KR102049250B1 - Vibration-magnet-suction screening equipment for complex foreign substances in aggregate - Google Patents

Abstract

The present invention relates to an apparatus for selecting ferrous foreign materials such as wire, nail and others along with nonferrous foreign materials such as paper, wood pieces, plastic pieces, vinyl, Styrofoam and others in a process of producing recycled aggregate by performing an intermediate process of construction waste. The purpose of the present invention is to provide a foreign material selection apparatus which can efficiently select small ferrous foreign materials such as nail, wire and others along with nonferrous foreign materials such as paper, wood pieces, Styrofoam, vinyl and others from construction waste in a simple manner. An apparatus for selecting complex foreign materials in aggregate by vibration, magnetic attachment and suction of the present invention includes: a vibration selection supplier including a vibration supply means which sends down aggregate supplied to an inclined surface in a downward direction and causes vertical vibration so that aggregate can be discharged in a separated state according to specific gravity by vibration; a conveyor belt receiving aggregate discharged from the vibration selection supplier to transfer the aggregate in one direction; a selection device installed above a point where the aggregate is discharged from the vibration selection supplier, and having a magnetic separation unit and a suction separation unit disposed side by side, wherein the magnetic separation unit accommodates an electromagnet within a metal casing to introduce electricity, thereby generating a vertical magnetic force and the suction separation unit supplies an upward suction force by the operation of a suction pump; and a selected material transfer belt installed along a track formed on the circumference of the selection device to proceed in the direction opposite to a transfer direction of the conveyor belt, and having a magnetic attachment transfer unit and a screen belt-type adsorption transfer unit divided in a longitudinal direction, wherein the magnetic attachment transfer unit moves in contact with the magnetic separation unit, and the adsorption transfer unit moves in contact with the suction separation unit. The apparatus is constructed such that the ferrous foreign materials in the aggregate discharged through the vibration selection supplier are magnetically attached to the magnetic separation unit between the magnetic attachment transfer unit and the magnetic separation unit, and the nonferrous foreign materials in the aggregate discharged through the vibration selection supplier are transferred and discharged in the direction opposite to a transfer direction of the aggregate in a state of being adsorbed onto the suction separation unit between the adsorption transfer unit and the suction separation unit.

Description

Vibration-magnet-suction screening equipment for complex foreign substances in aggregate}

The present invention relates to an apparatus for sorting together iron foreign materials such as wire and nails and non-ferrous foreign materials such as paper, wood chips, plastic pieces, vinyl and styrofoam in the process of producing recycled aggregates by intermediate treatment of construction waste.

Domestic construction wastes such as waste, concrete, waste ascon, waste wood, rebar, earth and sand, which are inseparable due to working conditions, such as construction waste, vinyl and household waste, are generated annually. It is reaching 40 million tons.

In order to recycle such construction wastes, waste treatment must be performed as a pretreatment. In the construction waste intermediate treatment plant, the construction waste goes through a multi-stage shredding process, and the combination of magnetic separation according to the material, screen selection according to the particle size, blower selection according to the weight, centrifugal separation and wet sorting according to the specific gravity, etc. It is managed to prevent foreign matters from entering into the aggregate.

However, it is difficult to efficiently separate small iron foreign objects such as nails and wires and various lightweight non-ferrous foreign materials such as wood chips, styrofoam, vinyl, and plastic pieces that are not removed in the magnetic screening process, which still requires a lot of manual work.

1. Registered Patent 10-0759932 "Foreign matter sorting device of construction waste" 2. Registered Patent 10-0756420 "Separation device and method for separating aggregate and foreign matter from construction waste" 3. Registered Patent 10-0968793 "Recyclable aggregate sorting device having a foreign matter treatment and dust collection function" 4. Patent 10-1716709 "Separation device for separating foreign matter in circulating soil using density difference separation" 5. Patent 10-0643615 "Hardware sorting device"

It is an object of the present invention to provide a foreign matter sorting apparatus that can efficiently sort small iron foreign matters such as nails and wires and non-ferrous foreign matters such as paper, wood chips, styrofoam, and vinyl from construction waste in a simple manner.

The present invention is "vibration sorting feeder for sending down the aggregate supplied to the inclined surface in a downward direction, provided with a vibration supply means for causing up and down vibration, so that the discharge is separated in accordance with the specific gravity by vibration; Conveyor belt for receiving the aggregate discharged from the vibration screening feeder to convey in one direction; The suction sorting is installed above the point where the aggregate is discharged from the vibrating sorting feeder, and the suction sorting unit provides an upward suction force by operating a magnetic separator and a suction pump for receiving an electromagnet inside the metal casing to generate a vertical magnetic force by electric introduction. A sorting device in which side parts are arranged side by side; It is installed along the track formed around the sorting device, and proceeds in the opposite direction to the conveying direction of the conveyor belt, and the self-transporting transfer portion moving in contact with the magnetic force selection portion, and the screen belt type moving in contact with the suction selection portion A sorting conveying belt having a suction conveying section divided in a longitudinal direction; And a portion of the sorting conveying belt and a portion of the conveyor belt below the sorting conveying belt, the portion receiving the discharge from the vibrating sorting feeder, a portion through which the conveyor belt passes, and being adsorbed to the sorting conveying belt. A chamber in which openings are formed at portions through which steel foreign substances and non-ferrous foreign substances are discharged, portions through which a power supply line for supplying electric power to the magnetic force selection unit passes, and portions through which suction power supply pipes for transferring suction power of suction pumps to the suction selection unit; It includes, the iron foreign matter in the aggregate discharged through the vibration screening feeder is attached to the magnetic separation unit with the self-transfer section between, the non-ferrous foreign matter in the aggregate discharged through the vibration screening feeder is the adsorption transfer part It provides a vibration-adherence-suction screening device of the composite foreign matter in the aggregate configured to be transported and discharged in the opposite direction to the conveying direction of the aggregate in the state of being adsorbed to the suction sorting unit.

According to the tendency of relatively light non-ferrous foreign matter to fall further apart when the discharge from the vibration screening supply separated by the weight difference, the magnetic separator of the screening device is disposed closer to the vibration screening supply, The suction sorting unit may be disposed away from the vibration sorting feeder.

In addition, by further comprising a blower for blowing the wind discharged from the vibration screening feeder, it is possible to more clearly distinguish the scattering distance of the iron foreign material and the non-ferrous foreign matter contained in the discharge.

In addition, the vibrating sorting feeder may be configured by the mesh screen to the inclined surface, so that the fine powder passing through the mesh screen is separated and discharged.

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According to the present invention, it is possible to efficiently separate foreign matters of various kinds and properties from the aggregate by a simple device configuration for providing vibration, magnetic force and suction force.

1 is a conceptual diagram of a vibration-adherence-suction screening apparatus for ferrous / non-ferrous foreign matter in aggregate provided by the present invention.
2 and 3 are examples of the vibration-adherence-suction screening apparatus for ferrous / non-ferrous foreign matter in aggregate provided by the present invention.
4 is an embodiment of the present invention sorting apparatus.
5 is a conceptual diagram of a process of freely falling in a section in which foreign matter is moved to the screen belt adsorbed and is not provided with suction force and magnetic force.
6 is an embodiment of a chamber applied to the present invention.

Hereinafter, the present invention will be described in detail with the accompanying drawings.

The present invention, as shown in the [Fig. 1] to [3] "below the aggregate supplied to the inclined surface in the downward direction, provided with a vibration supply means for causing the up and down vibration, the discharge by the vibration to the specific gravity Vibration screening feeder 110 to be discharged in a separated state according to; Conveyor belt 120 for receiving the aggregate discharged from the vibration screening feeder 110 in one direction; The vibration screening unit 110 is installed on the top of the discharge point is discharged, by receiving the electromagnet inside the metal casing to generate a vertical magnetic force by the introduction of the magnetic force selection unit 131 and the suction pump in the upward direction A sorting device 130 in which suction suction units 132 for providing suction force are disposed side by side; And a self-supporting transfer part 141 installed along a track formed around the sorting device 130 and traveling in a direction opposite to the conveying direction of the conveyor belt 120 and moving in contact with the magnetic force selection part 131. A sorting conveying belt 140 in which a screen belt-type adsorption conveying unit 142 moving in contact with the suction selecting unit 132 is divided in a longitudinal direction; It includes, and the foreign matter in the aggregate discharged through the vibration screening supply 110 is stuck to the magnetic separation screening unit 131 with the self-transporting portion 141 interposed, the vibration screening supply 110 Vibration of the composite foreign matter in the aggregate configured to be transported and discharged in the opposite direction to the conveying direction of the aggregate in the state that the non-ferrous foreign matter in the aggregate discharged through the suction suction unit 142 between the suction selection unit 132 -Self-suction suction sorting device ".

The vibrating sorting feeder 110 is provided to send down the aggregate supplied to the inclined surface in a downward direction, provided with a vibration supply means for causing up and down vibration, the foreign matter in the aggregate is discharged in a state separated by the specific gravity by vibration It is a device to make it possible.

The vibration supply means 110 may be configured through a vibration motor, a vibration spring, and the like, and applies a vertical vibration induction structure applied to the vibration screen disclosed in Patent Registration 10-1768061, the vibration selector for aggregate disclosed in Patent Registration 10-0838259, and the like. can do.

Filtering foreign matter from grains by chiseling in traditional farming is based on the weight difference of the materials. The vibration sorting feeder 110 is also sent down along the inclined surface while floating the foreign matter in the aggregate up and down through the vibration.

In addition, among the foreign matter in the aggregate, non-ferrous foreign matters are relatively small in weight and specific gravity, so that they fall farther from the vibration screening feeder 110, and the foreign matter in the aggregate is relatively large in weight and specific gravity. While falling to a point close to the vibration screening feeder 110, the non-ferrous foreign material and the iron foreign material is separated.

However, if the aggregate is discharged along the inclined surface is too fast to discharge the foreign matter separation effect due to vibration may not be sufficient, it is possible to form a plate of low height at a predetermined interval on the inclined surface. By forming a diaphragm at the bottom of the inclined surface may be configured to discharge while the aggregate springs up.

In addition, by configuring the inclined surface with a mesh screen, the fine powder during the movement of the aggregate can be configured to be separated and discharged through the mesh screen. To this end, a separate bottom plate and a fine powder and fine aggregate discharge path 115 extending from the bottom plate may be formed below the inclined surface.

The conveyor belt 120 is a device for receiving the aggregate discharged from the vibration screening feeder in one direction.

The sorting device 130 is installed on the point where the aggregate is discharged from the vibration sorting feeder 110 as shown in Figure 4, by receiving the electromagnet inside the metal casing to generate a vertical magnetic force by the electrical introduction The suction selection unit 131 and the suction selection unit 132 for providing an upward suction force by the operation of the suction pump are arranged side by side.

The magnetic force selection unit 131 is a device for generating magnetic force in the vertical direction by receiving power from the power supply unit 134 such as a generator through the power supply line 135 to supply the coil to the magnetic foreign matter.

The suction selection unit 132 is generated in the suction pump 134, and receives the suction force through the suction force supply pipe 136 to suck the non-ferrous foreign matter with the suction force acting upward.

The sorting device 130 provided with the magnetic separator 131 and the suction separator 132 is spaced apart at regular intervals on the conveyor belt 120, the length of the vibration sorting feeder 110 or more It is preferable to produce with.

As described above, when the discharge is separated by the weight difference in the vibrating sorting feeder 110, the relatively light non-ferrous foreign matter tends to fall farther than the iron foreign material. Magnetic separation unit 131 is disposed on the side closer to the vibration screening supply 110, the suction screening section 132 is disposed on the side away from the vibration screening supply 110, the separation and separation efficiency of the iron foreign material and non-ferrous foreign matter Can increase.

In addition, as shown in Figure 1 by further comprising a blower 150 for blowing the wind discharged from the vibration screening feeder 110, by scattering the iron foreign matter and non-ferrous foreign matter contained in the discharge The distance can be more clearly separated to further increase the separation screening efficiency of the two.

The sorting material conveying belt 140 is a belt installed along a track formed around the sorting device 130 as shown in [FIG. 5], so as to proceed in a direction opposite to the conveying direction of the conveyor belt 120. It is composed.

The sorting material conveying belt 140 is a self-adhesive conveying unit 141 moving in contact with the magnetic force selection unit 131, the suction belt conveying unit 142 of the screen belt-type moving in contact with the suction selection unit 132 Are divided longitudinally.

Accordingly, the iron foreign matter is attached to the self-adhesive transport unit 141 by the magnetic force provided by the magnetic force selection unit 131 is transferred to the section where the magnetic force is not provided in the direction opposite to the transport direction of the aggregate to the foreign substance discharge path 143. Discharged. When the aggregate is discharged down along the inclined surface of the vibration sorting feeder 110, the foreign material of the iron moving upwards against gravity by the magnetic force provided by the magnetic separation unit 131 to the magnetic transfer unit 141 The foreign matter is attached to the magnetic material is moved along the movement of the selection transfer belt 140 in a state that is attached to the magnetized transfer portion 141 until the magnetic force is applied, the magnetic force is provided from the magnetic force selection unit 131 It is discharged by free fall in the section that is not.

Non-ferrous foreign material is also opposite to the conveying direction of the aggregate in the state of being adsorbed by the suction transfer unit 142 by the suction force provided by the suction selection unit 132 and provided through the screen belt-type suction transfer unit 142. The section that is not provided with suction in the direction is conveyed is discharged to the foreign matter discharge path (143). When aggregate comes down and discharged along the inclined surface of the vibrating sorting feeder 110 (especially when the aggregate is ejected by jumping), light weight and small specific gravity non-ferrous foreign material does not win the suction force of the suction device 130 The foreign matter is attached to the adsorption transfer unit 142, the foreign matter is moved along the movement of the sorting material transfer belt 140 in the state adsorbed by the adsorption transfer unit 142 until the suction force is applied, the suction force is It is discharged freely in the section not provided.

The foreign substance discharge part 143 may separate the iron foreign substance discharge path 143-1 and the non-ferrous foreign substance discharge path 143-2 as shown in FIG. 5.

On the other hand, the vibration-adherence-suction screening apparatus of the composite foreign matter in the aggregate provided by the present invention, as shown in [FIG. 2] and [FIG. 3], the chamber 160 for concentration of magnetic force and suction force acting on the foreign matter Can be installed.

The chamber 160 is installed to cover a portion of the sorting conveying belt 140 and the conveyor belt 120 below the sorting conveying belt, and the vibration sorting feeder 110 as shown in FIG. 6. ) A portion 161 receiving aggregate and foreign matter from the portion, a portion 162 through which the conveyor belt 120 passes, and a portion from which foreign matter (iron, non-ferrous), which has been stuck or adsorbed to the sorting conveying belt 140, is discharged ( 163, an opening is formed in a portion 164 through which the power supply line 135 passes and a portion 165 through which the suction force supply pipe 136 passes.

In the above, the present invention has been described in detail with specific examples. However, the present invention is not limited to the above embodiments and may be modified and modified without departing from the gist of the present invention. Therefore, the claims of the present invention include such modifications and variations.

110: vibrating sorting feeder 115: fine dust, fine aggregate discharge path
120: conveyor belt 130: sorting device
131: magnetic separator 132: suction separator
133: power supply unit 134: suction pump
135: power supply line 136: suction power supply pipe
140: sorting material transfer belt 141: self-supporting transfer unit
142: adsorption transfer unit 143: foreign matter discharge path
150: blower 160: chamber

Claims (5)

Vibrating sorting feeder for sending down the aggregate supplied to the inclined surface, the vibration supply means for causing up and down vibration, so that the discharge is separated in accordance with the specific gravity by the vibration;
Conveyor belt for receiving the aggregate discharged from the vibration screening feeder to convey in one direction;
The suction sorting is installed above the point where the aggregate is discharged from the vibrating sorting feeder, and the suction sorting unit provides an upward suction force by operating a magnetic separator and a suction pump that receive an electromagnet inside the metal casing to generate a vertical magnetic force by electric introduction. A sorting device in which side parts are arranged side by side;
It is installed along the track formed around the sorting device, and proceeds in the opposite direction to the conveying direction of the conveyor belt, the self-conveying transfer portion to move in contact with the magnetic force selection portion, and the screen belt type of movement in contact with the suction selection portion A sorting conveying belt having a suction conveying section divided in a longitudinal direction; And
Installed to cover a portion of the conveyor belt and the section of the conveyor belt beneath the sorting material conveying belt, the part receiving the discharge from the vibrating sorting feeder, the portion passing the conveyor belt, the steel adsorbed to the sorting material conveying belt A chamber having openings formed in portions through which foreign substances and non-ferrous foreign substances are discharged, portions through which a power supply line for supplying electric power to the magnetic force selection unit passes, and portions through which suction power supply pipes for transferring suction power of suction pumps to the suction selection unit; Including;
The iron foreign matter in the aggregate discharged through the vibration sorting feeder is stuck to the magnetic separation unit, and the non-ferrous substance in the aggregate discharged through the vibration sorting feeder is placed between the adsorption transfer unit. Vibration-attachment-suction screening device of the composite foreign matter in the aggregate configured to be transported and discharged in the opposite direction to the conveying direction of the aggregate in the state adsorbed to the suction screen.
In claim 1,
The magnetic force sorting unit of the sorting device is disposed on the side closer to the vibration sorting feeder, and the suction sorting unit is disposed away from the vibration sorting feeder.
In claim 2,
A blower for blowing wind on the discharged from the vibrating sorting feeder; Vibration-attachment-suction screening device of foreign matter in the aggregate, characterized in that the configuration further comprises.
In claim 1,
The vibration screening feeder is the inclined surface is composed of a mesh screen,
Vibration-attachment-suction screening device of the composite foreign matter in the aggregate, characterized in that configured to separate the discharge through the mesh screen.
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