grain tank reaches a predetermined height, and when the grain input port is at a stopped position. When the pile of grains fed into the grain tank reaches a predetermined height, the grain feeding locations are sequentially moved so that the space inside the grain tank that is not filled with grains is made as small as possible. Ni~su thing Th
I/R, Aru decided to serve as an official in the tank for d goods.

Embodiments of the present invention will be described below with reference to the drawings.

Figures 2 and 3 show the equipment used in this method.
t is exemplified. As shown in FIG. 2, tanks 8, 8, 8, . A belt conveyor 9 for charging 7'lt of grain into each of the tanks 8, 8,... ...is cast above. For convenience of explanation, side walls 10 are provided on both sides of the belt conveyor 9, which is schematically shown. A wall // is provided to form an input port 12. Note that the side wall 10 is not necessarily required.

A switch means 1 is hung on the wall l/, and the tip 11 of the switch means 13 is located in the tank 8, and the top side of the grain pile is located inside the tank 8. When the crystallinity reaches a predetermined level, it turns on and starts 11 drive morphs for moving the belt conveyor 9, which will be described later, and moves the belt conveyor 9 forward #m.
(toward the right in Figure 2). In this example,
The switch means 13 moves up and down as necessary to avoid collision with the wall of the tank 8, but even if the switch means 13 is of a fixed type and is installed at #11 on the wall of the tank 8. Alternatively, the switching means 13 may be an optical sensor.

Mata, at the bottom of belt conveyor 9, i;i, to /l/
A fixed plurality of shafts are installed rotatably across the conveyor 9r, and wheels 15, 15, . . . are attached to both ends of the shafts. Among these shafts, a motor 14 is provided close to the negative shaft as a drive source for rotating the negative shaft by a full rotation. A belt is stretched between the motor 14 and the shaft, and the operation of the motor 14 applies driving force to wheels attached to both ends of the shaft. Of course, a speed reduction mechanism may be provided as necessary.

These rotating wheels and driven wheels 15.15... are connected to tanks 8, 8. The belt conveyor 9 is placed on a track 16.16 installed in the upper opening of the belt conveyor 9, so that the belt conveyor 9 is movable along the track 16.16.

Further, a light emitting element 17 is provided at an appropriate position below the tip of the belt conveyor 9 so as to face downward. Light receiving elements 18 and 19 receive light from this light emitting element 17.
' are arranged along the track 16 and in each tank 8, 8, . . .

Among these light-receiving elements, in each tank 8, the starting position pupil light-receiving element 18°18, which is disposed on the left hand side in the drawing, is as follows:
Receives the light r from the light emitting element 17 and emits a signal, 1li
Via the lI control panel (not shown), the operation of the MKm motor 14 for moving the belt conveyor is stopped, the belt conveyor 5.9 is started, and the conveyance and introduction of grain into the tank 8 is started. It looks like this.

On the other hand, each tank 8, 8... is arranged on the right side on the tooth surface.
The sewing position light-receiving elements 19, 19, .
Stopping the hs belt conveyor 5.9 and transporting grain.
A signal is issued to stop all of the crops being fed into the tank 8 (C).

FIG. 3 schematically shows a part of the apparatus in which the belt conveyor 90 is split into two parts, and the same members as those in FIG. 2 are given the same reference numerals and their explanations will be omitted. In this device, a support stand 20 is installed between the tanks 8, 8, . Further, a switch means 13 is vertically installed at the grain input port 12.12.

An example of a method of loading accessories into a grain tank using the sound of the grain loading device having the above configuration will be described with reference to FIG. 4.

First, among the tanks 8, 8, . . ., the tank kA to which the grain is to be charged is selected. For example, tank 8.8 shown in Figure 2...
Display code NCL 7 tank? If selected, a switch kONL is turned on the control panel (not shown), and the motor 14kpm for hyperactivity of the belt conveyor 9 is moved to the tank at the input port 11817 of the belt conveyor 90.

The belt conveyor 9 carries light emitting electrons 17. Tsutamera's origin is N1
When the starting position light receiver 18 provided in the tank 7 reaches a point rltF, the light receiver 18 issues four signals to stop the operation of the drive motor 14. At this time, the movement of the belt conveyor 9 is stopped, the operation of the belt conveyor 5.9 is started, and the feeding of grains into the Na7 tank is started. Then, a pile of grains will be formed by inputting the grains in the starting position in the tank of N[L7. When this pile of grains reaches a predetermined height, the switch means 13 turns OFF.
N and t! The 8-drive drive motor 14 is activated and the belt conveyor 9 moves forward (toward the right in FIG. 4). Needless to say, the conveyor 9 should be set so that it can rotate in the opposite direction.

When the switch means 13, which moves to the right in the drawing along with the belt conveyor 9, deviates from the pile of grains, the opF
In this state, the moving drive motor 14 stops, that is, the belt conveyor 9 stops moving. Even if there are 2 in between, the grain input to tank 8/\ is overflowing with g-I.

Inputting grain at stop position 1 of this belt conveyor 9 is as follows:
The process continues until the height of the grain pile reaches a certain value, and the re-switching means 13 is turned on, and then the process is repeated one after another until a grain pile is formed at each position.

one'? L, T, Light emitting element 1 arranged on the belt conveyor 9
7. When the light receiving element 190 located on the upper right hand side of the tank 8 in the drawing is completed, a signal from the light receiving element 19 iC causes the belt conveyor 9 to move and the grain feeding operation to be fully activated or stopped. .

The invention has been described in terms of the above-mentioned series; however, the present invention is not limited thereto, and may adopt supplementary embodiments within the scope of the claims. .

As is clear from the above explanation, according to the present invention, the grain inlet to the grain tank is made movable, and the grains forming in the tank at the stopping position of the grain inlet are provided. When the pile of grains reaches a predetermined height, move the grain inlet, continue to feed grain at the new stopping position until the pile of grains reaches the predetermined height, and repeat this process 4. Because of this, the mountain of grain filled in the tank becomes a series of small mountains, which can be made smaller throughout the entire area of the school where the tank is not filled with grain. The space inside can be used effectively.

[Brief explanation of the drawing]

FIG. 1 is a front view schematically showing a conventional grain feeding method; FIG. 2 is a front view showing an example of the apparatus used in the method of the present invention; FIG. 3 is a front view of the apparatus used in the method of the present invention. FIG. 4 is a front view schematically showing the method of the present invention. 4... Grain, 8... Grain tank 9.
・・Belt conveyor, 12・−First role entrance 13・・
Switch means 14... Drive motor 17 for moving the belt conveyor...
Light emitting element 18...Starting position Light receiving element 19...Final position receiving element Applicant: Toyokuni Kogyo Co., Ltd. 1 Figure 2 Figure 3 Figure 4 Figure 7 160-

Claims (1)

[Claims] (1) A grain inlet placed above the grain tank and movable by a drive means, and a pile of grains provided in the grain inlet and placed in the grain tank. and a switch means for activating the JIIKd means when the grain height reaches a predetermined height 1, the pile of CS materials fed into the pruning grain tray at the position where the grain input port is stopped is placed at a predetermined height. When the height VC is reached, the grain input port is moved 16 times, and the grain is loaded into the grain tank so that the space inside the grain tank that is not filled with waste is made as small as possible.