KR102713329B1 - Disintegration and gravity segregation prevention type metering feeder - Google Patents

Abstract

The present invention relates to a quantitative supply device that prevents crushing and specific gravity separation, which enables a refractory mortar mixture produced in a mixing mixer to be used in various industrial fields by firmly bonding the mixture by an iron core and reduces the mixing ratio defect of the mixture due to the specific gravity (particle size) separation shape, and enables quantitative supply.
The present invention comprises a storage container in which a mixture produced in a pretreatment process is stored, a gravity separation prevention device which prevents the composite materials of the mortar mixture being fed from gravity separation, a quantitative feeder which re-mixes the mortar mixing recipe that has fallen through the gravity separation prevention device so as to discharge a fixed amount of the mortar mixing recipe without gravity separation, and a driving unit which drives the gravity separation prevention device and the gravity separation prevention device.

Description

{Disintegration and gravity segregation prevention type metering feeder}

The present invention relates to a quantitative supply device that prevents crushing and specific gravity separation, which enables a refractory mortar mixture produced in a mixing mixer to be used in various industrial fields by firmly bonding the mixture by an iron core and reduces the mixing ratio defect of the mixture due to the specific gravity (particle size) separation shape, and enables quantitative supply.

Mortar, which is generally used as a material to enhance the heat resistance of a furnace, a device that puts materials in and heats them for processing, is produced by mixing in a mixing mixer.

The recipe for refractory mortar produced as described above is usually composed mainly of iron cores, stone powder, and ceramic balls.

As described above, the refractory mortar mixture produced by mixing in a mixing mixer is manually packaged in ton bags or stands and shipped, and the refractory mortar mixture stored in ton bags is shipped in the ton bags themselves depending on the intended use. However, depending on the intended use of the mortar, it is packaged and stored in small packaging units, that is, units that are easy for workers to transport by manpower, called "stands".

As described above, the refractory mortar mixture produced in the mixing mixer is manually packaged as described above. It is inferred that the packaging method is to discharge and measure the mixture from the bottom of the mixer and manually package it into bags, ton bags, etc.

Then, in the case of packaging in a bag (also called a "site") that is easy for workers to transport by manpower, the conventional packaging method is to discharge the mortar stored in the ton bag through the discharge port provided in the ton bag, discharge it to the bag located on the weighing device provided for quantitative measurement, and block the discharge port of the ton bag when the measurement number of the weighing device reaches the measurement capacity.

The above packaging method not only fails to improve the unit packaging productivity of the mixture, but also, in the process of discharging the mixture from the ton bag, the mixture material with a high specific gravity among the mixtures stored in the ton bag is discharged first, resulting in gravity separation, or the mixture is bound together by the iron core, causing it to clump together tightly.

The above-mentioned specific gravity separation and the binding of the mixture by the iron core were obstacles to quantitative discharge supply, making quantitative packaging of the mixture difficult, and since follow-up measures had to be taken to eliminate the resulting measurement error, there was a problem that packaging and productivity could not be improved.

The applicant of this case has developed a quantitative supply device that prevents disintegration and specific gravity separation in order to resolve the difficulties in quantitative supply packaging of the above-mentioned conventional mixture.

The present invention was developed to solve the problem of the past that there was difficulty in quantitatively supplying a refractory mortar mixture, and when the mixture produced in the mixer and transported and supplied through the pretreatment process is put into the dust box formed at the upper part of the storage container, the composite materials constituting the mixture can be supplied without specific gravity separation while passing through the specific gravity separation prevention device located in the dust box, thereby minimizing the processing load for resolving specific gravity separation in the quantitative feeder installed inside the mortar mixing recipe storage container, thereby laying the foundation for quantitative unit packaging of the mortar mixture. In addition, the cutter blade constituting the quantitative feeder that has passed through the specific gravity separation prevention device is mixed again, thereby fundamentally resolving the specific gravity separation phenomenon within the quantitative feeder, thereby minimizing mixing recipe defects in the unit packaging, thereby improving the quality. In addition, a crushing knife is formed at the bottom of the feeding blade constituting the quantitative feeder, so that the mixture that has been clumped and firmly bound by the iron core is broken, and at the same time, a rubber scraper formed at the bottom of the feeding blade crushes the mixture. The present invention provides a quantitative supply device that prevents disintegration and specific gravity separation, thereby ensuring reliability of quantitative packaging and high-quality mixing ratio of unit-packaged mixtures from consumers by increasing the quantitativeness of unit-packaged mixtures by uniformly pushing them toward a discharge port.

In order to achieve the above object, the present invention comprises: a storage unit having a funnel-shaped falling speed regulating tube formed inside, which narrows as it goes downward and is capable of regulating the falling speed of a mortar mixture; an outlet formed on a bottom plate through which a mortar mixture moved by a quantitative feeder is discharged; a dust box formed on the upper part, in which a gravity separation prevention device is positioned to prevent the mixture from gravity separation; and a maintenance door hingedly installed so as to be openable and closeable is installed on a maintenance gate formed on the lower part of a side wall so as to be used when internal maintenance is required;

A quantitative feeder comprising: a bearing housing connected to the rotational axis of a driving motor of a driving unit and mounted on the central axial hole of a feeding blade forming a radial shape; a rubber scraper installed on the bottom of the feeding blade for uniformly discharging the mortar mixture toward a discharge port so as to enable a quantitative discharge supply of the mortar mixture; and a crushing knife installed to break up the mixture that has been clumped and firmly bound; and a cutter blade mounted and fixed on a shaft connected to the rotational axis of the driving motor mounted on the bearing housing to remix the mortar mixture;

A gravity separation prevention device in which the bearing housing is mounted at the bottom and a shaft support member that supports the upper part of a shaft to which the driving motor power of the driving unit is transmitted is fixedly installed at the upper part of the storage body, a connecting connector formed by extending from the bottom surface of a gravity separation prevention cone is connected and installed at the upper part of the shaft, and a gravity separation prevention wing plate is formed radially centered on the gravity separation prevention cone;

The present invention is characterized in that the driving motor for rotating the above-mentioned quantitative feeder and the gravity separation prevention device is fixedly installed on the bottom surface of the bottom plate of the storage container via a fixing bracket, a bearing housing is mounted on a rotating shaft positioned through the bottom plate, and a shaft for transmitting power to the gravity separation prevention device is connected to the bearing housing mounted on the rotating shaft.

The present invention is characterized in that a sampling port is further formed on the bottom plate of the storage container so as to allow the mixing state of the mortar mixture to be sampled in advance and the mixing state to be inspected.

The present invention is characterized in that a shredding knife installed below a feeding blade of a quantitative feeder has a rectangular plane structure, with corners installed obliquely with respect to the longitudinal direction of the feeding blade, so that the corners are installed in a direction perpendicular to the longitudinal direction of the feeding blade, thereby digging into the gaps between bound mixtures to break and release the bound mixture, and uniformly pushing the mixture toward the discharge port by a rubber scraper to enable a quantitative discharge and supply.

As described above, the quantitative supply device (100) of the present invention, which prevents disintegration and specific gravity separation,

First, when a mixture produced in a mixing mixer and transported and supplied through a pretreatment process is put into a dust box (111) formed at the top of a storage container (110), the composite materials can be supplied without separation of specific gravity while passing through a gravity separation prevention device (120) located in the dust box (111), thereby minimizing the processing load for resolving gravity separation in a quantitative feeder (130) installed inside (112) of the storage container (110), thereby laying the foundation for quantitative unit packaging of the mixture;

Second, the mixture that has passed through the gravity separation prevention device (120) is mixed again by the cutter blade (134) that constitutes the quantitative feeder (130), thereby eliminating the gravity separation phenomenon of the mixture within the quantitative feeder (100), and the mixture that was firmly bound by the iron core and could not be discharged is broken and debound by the crushing knife, thereby enabling uniform discharge, enabling automatic weighing and automatic packaging, thereby reducing the time for unit packaging, thereby improving the packaging productivity of the mortar mixture;

Third, a crushing knife (134) is formed on a feeding blade (132) constituting a mortar mixing recipe metering device (130), so that it crushes a mixture that is clumped and tightly bound, and at the same time, a rubber scraper (133) formed on the feeding blade (132) evenly pushes the mixture toward the discharge port (116), thereby increasing the accuracy of metering of a unit-packaged mortar mixture, and thus, it is a very useful invention that can secure the reliability of the unit-packaged mortar mixture from consumers.

Figure 1 is an exemplary diagram of a quantitative supply device that prevents crushing and specific gravity separation according to the present invention.
Figure 2 is a cross-sectional view taken along line AA of Figure 1.
Fig. 3 is a cross-sectional view taken along line BB of Fig. 1.
Figure 4 is a photograph of an embodiment of a quantitative supply device that prevents crushing and specific gravity separation according to the present invention.
Figure 5 is an exemplary diagram of a gravity separation prevention device of a quantitative supply device that prevents crushing and gravity separation according to the present invention.

Hereinafter, a preferred embodiment for achieving the above purpose is described in detail with reference to the attached drawings.

The quantitative supply device (100) of the present invention, which prevents crushing and specific gravity separation, is composed of a storage container (100) in which a mixture produced in a pretreatment process is stored, a gravity separation prevention device (120) that prevents the input mixture from gravity separation, a quantitative supply device (130) that mixes the mixture that falls through the gravity separation prevention device (120) again and discharges the mixture in a quantitative manner after eliminating the gravity separation phenomenon, and a driving unit (140) that drives the quantitative supply device (130) and the gravity separation prevention device (120).

The above storage container (110) has a funnel-shaped, tapered tube formed inside (112) to control the falling speed of the mortar mixture.

A discharge port (116) is formed on the floor plate (115) through which the mixture moved by the quantitative feeder (130) is discharged.

A dust box (111) is formed at the top, in which a gravity separation prevention device (120) is positioned to prevent the mixtures from being separated by gravity.

At the bottom of the side wall, a maintenance door (114) is installed with a hinge that can be opened and closed, and is formed so that it can be used when maintenance of the interior (112) is required.

The above-mentioned floor plate (115) further has a sampling port (117) formed to enable the mixing state to be inspected by sampling the mixing state in advance.

The quantitative feeder (130) installed inside (112) of the above storage container (110) is equipped with a bearing housing (144) connected to the rotation shaft (143) of the driving motor (145) of the driving unit (140) in the central axial hole of the feeding blade (132) forming a radial shape.

On the bottom of the above feeding blade (132), a rubber scraper (133) is installed to uniformly push and discharge the mixture toward the discharge port (116) so that a quantitative discharge supply of the mortar mixture is possible.

A crushing knife (134) is installed to break up the mixture that has become tightly bound and clumped together.

It is composed of a cutter blade (131) that is fixedly mounted on a shaft (121) connected to the rotation shaft (143) of the driving motor (145) mounted on the bearing housing (144) to re-mix the mixture.

The shredding knife (134) mounted on the feeding blade (132) is configured to have a rectangular planar structure, with the edge blade (134a) installed diagonally relative to the longitudinal direction of the feeding blade (132), such that the edge blade (134a) is installed in a direction perpendicular to the longitudinal direction of the feeding blade (132), so as to penetrate between the mixtures to shred and release the bonds, and to discharge and supply the mixtures evenly and quantitatively.

The gravity separation prevention device (120) located in the dust box (111) of the storage container (110) has a shaft support (125) that supports the upper end of the shaft (121) to which the power of the driving motor (145) of the driving unit (140) is transmitted, and is fixedly installed on the upper end of the storage container (110).

A connecting connector (123) formed by extending from the bottom surface of a gravity separation prevention cone (122) is installed at the top of the shaft (121), and a gravity separation prevention wing plate (124) is formed radially around the gravity separation prevention cone (122).

The driving unit (140) that drives the above-mentioned non-separating device (120) and the quantitative feeder (130) is fixedly installed on the bottom surface of the bottom plate (115) of the storage container (110) via a fixing bracket (142) through a driving motor (141) that rotates the above-mentioned non-separating device (130) and the quantitative feeder (120).

A bearing housing (144) is mounted on a rotating shaft (143) positioned through the above-mentioned floor plate (115), and a shaft (121) that transmits power to a gravity separation prevention device (120) is connected to the bearing housing (144) mounted on the rotating shaft (143).

The quantitative supply device (100) of the present invention, which is composed of the above-described configuration and prevents disintegration and specific gravity separation, transports and supplies a mixture manufactured by mixing in a mixing mixer, which is a pretreatment process.

The mixture transported and supplied as described above passes through a gravity separation prevention device (120) installed to be located in the dust box (111) when supplied.

The gravity separation prevention device (120) through which the above mixture passes is in a state where the power generated from the driving motor (145) of the driving unit (140) rotates the gravity separation prevention blade (124) through the shaft (121).

As described above, the mixture fed into the gravity separation prevention device (120) is spread by the gravity separation prevention cone (122) and then spread to the gravity separation prevention wing (124).

As described above, the mixture spread out through the non-specific gravity separation prevention wing (124) is evenly stored in the storage tank.

The mortar mixture that is mixed again while passing through the above-mentioned non-specific separation prevention device (120) is able to be supplied in a quantitative discharge state in a crushing and bonding release state by the lower crushing knife of the quantitative supply device (130) located below it.

The operating relationship of the above quantitative feeder (130) is described in more detail as follows.

The mixture mixed and dropped in the mortar mixing recipe gravity separation prevention device (120) of the quantitative supply device (100) of the present invention that prevents crushing and specific gravity separation is dropped to the cutter blade (131) of the quantitative supply device (130).

Among the composite materials dropped by the cutter blade (131), any materials that are entangled are released.

Thereafter, the mixture is uniformly and quantitatively discharged and supplied through the discharge port (116) by the rotation of the feeding blade (132) that forms the quantitative feeder (130) together with the cutter blade (131).

As described above, the cutter blade (131) for secondary mixing of the mortar mixture is rotated by the driving motor (145) of the driving unit (140) like the above-mentioned specific gravity separation prevention blade (124).

As described above, a shredding knife (134) is mounted on the bottom of the rotating feeding blade (132) to shred the lumped and hardened mixture and push the unbound mixture evenly to the rubber scraper (133) mounted parallel to the shredding knife (134) and discharge it in a quantitative amount through the discharge port (116).

Before quantitatively discharging a mixture without specific gravity separation as described above, the mixing state of the mortar mixture is sampled through a sampling hole (117) formed in the floor plate (115) to confirm that it is a high-quality mortar mixture without specific gravity separation, and then it is discharged and supplied.

110: Storage box 111: Dust box
112: Inside 113: Falling speed regulator
114 : Maintenance door 116 : Exhaust port
120: Non-gravity separation prevention device 121: Shaft
122: Non-separation prevention cone 123: Connection connector
124: Anti-gravity separation wing 125: Shaft support
130: Quantitative feeder 131: Cutter blade
132: Feeding Blade 133: Loverscraper
134: Shredding knife 140: Drive unit
141: Drive motor 142: Fixed bracket
143: Rotating shaft 144: Bearing housing

Claims (3)

A storage container (110) having a funnel-shaped falling speed regulating tube (113) formed inside (112) that is tapered as it goes downwards and is capable of regulating the falling speed of the mixture, an outlet (116) formed on the bottom plate (115) through which the mixture moved by the quantitative feeder (130) is discharged, a dust box (111) formed on the upper part in which a gravity separation prevention device (120) is positioned to prevent the mixtures constituting the mortar mixing recipe from gravity separation is positioned, and a maintenance door (114) that is hingedly installed so as to be openable and closeable is installed on a maintenance gate formed on the lower part of the side wall so that it can be used when maintenance of the interior (112) is required;
A bearing housing (144) connected to a rotational shaft (143) of a driving motor (145) of a driving unit (140) is installed in the central axial hole of a feeding blade (132) forming a radial shape, and a rubber scraper (133) is installed on the bottom of the feeding blade (132) to evenly push and discharge a mortar mixture toward a discharge port (116) so that a quantitative discharge supply of the mortar mixture can be possible, and at the same time, a crushing knife (134) is installed to crush a mixture that has become lumped and hardened, and a cutter blade (131) is installed and fixed to a shaft (121) connected to the rotational shaft (143) of the driving motor (145) mounted on the bearing housing (144) to re-mix the mixture;
A shaft support member (125) that supports the upper end of a shaft (121) to which the power of the driving motor (145) of the driving unit (140) is transmitted, the lower end of which is mounted on the bearing housing (144), is fixedly installed on the upper end of the storage body (110), a connecting connector (123) that is formed by extending from the bottom surface of a gravity separation prevention cone (122) on the upper end of the shaft (121) is connected and installed, and a gravity separation prevention wing plate (124) is formed radially around the gravity separation prevention cone (122), and a gravity separation prevention device (120);
A disintegration and gravity separation prevention type quantitative supply device characterized in that the driving motor (141) for rotating the above-mentioned quantitative supply device (130) and the gravity separation prevention device (120) is fixedly installed on the bottom surface of the bottom plate (115) of the above-mentioned storage container (110) via a fixing bracket (142), a bearing housing (144) is mounted on a rotation shaft (143) positioned penetrating the above-mentioned bottom plate (115), and a shaft (121) for transmitting power to the gravity separation prevention device (120) is connected to the bearing housing (144) mounted on the rotation shaft (143).
A quantitative supply device that prevents crushing and specific gravity separation, characterized in that in the first paragraph, a sampling port (117) is further formed on the bottom plate (115) of the storage container (110) so that the mixing state of the mixture can be sampled in advance to inspect the mixing state.
In the first paragraph, the crushing knife (134) mounted on the feeding blade (132) of the quantitative feeder (130) has a rectangular plane structure and the corner blade (134a) is installed obliquely with respect to the longitudinal direction of the feeding blade (132) so that the corner blade (134a) is installed in a direction perpendicular to the longitudinal direction of the feeding blade (132) so as to penetrate between the mixtures constituting the mortar mixing recipe and crush and release the bonds so as to be uniformly discharged and supplied in a quantitative manner. A crushing and specific gravity separation-preventing quantitative supply device.

Images