JPS6077802A - Cereal metering bagging device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] The present invention relates to a grain measuring and bagging device for farmers.

Conventionally, a grain weighing and bagging device for farmers' own use has the structure shown in Fig. 8, with a storage tank B attached to the upper end of the elevator A. Fix the main storage tank B so that it does not move in the direction of
An on-off valve C that is opened and closed by a solenoid is attached to the lower end opening, a platform scale is provided below the storage tank B, a grain bag E is placed on the platform scale, a switch is attached to the shrine, and the switch The grains were weighed by opening and closing the on-off valve C of the storage tank B.This grain measuring and bagging device is used by farmers as a simple measuring and bagging device, but the basic problems with this grain measuring and bagging device are as follows. The problem was that although it was possible to measure roughly, it was impossible to measure exactly 66.

(For example, even if you weigh 30 kg, the actual weight will be 29.5 kg or 305 kg, and the error will be very large.) In other words, during weighing, the weight will be weighed from storage tank B to the platform scale. Since the grains are to be dropped into the grain bag E above, the inflow condition may be slightly distorted and some of the grains may fly out of the grain bag E, so it is necessary to hold the upper part of the grain bag E. However, even though there is a warning that the upper part of the grain bag E should not be held or pressed because holding the grain bag E will affect the measurement, most people do not hold the upper part of the grain bag E. It is,
The reality is that the grain bag is placed on another scale and re-weighed.The reason for this is that the grain bag E
This is because you cannot work unless you hold the upper part of the handle. .

The above-mentioned problem can be overcome by providing a weighing device above the grain bag and introducing the weighed grain into the grain bag E.

Therefore, the present invention has the basic structure shown in FIG. A space is formed in the lower part of the storage tank 5, and in the space, a frame 37 having a grain bag placement part 54 on the lower side of the measuring tank 40 is installed. , a grain measuring and bagging device that can be freely accessed and removed.

To explain this with reference to the drawings, reference numeral 1 denotes a vertical elevator, in which a grain input hopper 2 and a return hopper 3 are provided at the lower part, and a discharge pipe 4 is provided at the upper side. The end of the discharge pipe 4 is formed into a U-shape when viewed from the side, and a storage tank 5 is provided on the outside of the discharge pipe 4 so as to cover it. The storage tank 5 in the embodiment has a structure that moves up and down depending on the storage amount, and is attached so that its upper part overlaps with the discharge pipe 4 so that it does not come off the discharge pipe 4 even when it is moved downward to the maximum.

A protrusion 6 projecting upward is provided at an intermediate position between the front and back sides of the upper end of the storage tank 5, and a shaft 7 is provided at the rear side of the upper end of the elevator 1.
is provided, and the front end of a horizontal transverse rod 8 whose rear end is pivoted to the shaft 7 is pivoted 9 to the upper end of the projection 6.

The projections 6, the shafts 7, the horizontal rods 8, and the pivots 9 are provided on both the left and right sides of the elevator 1, and the storage tank 5 is suspended on both the left and right sides.

A mounting bracket 10 is provided above the elevator l, and the upper end of the spring 11 is fixed to the mounting bracket 10, and the lower end of the spring 11 is fixed to the horizontal rod 8, so that the storage tank 5 can be adjusted according to the amount of grain stored. Hanging upward]

An on-off valve 13 is provided below the outlet 12 of the storage tank 5 . The on-off valve 13 consists of a horizontal part 14 that completely blocks the discharge (112) and a vertical part 15, 15 that stands up at right angles from both sides of the horizontal part 14. 17.The horizontal portion 14.
A small inlet 18 is formed by forming a notch on the opposite side of the opening direction A of 14.

At the upper end of the vertical part j5.15 there is an arm 19 that protrudes into the side force.
, the arm 19 and the vertical part 15 are fixed, and the arm 19
The rod 21 of the lower solenoid 20 is attached to the free end of the shaft 2.
Do 2. The lower solenoid 20 is not attached to a fixed part, but is pivoted 25 to the lower end of the rod 24 of the upper solenoid 23, and the upper solenoid 23 is pivoted 26 to the storage tank 5.
do.

Therefore, when the upper solenoid 23 and the lower solenoid 20 are de-energized, the on-off valve 13 is completely closed via the rod 24, the shaft attachment 25, the lower slide/id 20, the rod 21, the shaft attachment 22, and the arm 19. and upper solenoid 23
When the lower solenoid 20 is energized, it becomes a small injection, and when the lower solenoid 20 is energized, it opens to a large injection via the rod 21, the shaft attachment 22, and the arm 19.

The overflow tube 27 is opened at the upper surface of a holding tank 28 attached to the side of the elevator 1. The holding tank 28 is formed separately from the elevator 1 and is fixed to the side of the elevator 1, and has a vertical cylindrical shape with an opening 29 at the upper end and a funnel 30 at the lower end. Connect to return hopper 3. An on-off valve 31 is attached to the lower end of the funnel part 30 with a shaft 32, an arm 33 is fixed to the on-off valve 31, and the lower end of a connecting rod 34 is attached to the tip of the arm 33 with a shaft 35.
The upper end of the continuous rod 34 is pivoted 36 to the intermediate position of the horizontal rod 8.

The on-off valve 31 opens when the horizontal rod 8 moves upward, and closes when it moves downward.

The lower part of the storage tank 5 is formed into a wide space.

A frame body 37 formed separately from the A-boarding board 1 formed in the space is provided so as to be freely put in and taken out.

The frame body 37 has a square shape when viewed from the front, but has a U-shape when viewed from the side. A pulley may be attached to the lower end of the frame 37. The horizontal shelf 38 on the upper part of the frame body 37 is a square frame, and the annular load cell 3 is mounted on the upper part of the horizontal shelf 38.
9 will be provided. The load cell 39 is designed with a metering tank 40. When the tank 40 approaches the elevator 1 together with the frame 37, it is located close to the underside of the on-off valve 13.

The upper end of the metering tank 40 is open, forming an opening 41, and the portion below the center is formed into a funnel portion 42, and an on-off valve 44 is pivoted to the lower part of the lower end flow port 43 by a shaft 45 in the left and right direction. There is.

The on-off valve 44 is provided with a handle 46 that protrudes forward, and when the handle 46 is held and operated, the lower end flow port 4 is opened.
3 can be opened. The lower end outlet 43 is located at the center when viewed from the front, and grains are allowed to fall from the center. A sorting body 47 is provided below the lower end outlet 43 for distributing the grains coming down from the lower end outlet 43 in the left and right direction. The distribution body 47 is an inclined plate that is inclined from one side to the other side when viewed from the front, and has a rotation axis 48 in the front-rear direction.
is attached in the middle thereof, and the handle 4 is attached to the rotating shaft 48.
When the rotary shaft 48 is rotated by 9, the grains falling from the lower end outlet 43 can be guided to the right or left side.

Reference numeral 50 denotes a discharge tube provided below the distribution body 47, and has a left droplet 51 and a right droplet 52. A grain bag 53 is placed on the mounting section 54 below the left drop port 51 and right drop port 52.
will be established.

Since the present invention has the above configuration, when the frame body 37 is pushed and moved into the space formed below the storage tank 5,
A metering tank 40, a distribution body 47, a discharge tube 50, etc. are located below the storage tank 5. In this state, the load cell 39, the upper solenoid 23, and the lower solenoid 20
are electrically connected via a cord. However, since the storage tank 5 is empty before the work starts, it is moved up to the maximum by the elasticity of the spring 11, and since no load is applied to the load cell 39, the upper solenoid 23 and the lower solenoid 2
0 is not energized, so rod 21 and rod 24
extends and connects the horizontal part 14 via the arm 19 and the vertical part 15.
k) completely blocks the discharge port 12.

When the raw material is put into the input hopper 2, it is raised by the packet elevator 55 provided in the elevator 1 and discharged into the storage tank 5 from the discharge tube 4. When the storage amount in the storage tank 5 reaches a predetermined value, hold the grain bag 53 and apply it to the left drop port 51. Depending on the situation, support the upper end with a bag support device, and then move the grain bag 53 to the handle 49.
, rotate the distributing body 47 by 1ξ along the temporary line, and turn on the switch in this state.
Since both the rod 21 and the upper solenoid 23 are energized and both rods 21 and 24 are raised, the arm 19 is rotated by V about the shaft 16, and the arm 19 and the vertical part 15 are integrated. Since it is fixed, the vertical part 1
The horizontal part 14 that is integrated with the storage tank 5 is opened to the maximum, and the grain stored in the storage tank 5 is fully loaded into the measuring tank 4.
Let it fall within 0. Therefore, the code cell 39 transmits a signal when the weight of the measuring tank 40 reaches a predetermined amount,
Since the lower solenoid 20 is de-energized, the rod 21
extends and rotates the horizontal portion 14 by about half.

Therefore, since the discharge port 12 is blocked at a certain part of the small input port 18, from then on, a small amount of water flows in from the small input port 18,
When the predetermined amount is reached, the load cell 39 senses this, releases the upper solenoid 23, extends the rod 24, and completely closes the discharge port 12.

Therefore, accurately weighed grains will flow into the weighing tank 40. In this state, when the grain bag 53 is placed under the right drop port 52 and the handle 46 is operated to open the on-off valve 44, the grains are transferred to the grain bag 53 through the sorting body 47 and the left drop port 51. can flow into the country.

At this time, even if the upper end of the grain bag 53, the left dropping port 51, or the handle 49 is touched by hand, there is no effect on the measurement by the load cell 39, so the amount of 61 is accurate.

As previously mentioned, the conventional farmer's own grain weighing and bagging device has the structure shown in Figure 8, in which a platform scale is installed below the storage tank B, and the grain bag E is placed on the platform scale. , I was trying to weigh it.

The basic problem with this grain measuring and bagging device is that although it can roughly measure grains, it cannot accurately measure grains.

That is, during weighing, since the grains are dropped from the storage tank B into the grain bag E at a rate of D soil, there is a possibility that the inflow condition may be slightly erroneous and some of the grains may fly out of the grain bag E.
You will definitely want to hold the top of grain bag E. However, holding the grain bag E will affect the measurement, so hold the grain bag E.
Even though there is a warning not to hold or press the top of the grain bag, most people still hold the top of the grain bag E and have to put the bag on another weighing platform and re-weigh it. Therefore, the present invention adopts the basic structure shown in FIG. A space is immediately formed in the lower part of the storage tank 5, and a measuring tank 40 is attached to the upper part of the space, and a grain bag is placed on the lower side of the measuring tank 40. Since the frame body 37 having the placing portion 54 is provided as a grain measuring and bagging device which can be moved in and out, the defects of the above-mentioned known examples can be overcome.

[Brief explanation of the drawing]

Figure 1 is an overall side view, Figure 2 is an exploded side view of Figure 1,
Figures 3 and 4 are exploded front views, Figure 5 is a side sectional view of the elevator, Figure 6 is a side view of the storage tank, Figure 7 is a perspective view of the on-off valve, Figure 8 is a known side view, FIG. 9 is a side view of the present invention. Explanation of symbols 1... Elevator, 2... Input hopper, 3... Return hopper, 4... Outlet, 5... Storage tank, 6...
...Protrusion, 7...shaft, 8...horizontal rod, 9...shaft attachment,
10... protrusion, 11... spring, 12... discharge port,
13... Opening/closing valve, 14... Horizontal part, 15... Vertical part, 16... Shaft, 17... Side wall, 18... Small input notch, 19... Arm, 20...・Lower stage solenoid, 21... Mouth/end, 22... Shaft mounted, 23... Upper stage solenoid, 24... Rod, 25... Shaft mounted, 2
6... shaft mounting, 27... overflow tube, 28...
・Holding tank, 29...Top opening, 30...Funnel, 31...Opening/closing valve, 32...Shaft, 33...Arm, 34...Connection rod, 35...Shaft 36... Pivot mounting, 37... Frame body, 38... Horizontal shelf, 39... Load cell, 40... Measuring tank, 41... Opening, 4
2...Funnel part, 43...Lower end outlet, 44...Opening/closing valve, 45...Shaft, 46...Handle, 47...
Sorting body, 48...Rotation axis, 49...Handle, 50
...Discharge tube, 51...Left drop port, 52...Right drop port, 53...Grain bag, 54...Placement table. Patent Applicant So Yamaki - 1 other person Director General of the Patent Office Kazuo Wakasugi 1, Incident Indication 1988 Patent Application $ 184155 No. 2 Issued "0"
Name Grain needle I bagging device Address Mr. 17, 813 Tendo Ko, Tendo City, Yamagata Prefecture
Name So Yamamoto - 4, Agent address 6-7-23 Nishi-Shinjuku, Shinjuku-ku, Tokyo 160
No. (], 1 Correct the drawings (Figures 1 to 9). Figure 9 Figure 8

Claims (1)

[Claims] A storage tank is provided at the upper end of the vertical elevator, the storage tank is provided with an overflow pipe and is formed to return to the elevator, and a space is formed between the storage tank and the floor, and a measuring tank is installed above the space. The installation is a grain weighing and bagging device that has a frame body with a grain bag placement section at the bottom that can be moved in and out.