KR102223600B1 - The improved multi directional grinder structure - Google Patents

Abstract

In a grinding machine for removing a mortar attached to circulating aggregate and selecting the circulating aggregate with an appropriate particle form, the present invention provides an improved multi-directional grinder structure composed of: a rotation shaft (100) which has one end connected to a shaft driving motor (M) of the grinder; and a liner assembly (200) in which four blade assemblies (B) composed of an arm (210) and a blade (230) installed at the end of the arm (210) are coupled to each other at 90 degrees, and which is coupled to the rotation shaft (100). The rotation shaft (100) is divided into a plurality of areas from a first area (1) to an n-th area from one end to the other end, and a plurality of the liner assemblies (200) are sequentially coupled by changing the angle by 90/n degrees from the first area (1) to the n-th area.

Description

The improved multi directional grinder structure

The present invention is to effectively remove the mortar adhering to the recycled aggregate crushed in the previous process and crush it into a desired vertical shape for sorting, and a plurality of liner assemblies are attached to one rotating shaft, but the coupling angles of the plurality of liner assemblies are different. It relates to an improved multi-axis directional grinder structure that increases the crushing and moving ability of aggregates inside, and performs crushing and filtering functions at the same time by directly coupling the filter container to the crushing container.

In construction, the use of aggregate is essential.

Usually, the aggregate is used after crushing the rock to the desired size and selecting it.

However, with the increase in construction work, the depletion of aggregates, a natural resource, is continuing, and considering the environmental aspect, further development of stone mountains is not easy.

Therefore, construction waste naturally occurring in the process of construction dismantling is not relying on reclamation as in the past, but is being recycled by intermediary treatment appropriately for each type of construction work.

In the process of grinding recycled aggregate, a conventional grinder,

A plurality of liner assemblies are attached to one rotating shaft, but since the joint angles of the plurality of liner assemblies are all installed at the same angle, the ability to crush and move the aggregate from the inside decreases, and in particular, induce movement of the aggregate by gravity by tilting the crushing vessel I had to do it,

There is a problem that a large amount of manpower and equipment space are required because the filtering device for selecting the particle size of aggregate is constructed with a separate construction type and equipment.

Accordingly, the present inventor is to effectively remove the mortar attached to the recycled aggregate crushed in the previous process and crush it into a desired vertical shape, and to select, a plurality of liner assemblies are attached to one rotating shaft, but the coupling angles of the plurality of liner assemblies are different. Therefore, it has come to develop an improved multi-axis directional grinder structure that increases the ability to crush and move aggregates from the inside, and performs crushing and filtering functions at the same time by directly connecting the filter container to the crushing container.

[Document 1] Korean Patent Registration No. 10-0777184'Crusher using gravity', November 12, 2007 [Document 2] Korean Patent Application Publication No. 10-2018-0090844'Crusher', August 13, 2018

The present invention is presented in order to solve all the problems of the prior art as described above. The purpose is to effectively remove the mortar adhering to the recycled aggregate crushed in the previous process, crush it into a desired shape, and sort it.A number of liner assemblies are attached to one rotating shaft, but the coupling angles of the plurality of liner assemblies are different. It is intended to provide an improved multi-axis directional grinder structure that increases the ability to crush and move aggregates inside, and performs crushing and filtering functions at the same time by directly coupling the filter container to the crushing container.

In order to solve the above technical problem, the present invention is a grinder for removing the mortar attached to the recycled aggregate and selecting the recycled aggregate of an appropriate particle shape,

A rotation shaft 100 connected to one end of the soccer motion motor (M) of the grinder;

A liner assembly 200 in which four blade assemblies (B) consisting of an arm 210 and a blade 230 installed at the end of the arm 210 are coupled to each other at 90 degrees and are coupled to the rotation shaft 100;

It is composed including,

The rotation shaft 100 is divided into a plurality of zones from one end to the other end from the first zone (1) to the n-th zone,

It provides an improved multi-axis directional grinder structure, characterized in that a plurality of the liner assembly 200 from the first zone (1) to the n-th zone are sequentially coupled by changing an angle of 90/n degrees.

According to the present invention, the mortar adhered to the recycled aggregate crushed in the previous process is effectively removed and crushed into a desired shape for sorting. A plurality of liner assemblies are attached to one rotating shaft, but the coupling angles of the plurality of liner assemblies are different. Therefore, it provides an improved multi-axis directional grinder structure that increases the crushing and moving ability of aggregates from the inside, and performs crushing and filtering functions at the same time by directly connecting the filter barrel to the crushing bin.

1 is a side view and a cross-sectional view of a rotating shaft in the structure of an improved multi-axial grinding machine according to the present invention.
FIG. 2 is a cross-sectional view of a combination of a rotating shaft, a liner assembly, and a crushing container in the structure of the improved multi-axial shredder of the present invention.
3 is a cross-sectional view in which a plurality of liner assemblies are combined in FIG. 2.
Figure 4 is a plan view of the structure of the improved multi-axial grinding machine of the present invention.
5 is a front view, a side view, and a rear view of the structure of the improved multi-axial grinding machine according to the present invention.
6 is a cross-sectional view of a side view of FIG. 5.
7 and 8 are photographs of actual production of the rotating shaft in the structure of the improved multi-axis directional grinder of the present invention.
9 is a photograph of the actual fabrication of the structure of the improved multi-axial grinding machine according to the present invention.
Figure 10 shows the arm and the blade of the liner assembly in the present invention.

Hereinafter, the present invention will be described in more detail through embodiments in which the concept of the present invention as described above is preferably implemented together with the accompanying drawings.

1 is a side view and a cross-sectional view of a rotating shaft in the structure of an improved multi-axis directional grinder of the present invention,

FIG. 2 is a cross-sectional view of a combination of a rotating shaft, a liner assembly, and a crushing container in the structure of the improved multi-axial shredder of the present invention.

The structure of the improved multi-axis directional grinder of the present invention,

In a grinder for removing the mortar attached to the recycled aggregate and selecting the appropriate grained recycled aggregate,

A rotation shaft 100 connected to one end of the soccer motion motor (M) of the grinder;

A liner assembly 200 in which four blade assemblies (B) consisting of an arm 210 and a blade 230 installed at the end of the arm 210 are coupled to each other at 90 degrees and are coupled to the rotation shaft 100;

It is composed including,

The rotation shaft 100 is divided into a plurality of zones from one end to the other end from the first zone (1) to the n-th zone,

A plurality of liner assemblies 200 from the first zone 1 to the n-th zone are sequentially joined by changing an angle by 90/n degrees.

In the embodiment of Fig. 1, the zone is divided into a total of four,

It is divided into the first zone (1), the second zone (2), the third zone (3), and the fourth zone (4).

As shown,

The first zone (1) is processed to be inclined to 0 degrees with a square cross section, and the second zone (2) is processed to be inclined by 22.5 degrees to a square cross section.

In addition, the third zone 3 is processed to be inclined by 45 degrees with a square cross section, and the fourth zone 4 is processed to be inclined by 67.5 degrees with a square cross section.

Since the liner assembly 200 is coupled to the first zone (1), the second zone (2), the third zone (3) and the fourth zone (4),

A total of four liner assemblies 200 coupled to the first zone (1), the second zone (2), the third zone (3), and the fourth zone (4) are combined at a predetermined angle. .

therefore,

According to the rotation of the rotation shaft 100, a plurality of liner assemblies 200 sequentially joined by changing the angle from the first zone (1) to the n-th zone by 90/n degrees rotates, crushing and grinding the recycled aggregate So,

Even if the crushing bin 300 is not tilted, the recycled aggregate is crushed and ground inside the crushing bin 300 and automatically moves from one end of the crushing bin 300 to the other end.

Recycled aggregate is introduced into the crushing container 300 through an input hopper (H).

And as shown in Figure 2,
The blade 230 is coupled to the arm 210 by a hinge (H), but a spring (S) is installed to mitigate an impact applied to the blade 230.

3 is a cross-sectional view in which a plurality of liner assemblies are combined in FIG. 2.

In the present invention, the rotation shaft 100 is installed to rotate inside the crushing container 300,

The crushing container 300 is characterized in that it rotates in a direction opposite to the rotation direction of the rotation shaft 100.

A tooth 310 is formed on the outer circumferential surface of the crushing container 300 and a chain C is caught on the tooth 310 to drive the barrel drive motor 330 to rotate the crushing container 300.

Therefore, there is an advantage in that the crushing and grinding functions of the recycled aggregate are increased because it rotates up to the crushing container 300 away from the conventional rotational shaft 100 alone.

Figure 4 is a plan view of the structure of the improved multi-axial grinding machine of the present invention,

Figure 5 is a front view, a side view and a rear view of the structure of the improved multi-axial grinding machine of the present invention,

6 is a cross-sectional view of a side view of FIG. 5.

And Figures 7 and 8 are actual production photos of the rotating shaft in the improved multi-axis directional grinder structure of the present invention,

9 is a photograph of the actual fabrication of the structure of the improved multi-axial grinding machine of the present invention.

As shown,

In the present invention, a filter container 400 having a plurality of perforated holes formed on an outer surface thereof is coupled to the other end of the crushing container 300,

The crushing container 300 and the filter container 400 are integrally rotated,

Aggregate crushed and crushed from the crushing container 300 is transferred to the filter container 400 and falls onto a conveyor belt (not shown) installed under the filter container 400.

That is, the filter container 400 is directly coupled to the crushing container 300 to simultaneously perform crushing and filtering functions.

In order to induce stable rotation of the filter container 400 and the crushing container 300, a guide G is installed on three or more outer circumferential surfaces of the filter container 400 and the crushing container 300.

The guide (G) may be provided with a shock absorbing means (S) such as a spring or a shock absorber,

In particular, the shock absorbing means (S) is preferably installed in the guide (G) installed on the upper portion of the filter tank (400) and the crushing tank (300).
That is, as shown in FIG. 5, the two guides G, in which the shock absorbing means S is not installed, are supported under the filter container 400 and the crushing container 300, and the filter container 400 And one of the guides (G) on which the shock absorbing means (S) is installed is pressed from the top of the crushing container (300).
Therefore, the two guides (G) installed in the lower part do not have the shock absorbing means (S) when the filter container 400 and the crushing container 300 are rotated, so they stably support vibration and load without a gap. Since one installed guide (G) is equipped with the shock absorbing means (S), it absorbs minute vibrations from the top.
If the shock absorbing means (S) is installed on the two guides (G) installed in the lower part, a large shaking may occur even with a small rotation of the filter container 400 and the crushing container 300, so that the Installing the shock absorbing means (S) on the two guides (G) should be avoided.

And although not shown,

Since the perforated hole of the filter container 400 increases in diameter from one end to the other end of the filter container 400,

As the aggregate passes through the filter container 400, it is characterized in that it falls in order from a small-diameter aggregate to a large aggregate.

Figure 10 shows the arm and the blade of the liner assembly in the present invention.

As shown,

In order to double the function of automatically moving from one end of the crushing container 300 to the other end while the recycled aggregate is crushed and ground inside the crushing container 300, the arm 210 radially installed in the liner assembly 200 It is possible to adjust the installation angle (a) of the blade 230 installed at the end.

At this time, the installation angle (a) of the blade 230 in the rotation direction of the arm 210 so that the circulation aggregate hit by the blade 230 moves in the direction of the other end of the crushing container 300 It can be installed tilted in the direction of the other end of 300).

In conclusion,

The present invention is for effectively removing the mortar attached to the recycled aggregate crushed in the previous process and crushing it into a desired shape for sorting, and attaching a plurality of liner assemblies to one rotating shaft, but varying the bonding angles of the plurality of liner assemblies. It provides an improved multi-axis directional grinder structure that increases the crushing and moving ability of aggregates inside, and performs crushing and filtering functions at the same time by directly coupling the filter barrel to the crushing bin.

The present invention has been described in connection with a preferred embodiment as mentioned above, but various modifications and variations can be made without departing from the gist of the present invention, and can be used in various fields.

Accordingly, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

M: soccer motor
C: chain
H: input hopper
S: shock absorbing means
100: axis of rotation
200: liner assembly
210: cancer
230: blade
300: shredding bin
310: tooth
330: direct drive motor
400: filter container

Claims (4)

In a grinder for removing the mortar attached to the recycled aggregate and selecting the appropriate grained recycled aggregate,
A rotation shaft 100 connected to one end of the soccer motion motor (M) of the grinder;
A liner assembly 200 in which four blade assemblies (B) consisting of an arm 210 and a blade 230 installed at the end of the arm 210 are coupled to each other at 90 degrees, and are coupled to the rotation shaft 100;
It is composed including,
The rotation shaft 100 is divided into a plurality of zones from one end to the other end from the first zone (1) to the n-th zone,
A plurality of liner assemblies 200 from the first zone (1) to the n-th zone are sequentially combined by changing an angle by 90/n degrees,
The rotation shaft 100 is installed to rotate inside the crushing container 300,
The crushing container 300 is characterized in that it rotates in a direction opposite to the rotation direction of the rotation shaft 100,
The blade 230 is coupled to the arm 210 by a hinge (H), but a spring (S) is installed to mitigate the impact applied to the blade 230,
The installation angle (a) of the blade 230 is adjusted in the rotation direction of the arm 210 so that the recycled aggregate hit by the blade 230 moves in the direction of the other end of the crushing container 300. ) And installed inclined toward the other end,
The other end of the crushing container 300 is coupled to a filter container 400 having a plurality of perforated holes formed on the outer surface thereof,
The crushing container 300 and the filter container 400 are integrally rotated,
Aggregate crushed and crushed from the crushing container 300 is transferred to the filter container 400 and falls onto a conveyor belt (not shown) installed under the filter container 400,
Two guides (G) are installed and supported in the lower part of the outer circumferential surface of the filter container 400 and the crushing container 300, and one guide (G) is installed and pressed in the upper part,
Since the shock absorbing means (S) is installed only in the guide (G) installed on the upper part in order to prevent a large shaking from occurring even with a small rotation of the filter container 400 and the crushing container 300,
The two guides (G) installed in the lower part do not have the shock absorbing means (S) when the filter container 400 and the crushing container 300 rotate, so they stably support vibration and load without a gap, and are installed on the upper side. Since one of the guides (G) is equipped with the shock absorbing means (S), an improved multi-axis directional grinder structure, characterized in that it absorbs minute vibrations from the top.

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