KR200383357Y1 - Wind Separator for Building Waste - Google Patents

Abstract

The present invention relates to a windscreen sorting device for construction wastes, which is mixed with waste paper, waste vinyl, waste plastics, and other wastes generated during the windscreening process to obtain recycled aggregates by shredding construction wastes. It aims at selecting the foreign matter which has been made by a vibrating body.

To this end, the wind sorting device for construction waste includes a plurality of vibration screens 20 arranged up and down while being inclined in different directions at various angles so that construction wastes are sorted by particle size by vibration, and the plurality of vibration screens 20. An air supply pipe (10) for supplying air to the air supply pipe (10) branched from the air supply pipe (10) to supply air to the lower end of each vibrating screen (20); and It is characterized in that it comprises a; air injection hole 16 is formed through a plurality of air injection pipe 15 so that the air is injected in the oblique direction to the wind sorting of construction waste.

Description

Wind Separator for Building Waste

The present invention relates to a wind sorting device for construction waste, and more particularly, to waste paper generated during the wind sorting process to obtain recycled aggregates by shredding construction waste, and to mix waste such as waste vinyl, waste plastic, The present invention relates to a wind power sorting device for construction wastes that allows the regeneration coarse aggregate and the regenerated fine aggregate containing foreign matters such as construction rubble or wood chips from the vibrating sieve to be sorted by the vibrating sieve.

Figure 1a relates to a construction waste treatment system mainly used in the prior art, the construction waste is a mixed waste containing waste soil, waste paper, waste wood, waste plastics, etc. relatively large volume of waste plastic from construction waste, waste plastic Etc. are selected in the process of manpower selection (111), and the construction residual soil is selected through the first jaw crusher (112) and the vibrating body selection (113).

In addition, through the second jaw crusher 114 or various crushers and wind screening 115, the relatively small volume of waste vinyl, waste plastic or waste styrofoam, etc. are selected, and the crusher 116 and the vibrating screen 117 are selected. It is made to be sorted into recycled coarse aggregate and foreign matter which is finally recycled. If the vinyl, plastic, wood, and styrofoam can be selected separately from the construction wastes, it can be recycled, but the mixed wastes are mixed and mixed with each other. Most of them are incinerated because they are screened by state.

Incineration has a problem of high processing cost, air pollution, and secondary waste such as incineration ash. Sometimes, landfill in the final treatment plant contaminates soil, reduces the capacity of the final treatment plant, and has an uneconomic problem.

In addition, as shown in Figure 1a is the construction residue is selected in the screening process using a vibrating sieve after the crushing by the first jaw crusher, waste soil and various mixed wastes are mixed and used only for landfill construction or landscaping The treatment of mixed waste, which is not used for land use, is a big problem in the construction waste industry.

Selected recycled aggregates include foreign substances such as wood chips, and the like. Such a construction waste treatment system for sorting such recycled aggregates and foreign substances includes a roll crusher 122 and a recycled aggregate and foreign substances 121 as shown in FIG. Grinding by the sand mill 123, to sort the float floating in the water through the water tank 124, the fine aggregate 125 through the filter press 126 to the regenerated fine aggregate and foreign matter 127 and foreign matter cake 128 To be screened.

However, even if foreign matter such as wood chips contained in recycled aggregates are sorted by wind screening or underwater floating screening, they are not screened when the wood chips etc. are wet, which degrades the quality of recycled aggregates. Not only that, but also recycled aggregate crushed by the crusher had a problem of poor particle size distribution.

The present invention has been devised to solve the above problems, but it is possible to recycle the waste soil and various mixed waste and recycled aggregates selected in the screening process using jaw crusher and vibrating body, but the construction waste is mixed with soil and mixed waste Soils are recycled for construction purposes, and mixed wastes are sorted again by wind type, and foreign matters contained in recycled aggregates are sorted by wind size, so that recycled aggregates can obtain desired particle size through synthesis and mixing by particle size. The object is to provide a device that can be sorted and recycled by type.

Residual soil treatment apparatus for construction waste according to the present invention for achieving the above object, a plurality of vibration screen 20 arranged up and down while inclined in different directions at various angles so that the construction waste is sorted by particle size by vibration; An air supply pipe 10 for supplying air to the plurality of vibrating screens 20, and horizontally branched from the air supply pipe 10 to supply air to the lower end of each vibrating screen 20. Air injection pipe 15; And, the air is injected in the inclined direction to allow the wind sorting of the construction waste, the air injection hole 16 formed through a plurality of air injection pipe 15; characterized in that it comprises a .

In addition, in the present invention, the construction waste, characterized in that the air control valve 11 is formed in the connection portion of the air supply pipe 10 and the air injection pipe 15 to adjust the pressure and amount of air according to the weight of the construction waste. Provided is a residual soil treatment apparatus.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Fig. 2 to 4, the remnant soil treatment apparatus of the construction waste according to the present invention, such as waste paper, waste vinyl, waste plastic generated during the wind screening process during the process to obtain the recycled aggregates by shredding the construction waste The mixed waste is made to be sorted by the vibrating body.

2 is a configuration diagram of a remnant soil treatment apparatus of construction wastes according to the present invention, Figure 3 is a process diagram of a remnant soil treatment method of construction wastes according to the present invention, Figure 4 is another of the remnant treatment method of construction wastes according to the present invention It is a process chart.

Therefore, the plurality of vibration screens 20 are arranged in a vertical direction to be sorted according to the size of the construction waste, so that the construction waste is sorted by the particle size, it is formed to be inclined downward and vibration on one side of the vibration screen 20 Vibrating vibration motor (not shown) is in contact with each other, and the inclination direction of the vertically arranged vibrating screen 20 so as to be sorted at the same time and sorted according to the weight of the construction waste is arranged vertically.

A basic embodiment in which the inclination directions of the vibrating screen 20 are vertically arranged differently will be described with reference to FIG. 2, and the vibrating screen 21 is inclined at an angle of a in one direction A, and the vibrating screen 22 is illustrated. ) Is inclined at an angle of b to the left orthogonal direction (B) on the left side with reference to FIG. 2, and the vibrating screen (23) is the opposite direction based on the vibrating screen (22) and FIG. C is inclined at an angle of c, and the vibrating screen 24 is inclined at an angle of d in the perpendicular direction D on the left side with respect to the vibrating screen 23 and FIG. 2.

As described above, the vibrating screens 21, 22, 23, and 24 face different directions (A, B, C, and D) and are inclined at the same time. The air supply pipe 10 is vertically arranged to be dropped into the air supply pipe 10 is located on one side of the vibrating screen 21 arranged up and down and the injection air to the air injection pipe 15 located at the lower end of each vibrating screen 22 Will be supplied.

In the embodiment of FIG. 2, the air supply pipe 10, which is located at the lower end of the inclined direction of the vibrating screen 22, is partially bent and positioned at the lower end of the inclined direction of the lower vibrating screen 23, and the inclined of the vibrating screen 24 is inclined. The air supply pipe 10 located in the upper direction is partially bent and installed at an inclined lower end portion of the lower vibration screen 24.

In the embodiment of Figure 2, the four parts of the air supply pipe 10 is bent and positioned, but the four or more air supply pipes are bent and arranged vertically up and down, it is also possible to arrange the air injection pipe accordingly.

As shown in FIG. 2, the air supply pipe 10 and the air injection pipe 15 may be connected to one air supply pipe 10 so as to supply air to a plurality of vibration screens, and inject air to each vibration screen. Air spray pipes 15 corresponding to the vibrating screens are formed so as to be connected to one air supply pipe 10, but this is only one embodiment for explaining the air supply pipe 10 if it can achieve the purpose of sorting for wind power. Of course, the number of air spray pipes 15 and) is not limited.

In addition, a plurality of air injection holes 16 are formed in the air injection pipe 15 so that air is injected in an inclined direction so that wind power can be sorted out of construction waste, and one side of the air supply pipe 10 has air in accordance with the weight of construction waste. The air control valve 11 is formed on the connection portion of the air injection pipe and the air supply pipe so as to adjust the pressure and the amount of, it is preferable that the air supply pipe 10 is formed on the side. The amount of air injected is adjusted according to the opening and closing degree of the valve.

In addition, air injection pipes formed with a plurality of air injection holes are formed on one side of the air supply pipe below the lowermost vibrating screen 24 so as to wind- sort the construction waste finally vibrated through a plurality of vibration screens.

Construction wastes such as dry crushed waste styrofoam, waste wood, waste vinyl, waste paper, and waste plastic have different specific gravity, so that the distances driven by wind are different. In other words, Styrofoam is blown away by the wind, and the flywood of the waste wood is relatively less. According to the particle size, the construction wastes selected from each vibrating screen are collected and fly in different directions, and the same kind of construction wastes can be collected by flying the same kinds of construction wastes according to specific gravity.

Looking at the action of the after-treatment device of the construction waste according to the present invention made of a configuration as described above are as follows.

When the mixed waste is dropped on the upper part of the vibrating screen 21, the vibrating motor allows the sorting by the particle size by the vibrating screen 21 and the air of the air injection pipe 15 supplied with the air from the air supply pipe 10. The sand holes 16 wind-screen the construction wastes such as waste vinyl, waste plastic, waste wood, etc. in the inclined directions (A, B, C, D) of the vibration screen according to the specific gravity of the mixed waste into the wind.

In addition, when mixed waste is dropped from the upper portion of the vibrating screens 21, 22, and 23 to the lower portion of the vibrating screens 22, 23, and 24, the vibrating motor allows the screen to be sorted by the particle size and the vibrating screens 22, 23. The waste is sorted in the inclined directions (B, C, D) of the vibration screen according to the specific gravity of the mixed waste into the wind by the air spray hole 16 of the air spray pipe 15 formed at the lower end of the 24.

And it is possible to adjust the amount and pressure of the air supplied to the air injection pipe 15 according to the type of mixed waste to be sorted by a plurality of air control valve 11 formed in the connection portion of the air supply pipe 10 and the air injection pipe, By adjusting the air control valve 11, it is also possible to adjust the horizontal fall distance of the falling waste, and also by changing the vertical length between the vibrating screen and the vibration screen of the air supply pipe 10 by the horizontal drop of the waste according to the air pressure You can also adjust the distance.

On the other hand, the first embodiment of the method for treating the residue of the construction waste according to the present invention, as shown in Figure 3, first to select the relatively large volume of waste vinyl, waste plastic, etc. in the process of manpower selection 111 Through the first jaw crusher 112 and the sieve screening (113), the construction residues are selected.

In addition, through the second jaw crusher 114 and the wind screening 115, the relatively small volume of waste vinyl, waste plastics, etc. are sorted, and the recycled is finally recycled by the cone crusher 116 and the vibrating screening 117. Aggregates will be screened. Here, the arrangement of the jaw crusher, the cone crusher or the vibrating body can be carried out with various design changes as necessary.

Mixed wastes, such as waste vinyl and waste plastic, which are relatively small in volume, are crushed again (211), dried or dehydrated (212) and subjected to wind screening using the specific gravity difference of the present invention (213) to classify the wastes by type and waste again. It will be recycled by type. 3, the selection of drying or dehydration is sufficient if it is a dryer or a dehydrator, which is generally applied in the related art, and thus detailed description thereof will be omitted. Of course, the dryer or dehydrator may vary depending on the type of waste and the content of the residual soil.

In addition, according to the second embodiment of the method of treating the waste of construction waste, as shown in FIG. 4, first, the construction residue is crushed 311 and dried or dewatered 312 to perform wind screening 313 using specific gravity. Here, the wind screening is useful soil 314 filtered by the vibrating screen 20 by using the above-described remnant soil treatment system of construction wastes are separately selected according to the particle size, and mixed wastes according to the weight of construction wastes by the injection of air. 321).

Then, the selected useful soil 314 is separated into good soil 316 and poor soil 317 through a test 315, and the separated poor soil is solidified materials such as recycled aggregate, cement, recycled aggregate fine powder, and primer ash. 319 and the mixture 318 is utilized as the recycled soil (320).

In addition, the selected mixed waste 321 is crushed again 322 and dried or dehydrated 323 to wind sorting 324 using specific gravity by the residing soil treatment apparatus of the present invention to classify the waste 325 by type and again. It will be recycled by type of waste.

The above method of treating the residual soil of construction waste can be applied not only to construction waste but also to the treatment of waste soil and residue.

On the other hand, the recycled aggregates are screened with the foreign matter and the recycled aggregates screening method as shown in Figure 5 so as to inject the air to the lower end of the plurality of vibrating screen 20 arranged inclined in different directions, respectively. Regenerated aggregates and foreign matters are separated by wind from the remnant processing device of the present invention, which is injected from the air injection pipe 15 formed horizontally by branching from the air supply pipe 10 and sorts the wind by the specific gravity difference according to the direction. 412).

In addition, the selected aggregate recycled aggregate 413 is particle size synthesis, mixing 414 is recycled (415), the selected foreign matter 423 is crushed 424 and dehydration 425, the foreign matter that has been crushed and dehydrated By using the residual soil treatment apparatus of the present invention is the wind screening (426) by the specific gravity difference, the waste (427) for each type is separated and recycled.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms or words used in the present specification and claims are defined in the technical spirit of the present invention based on the principle that the inventor can appropriately define the concept of the term in order to best describe his or her own design. It must be interpreted to mean meanings and concepts.

As described above and described with reference to a preferred embodiment for illustrating the principle of the present invention, the present invention is not limited to the configuration and operation as shown and described as such. Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. Therefore, all such appropriate changes and modifications and equivalents should be considered to be within the scope of the present invention.

As described above, the remnant soil treatment apparatus of the construction waste of the present invention is made by injecting air for wind power onto the vibrating screen while inclining the vibrating screens in different directions, and the waste soil being selected in the screening process using a jaw crusher and a vibrating body. Various mixed wastes can be recycled, but construction wastes are sorted into soil and mixed wastes, and soils are recycled for construction purposes, mixed wastes are sorted by type again, and foreign substances contained in recycled aggregates are sorted by wind for regeneration. Aggregates can achieve the desired particle size through synthesis and mixing by particle size, and foreign matter can be sorted and recycled by type.

Therefore, treatment costs can be reduced, environmental pollution can be prevented, and landfilling in the final treatment plant can prevent soil contamination and provide economic effects.

Figure 1a is a state diagram of the construction waste treatment system for producing conventional coarse aggregate aggregate.

Figure 1b is a state diagram of the configuration of the residual land treatment system of construction waste for the production of conventional recycled fine aggregate.

Figure 2 is a state diagram of a windscreen selection device for construction waste according to the present invention.

Figure 3 is a process diagram of the wind sorting method of construction waste according to the present invention.

Figure 4 is another process diagram of the wind sorting method of construction waste according to the present invention.

Explanation of symbols on the main parts of the drawings

10: air supply pipe 11: air control valve

15: air sprayer 16: air sprayer

20,21,22,23,24: vibrating screen

Claims (2)

A plurality of vibration screens 20 arranged up and down while being inclined by varying directions at various angles so that construction waste is sorted by particle size by vibration; and an air supply pipe 10 for supplying air to the plurality of vibration screens 20. And; an air injection pipe 15 branched from the air supply pipe 10 so as to supply air to the lower end of each vibrating screen 20, and horizontally formed; And a plurality of air injection holes (16) formed through the air injection pipe (15) to enable the wind selection of the wind turbine sorting device, characterized in that it comprises a. The method of claim 1, An air control valve 11 is formed at the connection portion between the air supply pipe 10 and the air injection pipe 15 so as to control the air pressure and the amount according to the weight of the construction waste. .