KR102450673B1 - Twin rotary-type supply module for portable silo apparatus, portable silo apparatus comprising the twin rotary-type supply module for portable silo apparatus - Google Patents

Abstract

Disclosed is a movable silo device comprises a silo main body member, a discharge unit, and a twin rotary type supply module for a movable silo device. Therefore, the twin rotary supply module for a movable silo device supplies mortar discharged through the discharge unit to be stored by a predetermined amount required according to rotation of a first rotary blade and a second rotary blade to smoothly discharge the mortar stored in the silo main body member and discharged through the discharge unit, thereby preventing separation of materials of the mortar and uniformly supplying the mortar while maintaining quality of a predetermined required level.

Description

Twin rotary-type supply module for portable silo apparatus, portable silo apparatus comprising the twin rotary-type supply module for portable silo apparatus}

The present invention relates to a mobile silo device comprising a twin rotary feed module for a mobile silo device and a twin rotary feed module for said mobile silo device.

A mobile silo device is installed in a mobile way at an installation site such as a construction site, and mortar is stored and supplied to the installation site.

The movable silo device includes a silo body member for storing mortar therein, and a discharge part connected to a lower portion of the silo body member for discharging the mortar stored inside the silo body member to the outside.

The discharge portion is formed in a tapered shape gradually narrowing toward a lower portion thereof, and a discharge port is formed at a lower end of the discharge portion.

What can be presented as an example of such a mobile silo device is that of the patent literature presented below.

However, according to the conventional movable silo device, when the mortar stored inside the silo body member maintains an accumulated state, the consolidation density of the inside of the silo body member is increased due to the self-load of the mortar, and the inside of the discharge part In the present invention, the cohesive force of the mortar is relatively large, and accordingly, a bottleneck in which the mortar is not properly discharged or is unevenly discharged from the discharge part occurs, which eventually causes deterioration of the quality of the mortar.

Therefore, there is a need for a study on a structure for smoothly discharging the mortar through the discharging part.

Registered Patent No. 10-1374081, Registration Date: 2014.03.07., Title of Invention: Mobile Silo Device

The present invention provides a mobile silo device comprising a twin rotary supply module for a mobile silo device and a twin rotary feed module for the mobile silo device for smooth discharge of mortar stored in a silo body member and discharged through a discharge unit to do the work for the purpose of

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A movable silo device according to an aspect of the present invention includes a silo body member for storing mortar therein; a discharge part connected to the lower part of the silo body member to discharge the mortar stored in the silo body member to the outside; a twin rotary supply module for a movable silo device connected to the lower side of the discharge unit and supplying the received mortar through the discharge unit by a predetermined amount required according to the rotation of the first and second rotary blades; a bottleneck removal module for a movable silo device installed in the discharging unit to agitate the mortar accommodated in the discharging unit so as to prevent a bottleneck of the mortar in the discharging unit; and a mortar removing member for removing the mortar from being caught in the space between the discharge part and the lower part of the module case of the bottleneck removing module for the movable silo device.
The mortar removing member is disposed at a portion where the lower portion of the module case and the discharge unit are connected, and a discharge connection case having an empty interior therein, is disposed in the discharge connection case, and the discharge portion of the discharge connection case A compression cylinder having a pneumatic discharge port formed on a surface facing the inside, a compression piston capable of compressing the internal air of the compression cylinder while advancing inside the compression cylinder, and a pneumatic discharge port formed in the inside of the compression cylinder A discharge delay valve blocking the pneumatic discharge port so that the compressed internal air is prevented from being discharged from the compression cylinder until a predetermined pressure is reached, and the discharge connection case and the compression cylinder pass through together, before and after a thread is formed on the outer surface A true shaft, a driving gear fixed to the rotating shaft of the stirring screw body of the bottleneck removal module for the movable silo device, and a driven gear formed over the module case and the discharge connection case while meshing with the driving gear,
A through hole through which the forward and backward shaft passes rotatably is formed in the central portion of the driven gear, and a thread engaged with a thread formed on an outer surface of the forward and backward shaft is formed on an inner surface of the through hole,
The discharge delay valve is formed of a material having elasticity, and is fixed to a peripheral portion of the pneumatic discharge port and is formed to cover the pneumatic discharge port, so that the internal air compressed inside the compression cylinder reaches the predetermined pressure Until the pneumatic discharge port is blocked so that the internal air is continuously compressed in the interior of the compression cylinder, when the internal air compressed inside the compression cylinder reaches the preset predetermined pressure, the Between the lower part of the module case and the discharge part by opening the pneumatic discharge port while elastically deformed by the internal pressure to inject the compressed internal air inside the compression cylinder to the part where the lower part of the module case and the discharge part are connected. It is characterized in that the mortar caught in the space of the can be removed.

According to a mobile silo device comprising a twin rotary feed module for a movable silo device and a twin rotary feed module for the movable silo device according to an aspect of the present invention, the movable silo device includes a silo body member, a discharge part, and a movable silo By including the twin rotary feed module for the device, the twin rotary feed module for the mobile silo device is discharged through the discharge unit and the received mortar is supplied by a predetermined amount required according to the rotation of the first rotary blade and the second rotary blade. By giving the mortar, it is possible to smoothly discharge the mortar stored in the silo body member and discharged through the discharging part, thereby preventing material separation of the mortar and maintaining a required level of quality. There is an effect that can be uniformly supplied.

1 shows a mobile silo device comprising twin rotary feed modules for a mobile silo device according to a first embodiment of the present invention;
2 is a cross-sectional view showing a twin rotary feeding module for a mobile silo device according to a first embodiment of the present invention;
Figure 3 is an enlarged view of the portion A shown in Figure 1;
4 is an enlarged view of a part of a movable silo device according to a second embodiment of the present invention;

Hereinafter, a mobile silo device including a twin rotary feed module for a mobile silo device and a twin rotary feed module for the mobile silo device according to embodiments of the present invention will be described with reference to the drawings.

1 is a view showing a mobile silo device comprising a twin rotary feed module for a mobile silo device according to a first embodiment of the present invention, and FIG. 2 is a twin rotary feed for a mobile silo device according to a first embodiment of the present invention It is a cross-sectional view showing the module, and FIG. 3 is an enlarged view of part A shown in FIG. 1 .

1 to 3 together, the movable silo device 100 according to the present embodiment includes a silo body member 110, a discharge unit 120, and a twin rotary supply module 140 for the movable silo device. do.

In addition, the movable silo device 100 may further include a bottleneck removal module 130 for the movable silo device.

The silo body member 110 is to store the mortar therein, is erected high to a predetermined height and is formed in the form of a circular cylinder with an empty inside.

A support frame 111 erected on the ground of an installation site where the movable silo device 100 is installed is connected to the lower portion of the silo body member 110, and the silo body member is connected by the support frame 111 (110) is in the form of standing on a predetermined height from the ground of the installation place.

Reference numeral 115 denotes an inlet formed on the upper portion of the silo body member 110 and into which cement, sand, water, etc., which are raw materials of mortar, are introduced into the silo body member 110 .

The discharge unit 120 is connected to the lower portion of the silo body member 110 to discharge the mortar stored in the silo body member 110 to the outside.

The upper end of the discharging unit 120 is formed to have the same diameter as the lower end of the silo body member 110 so as to communicate with the lower end of the silo body member 110 , and progressively toward the lower end of the discharging unit 120 . A discharge port 116 for discharging the mortar passing through the discharge unit 120 to the outside is formed at the lower end of the discharge unit 120 .

The twin rotary supply module 140 for the movable silo device is connected to the lower side of the discharge unit 120 so as to be in communication with the discharge port 116, and the mortar discharged through the discharge unit 116 and accommodated in the first rotary blade According to the rotation of the (145) and the second rotary blade (146), it is to be supplied by a predetermined amount required.

In detail, the twin rotary supply module 140 for the movable silo device includes a supply module case 141 , a module input end 142 , a module discharge end 143 , the first rotary blade 145 , and the first It includes two rotary blades 146 .

The supply module case 141 is connected to the lower side of the discharge unit 120 , and the inside thereof is formed in an empty shape.

The module input terminal 142 is formed in an open shape at the upper end of the supply module case 141 , and the mortar discharged through the discharge port 116 of the discharge unit 120 is the supply module case 141 . This will be the entrance to the interior.

The module discharge end 143 is formed in an open form at the lower end of the supply module case 141 , and the mortar passing through the interior of the supply module case 141 is discharged to the outside of the supply module case 141 . will be the exit.

The first rotary blade 145 is disposed eccentrically to one side based on the central portion of the supply module case 141 and can be rotated, and has a plurality of blades.

The second rotary blade 146 is eccentric to the other side with respect to the central portion of the supply module case 141, and a position symmetrical to the first rotary blade 145 with respect to the central portion of the supply module case 141. It is disposed on and can be rotated, and has a plurality of blades.

The first rotary blade 145 and the second rotary blade 146 may be independently rotated by independent driving means (eg, electric motors) 147 and 148, respectively, and in a single driving means The provided driving force may be transmitted together by a plurality of gears to be rotated in conjunction with each other.

In this embodiment, the first rotary blade 145 and the second rotary blade 146 are rotated in opposite directions to each other, and the mortar inside the supply module case 141 is removed from the module input end 142 . It is rotated to move toward the module discharge end 143 . For example, based on the city direction shown in FIG. 2 , the first rotary blade 145 may be rotated in a clockwise direction, and the second rotary blade 146 may be rotated in a counterclockwise direction.

In addition, each blade of the first rotary blade 145 and each blade of the second rotary blade 146 may be alternately rotated so as to pass through the central portion of the supply module case 141 alternately. That is, any one of the blades of the first rotary blade 145 passes through the central part of the supply module case 141 , and then, any one of the blades of the second rotary blade 146 is the supply module case Via the central portion of (141), the other one of each blade of the first rotary blade 145 passes through the central portion of the supply module case 141, and then, of each blade of the second rotary blade 146 The other one may be rotated in such a way that it passes through the central portion of the supply module case 141 . Then, the supply of a certain amount of mortar required every time the first rotary blade 145 and the second rotary blade 146 are rotated inside the module case is made more reliably, so that the discharge of the mortar is more smoothly can be done

The bottleneck removal module 130 for the movable silo device is installed in the discharge unit 120 to prevent a bottleneck of mortar in the discharge unit 120, and is accommodated in the discharge unit 120. Agitating the mortar.

In detail, the bottleneck removal module 130 for the movable silo device includes a bottleneck removal module case 131 penetrating through a side surface of the discharge unit 120 , and an electric motor disposed outside of the bottleneck removal module case 131 . The bottleneck removal driving means 132 capable of providing a driving force, etc., is connected to the rotation shaft of the bottleneck removal driving means 132 and rotated, and the rotating blades are formed in a screw shape along the outer surface of the discharge unit 120 . It includes a stirring screw body 133 formed in a form extending to a predetermined depth inside.

When the bottleneck removal driving means 132 is operated, the stirring screw body 133 is rotated to agitate the mortar inside the discharge unit 120 , and accordingly stored in the silo body member 110 . It is possible to prevent a bottleneck phenomenon in which the mortar discharged through the discharge unit 120 is not properly discharged or is non-uniformly discharged.

The bottleneck removal module case 131 may be disposed in a central portion of a side surface of the discharge unit 120 .

The bottleneck removal module 130 for the movable silo device may be formed in plurality, and may be respectively disposed to be spaced apart from each other along the side surface of the discharge unit 120 .

In this embodiment, the bottleneck removal module 130 for the movable silo device is disposed in a shape inclined at a predetermined angle with respect to the direction of gravity, so that the mortar inside the discharge unit 120 is removed by the stirring screw body 133 . It is stirred in the form of an inclination at a predetermined angle with respect to the direction of gravity.

Here, since the movable silo device 100 is vertically erected with respect to the ground of the installation site, the direction in which the mortar is lowered through the silo body member 110 and the discharge unit 120 coincides with the direction of gravity. Therefore, the bottleneck removal module 130 for the movable silo device is the same as that disposed in an inclined shape at a predetermined angle with respect to the direction in which the mortar is lowered through the silo body member 110 and the discharge unit 120 .

The bottleneck removal module 130 for the movable silo device stirs the mortar inside the discharge unit 120 , so that it is stored in the silo body member 110 and discharged through the discharge unit 120 . A bottleneck in which the mortar is not discharged properly or is unevenly discharged can be prevented.

As described above, as the movable silo device 100 includes the silo body member 110, the discharge unit 120, and the twin rotary supply module 140 for the movable silo device, the movable silo device For twin rotary supply module 140, the mortar discharged through the discharge unit 120 and accommodated is supplied by a predetermined amount required according to the rotation of the first rotary blade 145 and the second rotary blade 146. By giving it, it is possible to smoothly discharge the mortar stored in the silo body member 110 and discharged through the discharge unit 120, thereby preventing material separation of the mortar, and a certain level required. Mortar can be supplied uniformly while maintaining the quality of

Hereinafter, a mobile silo device including a twin rotary feed module for a mobile silo device and a twin rotary feed module for the mobile silo device according to a second embodiment of the present invention will be described with reference to the drawings. In carrying out this description, the description overlapping with the content already described in the above-described first embodiment of the present invention will be omitted here instead of it.

4 is an enlarged view of a part of a movable silo device according to a second embodiment of the present invention.

Referring to FIG. 4 , the movable silo device according to the present embodiment removes mortar from being caught in the space between the lower portion of the module case 231 and the discharge unit 220 of the bottleneck removal module for the movable silo device among mortar. A member 250 is further included.

In detail, the mortar removing member 250 is disposed at a portion where the lower portion of the module case 231 and the discharge unit 220 are connected, and the discharge connection case 251 is formed in an empty shape therein; A compression cylinder 252 disposed in the discharge connection case 251 and having a pneumatic discharge port formed on a surface of the discharge connection case 251 facing the inside of the discharge unit 220, and the compression cylinder 252 A compression piston 253 capable of compressing the internal air of the compression cylinder 252 while advancing from the inside, and the internal air formed in the pneumatic discharge port and compressed inside the compression cylinder 252 at a preset pressure A discharge delay valve 254 that blocks the pneumatic discharge port so as to prevent discharge from the compression cylinder 252 until it is reached, and the discharge connection case 251 and the compression cylinder 252 pass together and have a thread on the outer surface The formed forward and backward shaft 255, the driving gear 257 fixed to the rotation shaft of the stirring screw body 233, and the driving gear 257 while meshing with the module case 231 and the discharge connection case 251 and a driven gear 256 formed over it.

A through hole through which the forward and backward shaft 255 is rotatably penetrated is formed in the central portion of the driven gear 256, and a thread engaged with the thread formed on the outer surface of the forward and backward shaft 255 is formed on the inner surface of the through hole. is formed

The discharge delay valve 254 is formed of a material having elasticity, such as rubber, and is fixed to a peripheral portion of the pneumatic outlet and is formed to cover the pneumatic outlet, and internal air compressed in the compression cylinder 252 . Until the predetermined pressure is reached, the pneumatic outlet is blocked so that the internal air is continuously compressed inside the compression cylinder 252 , and the internal air compressed in the compression cylinder 252 is When the predetermined pressure is reached, the internal air compressed inside the compression cylinder 252 is released by opening the pneumatic outlet while elastically deformed by the internal pressure of the compression cylinder 252 to the module case 231. The mortar caught in the space between the lower part of the module case 231 and the discharge part 220 can be removed by spraying the lower part of the unit and the discharge part 220 to the connected portion.

The compression cylinder 252 is formed in the form of a rectangular parallelepiped hollow inside, the compression piston 253 is formed in a rectangular shape to partition the inside of the compression cylinder 252, and the forward and backward shaft 255 is the By being fixed to the compression piston 253 , when the driven gear 256 rotates, the forward/reverse shaft 255 moves forward with respect to the driven gear 256 without being rotated.

When the stirring screw body 233 is rotated according to the operation of the driving means 232 , the driving gear 257 is rotated together with the rotation of the stirring screw body 233 , and accordingly the driving gear 257 and The engaged driven gear 256 is rotated. Then, as the forward and backward shaft 255 passing through the central portion of the driven gear 256 moves forward, the compression piston 253 connected to the front end of the forward and backward shaft 255 moves forward, and the compression cylinder The air inside 252 is compressed.

The discharge delay valve 254 maintains a closed state until the internal air compressed inside the compression cylinder 252 reaches the predetermined pressure, and then the internal air compressed inside the compression cylinder 252 is maintained. When the predetermined pressure is reached, the discharge delay valve 254 is opened, and accordingly, the internal air compressed inside the compression cylinder 252 is injected through the pneumatic discharge port, so that the module case 231 is opened. ), the mortar caught in the space between the lower portion and the discharge unit 220 can be removed.

By being configured as described above, the mortar removing member 250 is removed from the module case by using the rotational force of the stirring screw body 233 according to the operation of the driving means 232 without having a separate mortar removing means. The mortar caught in the space between the lower part of the 231 and the discharge part 220 can be removed.

In the above, the present invention has been shown and described with respect to specific embodiments, but those of ordinary skill in the art can variously modify the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the claims below. and can be changed. However, it is intended to clearly state that all such modifications and variations are included within the scope of the present invention.

According to the mobile silo device comprising a twin rotary supply module for a movable silo device and a twin rotary feed module for the movable silo device according to an aspect of the present invention, the mortar stored in the silo body member and discharged through the discharge part Since it can be made to be discharged, it can be said that the industrial applicability is high.

100: removable silo device
110: silo body member
120: discharge part
130: bottleneck removal module for mobile silo device
140: twin rotary feed module for mobile silo units

Claims (5)

a silo body member for storing mortar therein;
a discharge part connected to the lower part of the silo body member to discharge the mortar stored in the silo body member to the outside;
a twin rotary supply module for a movable silo device connected to the lower side of the discharge unit and supplying the received mortar through the discharge unit by a predetermined amount required according to the rotation of the first and second rotary blades;
a bottleneck removal module for a movable silo device installed in the discharging unit to agitate the mortar accommodated in the discharging unit so as to prevent a bottleneck of the mortar in the discharging unit; and
and a mortar removal member for removing the mortar from being caught in the space between the lower part of the module case of the bottleneck removal module for the movable silo device and the discharge part.
The mortar removal member is
a discharge connection case disposed at a portion where the lower portion of the module case and the discharge unit are connected, the inside of which is formed in an empty shape;
a compression cylinder disposed in the discharge connection case and having a pneumatic discharge port formed on a surface of the discharge connection case facing the inside of the discharge unit;
A compression piston capable of compressing the internal air of the compression cylinder while advancing inside the compression cylinder;
a discharge delay valve formed in the pneumatic discharge port to block the pneumatic discharge port so that the internal air compressed inside the compression cylinder is prevented from being discharged from the compression cylinder until a predetermined pressure is reached;
a forward and backward shaft passing through the discharge connection case and the compression cylinder together and having a thread formed on the outer surface thereof;
a prime mover gear fixed to the rotating shaft of the stirring screw body of the bottleneck removal module for the movable silo device;
and a driven gear formed over the module case and the discharge connection case while being engaged with the driven gear,
A through hole through which the forward and backward shaft passes rotatably is formed in the central portion of the driven gear, and a thread engaged with a thread formed on an outer surface of the forward and backward shaft is formed on an inner surface of the through hole,
The discharge delay valve is formed of a material having elasticity, and is fixed to a peripheral portion of the pneumatic discharge port and is formed to cover the pneumatic discharge port, so that the internal air compressed inside the compression cylinder reaches the predetermined pressure Until the pneumatic discharge port is blocked so that the internal air is continuously compressed in the interior of the compression cylinder, when the internal air compressed inside the compression cylinder reaches the preset predetermined pressure, the Between the lower part of the module case and the discharge part by opening the pneumatic discharge port while elastically deformed by the internal pressure to inject the compressed internal air inside the compression cylinder to the part where the lower part of the module case and the discharge part are connected. A mobile silo device, characterized in that it allows the mortar trapped in the space of the to be removed. The method of claim 1,
The twin rotary feed module for the mobile silo device is
a supply module case connected to the lower side of the discharge unit;
a module input end formed in an open shape at the upper end of the supply module case and serving as an inlet through which the mortar discharged through the discharge unit is input into the supply module case;
A module discharge end formed in an open form at the lower end of the supply module case, the mortar passing through the interior of the supply module case is an outlet to be discharged to the outside of the supply module case;
A first rotary blade that can be rotated by being eccentric to one side based on the central portion of the supply module case;
Doedoe eccentric to the other side based on the central portion of the supply module case, including a second rotary blade that can be rotated by being disposed at a position symmetrical with the first rotary blade based on the central portion of the supply module case,
The first rotary blade and the second rotary blade are rotated in opposite directions to each other, and the mortar inside the supply module case is rotated to move from the module input end toward the module discharge end,
Each blade of the first rotary blade and each blade of the second rotary blade are rotated alternately with each other so as to pass through the central portion of the supply module case.
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