KR100453284B1 - Device for fermenting at high-speed compost with multi-shaft - Google Patents

Abstract

PURPOSE: Provided is a device for fermenting compost at high speed, which shows low power consumption, high agitating and fermenting efficiency, convenience in manufacture, operation and maintenance thereof, and increased stability. CONSTITUTION: The device comprises: a silo main body; a distributor(50) disposed on the top of the silo main body to distribute and load organic materials uniformly to the main body; an agitator(20) for the organic materials, disposed in the silo main body and comprising a rotation shaft(60) and blades(70); a hydraulic driving unit(40) for driving the agitator; and an air supplying duct for supplying air from the exterior, wherein the silo main body comprises at least two silos joined in the form of "8", a triangle or a clover and each silo is provided with a rotation shaft(60). In the device, the blades(70) includes a plurality of grooves on the top and bottom surfaces thereof and are mounted on the rotation shaft(60) with phase differences of 120 deg. in such a manner that the blades have an upward slant to the horizontal plane.

Description

Device for fermenting at high-speed compost with multi-shaft}

The present invention relates to a compost high speed fermenter, and more particularly, to a compost high speed fermenter having a multi-axis that can be fed to the soil by stirring and fermenting a large amount of food waste, various by-products and hay, etc. generated in a general home, large meals and restaurants, etc. .

Due to the recent increase in the level of culture, food waste has been increasing rapidly, and attention has been focused on the disposal of them. Especially, it is mandatory to compost them to be recycled for businesses that generate a large amount of food waste. It is true.

Accordingly, in Korea, a method of fermenting organic matters by using a treatment method as described in Korean Patent Laid-Open Publication No. 2002-6265 or a stirring device as described in Korean Patent Publication No. 1997-68863 has been used. .

However, in the fermentation apparatus as described in the above-mentioned Patent Publication No. 1997-68863, the viscous substance fermented therein is strongly attached when the stirring is not performed well, and the load for operating the stirring apparatus increases rapidly, as well as the external There was a problem that the supply of air became difficult to make fermentation difficult, and in particular, when the apparatus was enlarged in order to use a single-cylinder type agitator for hay fermentation as described in JP-A-1997-68863, Hay is entangled with each other to increase the rotational load of the blade to increase the power consumption for driving the blade drastically, there was a problem that the drive device is damaged if severe.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to provide a compost high speed fermenter having a multi-axis low power consumption, high stirring and fermentation efficiency to overcome the above problems. have.

Another object of the present invention is to provide a compost high speed fermenter having a multi-axis that can facilitate the production, installation and maintenance of the organic material composting device, and can increase the stability.

1 is a perspective view showing a compost high speed fermenter having a multi-axis according to the present invention,

Figure 2a is a plan view of a silo body according to the present invention,

Figure 2b and Figure 2c is a plan view showing a modified installation of the silo body according to the present invention,

3 is a cross-sectional view showing the interior of the silo body according to the present invention;

4 is a view showing an operating state of the hydraulic drive apparatus according to the present invention;

5 is a detailed view showing a stirring apparatus according to the present invention,

6 is a view showing an installation state of a blade according to the present invention;

7 is a view showing an installation state of the air supply pipe according to the present invention;

8 is a view showing an organic matter distribution device according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10 silo body 20 agitator

30: air supply pipe 40: drive device

50: organic matter distribution device 60: rotating shaft

70: blade 80: check hole

The present invention relates to a device for making compost by stirring and fermenting food waste and various by-products and hay (hereinafter referred to as 'organic matter'), the silo body 10 for stirring and fermenting organic matter, and the silo Stirring device 20 installed in the body 10, air supply pipe 30, drive device 40 for driving the stirring device 20, organic matter distribution device installed in the upper center of the silo body 10 50, including the main device.

A feature of the present invention includes two or more upright silos, each of which includes a rotating shaft and is configured to be coupled to any one of an eight-shaped, triangular, or clover-like configuration, and a silo body 10 installed above the silo body. Dispensing apparatus 50 for evenly dispensing and loading the injected organic matter in the silo body, an organic material stirring device 20 installed in the silo body and consisting of a rotating shaft and a blade, and a hydraulic driving device 40 for driving the stirring device. And a compost high speed fermenter having multiple axes, including an air supply pipe 30 for supplying external air, to provide a compost high speed fermenter having multiple axes with low power consumption and good stirring and fermentation efficiency.

In addition, a feature of the present invention, the silo body (10) and the silo body (10) comprising a rotating shaft 60 in each of the two or more silos, combined with any one of the eight-shaped or triangular or clover-like configuration On the upper and lower surfaces of the dispensing device 50, the rotating shaft 60 is installed inside the silo body 10, and the distribution device 50 for evenly distributing and loading the injected organic matter in the silo body (10) Organic stirring device 20 consisting of a blade 70 is assembled to the rotating shaft 60 with a phase difference of 120 ° with a plurality of grooves formed and having an upward inclination angle with respect to the horizontal plane, and the stirring device 20 By constructing a multi-axis compost high speed fermenter, including a hydraulic drive device 40 for driving) and an air supply pipe 30 for supplying external air, the compost has a multi-axis compost with low power consumption and excellent stirring and fermentation efficiencyTo provide in the fermenter.

In addition, a feature of the present invention, the silo body (10) and the silo body (10) comprising a rotating shaft 60 in each of the two or more silos, combined with any one of the eight-shaped or triangular or clover-like configuration On the upper and lower surfaces of the dispensing device 50, the rotating shaft 60 is installed inside the silo body 10, and the distribution device 50 for evenly distributing and loading the injected organic matter in the silo body (10) Organic stirring device 20 consisting of a blade 70 is assembled to the rotating shaft 60 with a phase difference of 120 ° with a plurality of grooves formed and having an upward inclination angle with respect to the horizontal plane, and the stirring device 20 By constructing a compost high speed fermenter having a multi-axis including a hydraulic drive device 40 for driving), an air supply pipe 30 for supplying external air, and an inspection port 80 provided in the silo body 10. Low consumption, stirring and In addition to the excellent effects efficiency, to provide a high-speed manure fermenters having a multi-axis easy maintenance.

In addition, a feature of the present invention, the silo body (10) and the silo body (10) comprising a rotating shaft 60 in each of the two or more silos, combined with any one of the eight-shaped or triangular or clover-like configuration Dispensing apparatus 50 for evenly distributing and loading the organic matter is installed in the upper part of the silo body 10, and the organic material stirring consisting of the rotating shaft 60 and the blade 70 is installed in the silo body 10 Comprising an apparatus 20, a hydraulic drive device 40 for driving the stirring device 20, and an air supply pipe 30 for supplying external air, comprising a multi-axis compost high speed fermenter, the silo body By constructing the upper body and the lower body 10 to be prefabricated, to provide a compost high speed fermenter having a low power consumption, good stirring and fermentation efficiency, as well as a multi-axis easy to transport and install A.

In addition, a feature of the present invention, the silo body (10) and the silo body (10) comprising a rotating shaft 60 in each of the two or more silos, combined with any one of the eight-shaped or triangular or clover-like configuration Dispensing apparatus 50 for evenly distributing and loading the organic matter is installed in the upper part of the silo body 10, and the organic material stirring consisting of the rotating shaft 60 and the blade 70 is installed in the silo body 10 Comprising a device 20, a hydraulic drive device 40 for driving the stirring device 20, and an air supply pipe 30 for supplying the outside air comprises a compost high speed fermenter having a multi-axis, the rotary shaft ( 60) is made by separating the upper rotary shaft and the lower rotary shaft, and then configured to use the flange coupled to the upper rotary shaft and the lower rotary shaft, the power consumption is low, the stirring and fermentation efficiency is good, as well as transport and Value to provide a high-speed manure fermenters having a multi-axis easy.

In addition, a feature of the present invention, the silo body (10) and the silo body (10) comprising a rotating shaft 60 in each of the two or more silos, combined with any one of the eight-shaped or triangular or clover-like configuration Dispensing apparatus 50 for evenly distributing and loading the organic matter is installed in the upper part of the silo body 10, and the organic material stirring consisting of the rotating shaft 60 and the blade 70 is installed in the silo body 10 Comprising a device 20, a hydraulic drive device 40 for driving the stirring device 20, and an air supply pipe 30 for supplying the outside air comprises a compost high speed fermenter having a multi-axis, the rotary shaft ( It is to provide a compost high speed fermenter having a multi-axis with low power consumption and good stirring and fermentation efficiency by driving 60 by a gear and a latch mechanism and a hydraulic cylinder attached to the rotary shaft (60).

In addition, a feature of the present invention, the silo body (10) and the silo body (10) comprising a rotating shaft 60 in each of the two or more silos, combined with any one of the eight-shaped or triangular or clover-like configuration ) Is installed in the upper portion of the ellipsoidal shape and has a vertex on one axis of the ellipse and the cone-shaped organic material distribution device 50, and installed inside the silo body 10, the rotating shaft 60 and the blade 70 Comprising the organic material stirring device 20, the hydraulic drive device 40 for driving the stirring device 20, and the air supply pipe 30 for supplying the outside air by configuring a compost high speed fermenter having a multi-axis It is to provide a compost high speed fermenter having a multi-axis, low power consumption, good stirring and fermentation efficiency.

In addition, a feature of the present invention, the silo body (10) and the silo body (10) comprising a rotating shaft 60 in each of the two or more silos, combined with any one of the eight-shaped or triangular or clover-like configuration Installed in the upper part of the upper part and having an ellipse shape and having a vertex on one axis of the ellipse and having regular wrinkles formed on the side of the conical shape, and installed in the silo body 10, the rotating shaft A shaft including an organic material stirring device 20 consisting of 60 and blades 70, a hydraulic drive device 40 for driving the stirring device 20, and an air supply pipe 30 for supplying external air By constructing a compost high speed fermenter having a low power consumption, it is to provide a compost high speed fermenter having a multi-axis having low power consumption and good stirring and fermentation efficiency.

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

1 is a perspective view showing a compost high speed fermenter having a multi-axis according to the invention, Figure 2a is a plan view of a silo body according to the invention, Figures 2b and 2c is a plan view showing a modified installation example of the silo body according to the invention, Figure 3 is a cross-sectional view showing the interior of the silo body according to the present invention, Figure 4 is a view showing the operating state of the hydraulic drive device according to the invention, Figure 5 is a detailed view showing a stirring device according to the present invention, Figure 6 Figure 7 is a view showing the installation state of the blade according to the invention, Figure 7 is a view showing the installation state of the air supply pipe according to the present invention, Figure 8 is a view showing the organic matter distribution device according to the present invention.

The multi-axis compost high speed fermenter according to the present invention adopts the structure of the upright silo body 10 of the eight-shape type, so that the length of the blade 70 may be reduced to about 1/2 compared to a single silo device of the same capacity, and thus the same rotation When the torque is exerted, the reaction force acting on the end of the blade 70 is reduced by about 1/2, so that the power consumption is low and the stirring can be easily performed, thereby providing a composting device having high fermentation efficiency.

The silo body 10 of the present invention as shown in Figures 2 to 3 is made by combining the first cylindrical silo 11 and the second cylindrical silo 12, each of the silo rotating shaft 60 And the stirring device 20 and the air supply pipe 30 consisting of a plurality of blades 70 attached to the rotary shaft is accommodated, the lower portion of the rotary shaft 60 receives the power from the hydraulic cylinder to receive the rotary shaft 60 A driving device 40 for driving is attached. In addition, the silo body 10 is coupled to an appropriate distance so that the blades 70 installed on the rotation shafts 60 inside the first and second silos respectively do not interfere with the rotation shafts 60 of the other silo. It has a close shape and has an upright structure.

The silo body 10 is configured to be assembled using a method of flange coupling the respective bodies after the production of two stages of the upper body 13 and the lower body 14 according to its capacity. In addition, the middle of the silo body 10 may be installed at a suitable interval, preferably at an interval of 120 °, to collect a sample while checking the state of the silo or adjust the internal state.

On the other hand, as a modified example of the silo body 10, as shown in Figures 2b and 2c, it is also possible to form a combination of three cylindrical silos arranged at intervals of 120 °, four silos are 90 ° intervals It is also possible to arrange them in the form of clover.

3 shows the interior of the silo body 10. The silo body 10 is formed by combining the first silo 11 and the second silo 12, and inside each silo, an agitator 20 and an air supply pipe 30 for stirring and fermenting organic matter. This is installed. The stirring device 20 is composed of a plurality of blades 70 attached to the rotating shaft 60 and the other height at 120 ° intervals on the rotating shaft 60, attached to a specific height of the first silo 11 The blades 74, 75, 76 of the second silo 12 corresponding to the blades 71, 72, 73 are sequentially rotated at the same phase angle as the blades of the first silo.

On the other hand, when the silo body 10 is enlarged, the driving device 40 has a large load for rotating the blade 70, so that the normal motor driving device cannot handle the load. The drive system is adopted. That is, when pressure is supplied to the hydraulic cylinder 41 from the valve (not shown) which controls the supply of hydraulic pressure, the piston rod 42 of the hydraulic cylinder 41 is pushed out, and the seal attached to the end of the piston rod is pushed out. 43 pushes the teeth of the gear 44 attached to the lower part of the rotating shaft 60 of the said stirring device 2 to 3 at a time, and rotates the rotating shaft 60. As shown in FIG. In addition, a latch mechanism 45 is attached to the gear to prevent unwanted reverse rotation of the gear.

In addition, two hydraulic cylinders 41 are installed at the front and rear of the rotating shaft 60, and the two hydraulic cylinders 41 alternately act to push the teeth of the gear attached to the rotating shaft 60.

5 shows a configuration example of the stirring device 20. When the silo capacity is small, the stirring device 20 may be composed of only one rotating shaft 60 per one silo and a plurality of blades attached to the rotating shaft 60, but the silo having a high height in order to increase the capacity. In the case of manufacturing the rotary shaft 60 may be configured by separating the upper rotary shaft 61 and the lower rotary shaft 62. In this case, the upper end of the upper rotary shaft 61 and the lower end of the lower rotary shaft 62 are supported by a bearing attached to the silo body 10, and the lower end of the upper rotary shaft and the upper rotary shaft are used by flange coupling.

In addition, each of the upper rotary shaft 61 and the lower rotary shaft 62 has an equal phase difference according to the number of blades so that the blade 70 can be attached to the height divided evenly according to the length of the shaft, and the blade is attached. The section 77 is installed. That is, when there are three blades and the length of the shaft is 2400 mm, the phase angle is set to 120 degrees, and a blade attaching portion for installing the blade every 600 mm points is formed.

6 shows the shape of the blade 70 attached to the rotation shaft 60. The blade 70 serves to simply stir the organic material, unlike blades of most existing composting devices, which serve to cut or pulverize the organic material. Therefore, the blade 70 receives a large force when the composting device is enlarged. It is of course designed to withstand the weight of the organic material added to the upper portion, and the strength to stir the organic material.

In addition, the blade 70 has a plurality of grooves 78 are formed on the upper and lower surfaces of the blade so as to enhance the efficiency of the stirring, it is attached to give a upward inclination with respect to the plane perpendicular to the axis of rotation, the preferred inclination angle is It is preferable to set it as about 5 degrees. The blade 70 does not interfere with the silo inner surface and the rotational shaft 60 of the counterpart silo, as well as the organic material between the blade end and the silo or between the blade end and the counterpart silo 60. In order to prevent jams from occurring, not only the length is appropriately installed, but also the blade is damaged, the assembly is attached to the rotating shaft 60 so that only the damaged blade can be replaced without replacing the whole stirring device (20).

On the other hand, according to the shape of the silo, the blade 70 may be used by changing to a two-blade, three-blade, or four-blade method.

7 shows an installation diagram of the air supply pipe 30. In order to efficiently ferment the organic matter in the fermentation apparatus, the microorganisms in the fermenter require fresh air outside, so that the silo body of the present invention does not pass through the rotary shaft 60 and the blade 70 to supply air. The air supply pipe 30 is installed while being supported by the bracket 31 at the lower and middle positions of the silo.

The air supply pipe 30 receives air from an external air supply device (not shown) to supply air into the silo through an air outlet 32 formed at equal intervals on the outer circumference of the air supply pipe 30. And the air outlet 32 is perforated to face the top of the silo.

8 shows an organic matter distribution device 50. The organic material distribution device 50 is installed at the central portion where the first silo and the second silo meet, so that the organic material introduced into the silo body 10 is evenly distributed to the center and the outer portion of the silo body 10. Do this. The dispensing apparatus 50 has an elliptical shape at the bottom thereof, has a conical side surface having a vertex on one axis of the ellipse, and the motor 52 drives the rotating shaft 51 attached to the vertex of the cone. As a result, the organic material is dispersed and introduced. In addition, the side surface of the cone is formed to have a regular wrinkle portion 53 is configured to have an effect of facilitating the introduction of organic matter into the silo.

The operation and function of the present invention as described above will be described below.

When ready to inject organic matter into the silo body 10 consisting of the first and second silos, power is supplied to the distribution device 50 installed on the silo body 10 to rotate, and by the hydraulic cylinder 41. Each rotating shaft 60 in the silo rotates sequentially, and a plurality of blades 70 fixed to the respective rotating shafts 60 rotate to finish preparation for stirring the organic material. The organic material introduced from the upper part of the silo body 10 is distributed into the center and the outer part of the silo through the distribution device 50, stacked inside the silo, and then the rotation of the distribution device 50 is stopped, and the blade is attached to the rotating shaft ( Continue to rotate 60) to stir the organics. In addition, the organic material stacked on the silo body 10 is continuously supplied with fresh air through the air supply pipe 30 so that the organic material can be fermented smoothly.

The organic material fermented through the above step is subjected to a transfer treatment through a known post-treatment device as described in Published Patent Publication No. 2002-6265. It is natural that the procedure for transferring the organic material to the silo body is also transferred through a processing apparatus as known in the above-mentioned patent publication.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention not only allows the organic material to be composted and recycled, but also solves the difficulty of the stirring action inevitably seen in a single silo method, and uses the blade having a high stirring efficiency to install power inclinedly. There is an effect that can be significantly reduced.

In addition, the present invention is configured to be attached to the silo body and the blade to be prefabricated in the manufacturing plant to produce a standard, facilitate transport and installation, as well as to install the inspection port in the silo composting device Ease of maintenance has the effect of improving, and by installing the organic matter distribution device and the air supply pipe has the effect of increasing the fermentation efficiency of the organic matter.

Claims (8)

delete A silo body, a dispensing device for evenly distributing and loading the organic material installed in the upper part of the silo body in the silo body, an organic agitating device installed in the silo body and consisting of a rotating shaft and a blade, and driving the stirring device. It consists of a hydraulic drive for the air supply pipe for supplying external air, In the conventional compost high speed fermenter, the silo body is configured by combining two or more silos in any one of an 8 shape or a triangular or clover form, and including a rotating shaft in each silo, The blade is a multi-axis compost high speed fermenter characterized in that a plurality of grooves are formed on the upper and lower surfaces of the blade, and are prefabricated on the rotating shaft with a phase difference of 120 ° with an upward inclination angle with respect to the horizontal plane. 3. The compost high speed fermenter with multiple axes according to claim 2, wherein the silo body further comprises a check hole. 4. The compost high speed fermenter of any one of claims 2 to 3, wherein the silo body is prefabricated with an upper body and a lower body. The compost high speed fermenter according to any one of claims 2 to 3, wherein the rotating shaft includes an upper rotating shaft and a lower rotating shaft, wherein the upper rotating shaft and the lower rotating shaft are coupled to a flange joint. 4. The multi-axis compost fermenter according to any one of claims 2 to 3, wherein the rotating shaft is driven by a gear and a latch mechanism and a hydraulic cylinder attached to the rotating shaft. 4. The rotating shaft according to any one of claims 2 to 3, wherein the dispensing device has an elliptical shape at the bottom thereof and has a conical side surface having a vertex on one axis of the ellipse, and is attached to a vertex portion of the cone. Compost high speed fermenter having a multi-axis characterized in that driven by. 8. The multi-axis compost high speed fermenter according to claim 7, characterized in that regular wrinkles are formed on the side of the dispensing device.