KR101194661B1 - Aggregate crushing equipment - Google Patents

Abstract

PURPOSE: An aggregate grinding apparatus is provided to molt unnecessary foreign materials and sticking mortar from the surface of an aggregate by grinding the surface of the aggregate. CONSTITUTION: An aggregate is provided to a hopper(10). A transportation housing unit(20) transfers the provided aggregate. A grinding housing unit(30) rubs the transported aggregates together. A shaft(40) is rotatably installed in the transportation housing unit and the grinding housing unit. A screw(41) and a grinding blade are installed in the shaft. A gate is installed in an outlet(32) of the grinding housing unit.

Description

Aggregate crushing equipment

The present invention relates to a grinding device for producing aggregate (hereinafter referred to as "circulating aggregate") by crushing waste concrete, blocks, bricks and stone from construction waste or quarries, and more specifically, a cone crusher (cone crusher) In the crushing device such as impact crusher or impact crusher, finely crushed circulating aggregate or crushed aggregate is concentrated by a constant pressure while forcibly transferring to the screw, so that the aggregate and aggregate are frictionally worn, Remove foreign substances such as stone powder and fine powder cement paste from the surface, improve the granularity and surface particle size of the crushed aggregate to eliminate segregation, and especially in the case of producing recycled aggregate by crushing the waste concrete mass Effective peeling of cement paste and mortar adhered to produce high-quality recycled aggregate such as natural aggregate It relates to a device for the grinding aggregate.

In general, the collection of natural aggregates is a big problem because it causes the destruction of the natural environment and the depletion of resources.In addition, the aggregate production of crushing and recycling crushed stone or waste concrete has a large amount of fine particles of mortar and foreign substances such as cement paste. In addition, the production of sand and aggregates is not only unreasonable, and because the aggregates do not produce high-quality aggregates, the quality of the aggregates is degraded, and the production of aggregates is absolutely insufficient.

The recycled aggregates produced by recycling the recycled concrete among the construction wastes are not evenly distributed according to the standard, while the waste cement contains large amounts of garbage and foreign substances such as mortar, earth and sand fines, vinyl chips, and wood chips. Is used as a concrete material, the strength is low and the absorption rate is high, the quality of the aggregate is poor.

Recently, various techniques for producing aggregates from Masatosa, waste concrete, and stone meal have been proposed in order to increase the quality and production of aggregates. However, most of these aggregate raw materials contain a large amount of water and have irregular particle sizes. In addition, since the foreign particles such as fine powder and dust and fine powder is mixed in a large amount, the screening process of the aggregate is very difficult, and the overall production process is not performed efficiently.

Meanwhile, stone powder or waste concrete pulverized using a jaw crusher, a cone crusher, an impact crusher, etc. contains a large amount of various foreign substances. Or by separating the wind from the conveyor belt while visually checking the foreign matter, or using a water tank equipped with an aeration tank to float light weight foreign matter light weight, and then using a scraper (scraper) to apply the method.

Therefore, there is an advantage of minimizing the generation of scattering dust in the sorting process of the aggregate, but the water in the aeration tank should be replaced periodically, and a separate water treatment facility is required to treat this, and thus wastes along with the maintenance and the like. There was a problem that the processing cost is excessive.

In particular, when producing recycled aggregates by crushing waste concrete generated through dismantling of buildings or civil engineering structures, the mortar attached to the crushed aggregates not only degrades the quality of the recycled aggregates, but also requires difficult processes and personnel to remove them. And because of the need for equipment, the cost of waste disposal and the supply of recycled aggregates are causing the increase.

As a result, most low-quality recycled aggregates are mixed with membrane concrete, filler concrete, and non-structural concrete in fields that do not require high strength, and are not used as high-quality aggregates for bridges, retaining walls, buildings, and tunnels. I can't.

The present invention has been made in order to improve the problems according to the apparatus for producing recycled aggregates produced by crushing the waste concrete conventionally, to remove foreign matters such as fine powder and fine powder of unnecessary fine particles as aggregates, Finely circulated aggregates are shredded by crushers such as concrete crushers or impact crushers to improve granularity and surface particle size, to eliminate segregation, and to peel off the mortar attached to the aggregate surface to produce high-quality recycled aggregates such as natural aggregates. It is a main object of the present invention to provide an aggregate grinding device that denses at a constant pressure while transferring the screw to a screw, thereby improving the shape and surface particle size and effectively peeling the attached mortar by grinding the aggregate surface.

The present invention is to realize the desired object as described above,

A hopper to which aggregate is supplied; A transport housing installed at a lower portion of the hopper and configured to transfer aggregate supplied to the hopper in one direction; A grinding housing connected to the transfer housing, the aggregate conveyed from the transfer housing is dense and frictionally worn while the discharge port is realized; A shaft rotatably installed in the transfer housing and the grinding housing, wherein a screw is installed to be positioned inside the transfer housing and a grinding blade is installed to be positioned inside the grinding housing; And a gate installed at an outlet of the grinding housing.

According to an embodiment of the present invention, in a crusher such as a cone crusher or an impact crusher (crusher) such as finely crushed or crushed to a certain size while conveying the circulating aggregate crushed to a certain size aggregate aggregates at a certain pressure By friction wear, the surface of the aggregate is ground to remove foreign particles such as fine powder and fine powder, and attached mortar from the surface, and to eliminate the segregation by improving the granularity and surface particle size of the crushed aggregate. To provide.

In particular, the embodiment of the present invention, when producing a recycled aggregate by crushing the waste concrete mass generated through the dismantling of buildings or civil engineering structures, by effectively peeling the mortar attached to the surface of the aggregate high-quality recycled aggregates such as natural aggregate The structure is simple, and the structure is simple and the continuous process provides a possible effect.

1 is a partially exploded perspective view showing an embodiment of the present invention.
2 is a cross-sectional view showing an installation state according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view showing the installation state of the transport housing in the embodiment of the present invention.
Figure 4 is a side cross-sectional view showing the installation state of the grinding housing in the embodiment of the present invention.
Figure 5 is a sectional view of the main portion showing the operating state of the grinding blade in the embodiment of the present invention.
6 is a cross-sectional view showing an operating state in an embodiment of the present invention.
Figure 7 is a side cross-sectional view showing an operating state in an embodiment of the present invention.
8 is an exploded perspective view showing a grinding blade in an embodiment of the present invention.
9 to 11 is a perspective view showing an embodiment of a grinding blade in the present invention.
12 is a cross-sectional view showing an installation of another embodiment of the present invention.
Figure 13 is a side cross-sectional view of a grinding housing showing another embodiment of the present invention.
14 is a cross-sectional view showing an installation state of a gate in an embodiment of the present invention.

The main gist in the embodiment of the present invention is to grind the surface of the circulating aggregate to remove foreign matters such as fine powder and fine powder of unnecessary fine particles from the surface, and to improve segregation and surface particle size of the crushed aggregate to eliminate segregation while aggregate By effectively peeling the mortar attached to the surface of the will to produce high-quality recycled aggregates, such as natural aggregates.

Next, look at the main configuration of the aggregate grinding device according to an embodiment of the present invention, the hopper 10 is supplied with aggregate; A transport housing 20 installed at a lower portion of the hopper 10 and in which aggregate supplied to the hopper 10 is transferred in one direction; A grinding housing 30 connected to the transfer housing 20 and having aggregate aggregates transferred from the transfer housing 20 to be frictionally worn with each other while an outlet 32 is implemented; Is rotatably installed in the transfer housing 20 and the grinding housing 30, the screw 41 is installed to be located in the interior of the transfer housing 20, while the grinding blade 42 to be located inside the grinding housing 30 Shaft 40 is installed; And a gate 50 installed at the outlet 32 of the grinding housing 30.

In the above main configuration, the hopper 10 is supplied with circulating aggregate crushed by a crusher such as a jaw crusher, a cone crusher, an impact crusher, and the like. The crushing aggregate is installed in the crushing aggregate is supplied to the crushed aggregate or crushed crushed aggregate in the crusher is preferably supplied to the hopper 10 through the conveyor through the sieve.

The transport housing 20 and the grinding housing 30 are installed horizontally in the lower portion of the hopper 10 to which the crushed aggregate is supplied, and as shown in FIGS. 1 to 4 of the hopper 10 opened in the drawing. Cylindrical transfer housing 20 is installed in the lower portion is connected horizontally, the end of the transfer housing 20 is coupled to the end of the grinding housing 30 is installed in a horizontal connection.

In the embodiment of the present invention, the hopper 10 and the transfer housing 20 and the grinding housing 30 may be implemented as a set, or divide the hopper 10 in order to increase the productivity of the circulating aggregate, and divide the transfer housing ( 20) and the grinding housing 30 can be installed side by side in a pair or a plurality of pairs to increase the productivity of the circulation aggregate.

Here, the transfer housing 20 is made of a cylindrical shape of a predetermined length, is connected to the open lower portion of the hopper 10 while the flange is formed on both ends, the bearing housing 21 is coupled to the one flange installed do.

In addition, the grinding housing 30 may be implemented as a hexagonal to 10-angle cylinder of a predetermined length, but in the embodiment is most preferably implemented as an octagonal cylinder, flanges are formed at both ends, the one flange is the transfer housing 20 In the bearing housing 21 is installed coupled to the opposite flange coupled.

The bearing housing 31 is coupled to the opposite flange coupled to the transfer housing 20 in the grinding housing 30, and an outlet 32 through which the ground aggregate is discharged is formed at the lower portion of the flange, and the grinding housing is formed. The inner diameter of the 30 is preferably equal to the inner diameter of the transport housing 20 or larger than the inner diameter of the transport housing 20.

In addition, in the embodiment of the present invention, the shaft 40 rotatably installed in the transfer housing 20 and the grinding housing 30 has both ends of the bearing housing 21 and the grinding housing 30 of the transfer housing 20. It is fitted into the bearing housing 31 so as to be rotatably installed, and the screw 41 is installed on the outer periphery so as to be located in the inner space of the transport housing 20, and on the outer periphery to be located in the inner space of the grinding housing 30. A plurality of grinding blades 42 are installed radially.

The screw 41 in the shaft 40 transfers the crushed circulation aggregate supplied to the hopper 10 from the inner space of the transfer housing 20 to the inner space of the grinding housing 30, the grinding blade 42 is ground By crushing and crushing the circulating aggregate aggregate in the inner space of the housing 30, the surface of the aggregate is ground and ground.

On the other hand, the shaft 40 is preferably provided with a circular plate 44 at the outer end of the grinding blade 42 adjacent to the bearing housing 31 coupled to the grinding housing 30, the circular plate 44 is Since the circulating aggregate aggregate, which is concentrated in the inner space of the crushing housing 30 and is rubbed with each other, is prevented from being in friction contact with the bearing housing 31, damage to the bearing housing 31 is prevented.

In addition, in order to prevent wear of the grinding blade 42 on the shaft 40, as shown in FIGS. 4 to 8, the liner 43 may be attached to the rotational direction of the grinding blade 42, and in this case, the grinding blade ( 42 is not in direct contact with the crushed circulating aggregate, and the liner 43 can instead dig the circulating aggregate to friction wear to prevent wear of the grinding blade 42, if the liner 43 is worn, replace it Can be used.

The grinding blade 42 is installed on the outer periphery of the shaft 40 in the drawing, as shown in Figure 9 to 11, can be installed separately in several pieces, or installed in the form of a plurality of grinding rods or in a spiral shape And, each attached to the liner 43 to prevent wear, can be used to replace the damaged part.

In addition, the embodiment of the present invention, as shown in Figure 12 to 13 in order to prevent the wear of the transport housing 20 and the grinding housing 30, each of the liner (liner) on the inner peripheral surface of the transport housing 20 and the grinding housing 30 22) and 33 may be fitted to each other, and the liners 22 and 33 may be replaced periodically to prevent wear of the transfer housing 20 and the grinding housing 30.

In addition, the screw 41 installed in the inner space of the transport housing 20 in the shaft 40 can be installed in combination with the shaft 40 as a single prefabricated casting product, and in this case the wear state of the screw 41 Accordingly, the screw 41 can be removed from the shaft 40 to replace the worn part, thereby reducing the repair cost.

The shaft 40 installed in the inner space of the transfer housing 20 and the grinding housing 30 is rotated by receiving the driving force of the motor, and outward of the bearing housing 21 coupled to the transfer housing 20. An end of the shaft 40 protrudes, and a pulley 45 receiving the driving force of the motor may be installed at the end, and a sprocket may be installed in addition to the pulley 45 to transmit the driving force of the motor.

In addition, the embodiment of the present invention, the gate 50 is installed in the outlet 32 formed in the grinding housing 30, the gate 50 is a hinge pin (one end of the outlet 32, as shown in Figure 14) 51 is coupled to the hinge pin 51 and the spring 52 is fitted so that the gate 50 is installed to open and close at the outlet 32 under the elastic force of the spring 52.

In the above gate 50 is to block the discharge port 32 of the grinding housing 30 under the elastic force of the spring 52 to suppress the discharge of the circulating aggregate in the grinding housing 30, the internal space of the grinding housing 30 While circulating aggregate transported to the surface by mutual friction wear and the dense pressure of the circulating aggregate in the inner space of the grinding housing 30 is higher than the elastic force of the spring 52 in the gate 50, the gate 50 is rotated Open and discharged pulverized recycled aggregate.

That is, as the gate 50 receiving the elastic force of the spring 52 blocks the outlet 32 of the grinding housing 30, the circulating aggregate transferred to the internal space of the grinding housing 30 is not discharged and is densely located. When the compaction pressure of the circulating aggregate in the space is higher than the elastic force of the spring 52, the aggregate is opened while pushing the gate 50 is discharged to the outside than the elastic force of the spring 52 in the inner space of the grinding housing 30 The high compaction pressure acts to frictionally wear the aggregates together.

Referring to the operation of the aggregate grinding device according to an embodiment of the present invention having such a configuration, first, the finely circulated aggregate crushed in the crushing device such as jaw crusher, compactor, impact crusher is supplied to the hopper 10, As the shaft 40 rotates by receiving the driving force of the motor, the screw 41 transfers the circulating aggregate introduced from the hopper 10 to the transfer housing 20 to the grinding housing 30.

The circulating aggregate conveyed from the transfer housing 20 to the inner space of the grinding housing 30 is transferred to the circular plate 44 at the end while being broken by the rotation of the grinding blade 42, where the outlet 32 is a spring ( As it is blocked by the gate 50 that is subjected to the elastic force of 52, the aggregate is frictionally worn out as it is not discharged to the outside, while friction wear on the inner circumferential surface of the grinding housing 30 by the rotation of the grinding blade 42, When the compaction pressure of the aggregate in the inner space of the housing 30 is higher than the elastic force of the spring 52, the gate 50 is opened while the circulated aggregate is discharged to the outside.

As the compaction pressure higher than the elastic force of the spring 52 is applied to the inner space of the grinding housing 30, the aggregates are rubbed and the surface of the aggregates is ground, so that foreign matters such as fine powder and fine powder of fine particles as aggregates are removed from the surface. Stripping and improved granulation and surface particle size of the crushed aggregate eliminates segregation.

In addition, the embodiment of the present invention is the circulating aggregate finely crushed in the crushing device is continuously supplied to the hopper 10 while the circulating aggregate is transferred from the housing 20 to the grinding housing 30 by the rotation of the shaft 40 The grinding process is performed, and the circulating aggregate discharged from the crushing housing 30 is transferred to a washing process or a sorting process to be produced as a circulating aggregate of the finished product.

This embodiment of the present invention is concentrated in the crushing housing 30 at a constant pressure while conveying the circulating aggregate finely crushed in the shredding device to the screw 41 to grind the aggregate friction surface as the aggregate surface of the aggregate By effectively peeling the mortar attached to it will be able to produce high-quality recycled aggregates, such as natural aggregates.

In addition, in the embodiment of the present invention, the plurality of grinding blades 42 installed in the shaft 40 in the inner space of the grinding housing 30 may be installed in a straight line with the shaft 40 or may be installed in a spiral twist. The liner 43 attached to the grinding blade 42 may be divided into two to three equal parts to replace a worn part according to a worn state.

In addition, by increasing the grinding device and power of the present invention, not only fine aggregates, but also can be applied to coarse aggregates such as gravel, crushed stone, as well as to configure a grinding device of various sizes and capacities according to the size and use of aggregates, By supplying sufficient water to the upper hopper 10 through the transfer housing 20 and the grinding housing 30 can be smoothly performed the grinding operation of the aggregate.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is possible to carry out various changes in the present invention.

10: hopper 20: transfer housing
21: bearing housing 22: liner
30: crushing housing 31: bearing housing
32: outlet 33: liner
40: shaft 41: screw
42: grinding edge 43: liner
44: plate 45: pulley
50: gate 51: hinge pin
52: spring

Claims (9)

A hopper 10 to which aggregate is supplied;
A transport housing 20 installed at a lower portion of the hopper 10 and in which aggregate supplied to the hopper 10 is transferred in one direction;
A grinding housing 30 connected to the transfer housing 20 and having aggregate aggregates transferred from the transfer housing 20 to be frictionally worn with each other while an outlet 32 is implemented;
Is rotatably installed in the transfer housing 20 and the grinding housing 30, the screw 41 is installed to be located in the inner space of the transport housing 20, while the grinding blade to be located in the inner space of the grinding housing 30 A shaft 40 on which 42 is installed;
Aggregate grinding device, characterized in that comprises ;; a gate (50) installed in the outlet 32 of the grinding housing (30).
The method of claim 1, further comprising:
Hopper (10) is divided into two, the aggregate grinding device, characterized in that the transport housing 20 and the grinding housing (30) is installed side by side in a pair or a plurality of pairs in the lower portion of the hopper (10).
The method of claim 1, further comprising:
Grinding housing (30) aggregate aggregate grinding apparatus, characterized in that implemented in a six-hexagonal tube of a predetermined length.
The method of claim 1, further comprising:
Shaft 40 is aggregate grinding device, characterized in that both ends are rotatably installed in the bearing housing (21) of the transfer housing 20, and the bearing housing (31) of the grinding housing (30), respectively.
The method of claim 1, further comprising:
Aggregate grinding apparatus, characterized in that the liner 22, 33 is installed on the inner peripheral surface of the transfer housing 20 and the grinding housing 30, respectively.
The method of claim 1, further comprising:
Aggregate grinding apparatus, characterized in that the liner (43) is attached to the rotational direction of the grinding blade (42) installed on the shaft (40).
The method of claim 1, further comprising:
The gate 50 is coupled to one end of the outlet 32 by a hinge pin 51, while the spring 52 is fitted to the hinge pin 51 to receive the elastic force of the spring 52 to open and close the outlet 32. Aggregate grinding device, characterized in that.
The method of claim 1, further comprising:
The plurality of grinding blades 42 installed on the shaft 40 in the inner space of the grinding housing 30 may be installed by twisting the shaft 40 in a straight line or spirally, and the liner 43 attached to the grinding blade 42. Aggregate grinding apparatus, characterized in that is installed by dividing into 2 ~ 3 equal parts.
The method of claim 1, further comprising:
Aggregate grinding device, characterized in that the supply of sufficient water to the hopper 10 through the transfer housing 20 and the grinding housing 30 to smooth the grinding operation of the aggregate.

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