KR101147324B1 - Grain inducing apparatus for measuring moisture of grain meter - Google Patents

Abstract

PURPOSE: A grain guide device for measuring moisture of a grain scale is provided to accurately measure moisture of grains without errors because the moisture is separated by air supplied through a through-hole so that the foreign substances of the grains do not flows into a moisture measuring device. CONSTITUTION: A grain guide device for measuring moisture of a grain scale(10) comprises bent pieces(30,31), an inducing hopper(20), an elastic pin(50), an operation lever of a solenoid(70), and an opening and closing plate(80). The bent pieces support the inducing hopper so that grains are guided to a discharge hole(13). The inducing hopper comprises bent planes(21,22) and a lever(23). The elastic pin controls the inducing hopper by an elastic rebound force. The inducing hopper moves back and forth when the operation lever of the solenoid is moved upward and downward by a supporting spring(60). The opening and closing plate is mounted in a through-hole(14) and supplies air while controlling an air supplying amount.

Description

Grain induction device for moisture measurement of grain weighing machine {GRAIN INDUCING APPARATUS FOR MEASURING MOISTURE OF GRAIN METER}

The present invention relates to a grain induction device for measuring moisture of a grain weighing machine, and more preferably, one side of a grain meter for continuously metering grains such as rice, rice, barley and soybean through a grain inlet in a large quantity. In order to accurately measure the moisture content of the grain by mounting the grain induction device to separate the grain so as not to introduce foreign substances mixed in the grain when inducing the grain with the grain moisture meter to guide grain only.

In general, moisture content should be accurately measured on the grains, such as rice, barley, and soybeans, or on soils for cultivating plants, or on powdered compounds for manufacturing medicines.

This is because, in the case of grains, the quality of the grains is judged to be dry. At this time, due to the high and low moisture content of the harvested grains, the storage conditions must be changed to prevent the deterioration of the grains, as well as the quality and weight of the grains. As a very important factor in measuring the moisture content, a conventional grain meter is equipped with a grain moisture meter for measuring the moisture of the grain.

The grain moisture meter is a method of calculating the moisture content of the measured capacitance by measuring the capacitance and the moisture meter and the analog type moisture meter using LED, FND, etc., but some of the recent attempts The meter uses a text LCD.

Disclosure of the "grain induction device for moisture measurement of grain meter" of the registered utility model No. 20-0160731 to induce grain to one side of the grain meter to measure the moisture contained in the grain by the various types of grain moisture meter as described above It became.

However, when inducing grain with the grain-inducing device of the above-described registered utility model, foreign matters such as gum and the like are not separated, and foreign matters such as grain and gumbu are induced together, so that the error rate is high when measuring moisture in grains. The disadvantage is that no measured value can be obtained.

In addition, inside the grain weighing machine, the screw leading to the moisture meter and the induction hopper to induce grain when measuring moisture are rotated by a fixed rod inside the grain weighing machine. Foreign materials such as gum and mixed with the foreign matter is caught in the fixed rod and screw, grains were not smoothly guided by the moisture meter, as well as the operation was not made smoothly or stopped working.

The present invention was created in order to solve the above problems, when inducing the grain to the induction device to measure the moisture content of the grain during grain measurement, the grain only induction device by separating foreign matters such as black light mixed with grain It is intended to be able to accurately measure the moisture contained in the grain without error.

The configuration of the present invention having the above object will be described in more detail with reference to the accompanying drawings.

1 to 5, to close the one side of the grain inlet 11 perforated on the upper surface of the grain weighing machine 10 to discharge the grain for moisture measurement in the lower portion of the side wall 12 connected A support pin on the outlet 13 bored to support the guide hopper 20 for guiding grain into the outlet 13, and the bending pieces 30 and 31, respectively. Bending sides 21 and 22 are formed by bending both sides so as to be supported by the 40 and 41, but the bending surface 21 of one side is extended to form the lever 23 to be discharged to the long hole 15. One of the induction hopper 20, the support pin 41 is mounted to the lever 23, the elastic pin 50 to control the induction hopper 20 with elastic force, and the lever 23 and one end Between the operation 71 of the solenoid 70 connected with the other end of the support spring 60 to move back and forth the guide hopper 20 while moving up and down by the support spring 60 is connected, The upper part of the outlet 13 comprises a plurality of through holes 14 to open and close the opening and closing plate 80 mounted on the through hole 14 side to supply air while controlling the amount of air supply. It is done.

In addition, the present invention by bending the lower portion of the lever 23 formed on the bent surface 21 of the induction hopper 20 at a steep oblique angle to expose the discharge plate 24 to the outside of the outlet 13, the moisture meter It is characterized in that it is configured to be positioned above the 90.

In addition, the outlet 13 of the present invention is equipped with a moisture meter 90 is characterized in that configured to measure the moisture content of the grain discharged to the outlet (13).

When the present invention configured as described above is intended to measure the moisture contained in the grain in the process of measuring the grain input to the grain weighing machine, by operating the induction hopper mounted inside the grain weighing machine to guide the grain to the moisture meter as well as grain Foreign substances such as gumbul contained in is separated by the air supplied through the through the foreign matter is not guided by the moisture meter has the effect that can accurately measure the moisture contained in the grain without error.

In addition, the present invention is only when you want to measure the moisture content of the grain induces the hopper in the direction of grain input and at the same time the end of the discharge plate to be in close contact with the moisture measuring hole of the moisture meter to guide the grain to the moisture measuring hole of the moisture meter. On the contrary, if the moisture of the grain is not measured, the induction hopper is in close contact with the side wall, and at the same time, the tip of the discharge plate is kept away from the moisture measuring hole of the moisture meter so that the grain can measure the moisture of the moisture meter. It has the effect of not being led to the ball.

In addition, the present invention is because the induction hopper bent obliquely at an obtuse angle only when the moisture measurement operation is inclined grains are introduced into the moisture measuring hole of the moisture measuring instrument along the steep induction hopper and discharge plate quickly contained in the grain It is a very useful invention that can measure moisture accurately and quickly.

1 is a perspective view of a grain induction device for measuring moisture of a grain weighing machine according to the present invention;
Figure 2 is an exploded perspective view of the grain induction device for measuring the moisture of the grain weighing machine according to the present invention,
3 is a side view of the grain induction device for measuring the moisture of the grain weighing machine according to the present invention,
4 is a cross-sectional view of a state in which the induction hopper of the grain induction device for measuring the moisture of the grain weighing machine according to the present invention is closed,
5 is a cross-sectional view of the induction hopper of the grain induction device for measuring the moisture of the grain weighing machine according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the grain induction device for measuring the moisture of the grain weighing machine according to the present invention will be described in detail.

As shown in Figures 1 to 3, the grain induction apparatus for measuring the moisture of the grain weighing machine according to the present invention is configured to accurately measure the moisture content in the process of measuring the curved grains, the upper portion of the grain weighing machine 10 The surface is formed by drilling a grain input hole 11 into which grain can be input, but the upper surface of one side is configured to be closed.

And the lower portion of the sidewall 12, the upper surface of the grain meter 10 is closed discharge outlet 13 for guiding and discharging the grain when the moisture contained in the grain to measure the moisture in the grain measuring unit 90 while measuring the grain Is formed.

In addition, the induction hopper (20) mounted on the outlet (13) guides the grains (21) and (22) of the guide pieces (40) and (41) to the bending pieces (30) (31). Hopper 20 is formed to be able to move back and forth.

In this case, one side of the bent pieces 30 and 31 is fixed to the side walls so that the bent surfaces 21 and 22 of the induction hopper 20 can be supported by the support pins 40 and 41. The other side of 31 is in close contact with the bent surface 21, 22 formed by bending both side surfaces of the induction hopper 20 is configured by coupling with the support pins (40) (41). One side of the bent surfaces 21 and 22 bent to both sides of the induction hopper 20 extends to form the lever 23 to be drawn out to the long hole 15.

In addition, the support pin 41 is mounted to the lever 23 is equipped with an elastic pin 50 is configured to control the induction hopper 20 is moved back and forth by the elastic force of the elastic pin 50.

In addition, the lever 23 is connected to one end of the support spring 60, and the other end of the support spring 60 is connected to the operation 71 of the solenoid 70 by the operation of the solenoid 70 The operation 71 is configured to move up and down.

That is, when the operation 71 moves up and down by the operation of the solenoid 70, the lever 23 connected to the support spring 60 also moves up and down, and the induction hopper 20 integrally coupled with the lever 23 is provided. It is configured to open and close the outlet 13 while moving back and forth.

At this time, the connection between the operation 71 and the support spring 60 is fixed to the other end of the support spring 60 by mounting a fixing pin 72 in the lower portion of the operation 71.

In addition, a plurality of through holes 14 are drilled in the upper portion of the outlet 13 formed on the sidewall of the grain meter 10 so as to supply air supplied from an air supplier (not shown), and the plurality of through holes 14. The side is configured to be equipped with an opening and closing plate 80 for adjusting the supply amount of air. The opening and closing plate 80 is fixed by a screw that also serves as a shaft, and the supply amount of air is adjusted according to the number of blocking of the plurality of through holes (14).

And the lower portion of the lever 23 is formed on the bent surface 21, 22 of the induction hopper 20 so that the grain is guided quickly to the discharge port 13 to accurately measure the moisture content of the grain with the moisture meter 90 Exposing the discharge plate 24 formed by bending steeply at an obtuse angle to the outside of the discharge port 13 is configured to be adjacent to the moisture measuring hole 91 of the moisture meter (90).

An embodiment of the present invention configured as described above will be described in detail with reference to FIGS. 4 to 5.

Figure 4 of the present invention is mounted on the inside of the grain weighing machine 10 to show a state in which the induction hopper 20 for inducing grains to measure the moisture of the grains is closed, in the state in which the induction hopper 20 is closed Grain does not flow into the moisture measuring hole 91 of the moisture meter 90 will be able to measure the grain.

However, when the grains fed into the grain meter 10 are collected and the moisture contained in the grain is to be measured by the moisture meter 90, as shown in FIG. 5, the solenoid 70 mounted on the side wall of the grain meter 10 is used. By the operation, the operation 71 is moved upward.

Accordingly, the lever 23 connected to the support spring 60 moves upward in the long hole 15 while the support spring 60 connected to the operation 71 moves upward.

When the lever 23 is moved upward, the induction hopper 20 integrally connected with the lever 23 is flipped backward with respect to the support pins 40 and 41, and at the same time, the end of the discharge plate 24 is Close to the moisture measuring hole 91 of the moisture measuring device 90, a portion of the grain dropped through the grain inlet 11 is collected by the induction hopper 20 while descending rapidly on the steep slope discharge plate 24 Induced by) is introduced into the moisture meter (90) through the moisture measuring hole (91)

However, at this time, the grains collected and supplied to the induction hopper 20 may be mixed with foreign matters such as gum light, thereby bringing errors in the moisture measurement of the grains, and thus, the moisture measuring hole (91) of the moisture measuring instrument (90). In order to prevent foreign matter from being introduced into the grains), the air is blown strongly through a plurality of through holes 14 perforated in the upper portion of the outlet 13 so as to blow off foreign matters such as gum and the like to be separated from the grains.

As a result, only pure grain is supplied to the moisture meter 90 through the outlet 13. At this time, the air supply is made by a known air supply device such as a compressor or a fan.

As such, the grains supplied to the moisture meter 90 through the outlet 13 may accurately and quickly measure the moisture content of the grains in the moisture meter 90.

And light grains such as black rice in the grain to adjust the number of through-holes 14 perforated with a plurality of opening and closing plate 80 to adjust the supply amount of air so that the black rice itself is blown to solve the difficulty of measurement.

Although the present invention having the configuration as described above has been described by a limited embodiment, the present invention is not limited by this and the technical spirit of the present invention and the following by those skilled in the art to which the present invention belongs. Various modifications and variations are possible within the scope of equivalents of the claims to be described.

10. Grain weighing machine
12. Sidewall 13. Outlet
14. Gong 15. Long Gong
20. Induction hopper 21, 22. Bending surface
23. Lever 24. Discharge Plate
30, 31.Bending piece 40, 41.Support pin
50. Elastic Pin 60. Support Spring
70. Solenoid 71, between operation
72. Push pin 80. Opening and closing board
90. Moisture meter 91, Moisture meter

Claims (3)

A discharge port 13 drilled to close the one side of the grain inlet 11 drilled on the upper surface of the grain meter 10 to discharge the moisture measuring grain to the lower side of the side wall 12 connected thereto;
And bending pieces (30) and (31) for supporting the induction hopper 20 to guide the grain to the outlet (13),
The bent pieces (30) and (31) are bent on both sides so as to be supported by the support pins (40) and (41) to form the bent surfaces (21, 22), but the bent surface (21) of one side is extended to the long hole. An induction hopper 20 in which a lever 23 is formed to be discharged to 15;
An elastic pin 50 mounted on the support pin 41 on which the lever 23 is mounted to control the induction hopper 20 with elastic force;
Between the operation 71 of the solenoid 70 connected to the other end of the support spring 60 to move back and forth while moving the guide hopper 20 while moving up and down by the support spring 60 is connected to the lever 23 and one end; ,
In the upper portion of the discharge port 13 comprises a opening and closing plate 80 is mounted to be opened and closed on the through hole 14 side to supply air while adjusting the amount of air by drilling a plurality of through holes (14) Grain guide device for measuring the moisture of the grain weighing machine. The method of claim 1,
The lower portion of the lever 23 formed on the bent surface 21 of the induction hopper 20 is bent at an oblique angle to expose the discharge plate 24 to the outside of the discharge port 13 to the upper portion of the moisture meter 90 Grain derived device for moisture measurement of the grain weighing machine, characterized in that configured to be located. The method of claim 1,
The discharge port (13) is equipped with a moisture measuring device (90) grain induction device for measuring the moisture of the grain meter, characterized in that configured to measure the moisture content of the grain discharged to the discharge port (13).

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