KR100514605B1 - Apparatus for sorting sand from reclaimed stones - Google Patents

Abstract

The present invention relates to a soil separation device for construction waste and landfill waste, the outer frame; Main vibrating means provided on the outer frame to vibrate the outer frame; A soil separation plate mounted in the outer frame with a plurality of soil separation holes for sorting the soil from the construction waste; And a relative vibration means provided between the outer frame and the soil separation plate to relatively vibrate the soil separation plate with respect to the outer frame.

This makes it possible to more efficiently sort out only the soil having a relatively fine grain size among construction wastes.

Description

Earth and sand sorting device for construction waste and landfill waste {Apparatus for sorting sand from reclaimed stones}

The present invention relates to a land and waste sorting device for construction wastes and landfill waste, and more particularly, for construction wastes and landfill wastes, which allows for more efficient sorting of only soil having a relatively fine grain size among construction wastes. It is related with the earth and sand sorting apparatus.

With the redevelopment of the city, the dismantling of buildings and the repair of roads due to deterioration and deterioration of the buildings have increased, resulting in a large amount of waste such as waste concrete, waste cement or construction site waste.

Although such construction wastes have to be disposed of through an appropriate treatment system, they are caused by improper disposal such as illegal landfilling and illegal dumping, causing environmental pollution and various social problems.

Therefore, it is important to separate and dispose of unnecessary waste and recycle the remaining resources among large amounts of construction waste, which is important not only in terms of resource and energy saving but also in terms of environmental protection.

However, to date, no separate alternatives or structural systems for treating construction waste have been well established, so that construction wastes are not recycled despite the fact that they can be recycled to road substrates, subsidiary base materials, concrete aggregates and good urban foundations. I cannot afford it.

In general, the construction waste recycling and treatment system consists of a system for crushing construction waste, removing soil, metals, suspended solids and other wastes, and separating only useful recycled aggregates by required particle size. Such a system will be described as a method and apparatus for crushing construction waste, a method and apparatus for separating recycled aggregates by required particle size, and a method and apparatus for separating and removing garbage.

Methods and apparatuses for separating waste from construction wastes include using buoyancy of water and wind power depending on the weight difference between recycled aggregates and waste. The device using the buoyancy of water has the advantage that the recycled aggregate is clean and dust does not occur by washing with water, but it is difficult to manage the waste water and it is difficult to manage due to high maro rate and high risk of damage if water is on the machine. There was a problem that can not work frozen. On the other hand, the device using the wind has the advantage that there is no burden of waste water treatment, but there is a problem in that a scattering facility to remove the scattering dust generated by scattering dust.

A device for separating waste from recycled aggregates that can prevent or suppress scattering dust is disclosed in Korean Utility Model Registration Utility Model Registration No. 20-0204210.

In the disclosed technology, the collected construction waste is crushed to a predetermined size using a crusher, and then supplied to a vibration smoothing device to spread the crushed aggregate evenly. Then, the blower injects air at a constant speed from the lower side of the vibration smoothing device to separate the waste light (including paper) than the crushed aggregate, and to separate the aggregates by their size by a separate screen.

By the way, this type of device may be advantageous to separate the recycled aggregates and wastes only to obtain the required aggregates, but since the conventional screen sorting method is adopted, only soils having a diameter of about 10 mm or less among aggregates having different particle sizes are used. It is not easy to sort separately.

Accordingly, the present applicant has come to propose a device that can be recycled for agricultural soils or other uses by more efficiently sorting only the soil having a relatively fine particle size among construction wastes.

It is an object of the present invention to provide an earth and sand sorting device for construction wastes and landfill wastes, which is capable of more efficiently sorting only soils having a relatively fine particle size among construction wastes.

Another object of the present invention is to provide an earth and sand sorting device for construction wastes and landfill wastes, so that the time for sorting soils for construction wastes is shortened and the amount of soils that can be sorted per unit time can be improved. .

The object is an outer frame; Main vibrating means provided on the outer frame to vibrate the outer frame; A soil separation plate mounted in the outer frame with a plurality of soil separation holes for sorting the soil from the construction waste; And a relative vibration means provided between the outer frame and the soil separation plate to vibrate the soil separation plate relative to the outer frame.

Here, the inner frame further includes an inner frame spaced apart a predetermined distance within the outer frame, wherein the soil separation plate is disposed on the bottom surface of the inner frame.

The relative vibration means includes a plurality of outer brackets formed on an inner surface of the outer frame; A plurality of inner brackets formed on a bottom surface of the soil separation plate so as to correspond to the outer brackets; Both ends include relative vibration springs fixed to the inner and outer brackets, respectively.

The relative vibration means may also be arranged at least a square sphere along the outer periphery of the soil separation plate.

The earth and sand selection hole gradually enlarges the cross-sectional diameter from the upper surface opening to the lower surface opening, thereby preventing the soil from pinching.

It may further include a plurality of anti-vibration rubber is mounted on the inner surface of the outer frame to reduce the noise caused by the relative vibration of the soil screen.

The outer frame may be disposed to be inclined at a predetermined inclination angle, and the soil separation plate may be arranged at least once in a layered manner inside the outer frame.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated with reference to drawings. Prior to the description, the construction wastes described below are defined as terms that collectively refer to construction waste and landfill waste.

1 is a side view of the earth and sand sorting device for construction waste and landfill waste according to the invention, Figure 2 is a front view of Figure 1, Figure 3 is a plan view of Figure 1, Figures 4a and 4b are respectively shown in Figure 1 A schematic front and cut back perspective view of the soil collection device for construction waste and landfill waste.

1 and 2, the earth and sand sorting device for construction waste and landfill waste according to the present invention, the outer frame 20 provided on the upper portion of the support 10, and the outer frame 20 is provided on the outer frame ( The main vibrating means 30 for vibrating 20, the inner frame 40 accommodated at a predetermined distance apart from the inside of the outer frame 20, and disposed on the bottom of the inner frame 40 to sort the soil from the construction waste It includes a soil separation plate (50).

The support unit 10 is a frame for installing the earth and sand sorting device for construction waste according to the present invention, and is formed by mutually arranging an H beam or an I beam. A chute portion S (see FIG. 2) may be provided between the support portions 10 to collect and collect soil collected from the soil separation plate 50.

The outer frame is located at the top of the support 10, it is disposed with a predetermined angle of inclination. By placing the outer frame inclined, the soil separation plate 50 located therein also forms the same slope as the outer frame 20. Therefore, aggregates that are not selected as the soil is moved along the upper surface of the soil separation plate 50 and collected separately.

The outer frame 20 has a rectangular cylinder shape with upper and lower portions opened (see FIGS. 4A and 4B). The outer frame 20 is provided with a main vibrating means 30 for vibrating the outer frame 20.

The main vibrating means 30 is composed of a lifting drive unit 31 for driving the outer frame 20 up and down, and the main vibration spring 33 provided on the outer side of the outer frame 20. The main vibration spring 33 is disposed at both ends of the outer frame 20 and the support 10, respectively. Separate brackets are provided for the installation of the main vibration spring 33, which will be referred to only with reference to the drawings.

The lifting drive unit 31 includes a drive motor 31a, a drive pulley 31b provided on the drive shaft of the drive motor 31a, a driven pulley 31c positioned along the transverse direction of the outer frame 20, and a drive. And a V-belt 31d for interconnecting the driven pulleys 31b and 31c, and a cam (not shown) connected to the driven pulley 31c and positioned at the bottom of the outer frame 20.

Accordingly, when the driving motor 31a is operated and the drive and driven pulleys 31b and 31c are rotated by the chain 31d, the cam linked to the driven pulley 31c is rotated, and the outer frame 20 is rotated by a predetermined rule. Will be driven up and down. At this time, since the main vibration spring 33 is provided on the outside of the outer frame 20, the vibration of the outer frame 20 driven up and down by the main vibration spring 33 can be doubled.

The inner frame 40 has the same shape as the outer frame 20 and is accommodated inside the outer frame 20. On the bottom of the inner frame 40, a soil separation plate 50 for separating the soil from the construction waste is located (see Figs. 4a and 4b). On the other hand, the inner surface of the outer frame 20 is provided with a plurality of anti-vibration rubber 22 to reduce the noise caused by the relative vibration of the inner frame 40 and the soil separation plate 50 (see Fig. 2). The number of dustproof rubbers 22 may be appropriately employed depending on the size of the outer frame 20 and the inner frame 40.

As illustrated in FIG. 3, a plurality of soil separation holes 50a are formed on the plate surface of the soil separation plate 50 for sorting soil from construction waste. As shown in the enlarged view of FIG. 3, the earth and sand selection hole 50a has a form in which its cross-sectional diameter gradually expands from the upper surface opening h1 to the lower surface opening h2. Therefore, seizure of soil in the sediment sorting hole 50a is prevented. The upper surface opening h1 may limit the particles of the soil to be sorted by about 10 mm by having a diameter of at least about 10 mm.

On the other hand, because the outer frame 20 is vibrated by the main vibrating means 30 as described above, the soil separation plate 50 located in the outer frame 20 may also be able to pick up the earth and sand while vibrating with the outer frame 20. .

However, in the present invention, by providing a separate relative vibrating means 60 between the outer frame 20 and the soil screening plate 50 so that the soil screening plate 50 can vibrate relative to the outer frame 20 relatively. Doing. Therefore, because the random vibration due to the main vibration and relative vibration formed in the soil screening plate 50 will be able to increase the efficiency of the soil screening.

As shown in FIGS. 2 and 4A, the relative vibration means 60 includes a plurality of outer brackets 61 formed on the inner surface of the outer frame 20 and a soil separation plate to correspond to the outer brackets 61. 50 includes a plurality of inner brackets 62 formed at the bottom of the bottom surface, and relative vibration springs 63 fixed at both ends of the inner and outer brackets 62 and 61, respectively.

As shown in FIGS. 2 and 3, the relative vibrating means 60 has at least quadrangular spheres arranged along the periphery of the soil separation plate 50 to vibrate the soil separation plate 50 with respect to the outer frame 20. have. At this time, if the elastic modulus of the relative vibration springs 63 are different from each other, the efficiency of relative vibration may be higher.

Referring to the operation of the earth and sand sorting device for construction waste having such a configuration as follows.

First, the construction wastes collected at various construction sites are collected in a hopper of a certain waste system, and then crushed or screened to make the particles relatively small in size. Of course, also at this time, the waste can be separated separately.

Reclaimed aggregates that are primarily screened fall to the soil separation plate 50 located in the outer frame 20 through a separate conveyor or the like. At this time, the main vibration means 30 is operated. That is, when the driving motor 31a is operated and the driving and driven pulleys 31b and 31c are rotated by the V-belt 31d, the cam connected to the driven pulley 31c is rotated and the outer frame 20) is driven up and down. Since the main vibration spring 33 is provided on the outside of the outer frame 20, the vibration of the outer frame 20 that is driven up and down may be doubled by the main vibration spring 33.

When the outer frame 20 starts to vibrate by the main vibrating means 30, the inner frame 40 and the soil separation plate 50, which are located therein, are also separated from the outer frame 20 by the relative vibrating means 60. Separately vibrates. That is, compared to the vibration formed in the outer frame 20, the vibration formed in the soil separation plate 50 is relatively strong or randomly formed.

Therefore, the firstly regenerated aggregate dropped on the sediment sorting plate 50 is selected by the particle size in the sediment sorting plate 50 which randomly vibrates by combining the main vibration and the relative vibration, and the sediment sorting hole 50a. Soil of relatively smaller particles fall through the sediment screening hole (50a) to be selected as the soil, the aggregate of the remaining large particles are moved along the top surface of the soil screening plate (50) and collected separately.

As such, when using the earth and sand sorting device for construction waste of the present invention, there is an advantage that it is possible to more efficiently sort out only the soil having a relatively fine particle size among the construction waste.

In addition, because the random vibration is given to the soil screening plate 50, the sedimentation time of the earth and sand for the construction waste is shortened, and the amount of soil that can be screened per unit time increases, thereby improving work efficiency and productivity.

Although the present invention has been described in detail with reference to the drawings, the present invention is not limited thereto.

In the above-described embodiment, one soil separation plate 50 is disposed in the outer frame 20, but if necessary, the soil separation plate 50 may be arranged in two or more layers.

Although the description is omitted in the above-described embodiment, in the present invention, the earth and sand using the secondary vibration of the soil separation plate 50 absorbing the vibration (primary vibration) and the primary vibration of the outer frame 20 Since the injected aggregate is selected to the soil while generating a spiral phenomenon (dolce phenomenon) in the soil screening plate (50). Therefore, it is possible to sort out the soil more effectively without clogging compared to the prior art, which selected the soil only by the up and down vibration.

In addition, as described above, the soil is selected by using the primary vibration of the outer frame 20 and the secondary vibration of the soil separation plate 50 that absorbed the vibration, so that the soil of good quality of a predetermined size (10 mm or less) is selected. Can be screened. Therefore, in the case of the present invention compared to the prior art that was aggregated more than 30 mm and rubbish together and used only for landfill, it is possible to sort out high quality soil. Therefore, the selected earth and sand has a remarkable effect that it can be used sufficiently as landfills and cover material as well as settlement complex.

As described above, according to the present invention, among the construction wastes, in particular, only the soil having a relatively fine particle size can be selected more efficiently.

In addition, the time for sorting soil for construction waste is shortened, and the amount of soil to be sorted per unit time is increased, thereby improving work efficiency and productivity.

1 is a side view of the earth and sand sorting device for construction waste and landfill waste according to the present invention,

2 is a front view of FIG. 1,

3 is a plan view of FIG.

4A and 4B are schematic front and cut back perspective views of the earth and sand sorting device for the construction waste and landfill waste, respectively, shown in FIG. 1;

* Explanation of symbols for main parts of the drawings

10: support 20: outer frame

22: anti-vibration rubber 30: main vibration means

31: lifting drive 33: main vibration spring

40: internal frame 50: earth and sand separator

50a: earth and sand selection 60: relative vibration means

61: outer bracket 62: inner bracket

63: relative vibration spring

Claims (7)

A support consisting of H beams or I beams intersected with each other; An outer frame disposed at an upper portion of the support portion with a predetermined inclination angle; A main vibration means for vibrating the outer frame with respect to the support part having an elevating driving part for driving the outer frame up and down and a main vibration spring provided outside the outer frame; An inner frame spaced apart from the inside of the outer frame by a predetermined distance and arranged in at least one layer; A soil separation plate disposed on the bottom of the inner frame and having a plurality of soil separation holes for sorting the soil from the construction waste; At least a rectangular sphere is disposed between the outer frame and the soil separation plate along the periphery of the soil separation plate, and includes relative vibration means for vibrating the soil separation plate relative to the outer frame. The relative vibration means includes a plurality of outer brackets formed on an inner surface of the outer frame; A plurality of inner brackets formed on a bottom surface of the soil separation plate so as to correspond to the outer brackets; Opposite vibration springs fixed at both ends of the inner and outer brackets, The soil separation hole is gradually enlarged in cross-sectional diameter from the upper surface opening to the lower surface opening, On the inner surface of the outer frame is characterized in that a plurality of anti-vibration rubber is installed to reduce the noise caused by the relative vibration of the soil separation plate, earth and sand sorting device for construction waste. delete delete delete delete delete delete