KR19990021157U - Vessel for transporting granular material - Google Patents

Abstract

The present invention mainly relates to a vessel for granular material delivery for transporting granular materials such as powdered medicine, livestock feed or feed additives or plastic raw materials, and has an inlet and an air vent at the center and one side of the upper part. vent), the bottom of the container body formed with a high-pressure air supply pipe, an air knocker attached to one side of the side wall to give vibration to the container body, and is installed inside the container body, A suction part formed to have a suction gap formed at an upper portion thereof, and a discharge pipe connected to an elbow is vertically inclined toward one side, and is formed to protrude to one upper side of the container body, a filter sheet mounted inside the bottom of the container body, and the It is composed of a low pressure supply pipe which is connected to one side of the bottom part of the container body and injects low pressure air, and is put into the container body. It is characterized in that the granular material is sucked and transported at a suction interval when the high pressure air of the high pressure air supply pipe is ejected into the conveying pipe under the state in which water is suspended by the low pressure air injected into the low pressure air supply pipe.

Description

Vessel for transporting granular material

The present invention mainly relates to a vessel for granular material delivery for transporting granular materials such as powdered medicines or livestock feed or feed additives or plastic raw materials.

In general, in the case of a system for transferring various granular materials in powder form, for example, a conveyor system or an elevator bucket system is used as a conveying system for transferring from a granular product production line to a storage tank. If the storage tank is far away and the location of the production line is low, but the storage tank is in the high position, a large amount of equipment investment is required to prepare the transfer system because the conveyor system and the elevator bucket system must be installed in combination. However, it has been pointed out as a problem that a relatively large space area is required and is uneconomical.

The present invention was devised to solve the conventional problems as described above, the injection of low-pressure air into the container body to maintain the suspended state of the injected granular material and then transfer the granular material by using a rapid flow of high-pressure air It is designed to increase the transfer efficiency of the granular material by being sucked into the high pressure air to be transported to a desired place, for example, a storage tank installed at a high position.

The present invention as a means for achieving the above object,

A container body formed with an inlet and an air vent at the center and one side of the upper portion, and a high-pressure air supply pipe at the center of the bottom;

An air knocker attached to one side of the side wall to impart vibration to the container body;

The conveying pipe is installed inside the container body, and the suction part vertically formed in the upper portion of the high-pressure air supply pipe is vertically formed, and the discharge part connected to the elbow is inclined to one side and protrudes toward the upper one side of the container body. Wow;

A filter seat mounted inside the bottom of the container body; And

A low pressure pipe connected to one side of the bottom of the container body to inject low pressure air;

When the high-pressure air of the high-pressure air supply pipe is ejected into the transfer pipe under the floating state by the low-pressure air injected into the low-pressure air pipe so that the granular material is sucked and transported by suction intervals. It is characterized by one.

1 is a cross-sectional view of the vessel for explaining the present invention.

2 is a vessel plan view of the present invention.

※ Explanation of code for main part of drawing

1: container body 2: air knocker

3: high pressure supply pipe 4: filter sheet

5: low pressure supply pipe 6: transfer pipe

7: suction interval 11: support leg

12: upper part 13: inlet

14: air vent 15: lower

16: support period 31: spout

61: suction end 62: discharge end

63: elbow

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of the vessel for explaining the present invention, Figure 2 is a plan view of the vessel structure of the present invention,

Reference numeral 1 denotes a container body, and the container body 1 is supported by the supporting leg 11, and an inlet 13 through which granular materials can be inserted is provided at the center of the upper part 12. On one side thereof, an air vent 14 for extracting air is provided.

The air knocker 2 attached to one side of the side wall of the container body 1 vibrates the container body 1 itself so that the injected granular material is not attached to the inner wall so that the remaining amount of the granular material remains inside the container body 1. It acts to prevent.

A high pressure air supply pipe 3 is installed at the center of the bottom 15 of the container body 1, and is connected to a high pressure air supply device (for example, a compressor) of the high pressure air supply pipe 3 to supply high pressure air. To be supplied into the container body (1).

The filter sheet 4 is mounted inside the bottom 15 of the container body 1, and low pressure air is connected to the low pressure air supply pipe 5 on one side of the bottom 15 by the filter sheet 4. It is configured to be evenly ejected in the entire planar cross-sectional area of the bottom (15).

The transfer pipe 6 is installed inside the container body 1 so as to transfer the high pressure air ejected from the high pressure air supply pipe 3, and the suction part 61 of the transfer pipe 6 is the high pressure air. The suction gap 7 is provided in close proximity with the upper end of the jet end 31 of the engine 3, and the discharge part 62 of the transfer pipe 6 is inclinedly connected by the elbow 63. It is provided to protrude on one side of the upper portion 12 of the container body.

In the above, the diameter of the conveying pipe 6 more specifically, the diameter of the suction unit 61 is configured to be larger than the diameter of the high-pressure air supply pipe 3 more specifically than the diameter of the jet end 31, the high-pressure air supply pipe When the high-pressure air blown out in (3) flows into the conveying pipe 6, it consists of a specification which can suck the granules which exist around the suction space 7 by the blowing pressure.

The conveying pipe body 6 is supported by the support rod 16 installed on the inner bottom side of the container body 1.

The operation of the present invention configured as described above will be described.

First, the inlet 13 of the container body 1 is opened, and then the amount of granular material is put into the container body 1 by using the granular material supply hopper, and then the inlet 13 is closed, and then the low pressure air supply device When operating the low pressure air is injected into the container body (1) through the low pressure pipe (5), the low pressure air injected into the container body (1) in this way through the fine pores of the filter sheet (4) filter sheet (4) ) And evenly spread throughout the container body (1) is ejected into the state.

As described above, the low pressure air diffused evenly from the filter sheet 4 of the bottom part 15 and ejected into the container body 1 is continuously injected with the action of allowing the particulate matter to float without being attached to the filter sheet 4. The low pressure air is diffused throughout the inside of the container body 1 so as to be present between the particles of the granules so as not to entangle the particles of the granules. In this case, when the high pressure air supply device is operated, the high pressure air is a high pressure air pipe ( 3) is ejected to the conveying pipe (6), wherein the high-pressure air ejected from the high-pressure air supply pipe (3) is decompressed around the suction interval (7) when ejected to the suction portion 61 of the conveying pipe (6) Due to this phenomenon, the particulate matter around the suction interval 7 is sucked into the suction part 61 along the high pressure air by the pressure difference and discharged to the discharge part 62 together with the high pressure air.

As described above, the granular material sucked into the suction part 61 by the pressure reduction phenomenon due to the ejection pressure of the high pressure air is continuously sucked while the high pressure air is ejected, and the granular material discharged to the discharge part 62 together with the high pressure air. Water is sent to a storage tank to be transported along a transport line connected to the discharge part 62.

On the other hand, when transporting the granular material using the high-pressure air as described above, if the air knocker (2) attached to the side wall of the container body 1 is operated, the container body (1) vibrates and the granular material is the container body Since the phenomenon of adhesion on the inner wall of (1) does not appear, it is possible to increase the transfer efficiency of the granular material, and also minimize the remaining of the granular material remaining since the granular material is not attached to the inner wall of the container body (1). It will be possible.

After the transfer of the granular material after the completion of the transfer operation of the granular material, by opening the air vent 14 to release the surplus air pressure remaining in the container body (1) it is easy to re-insert the granular material, and then As described above, the granular material is re-injected into the container body, and then the operation of transferring the granular material to the storage tank using high pressure air and high pressure air is repeated.

According to the present invention, a powdery drug, a livestock feed, and a granular material such as a feed additive or a plastic raw material are introduced into the container body, and then the low pressure engine connected to the bottom side of the container body has low pressure air. As it spreads evenly over the whole, it is ejected into the container body, so that the entire injected granules are suspended. The floating granules are transported by the decompression action by the high pressure air ejected from the high-pressure pipe into the transfer pipe. It is aspirated by the pipe and discharged with high pressure air to be quickly transferred to the storage tank. The present invention can replace the transfer line of the granular material with a pipeline, thereby reducing the cost of equipment. It is a practical design.

Claims (2)

A container body formed with an inlet and an air vent at the center and one side of the upper portion, and a high-pressure air supply pipe at the center of the bottom; The conveying pipe is installed inside the container body, and the suction part vertically formed in the upper portion of the high-pressure air supply pipe is vertically formed, and the discharge part connected to the elbow is inclined to one side and protrudes toward the upper one side of the container body. Wow; A filter sheet mounted inside the bottom of the container body; And A low pressure pipe connected to one side of the bottom of the container body to inject low pressure air; When the high-pressure air of the high-pressure air pipe is ejected into the transfer pipe under the floating state by the low-pressure air injected into the low-pressure air pipe, the granular material injected into the container body can be sucked and transported at a suction interval. A vessel for granular material transfer, characterized in that one. The method of claim 1, A vessel for granular material transport, characterized in that the air knocker is attached to one side of the side wall so as not to allow the granular material introduced into the container body to be attached to the inner wall.