KR20220072416A - Auto crush-separation method and auto crush-separation equipment for waste-reinforced concrete - Google Patents

Abstract

According to the present invention, it is possible to easily separate the reinforcing bar reinforced concrete into concrete and rebar, and it is possible to prevent the rebar from being caught in the conveying conveyor belt or damage to the conveying conveyor belt due to the reinforcing bar during separation. It relates to a waste reinforced concrete crushing separation method and a waste reinforced concrete crushing separation facility that can prevent or minimize work delay and equipment maintenance due to damage to a conveyor belt. According to the present invention, there is provided a crushing separation method for waste reinforced concrete for separating reinforcing bars and concrete of the waste reinforced concrete, the waste reinforced concrete input step of putting the waste reinforced concrete into a crushing facility; a crushing separation step of crushing the closed reinforced concrete by the crushing device configured in the crushing facility to separate the concrete and the reinforcement and falling under their own weight; A discharge control step of controlling the reinforcing bar or concrete, which is separated in the crushing separation step and falling by its own weight, from falling directly to the following conveying device and controlling it to fall; and a separated material transfer step of receiving and transferring the falling concrete and reinforcing bars controlled in the discharge control step from the transfer device unit;

Description

{AUTO CRUSH-SEPARATION METHOD AND AUTO CRUSH-SEPARATION EQUIPMENT FOR WASTE-REINFORCED CONCRETE}

The present invention relates to a separation method for crushing of waste reinforced concrete and a separation facility for crushing of waste reinforced concrete, and more particularly, it is possible to easily separate the waste reinforced concrete with reinforced reinforcement into concrete and reinforcing bars. A method of crushing and separating waste reinforced concrete that can prevent or minimize work delay and facility maintenance caused by jamming of reinforcing bars and damage to the transfer conveyor belt as it can prevent jamming of reinforcing bars in the belt or damage to the transfer conveyor belt It relates to a crushing separation plant.

In terms of eco-friendliness and resource recycling, construction waste generated when construction and building structures are dismantled is not landfilled, but is collected in a predetermined place and produced as a high-quality resource through an intermediate treatment process. The use of recycled aggregates obtained by crushing and sorting out buildings is greatly increased by the dismantling of a large amount of structures in accordance with the activation of reconstruction of urban and local buildings.

Buildings or civil structures (hereinafter referred to as "buildings") are mainly made of reinforcing bars and concrete, and have a limited lifespan. In the process of dismantling buildings that have reached the end of their lifespan, a large amount of waste is discharged, and these construction wastes are mainly disposed of by landfilling in reclaimed land or landfills on the coast.

In the process of dismantling buildings that have reached the end of their lifespan, a large amount of waste is emitted, and these construction wastes are mainly disposed of in reclaimed land or landfills on the coast. Therefore, it is frequently dumped on the roadside, etc., and the dumped construction waste not only spoils the aesthetics but also pollutes the environment.

Therefore, in terms of environment-friendliness and resource recycling, construction waste generated when dismantling construction and building structures is not landfilled but is collected in a predetermined place and then produced as a high-quality resource through an intermediate treatment process. The use of recycled aggregate obtained by crushing and sorting waste concrete is greatly increased due to the dismantling of a large amount of structures according to the activation of reconstruction of urban and local buildings.

Roughly looking at the intermediate treatment process of the construction waste, the collected construction waste is first crushed by a crusher, scrap iron (rebar) is separated and discharged by an electromagnet sorter, and then the soil and foreign substances are separated and discharged by blowing and rotating After the waste wood and various wastes are separated and discharged by the vibrating screen, other foreign substances are removed by high-pressure water jetting, and then, secondary and selectively shredded by the tertiary shredder to form granular materials as recycled aggregates. After finishing, recycled aggregates of various sizes are obtained by the sorter.

For example, reinforced concrete is composed of reinforcing bars inside concrete to reinforce strength, and discarded reinforced concrete is composed of concrete and reinforcing bars. The lump of concrete is recycled as aggregate for compacting the foundation surface.

However, in the prior art, in a series of processes of crushing reinforced concrete to separate concrete and reinforcing bars, and transporting the separated concrete and rebars to a separate place, the separated rebars often get caught in the conveying conveyor belt or damage the conveying conveyor belt. There is a problem with

In addition, in the prior art, there was a problem that a safety accident occurred due to the intervention of the field worker in order to manually release the reinforcing bar jammed by the field worker when the transfer conveyor was jammed. There was a problem in that economic feasibility was greatly reduced due to frequent replacement of parts.

Republic of Korea Patent Publication No. 10-1590960 (2016.02.02. Announcement) Republic of Korea Patent Publication No. 10-0712077 (2007.05.02. Announcement) Republic of Korea Patent Publication No. 10-0177538 (199.03.20. Announcement) Korean Patent Publication No. 10-2013-0051187 (published on May 20, 2013)

Therefore, the present invention for solving the above-mentioned problems of the prior art can easily separate the reinforcing bar reinforced concrete into concrete and reinforcing bar, and during separation, the reinforcing bars are jammed in the conveying conveyor belt by the reinforcing bars or the conveying conveyor The purpose of this is to provide a waste reinforced concrete crushing separation method and waste reinforced concrete crushing separation facility that can prevent or minimize work delay and facility maintenance due to rebar jamming and damage to the conveying conveyor belt by preventing belt damage. have.

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

According to one aspect of the present invention for achieving the above objects and other features of the present invention, as a waste reinforced concrete crushing separation method for separating the reinforcing bars and concrete of the waste reinforced concrete, the waste reinforced concrete is put into the crushing facility Reinforced concrete input step; a crushing separation step of crushing the closed reinforced concrete by the crushing device configured in the crushing facility to separate the concrete and the reinforcement and falling under their own weight; A discharge control step of controlling the reinforcing bar or concrete, which is separated in the crushing separation step and falling by its own weight, from falling directly to the following conveying device and controlling it to fall; and a separated material transfer step of receiving and transferring the falling concrete and reinforcing bars controlled in the discharge control step from the transfer device unit;

In one aspect of the present invention, in the discharge control step, reinforcing bars and concrete falling to the conveying device unit by a rotating plate configured at the end of the passage where rebar and concrete are crushed and separated and whose inclination is adjusted, first collide It may be made to fall to the transfer unit.

In one aspect of the present invention, the discharge control step may be controlled so that the rotation plate has a predetermined inclination according to a set period or according to a detection signal detected by a sensor for sensing a falling object.

In one aspect of the present invention, the discharge control step displays a photographed image photographed by a photographing device capable of photographing the crushing separation process on a display device of a remote control room, and while monitoring the displayed image screen, an administrator controls the rotating plate can be made to control

In one aspect of the present invention, the crushing separation step may be made so that the reinforcing bar and the concrete, which are separated by crushing and fall under their own weight, fall while colliding with each other in a zigzag manner.

In one aspect of the present invention, reinforcing bars and concrete that are crushed and separated by falling under their own weight are configured below the crushing device, and are configured to protrude alternately to opposite wall surfaces forming a passage through which crushed materials are discharged, but at a predetermined inclination angle. It may be achieved by two or more inclined plates inclined downward.

According to another aspect of the present invention, there is provided a waste reinforced concrete crushing separation facility for separating reinforcing bars and concrete of the waste reinforced concrete, comprising: a facility body formed with a passage or space into which reinforced concrete is put; a crushing device unit configured to crush the waste reinforced concrete installed in the facility body and separate it into concrete and reinforcing bars so that the separated concrete and reinforcing bars fall under their own weight; a conveying device configured to receive reinforcing bars and concrete that are crushed and separated by the crushing device and transport to one side; and a discharge control device configured to control the discharge of crushed materials to the conveying device by being installed on the upper portion of the conveying device on the side from which crushed reinforcing bars and concrete crushed materials are discharged; A fracturing separation facility is provided.

In another aspect of the present invention, the crushing device includes a pair of crushers facing each other at a distance, and a driving device for driving at least one of the crushers, and the conveying device includes a conveying conveyor belt. It may be composed of a conveyor conveying device.

In another aspect of the present invention, the crushing device unit is provided on one side of the passage of the facility body and is provided on the other side of the passage of the facility body opposite to the fixed crusher and the fixed crusher having a jaw (jaw) at the bottom, and , a rotary crusher configured to be rotatable toward the fixed crusher with a lower end as an axis, and a driving device configured to pivotally drive an upper end of the rotary crusher, wherein the conveying device is a conveyor conveying device comprising a conveying conveyor belt can be configured.

In another aspect of the present invention, the discharge control device unit, the shredded material is separated from one end of the passage of the facility body, or one end on the extension line of the passage on one side of the rotation plate provided so as to be rotatable as an axis; a rotation driving device for rotationally driving the other end of the rotation plate; and an exhaust control unit for controlling the rotation driving device.

In another aspect of the present invention, the discharge control unit may be configured to control the inclination of the rotation plate by driving the rotation driving device every preset period.

In another aspect of the present invention, the emission control device unit further includes a plurality of magnetic sensors provided in the passage of the facility body, and the emission control unit automatically controls the rotation driving device according to the detection signal of the magnetic sensor. can be done

In another aspect of the present invention, the emission control unit further comprises a photographing device for photographing the crushing process of the waste reinforced concrete, and the discharge control unit displays the photographed image photographed by the photographing apparatus on the display device of the remote control room. And, it may be made to control the rotation driving device according to a control signal of a manager who monitors the displayed image screen.

In another aspect of the present invention, it may further include a collision means configured to fall to the outlet side of the passage after the reinforcing bar and concrete that are crushed and separated by the crushing device unit and fall under their own weight collide in a zigzag manner.

In another aspect of the present invention, the collision means is configured below the crushing device, and is configured to protrude alternately to opposite wall surfaces forming a passage through which crushed and separated reinforcing bars and concrete are discharged, downward at a predetermined inclination angle. It may be made by two or more inclined plates made to be inclined.

According to the crushing separation method and the waste reinforced concrete crushing separation equipment according to the present invention, the following effects are provided.

First, the present invention has the effect of efficiently performing the crushing separation of the waste reinforced concrete.

Second, the present invention has an effect of preventing jamming of the reinforcing bars on the conveying conveyor belt or damage to the conveying conveyor belt due to the reinforcing bars during separation.

Third, the present invention has the effect of improving economic efficiency by preventing or minimizing work delay and facility maintenance due to rebar jamming and damage to the transfer conveyor belt.

Fourth, the present invention can prevent safety accidents by minimizing or preventing the intervention of a site manager through the total automation control of the waste reinforced concrete, and has the effect of remarkably improving the working environment of the worker.

Effects of the present invention are not limited to those mentioned above, and other solutions not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a flowchart showing a crushing separation process of waste reinforced concrete according to the present invention.
Figure 2 is a view schematically showing the configuration of the waste reinforced concrete crushing separation equipment according to the present invention.
Figure 3 is a view showing the operating state of the crushing separation equipment for the closed reinforced concrete according to the present invention, a view showing the crushing operation of the crushing device.
4 is a view showing the operating state of the waste reinforced concrete crushing and separation facility according to the present invention, and is a view showing the state in which the crushed material is discharged.
5 is a photograph of a part of the emission control device and the transfer device included in the waste reinforced concrete crushing and separation facility according to the present invention.

Additional objects, features and advantages of the present invention may be more clearly understood from the following detailed description and accompanying drawings.

Prior to the detailed description of the present invention, the present invention can make various changes and can have various embodiments, and the examples described below and shown in the drawings are not intended to limit the present invention to specific embodiments. No, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

When an element is referred to as being “connected” or “connected” to another element, it is understood that it may be directly connected or connected to the other element, but other elements may exist in between. it should be On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle.

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present specification, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

In addition, terms such as "...unit", "...unit", "...module", etc. described in the specification mean a unit that processes at least one function or operation, which includes hardware or software or hardware and It can be implemented by a combination of software.

In addition, in the description with reference to the accompanying drawings, the same components are given the same reference numerals regardless of the reference numerals, and the overlapping description thereof will be omitted. In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, throughout this specification, when a step is located “on” or “before” another step, this means not only a case in which a step is in a direct time-series relationship with another step, but also a step of mixing after each step and Likewise, the order of two stages includes the same rights as in the case of an indirect time series relationship in which the time series order can be changed.

Hereinafter, a method for separating crushed reinforced concrete and a separation facility for crushing waste reinforced concrete according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, the crushing separation method of the waste reinforced concrete according to the present invention will be described in detail with reference to FIG. 1 . 1 is a flowchart showing a crushing separation process of waste reinforced concrete according to the present invention.

In the description of the present invention below, the term "waste reinforced concrete" means that the reinforcing bars are removed by primary crushing to a predetermined size at the disposal site, but the reinforcing bars remaining inside are transported for secondary crushing separation. Reinforcing bars and concrete separated by crushing are called crushed objects.

The crushing separation method of the waste reinforced concrete according to the present invention is a crushing separation method of the waste reinforced concrete for separating the reinforcing bars existing in the waste reinforced concrete from the concrete, and, as shown in FIG. crushing separation step (S200); emission control step (S300); and a separated material transfer step (S400).

Specifically, the crushing separation method of the waste reinforced concrete according to the present invention is a method of separation of crushed reinforced concrete to separate the reinforcing bars existing in the waste reinforced concrete from the concrete, and as shown in FIG. Waste reinforced concrete input step (S100) to put into the input hopper side; A crushing separation step (S200) of crushing the closed reinforced concrete through the crushing device configured in the crushing facility to separate the concrete and the reinforcing bars and dropping them downward (S200); Discharge control step (S300) of intermittently discharging the reinforcing bars and concrete separated in the crushing separation step (S200) and falling under their own weight onto the conveying conveyor belt of the following conveying device unit; and a separated material transfer step (S400) of receiving and transferring concrete and reinforcing bars that are intermittently controlled in the discharge control step (S300) and fall on a transfer conveyor belt.

The waste reinforced concrete input step (S100) is to put the waste reinforced concrete cut to a predetermined size and transported from the disposal site to the input hopper side of the crushing facility.

Here, the crushing facility consists of a tower-type facility body having a passage through which the inputted waste reinforced concrete can be put into the input hopper on the upper side and fall under its own weight, and a crushing device part is configured in the facility body, and at the bottom It is configured to include a conveying device unit including a conveying conveyor belt for receiving and conveying the separated concrete and reinforcing bars.

Next, in the crushing separation step (S200), the crushed reinforced concrete is crushed using the crushing device configured in the crushing facility to separate the concrete and the reinforcing bars to fall under their own weight.

The crushing device configured in the crushing facility is not particularly limited as long as it is configured to crush the waste reinforced concrete that is configured in the facility body of the crushing facility.

The crusher unit may be configured to include a pair of crushers facing each other with an interval of a predetermined size, and a driving device for driving at least one of the crushers.

Specifically, the crushing device unit includes a fixed crusher (fixed jaw) that is fixedly provided on one side of the passage of the equipment body, and is provided on the other side of the passage of the equipment body opposite to the fixed crusher, and the lower end rotates toward the fixed crusher as an axis. It is configured to include a crusher (rotation jaw), and a driving device to rotate the upper end of the rotation crusher.

In another embodiment, the crushing device may be configured in multiple stages. In other words, the crushing device unit may be composed of a plurality of crushing devices to crush the inputted waste reinforced concrete twice or more. That is, the crushing device unit may include a first crushing device for primary crushing the inputted waste reinforced concrete, and a second crushing device for secondary crushing the primary crushed material that is crushed in the first crushing device. .

In addition, the crushing device unit is provided opposite to each other as a modified example of another embodiment, and a movable crushing roller and a fixed crushing roller are rotatably installed, a hydraulic cylinder for moving the movable crushing roller with respect to the fixed crushing roller, and the hydraulic pressure A first crushing device including a hydraulic pump for driving a piston rod of a cylinder, a movable crushing roller and a fixed crushing roller rotatably installed, and a hydraulic cylinder for moving the movable crushing roller with respect to the fixed crushing roller; and It may be configured to include a second crushing device installed below the first crushing device, including a hydraulic pump for driving the piston rod of the hydraulic cylinder.

The crushing device may be configured at the lower end of the crushing equipment from which the crushed material is discharged, or may be configured in the middle.

Subsequently, the crushing separation step (S200) may further include allowing the crushed material(s) that are separated by crushing by the crushing device unit and fall under their own weight to fall while colliding in a zigzag.

As a method for the crushed material to fall while collided in a zigzag as described above, between the first crushing device and the second crushing device and the second crushing device below the crushing device of the crushing equipment, or between the second crushing device when the crushing device is formed in multiple stages. It may be formed by two or more inclined plates that are configured below the , and are configured to protrude alternately in a zigzag from the wall forming the passage through which the crushed material is discharged, have a predetermined inclination angle and be inclined downward.

In addition, when the plurality of inclined plates are viewed from the upper surface, the respective ends overlap each other, and the plurality of inclined plates are formed to have a sufficient gap through which the crushed material can pass therebetween.

As such, the crushed material falls while collided with the inclined plate in a zigzag manner to shake off the waste concrete attached to the reinforcing bar, thereby making the subsequent process (the process of removing the concrete remaining on the reinforcing bar) easier and reducing the work load. In addition, it is possible to increase the efficiency of the crushing separation process by reducing the degree of accumulation on the conveying conveyor belt or not to be concentrated.

Next, the discharge control step (S300) is made to intermittently discharge the reinforcing bars and concrete separated in the crushing separation step (S200) onto the conveying conveyor belt of the following conveying device unit. In other words, the discharge control step (S300) is controlled to fall by preventing the reinforcing bar or concrete separated by its own weight and falling directly into the following conveying device unit separated in the crushing separation step.

Specifically, the emission control step (S300) is configured at the distal end of the passage through which crushed materials (concrete and reinforcing bars (including reinforcing bars in which some concrete remains)) are separated, and according to a set period or to the detection signal detected by the sensor Accordingly, the inclination is adjusted to open and close the passage or adjust an open degree to prevent the crushed material falling on the conveying conveyor belt of the conveying device from falling directly on the conveying conveyor belt.

The discharge control device unit includes a rotation plate rotatably provided with one end as an axis on one side of the extension line of the passage through which the crushed material is separated, a rotation drive device for rotationally driving the other end of the rotation plate, and the rotation drive device It may be configured to include a discharge control unit to control.

Here, the discharge control unit may be configured to control the degree of opening or closing or the inclination of the rotation plate by driving the rotation driving device every preset period.

In addition, the discharge control unit may further include a plurality of magnetic sensors provided on the passage through which the crushed material is discharged, and the discharge control unit may be configured to automatically control the rotation driving device according to the detection signal of the magnetic sensor.

In addition, the discharge control device unit further comprises a photographing device capable of photographing the crushing and separation of the crushed material, and displays the real-time photographed image photographed by the photographing device on the display device of the remote control room, while monitoring the displayed image screen. may be configured to control the rotation driving device.

And the separated material transport step (S400) is intermittently controlled in the discharge control step (S300) to receive the falling concrete and reinforcing bar on the transport conveyor belt and transport it to a separation place or a subsequent process.

On the other hand, the waste reinforced concrete crushing separation facility according to the present invention will be described in detail with reference to FIGS. 2 to 6 . 2 is a diagram schematically showing the configuration of a waste reinforced concrete crushing separation facility according to the present invention, and FIG. 3 is a view showing the configuration of a crushing device part of an embodiment included in the closed reinforced concrete crushing separation facility according to the present invention. 4 is a photograph of a part of the emission control device and the transfer device included in the waste reinforced concrete crushing and separation facility according to the present invention, and FIG. It is a photograph of some components of the part, and FIG. 6 is a photograph of other partial components of the emission control device included in the waste reinforced concrete crushing and separation facility according to the present invention.

The waste reinforced concrete crushing separation facility according to the present invention is a waste reinforced concrete crushing separation facility for separating the reinforcing bars existing in the waste reinforced concrete from the concrete, and as shown in FIGS. 2 to 6, a large input hopper 110 is provided. having a facility body 100; crushing device unit 200; transfer unit 300; and an emission control device unit 400;

Specifically, the waste reinforced concrete crushing separation facility according to the present invention is a waste reinforced concrete crushing separation facility for separating the reinforcing bars existing in the waste reinforced concrete from concrete, and as shown in FIGS. 2 to 6, the closed reinforcing bars at the upper end The facility body 100 is provided with an input hopper 110 into which the concrete is put, and is formed with a passage 101 or a space 101 through which the waste reinforced concrete is crushed and separated; The crushing device 200 is configured to crush the waste reinforced concrete installed in the facility body 100 and separate it into concrete and reinforcing bars, so that the separated crushed products (concrete and reinforcing bars) move downward by their own weight; a transport device 300 configured to receive the crushed material that is crushed and separated by the crushing device 200 and transport it to one side; and a discharge control device 400 that is installed on the upper portion of the transport device 300 on the side from which the crushed material is discharged and is configured to control the discharge of the crushed material to the conveying device 300 .

In the facility body 100, the waste reinforced concrete that has been cut to a predetermined size and transported at the disposal site of the waste reinforced concrete is input.

The input of the waste reinforced concrete into the input hopper 110 of the facility body 100 may be made to be constantly input through an automatic transfer facility (eg, a conveyor method), but is not limited thereto.

The facility body 100 is a tower-type facility having a passage through which the waste reinforced concrete input according to the embodiment of the crushing device 200 installed therein is put into the input hopper 110 on the upper side and can fall under its own weight. It may consist of a body.

And the lower portion of the outlet of the facility body 100 is configured to include a transfer device unit 300 including a transfer conveyor belt (310).

Next, the crushing device 200 may be configured to include a pair of crushers facing each other with an interval of a predetermined size, and a driving device for driving at least one of the crushers.

Specifically, the crushing device 200 may be configured as a jaw crusher device.

That is, as shown in FIG. 3 , the crushing device 200 is a fixed crusher (fixed jaw) 210 that is fixedly provided on one side of the passage 101 of the facility body 100 and has a jaw at the bottom. , is provided on the other side of the passage of the facility body 100 opposite to the fixed crusher 210, and is rotatable toward the fixed crusher 210 with the lower end as an axis, and the lower end is movable in the opposite direction of the fixed crusher 210 It is configured to include a rotation crusher (rotation jaw) 220 configured to do so, and a driving device 230 configured to rotationally drive the upper end of the rotation crusher 210 .

Also, in another embodiment, the crushing device 200 may be configured in multiple stages. In other words, the crushing device 200 may be composed of a plurality of crushing devices to crush the inputted waste reinforced concrete twice or more. That is, the crushing device 200 includes a first crushing device for primary crushing the inputted waste reinforced concrete, and a second crushing device for secondary crushing the primary crushed material crushed in the first crushing device. can be configured.

In addition, the crushing device 200 is provided opposite to each other as a modified example of another embodiment, and a movable crushing roller and a fixed crushing roller are rotatably installed, and a hydraulic cylinder for moving the movable crushing roller with respect to the fixed crushing roller. and a first crushing device including a hydraulic pump for driving the piston rod of the hydraulic cylinder, and a movable crushing roller and a fixed crushing roller which are rotatably installed, and a hydraulic pressure for moving the movable crushing roller with respect to the fixed crushing roller It may be configured to include a second crushing device installed below the first crushing device, including a cylinder, and a hydraulic pump for driving the piston rod of the hydraulic cylinder.

The crushing device 200 may be configured at the lower end of the passage through which the crushed material is discharged, or may be configured in the middle portion of the passage.

The above-described crushing device unit 200 is not particularly limited as long as it is configured to crush the waste reinforced concrete that is configured in the facility body 100 and is input.

The conveying device 300 is not particularly limited as long as it can be configured to receive the crushed material that is crushed and separated by the crushing device 200 and discharged from the facility body 100 and transported to one side.

The transfer unit 300 is configured in a manner of transferring the transfer conveyor belt 310, and provides the transfer conveyor belt 310 with the crushed material that is intermittently controlled by the discharge control unit 400 to be described in detail below. It is then transferred to a separate place or to a subsequent process.

Next, the emission control device 400 is crushed and separated by the crushing device 200 in the facility body 100 to transport crushed materials (reinforcing bars and concrete) on the conveying conveyor belt 310 of the conveying device 300 It is made to be controlled and discharged. In other words, the discharge control device 400 is controlled to fall by preventing the reinforcing bars and concrete falling under their own weight after being separated from the crushing device 200 from falling directly into the following transport device.

Specifically, the emission control device 400 is configured at the end of the passage 101 of the facility body 100 from which the crushed material (concrete and reinforcing bars (including reinforcing bars in which some concrete remains)) is separated and comes out according to a set cycle. Alternatively, according to the detection signal detected by the sensor, the passage is opened or closed or the opening degree is adjusted to control the crushed material falling to the conveying conveyor belt 101 of the conveying device unit 300 .

The emission control device 400 includes a rotation plate 410 that is rotatably provided with one end of the passage 101 of the facility body 100 from which the shredded material is separated or on one side of the extension line thereof rotatably as an axis, and the It may be configured to include a rotation driving device 420 for rotationally driving the other end of the rotation plate 410 , and a discharge control unit 430 for controlling the rotation driving device 420 .

The rotation driving device 420 may be configured as a hydraulic cylinder having a piston rod.

The discharge control unit 430 may be configured to control the opening/closing degree (opening/closing degree of the passage 101) or the inclination of the rotation plate 410 by driving the rotation driving device 420 every preset period.

In addition, the discharge control unit 400 further includes a plurality of magnetic sensors provided on the passage through which the crushed material is discharged, and the discharge control unit 430 is the rotation driving device 420 according to the detection signal of the magnetic sensor. ) can be automatically controlled.

In addition, the discharge control device unit 400 further includes a photographing device capable of photographing the crushing and separation of the crushed material, and displays the real-time photographed image photographed by the photographing apparatus on the display apparatus of the remote control room, and the image screen to be displayed It may be made so that the manager controls the rotation driving device while monitoring the.

The discharging device 400 collides with the rotating plate 310 before the reinforcing bar separated from the concrete falls on the conveying conveyor belt 310 of the conveying device 300 and then moves to the conveying conveyor belt 310 . For this reason, it is possible to prevent problems such as the separated reinforcing bars falling vertically or close to the vertical to tear or pierce the conveyor belt 310 .

On the other hand, the waste reinforced concrete crushing separation facility according to the present invention is crushed and separated by the crushing device 200 and the crushed material(s) falling under its own weight collides with a zigzag and falls to the outlet of the passage 101. It may further include a collision means configured to do so.

The collision means is configured below the crushing device 200, or between the first crushing device and the second crushing device and below the second crushing device when the crushing device 200 is formed in multiple stages, It may be composed of two or more inclined plates which are formed to protrude alternately in a zigzag form on the wall forming the passage 101 through which the crushed material is discharged and are inclined downward at a predetermined angle.

Here, when the plurality of inclined plates are viewed from the upper surface, the respective ends overlap each other, and the plurality of inclined plates are formed to have a sufficient gap through which the crushed material can pass therebetween.

Such a collision means makes it possible to shake off the waste concrete attached to the reinforcing bars by falling while the crushed material collides with the inclined plate in a zigzag manner, thereby facilitating the subsequent process (the process of removing the concrete remaining on the reinforcing bars), and the work load can be reduced, and the degree of accumulation on the transfer conveyor belt 310 can be alleviated or not concentrated, thereby increasing the efficiency of the crushing separation process.

According to the crushing separation method and the waste reinforced concrete crushing separation facility according to the present invention as described above, crushing and separation of the waste reinforced concrete can be efficiently carried out, and during separation, There is an advantage in that it can prevent jamming or damage to the conveying conveyor belt.

In addition, the present invention can improve economic efficiency by preventing or minimizing work delay and facility maintenance due to rebar jamming and damage to the conveying conveyor belt, and minimizes the intervention of the site manager through total automation control of the waste reinforced concrete It is possible to prevent safety accidents by doing or preventing, and there is an advantage that can significantly improve the working environment of workers.

Although the above-described embodiments have been described with reference to the limited drawings, a person skilled in the art may apply various technical modifications and variations based on the above. For example, the described techniques are performed in an order different from the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

The embodiments described in this specification and the accompanying drawings are merely illustrative of some of the technical ideas included in the present invention. Accordingly, since the embodiments disclosed in the present specification are for explanation rather than limitation of the technical spirit of the present invention, it is obvious that the scope of the technical spirit of the present invention is not limited by these embodiments. Modifications and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical spirit included in the specification and drawings of the present invention should be interpreted as being included in the scope of the present invention.

S100: input phase
S200: crush separation step
S300: Emission Control Stage
S400: Separation transfer step
100: equipment body
101: passage
110: input hopper
200: crushing device unit
210: fixed crusher (fixed jaw)
220: rotation crusher (rotation jaw)
230: drive device
300: transfer device unit
310: transfer conveyor belt
400: emission control device unit
410: rotation plate
420: rotation drive device
430: emission control

Claims (15)

As a crushing separation method of waste reinforced concrete for separating the reinforcement and concrete of the waste reinforced concrete,
A waste reinforced concrete input step of putting the waste reinforced concrete into a crushing facility;
a crushing separation step of crushing the closed reinforced concrete by the crushing device configured in the crushing facility to separate the concrete and the reinforcement and falling under their own weight;
A discharge control step of controlling the reinforcing bar or concrete, which is separated in the crushing separation step and falling by its own weight, from falling directly to the following conveying device and controlling it to fall; and
Separation transport step of receiving and transporting the falling concrete and rebar controlled in the discharge control step from the transport device unit; characterized in that it comprises a
A method of crushing and separating waste reinforced concrete.
According to claim 1,
The emission control step is
The reinforcing bar and concrete falling to the conveying unit by a rotating plate configured at the end of the passage through which the reinforcing bar and concrete are crushed and separated and whose inclination is adjusted, first collide with the reinforcing bar and concrete, characterized in that it is made to fall to the conveying unit
A method of crushing and separating waste reinforced concrete.
3. The method of claim 2,
The emission control step is
Controlling the rotation plate to have a predetermined inclination according to a set period or according to a detection signal detected by a sensor for sensing a falling object
A method of crushing and separating waste reinforced concrete.
4. The method of claim 2 or 3,
In the discharge control step, a photographed image captured by a photographing device capable of photographing the crushing separation process is displayed on a display device of a remote control room, and a manager controls the rotating plate while monitoring the displayed image screen, characterized in that
A method of crushing and separating waste reinforced concrete.
4. The method according to any one of claims 1 to 3,
The crushing separation step
Characterized in that the reinforcing bar and the concrete, which are separated by crushing and fall under their own weight, fall while colliding in a zigzag manner.
A method of crushing and separating waste reinforced concrete.
6. The method of claim 5,
Reinforcing bars and concrete that are crushed separately and fall under their own weight are configured below the crushing device part, and are configured to protrude alternately on opposite walls forming a passage through which crushed materials are discharged. At least two inclined plates inclined downward at a predetermined inclination angle. characterized by
A method of crushing and separating waste reinforced concrete.
As a waste reinforced concrete crushing separation facility for separating the concrete and reinforcing bars of the waste reinforced concrete,
A facility body formed with a passage or space into which reinforced concrete is put;
a crushing device unit configured to crush the waste reinforced concrete installed in the facility body and separate it into concrete and reinforcing bars so that the separated concrete and reinforcing bars fall under their own weight;
a conveying device configured to receive reinforcing bars and concrete that are crushed and separated by the crushing device and transport to one side; and
Discharge control device provided on the upper portion of the transport device on the side from which crushed reinforcing bars and concrete that are separated by crushing are discharged and configured to control the discharge of crushed products to the transport device; characterized in that it comprises a
Abandoned reinforced concrete crushing and separation equipment.
8. The method of claim 7,
The crushing device unit includes a pair of crushers facing at a distance, and a driving device for driving at least one of the crushers,
The conveying device unit, characterized in that the conveyor conveying device including a conveying conveyor belt
Abandoned reinforced concrete crushing and separation equipment.
8. The method of claim 7,
The crushing device unit is provided on the other side of the passage of the facility body opposite to the fixed crusher and the fixed crusher is fixed to one side of the passage of the facility body and has a jaw formed at the lower end, the lower end of the fixed crusher as an axis A rotation crusher configured to be rotatable to the side, and a driving device configured to rotationally drive an upper end of the rotation crusher,
The conveying device unit, characterized in that the conveyor conveying device including a conveying conveyor belt
Abandoned reinforced concrete crushing and separation equipment.
8. The method of claim 7,
The emission control device unit,
a rotation plate provided to be rotatable about one end of the passage from one end of the passage of the facility body from which the crushed material is separated or from one side on the extension of the passage;
a rotation driving device for rotationally driving the other end of the rotation plate; and
Discharge control unit for controlling the rotation drive device; characterized in that it comprises
Abandoned reinforced concrete crushing and separation equipment.
11. The method of claim 10,
The discharge control unit is configured to drive the rotation driving device at a preset period to also control the inclination of the rotation plate.
Abandoned reinforced concrete crushing and separation equipment.
11. The method of claim 10,
The emission control unit further includes a plurality of magnetic sensors provided in the passage of the facility body,
The discharge control unit is characterized in that configured to automatically control the rotation driving device according to the detection signal of the magnetic sensor
Abandoned reinforced concrete crushing and separation equipment.
11. The method of claim 10,
The emission control unit further comprises a photographing device for photographing the crushing process of the waste reinforced concrete,
The discharge control unit displays the photographed image photographed by the photographing device on a display device of a remote control room, and is configured to control the rotation driving device according to a control signal of a manager monitoring the displayed image screen
Abandoned reinforced concrete crushing and separation equipment. 8. The method of claim 7,
Reinforcing bars and concrete, which are crushed and separated by the crushing device and fall under their own weight, collide in a zigzag manner, and then further include a collision means configured to fall to the outlet side of the passage.
Abandoned reinforced concrete crushing and separation equipment.
15. The method of claim 14,
The collision means is
It is configured below the crushing device, and is configured to protrude alternately from the opposite wall surface forming a passage through which crushed and separated reinforcing bars and concrete are discharged, characterized by being formed by two or more inclined plates inclined downward at a predetermined inclination angle
Abandoned reinforced concrete crushing and separation equipment.

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