KR102094957B1 - Silo with bridge crushing system - Google Patents

Abstract

The present invention relates to a silo including a bridge pulverizing system and, more specifically, to a silo apparatus including a device for efficiently removing a bridge formed in a silo. The silo including a bridge pulverizing system includes: a body part having a silo shape, comprising a storage part for storing powder and a discharge part for discharging the stored powder along a slope in a lower part; a plurality of air sweep parts penetrating the discharge part to spray compressed air; and a control part controlling the air sweep parts to enable the air sweep parts to spray compressed air alternately into the body part by actuating the air sweep parts sequentially. According to the present invention, the silo including a bridge pulverizing system is capable of preventing a bridge from being formed in the silo. Moreover, the present invention is capable of maximizing the efficiency of spraying compressed air to remove a bridge in the silo.

Description

Silo with bridge crushing system

The present invention relates to a silo equipped with a bridge grinding system, and more particularly, to a silo apparatus equipped with a device capable of effectively removing a bridge that may be formed in the silo.

Silo (silo) refers to a sealed dry matter for storage fermentation or storage of grain, grain, cement, aggregate, etc., and the tower-shaped tower-type silo is the most generalized form.

Since the predetermined raw materials and the like stored in the silo are discharged from time to time for the next process, the operator must always manage the inventory of materials stored in the silo.

In addition, since the predetermined raw materials stored in the silo may be hardened when stored for a long time, the product may be deteriorated, and dust and bridges may be formed on the inner walls of the silo, so that a predetermined raw material is always required to be mixed therein.

However, the configuration of a device for mixing a large amount of raw materials is not easy, and furthermore, in order to remove dust and bridges formed on the inner wall, the worker is manually performed and the working efficiency is greatly reduced.

In this regard, looking at the prior art, 'dust seizure prevention device' is disclosed in Korean Patent Registration No. 10-1790214, but it is not possible to mix certain raw materials in the silo, and there is a limitation in removing dust. There is this.

Republic of Korea Registered Patent No. 10-1790214 (October 19, 2017)

Accordingly, the present invention has been made to solve the problems of the prior art as described above, and has an object to provide a bridge removal device capable of effectively preventing a bridge that may be formed in a silo.

In addition, another object of the present invention is to provide a device capable of maximizing the injection efficiency of compressed air for removing the bridge inside the silo.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems to be solved by the invention not mentioned herein are those skilled in the art from the following description. Will be clearly understood.

The silo equipped with the bridge crushing system according to the present invention includes a body portion provided in a silo shape consisting of a receiving portion capable of receiving powder therein and a discharge portion capable of discharging the received powder along a lower inclined surface, the discharge A plurality of parts are formed through, and an air sweep unit provided to inject compressed air, and a control unit to sequentially drive the plurality of air sweep units to alternately inject compressed air into the body unit. It is composed.

A silo equipped with a bridge grinding system according to the present invention has an effect of preventing a bridge that may be formed in the silo.

In addition, the present invention has the effect of maximizing the injection efficiency of compressed air to remove the bridge inside the silo.

Figure 1 shows a cross-section of a silo equipped with a bridge grinding system according to the present invention.
Figure 2 schematically shows the configuration of the air sweep of the silo equipped with a bridge grinding system according to the present invention.
Figure 3 schematically shows another embodiment of the air sweep of the silo equipped with a bridge grinding system according to the present invention.

The problems to be solved for the present invention as described above, the means for solving the problems, and specific matters including the effects of the invention are included in the following embodiments and drawings. Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings.

The silo equipped with the bridge crushing system according to the present invention is in the form of a silo consisting of a receiving portion 11 capable of receiving powder therein and a discharging portion 12 capable of discharging the received powder along a lower inclined surface. The body portion 1 is provided, a plurality of through-holes are formed in the discharge portion 12, and the air sweep portion 2 and the plurality of air sweep portions 2 provided to inject compressed air are sequentially driven. It is configured to include a control unit (3) to control the injection to the compressed air alternately inside the body portion (1).

First, the body portion 1 is provided in the form of a silo consisting of a receiving portion 11 capable of receiving powder therein and a discharging portion 12 capable of discharging the received powder along a lower inclined surface.

The body portion 1 may be configured in a conventional silo form.

The accommodating part 11 means a space capable of accommodating the powder of the silo, and the discharging part 12 means a part of the silo in which an inclined surface is formed toward the central axis so that the powder can be collected downward. do.

Next, the air sweep unit 2 is provided with a plurality of through-holes formed in the discharge unit 12, so that compressed air can be injected.

The air sweep part 2 is a configuration capable of effectively injecting compressed air in a form that is inserted through the discharge part 12 of the body part 1.

Specifically, the air sweep part 2 includes a nozzle part 21, a valve part 22, a tank part 23, and a flexible connecting part 24.

First, the nozzle unit 21 is provided so that air can be injected at high pressure.

The nozzle unit 21 may be configured in any form as long as the air is provided at a high pressure.

More specifically, the nozzle portion 21, as shown in Figure 2, the pipe portion 211, the air injection portion 212, the air discharge portion 213, the piston portion 214, the elastic portion 215 It is configured to include.

First, the tube portion 211 is provided as a tubular body.

Next, the air inlet portion 212 is formed as a through hole at the rear of the tube portion 211, and is provided to allow the air to flow.

Next, the air discharge portion 213 is formed as a through hole in front of the tube portion 211, and is provided so that the air can be discharged.

Next, the piston portion 214 is formed in the longitudinal direction inside the tube portion 211, the end is provided in the form of a piston that can block the air discharge portion 213.

The piston part 214 is a piston configuration provided to be movable forward and backward by the pressure of the elastic part 215 below, inside the tube part 211, and when rotated forward, the air discharge part ( 213) is opened and the air can be injected, and when rotated backward, the end of the piston portion 214 closes the air discharge portion 213 to limit the flow of air.

Next, the elastic portion 215 is provided with an elastic body capable of elastically applying pressure to the piston portion 214 toward the front of the tube portion 211 under the control of the control unit 3.

The elastic portion 215 is provided with a compression spring, and is provided to be able to apply pressure toward the front of the tube portion 211 under the control of the control unit 3.

The elastic portion 215 may be configured in any shape as long as it can be effectively pressed under the control of the control unit 3.

By the pressure of the elastic portion 215, the piston can be rotated forward and backward.

In addition, the nozzle portion 21, the flexible discharge portion 216 is further provided.

The flexible discharge unit 216 is provided in the form of a lake of flexible material that can be selectively connected and released to the end of the air discharge unit 213.

Specifically, as illustrated in FIG. 3, the flexible discharge part 216 is extended to the air discharge part 213 in the form of a flexible tube in which a length is formed, by injection of compressed air, in all directions It is rotated and provided to inject air.

Next, the valve portion 22 is provided to control the flow of the air.

The valve unit 22 may be provided in the air sweep unit 2 and the tank unit 23 individually, and may be configured in any form as long as it can control the flow of the air.

Next, the tank portion 23 is provided to store and supply air.

The tank portion 23 may be configured in any form as long as it can effectively store and supply the air.

 The nozzle portion 21 configured as described above is formed of 2 to 3, it is preferable to be provided in a radial shape along the circumferential surface of the receiving portion (11).

Next, the flexible connecting portion 24 is provided as a flow path of the air in the form of a lake connected to the nozzle portion 21, the valve portion 22, and the tank portion 23.

Next, the control unit 3 controls the plurality of air sweep units 2 to be sequentially driven to alternately inject compressed air into the body unit 1.

As described above, it will be understood that the technical configuration of the present invention described above can be implemented in other specific forms without changing the technical spirit or essential characteristics of the present invention by those skilled in the art to which the present invention pertains.

Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the following claims rather than the above detailed description, and the meaning and scope of the claims It should be construed that any altered or modified form derived from the equivalent concept is included in the scope of the present invention.

1: Body part
11: Receiving unit
12: outlet
2: Air sweep part
21: nozzle part
211: Ministry
212: air inlet
213: air outlet
214: piston
215: elastic part
216: flexible discharge unit
22: valve unit
23: tank section
24: flexible connection
3: Control

Claims (5)

A receiving unit capable of receiving powder therein; And a discharge portion capable of discharging the received powder along a lower inclined surface; a body portion provided in a silo configuration;
A plurality of through-out portions are formed through, the air sweep portion is provided to be able to spray compressed air; And
Includes a control unit for sequentially driving a plurality of the air sweep portion to control the compressed air to be alternately injected into the body portion;
The air sweep portion is a nozzle portion provided to allow air to be injected at high pressure; and a valve portion provided to control the flow of the air; and a tank portion provided to store and supply air; And a flexible connection part provided as a flow path of the air in the form of a lake connected to the nozzle part, the valve part, and the tank part.
The nozzle portion is a pipe portion provided with a tubular body; and is formed with a through hole at the rear of the pipe portion, and an air inlet portion provided to allow the air to enter; and, formed with a through hole in front of the pipe portion, the air The air discharge portion is provided to be discharged; And, the longitudinal direction is formed inside the tube portion, the piston portion is provided in the form of a piston that can block the air discharge portion; And an elastic part provided by an elastic body capable of elastically applying pressure toward the front of the tube part under the control of the control part.
The nozzle portion is a flexible discharge portion that can be selectively connected and released to the end of the air discharge portion; is further provided, the flexible discharge portion is provided with an extension of the air discharge portion in the form of a flexible tube having a length, compression A silo equipped with a bridge grinding system, characterized in that it is rotated in all directions by spraying air and is provided to spray air. delete delete delete According to claim 1,
The air sweep unit,
A silo equipped with a bridge crushing system, characterized in that it is formed of 2 to 3, and is provided radially along the circumferential surface of the discharge portion.

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