KR20220084668A - Compost Mixing Apparatus - Google Patents

Abstract

The present invention relates to a compost blender, and more particularly, sludge caked through a screw member comprising a screw blade having a spiral structure and a plurality of sawtooth-shaped grinding protrusions protruding outside and inside the sludge and microbial cultured subsidiary materials. It relates to a compost blender capable of mixing and pulverizing and improving blending efficiency.
The feed compounding machine according to the present invention comprises: a main body 100 having an inlet through which compost raw materials are put on one side and an outlet through which the compost blended on the other side is discharged; A pair of screw members 200 installed on the inner lower portion of the main body 100 for mixing the compost raw material through rotation; a driving motor 300 installed on the outside of the main body 100 to generate a driving force; and a speed reducer 400 installed on the outside of the main body 100 to reduce the driving force of the driving motor 300 and transmit it to the screw member 200; the screw member 200 includes the main body ( 100) rotatably installed on the inside of the rotating shaft 210; It is characterized in that it is composed of a; screw blade 220 that is installed spirally on the outer peripheral surface of the rotation shaft 210 to mix compost (that is, sludge and microbial cultured subsidiary materials).

Description

Compost Mixing Apparatus

The present invention relates to a compost compounding machine, and more particularly, through a screw member including a screw blade having a spiral structure and a plurality of sawtooth-shaped grinding protrusions protruding on the outside and inside thereof, stirring and It relates to a compost blender capable of grinding and improving blending efficiency.

In general, sewage sludge waste is treated as sludge waste through a dehydration process by coagulating the residues generated in the process of treating wastewater discharged from production activities. The trend is to convert it into compost by mixing it with microorganisms and cultured subsidiary materials.

The conventional compost mixing device related to this technology is installed such that the rotating shaft extended through the drive motor and the reducer installed on one side of the frame inside the frame of the compounding device is rotatably installed, and on the outer circumferential surface of the rotating shaft, a plurality of mixing blades is sequentially mounted, and consists of a configuration in which an inlet and an outlet are installed in the upper part and the front of the frame.

Therefore, in the conventional compost mixing device as described above, when the compound, that is, waste sewage sludge and grains, or food residues, is put into the frame through the inlet, the driving motor and the rotating shaft in the extended frame are constantly rotated and at the same time to the rotating shaft. A plurality of installed mixing blades mix the mixture repeatedly in one direction at a constant speed to discharge the compound feed through the outlet.

However, the conventional compost mixing device as described above is installed on a frame that rotates when the driving motor is driven and the installation angle of the mixing blades for mixing the compound while rotating is uniformly formed, so that the compounding objects are mixed while moving only in one direction. , the amount of compounding object that can be put into the frame is only 50% or less of the frame volume, and in particular, by moving the compound in only one direction, the compounding time is delayed for a long time and workability is reduced, while separate lumps Since there is no crushing device, only the compounding operation is performed, and there are various problems such as the input conditions of the compound being limited to chemical feed and grains.

An example of a technique for solving this problem is disclosed in Document 1 below.

The following Patent Document 1 discloses a main body having a mixing tank for inputting feed, pulverizing and blending, a plurality of screws installed symmetrically in the direction of rotation toward the center at the lower portion of the main body, and a grinding blade installed on one side of the wing of the screw. and a feed mixing device provided with feed outlets installed symmetrically on both sides of the central portion of the screw; In order to increase the mixing ratio of feed (ie, sludge and microbial cultured auxiliary material) between the screw blade and the grinding blade, the grinding blade installed on the blade of the screw and the grinding blade installed continuously with the grinding blade are placed around the screw blade. Three mixing auxiliary parts installed at equal intervals; a central separator installed to distribute the load of the product between the plurality of screws, wherein one side of the mixing auxiliary part is configured in any one of a sawtooth shape, a square pillar shape, and a semicircle shape, and the median divider includes a plurality of screws Disclosed is a feed compounding device installed between, installed higher toward the center of the screw, and configured by coupling a pipe to the upper portion of the central separator so that the feed can be effectively separated from left to right.

However, in the prior art as described above, when the screw is rotated, the material such as compost moves in one direction and is pushed to the inner wall of the body, so that the sludge and the material such as the compost of the auxiliary material in which the microorganisms are cultured are mixed with each other in the process of mixing There was a problem of clumping and hardening. In addition, with the conventional screw blade and grinding blade structure, a phenomenon of sticking or kneading still occurred, so that it could not be efficiently cut and crushed.

Republic of Korea Patent Publication No. 10-1825010 (Registered on Jan. 29, 2018) Republic of Korea Patent Publication No. 2001-0048418 (published on June 15, 2001) Republic of Korea Patent Publication No. 2015-0012726 (published on February 4, 2015) Republic of Korea Patent Publication No. 2010-0119159 (published on Nov. 9, 2010)

An object of the present invention was devised to solve the above-described problems, and when a pair of screw members are rotated, feed raw materials are mixed while pushing in opposite directions to mix compost raw materials such as sludge and auxiliary materials in which microorganisms are cultured; An object of the present invention is to provide a sludge treatment blender that facilitates transport and can more effectively mix compost raw materials and pulverize lumps by varying the pressure applied when the caked sludge raw materials are mixed and pulverized.

In particular, it is possible to cut or pulverize auxiliary materials in which sludge and microorganisms, one of the compost raw materials, are cultured by the plurality of crushing projections formed on the outside and inside of the screw blades, and rotate together with the screw blades to generate a vortex inside the mixing space. An object of the present invention is to provide a compounding machine that treats sludge into compost, which can provide finer compounding power.

In order to achieve the above object, the compost compounding machine according to the present invention comprises: a main body 100 in which an inlet into which compost raw materials are put, that is, sludge and auxiliary materials is formed on one side, and an outlet through which the mixed compost is discharged on the other side; A pair of screw members 200 installed on the inner lower portion of the main body 100 for mixing the compost raw material through rotation; a driving motor 300 installed on the outside of the main body 100 to generate a driving force; and a reducer 400 installed on the outside of the main body 100 to reduce the driving force of the driving motor 300 and transmit it to the screw member 200; and the screw member 200 includes the main body ( 100) rotatably installed on the inside of the rotating shaft 210; It is characterized in that it is composed of a; screw blades 220 that are installed in a spiral on the outer peripheral surface of the rotation shaft 210 to grind and mix feed raw materials.

In addition, the pair of screw members 200 is characterized in that the rotation shaft 210 is rotated in opposite directions to each other, and the feed materials are mixed while pushing in opposite directions.

In addition, a plurality of grinding protrusions 221 formed in a sawtooth shape to grind the compost raw materials such as sludge and microbially cultured auxiliary materials according to the rotation of the screw blade 220 are provided on the outside and the inside of the screw blade 220 at equal intervals. It is characterized in that the protrusion is formed.

In addition, the rotation shaft 210 includes a first rotation shaft 210a and a second rotation shaft 210b installed to correspond to the first rotation shaft 210a, and one side of the first rotation shaft 210a and a second rotation shaft It is characterized in that the plate-shaped scrap bar 230 that blocks the feed material from sticking to the inner wall of the main body 100 and passes the feed material to the opposite side is installed on the other side of the 210b.

In addition, a plurality of connecting members 240 are provided on the inside of the screw blade 220 in order to fix and support the screw blade 220 to the outer peripheral surface of the rotation shaft 210 and mix the sludge and the microbial-cultured subsidiary material at the same time in an oblique direction. characterized in that it is formed with

In addition, the number of teeth of the grinding protrusion 221 formed on the outer side of the screw blade 220 is 26, and the number of teeth of the grinding projection 221 formed on the inner side of the screw blade 220 is 22.

In addition, the pitch value between the screw blade 220 and the screw blade 220 is 600 mm, it is characterized in that the diameter of the screw blade 220 is 1200 mm.

In addition, on one side of the first rotational shaft 210a and the other side of the second rotational shaft 210b, a spiral counterflow blade 250 symmetrical to the neighboring screw blade 220 is installed, and the counterflow blade 250 The pitch and the pitch of the screw blade 220 are characterized in that it is configured in a ratio of 1:2.

As described above, the compost compounding machine according to the present invention mixes feed raw materials while pushing them in opposite directions when a pair of spiral screw members are rotated and at the same time generates a vortex in the mixing space to further fine-tune the feed raw materials. It is effective in mixing or pulverizing caked sludge and microbially cultured subsidiary materials more effectively.

1 is a front perspective view showing a compost compounding machine according to the present invention.
Figure 2 is a rear perspective view showing a compost blender according to the present invention.
Figure 3 is a plan view showing a compost blender according to the present invention.
Figure 4 is a cross-sectional view taken along line AA of Figure 3;
5 is a perspective view showing a screw member and an arrangement form according to the present invention.
6 is a plan view showing the screw member and the arrangement according to the present invention.
7 is a right side view and a left side view showing a screw member according to the present invention.
8 is a view showing an enlarged counterflow blade and a scrap bar according to the present invention.

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

1 to 8, the feed compounding machine according to the present invention has a spiral structure, and caked sludge and microorganisms are cultured through screw blades in which a plurality of serrated grinding protrusions protrude on the outside and inside. , which is capable of crushing and mixing lung cattle bones, such as chicken, and includes a main body 100 , a pair of screw members 200 , a driving motor 300 , and a reducer 400 .

The main body 100 is formed with an inlet (not shown) through which feed raw materials are put on one side, and an outlet (not shown) through which the mixed feed is discharged on the other side. In particular, the inlet of the main body 100 may be formed in the form of a hopper.

The feed raw materials input through the inlet of the main body 100 are mixed and then discharged through the outlet. A hydraulic cylinder is used as a driving means for opening and closing the outlet of the main body 100 .

On the other hand, the upper part of the main body 100 is in an open state, and the lower part has a structure having a semicircular shape, but depending on the type of compost raw material, the upper part is closed and the compost raw material is input through the inlet. .

The screw member 200 is installed on the inner lower portion of the main body 100 to mix the feed material through rotation.

The screw member 200 is spirally installed on the outer circumferential surface of the rotation shaft 210 rotatably supported inside the body 100 .

The rotating shaft 210 is installed in the longitudinal direction inside the main body 100, both ends are rotatably supported by bearings, and at one end thereof, a driving means for rotating the screw member 200 together with the rotating shaft 210 this is connected

The driving motor 300 , which is a component of the driving means, is installed outside the main body 100 to generate driving force.

The reducer 400 is installed on the outside of the main body 100 to reduce the driving force of the driving motor 300 and transmit it to the screw member 200 .

In addition, the present invention is configured to include a sprocket, a chain, a belt, etc. for connecting to the driving motor 300 and the reducer 400 installed outside the main body 100, such a driving means and a screw member The coupling and operating relationship of are already known techniques that are generally and widely used, and a detailed description thereof will be omitted.

Hereinafter, the specific structure and operation of the screw member of the compost (ie, sludge and microbial cultured auxiliary material) compounding machine according to a preferred embodiment of the present invention will be described as follows.

5 and 6, the screw member 200 is a rotating shaft 210 rotatably installed inside the main body 100, and is spirally installed on the outer circumferential surface of the rotating shaft 210 to feed raw materials. It is composed of a screw blade 220 for grinding and blending.

As shown in FIG. 5 , the pair of screw members 200 configured in this way rotate the rotation shaft 210 in opposite directions, and mix the feed materials while pushing them in opposite directions.

Accordingly, since the feed raw materials are mixed while being turned upside down and pushed in opposite directions by the pair of screw members 200 at the same time, it is possible to increase the efficiency of mixing and crushing lumps as well as mixing the compost raw materials.

Meanwhile, as shown in FIG. 7 , the rotation shaft 210 includes a first rotation shaft 210a and a second rotation shaft 210b installed to correspond to the first rotation shaft 210a.

In particular, a plate-shaped scrap bar 230 is installed on one side of the first rotating shaft 210a and the other side of the second rotating shaft 210b, respectively.

The scrap bar 230 serves to prevent the feed material from sticking to the inner wall of the main body 100 and to pass the compost material to the screw member on the opposite side.

The screw blade 220 has a helical structure extending from one end to the other end of the rotation shaft 210, and is formed in a ribbon shape with sawtooth-shaped grinding protrusions 221 on the inside and outside. Through this, the compost material is mixed and transported smoothly by the screw blade 220, and the compost material is cut and pulverized more effectively by varying the pressure applied when the sludge and the microorganisms are cultured auxiliary material mixing and crushing the lump. can do.

In other words, the screw blade 220 rotates while sweeping the bottom of the main body 100, and by this rotation, the feed material is pumped upward. Therefore, when the rotating shaft 210 rotates, the screw blade 220 rotates interlockingly while the feed raw material on the bottom of the main body 100 is pumped up and then dropped.

A plurality of grinding protrusions 221 formed in a sawtooth shape protrude at equal intervals to crush the agglomeration and lumps of the compost raw material according to the rotation of the screw blade 220 on the outside and the inside of the screw blade 220 .

That is, it is possible to cut or pulverize even the bones of lung livestock such as chicken, which are one of the feed materials, through the plurality of crushing projections 221 formed on the outside and inside of the screw blade 220 .

In addition, according to the rotation of the grinding protrusion 221 together with the screw blade 220, a vortex is generated inside the mixing space to provide a more precise mixing force.

On the other hand, inside the screw blade 220, a plurality of connecting members 240 are formed in an oblique direction in order to fix and support the screw blade 220 to the outer circumferential surface of the rotating shaft 210 and at the same time mix the compost raw material.

For this reason, when the screw blade 220 rotates, the feed raw material is transferred in the longitudinal direction of the main body 100 along the connecting member 240 formed in an oblique direction.

As shown in FIG. 7 , the number of teeth of the grinding protrusion 221 formed on the outside of the screw wing 220 per rotation of the screw wing is 26 when viewed from the side, and the grinding protrusion formed on the inside of the screw wing 220 . (221) has 22 teeth.

The reason for limiting the number of teeth of the pulverizing protrusion 221 is to design the optimal number of pulverizing protrusions 221 teeth in consideration of the diameter of the screw blade 220, thereby preventing the mixing and agglomeration of the compost raw material being mixed and agglomeration. Grinding can be performed efficiently, and frictional resistance caused by the compost material generated in the mixing and grinding process is minimized to prevent deformation, bending or damage of the grinding protrusion 221 .

The pitch value between the screw blade 220 and the screw blade 220 is 600 mm, and the diameter of the screw blade 220 is 1200 mm.

The reason for limiting the pitch value between the screw blades 220 and the diameter of the screw blades 220 as described above is that, depending on the pitch value and the diameter of the screw blades 220, the difference in pressure by the feed material and the transfer amount of the compost material is Therefore, by the screw blade 220 manufactured to the above design value, it is possible to control the pressure of the feed material and the feed amount of the feed material as well as the smooth transfer of the feed material, so that the best mixing performance can be achieved. .

As shown in FIG. 8 , on one side of the first rotation shaft 210a and the other side of the second rotation shaft 210b, a helical countercurrent blade 250 symmetrical to the neighboring screw blade 220 may be installed. .

In particular, the pitch of the countercurrent blade 250 and the pitch of the screw blade 220 are configured in a ratio of 1:2, and if the spiral of the screw blade 220 is in the right-hand direction, it is installed in a left-hand direction, which is the opposite direction. do.

As described above, by additionally installing a separate counter-flow blade 250 on one side of the first rotating shaft 210a and the other side of the second rotating shaft 210b, the compost raw material transferred is passed in the opposite direction. By continuously transporting to and preventing it from sticking to the side, the mixing is made efficiently, and the mixing efficiency is further improved by mixing the surplus compost raw material that cannot be mixed.

Although the present invention has been mainly described with reference to the accompanying drawings, it is apparent to those skilled in the art that various modifications can be made without departing from the scope of the present invention from these descriptions. Accordingly, the scope of the present invention should be construed by the appended claims including examples of many such modifications.

100: body 200: screw member
210: rotation shaft 210a: first rotation shaft
210b: second rotation shaft 220: screw blades
221: crushing projection 230: scrap bar
240: connection member 250: reverse flow wing
300: drive motor 400: reducer

Claims (8)

The main body 100 is formed with an inlet into which the compost (sludge and microorganism cultured auxiliary material) raw material is put on one side, and an outlet through which the mixed compost is discharged on the other side;
A pair of screw members 200 installed on the inner lower portion of the main body 100 for mixing the compost raw material through rotation;
a driving motor 300 installed on the outside of the main body 100 to generate a driving force; and
A reduction gear 400 installed on the outside of the main body 100 to reduce the driving force of the driving motor 300 and transmit it to the screw member 200; includes,
The screw member 200 includes a rotating shaft 210 rotatably installed inside the main body 100; A compost compounder comprising: a screw blade installed in a spiral on the outer circumferential surface of the rotating shaft 210 to mix and blend the compost raw material and crush the lump.
The method according to claim 1,
A pair of screw members 200 is a compost compounding machine, characterized in that the rotation shaft 210 is rotated in opposite directions, and the compost raw materials are mixed while pushing in opposite directions.
The method according to claim 1,
A compost compounding machine, characterized in that a plurality of grinding protrusions 221 formed in a sawtooth shape protrude at equal intervals to crush the feed material according to the rotation of the screw blade 220 on the outside and the inside of the screw blade 220 . .
The method according to claim 1,
The rotation shaft 210 is composed of a first rotation shaft 210a and a second rotation shaft 210b installed to correspond to the first rotation shaft 210a,
On one side of the first rotating shaft 210a and the other side of the second rotating shaft 210b, a plate-shaped scrap bar 230 that blocks the compost raw material from adhering to the inner wall of the main body 100 and passes the feed raw material to the opposite side. A compost mixer, characterized in that it is installed.
The method according to claim 1,
A plurality of connecting members 240 are formed in an oblique direction inside the screw blade 220 to fix and support the screw blade 220 to the outer circumferential surface of the rotation shaft 210 and at the same time mix the compost raw material. compost blender.
4. The method according to claim 3,
The number of teeth of the grinding projections 221 formed on the outside of the screw blade 220 is 26, and the number of teeth of the crushing projections 221 formed on the inside of the screw blade 220 is 22. Compost (ie, sludge and Microbial cultured subsidiary material) mixing machine. The method according to claim 1,
The pitch value between the screw blades 220 and the screw blades 220 is 600 mm, and the diameter of the screw blades 220 is 1200 mm.
5. The method according to claim 4,
On one side of the first rotational shaft 210a and the other side of the second rotational shaft 210b, a spiral countercurrent blade 250 symmetrical to the neighboring screw blade 220 is installed, and the pitch of the counterflow blade 250 is The pitch of the screw blades 220 is a compost blender, characterized in that it consists of a ratio of 1:2.

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