KR101538123B1 - Hydraulic-powered agitator sludge - Google Patents

Abstract

The present invention relates to a sludge agitator capable of easily assembling and separating a hydraulic motor and capable of increasing the generation of biogas as much as possible.
The present invention relates to a digester (T) comprising: a support rod (10) vertically installed on both sides of a digester (T); A support plate 20 rotatably supporting a lower portion of the support rod 10; A platform (30) mounted on the support bar (10) movably up and down; A hydraulic motor (40) fixed to one side of the platform (30) and having a stirring propeller (41); An elevating member 50 installed on the upper portion of the supporting bar 10 and raising and lowering the platform 30 through the pulley 51 and the wire 52; And a rotary member 60 installed on both sides of the digester T to rotate the support bar 10 to the left and right.

Description

[0001] Hydraulic-powered agitator sludge [0002]

The present invention relates to a sludge agitating apparatus, and more particularly, to a sludge hydraulically driven agitating apparatus capable of easily assembling and separating a hydraulic motor and increasing the generation of biogas as much as possible.

In general, organic wastes such as animal manure and food wastes can seriously degrade the environment due to corruption and leachate. Such wastes must be collected by sorting the wastes and dispose of the wastes through a predetermined waste treatment process.

However, the simple disposal of organic wastes requires the disposal of processing facilities and the consumption of manpower, which is wasteful rather than productive in terms of economy.

Recently, methods and technologies for recycling organic wastes have been developed. Typically, organic wastes are recycled as compost, and organic wastes are used to produce biogas (or methane gas) And technology to turn it on.

Techniques for the recycling of such organic waste have been disclosed in Korean Patent Laid-Open Publication No. 1999-0046725, Japanese Patent Laid-Open Nos. 2001-0112168 and 10-0743373, and the like.

The recycling technologies of these organic wastes commonly produce biogas while fermenting organic wastes in an anaerobic fermenter. On the other hand, these technologies also disclose a technique for obtaining heat energy or electric energy using the generated biogas, and also for obtaining a liquefied fertilizer during the biogas generation process. However, Sludge accumulates to become a big obstacle to the activity of methane bacteria, which reduces the amount of gas generated, and to remove accumulated sludge, it takes a lot of time and money to clean the internal liquid of the digestion tank more than several hundred tons.

In addition, techniques for recycling these organic wastes include a technique for mass production of biogas and a plurality of anaerobic fermentation tanks in preparation for abnormal operation of the anaerobic fermentation tanks, and transporting organic wastes among them.

However, since there is no separate facility for removing the odor generated in the storage tank, there is a problem that odor is generated around the storage tank because it is simply removed by the method of radiating in the air. In the conventional electric driven stirrer, , The shaft was damaged or the motor was damaged.

Further, since the agitating motor of the anaerobic digestion tank is fixed, smooth agitation can not be performed, and sufficient biogas can not be produced.

Further, since there is no facility for sufficiently removing the moisture contained in the biogas in the process of collecting the biogas, there is a problem that it is difficult to produce biogas of good quality.

In order to solve such a problem, Korean Patent Registration No. 0959375 discloses a biogas production apparatus using organic waste, in particular, it is possible to increase the generation of biogas to the maximum by moving the stirring apparatus vertically and horizontally, And the odor generated in the storage tank is effectively removed. An apparatus for producing biogas using organic waste is disclosed.

However, in the conventional sludge agitating device, there is a problem that the hydraulic motor can not be assembled and separated easily.

In addition, in the conventional sludge agitating device, the generation of biogas can not be structurally maximized.

Patent Document 1: Patent Publication No. 1999-0046725 Patent Document 2: Patent Publication No. 2001-0112168 Patent Document 3: Registration No. 10-0743373 Patent Document 4: Registration Patent No. 0959375

SUMMARY OF THE INVENTION It is an object of the present invention to provide a sludge hydraulically driven agitator capable of easily assembling and separating a hydraulic motor provided with a propeller for agitating sludge.

It is another object of the present invention to provide a sludge hydraulically driven stirring device capable of improving fermentation conditions by uniform mixing of sludge to maximize generation of biogas.

The present invention also provides a sludge hydraulically driven stirrer capable of preventing failure due to overload by using a hydraulic motor and exhibiting high efficiency and securing safety even when the structure is simplified by omitting the explosion- Device.

In order to achieve the above object, the present invention is characterized in that a support bar is vertically installed on both sides of the inside of a digester, a support plate rotatably supporting a lower portion of a support bar is fixed to the bottom of the digester, And an elevating member for elevating and lowering the platform through the pulley and the wire is provided on the upper portion of the support bar, and a support bar is disposed on the upper side of both sides of the digester. And a hydraulic system for supplying hydraulic oil to the hydraulic motor and the control device. The hydraulic system includes a control device for automatically controlling the slat and the rotary member, and a hydraulic system for supplying hydraulic oil to the hydraulic motor and the control device.

Further, the supporting bar is composed of a lower square pipe having a large width and an upper and a lower square pipe having a small width, and an opening part having a width larger than that of the upper square pipe is vertically formed at a side of the platform.

In addition, a control unit for raising and lowering the two motors by controlling the motors is installed in the elevating unit, and brackets for supporting the motors are provided.

Further, the rotary member is provided with a worm and a worm wheel for rotating the support bar 180 degrees to the left and right, a bracket for rotatably supporting the support bar, and a hydraulic motor for driving the worm.

According to the sludge agitating apparatus of the present invention, since the opening formed on the other side of the platform supporting the hydraulic motor can be attached to and detached from the side of the upper square pipe of the support rod, the hydraulic motor can be assembled more easily And separating effect.

In addition, since the sludge can be agitated by moving the hydraulic motor for two-side agitating alternately up and down, left and right and up and down alternately, the sludge is structurally structured uniformly and the biogas generation can be maximized through optimization of anaerobic digestion agitation There is an effect.

Further, since the present invention uses a hydraulic motor to agitate the sludge, it can be structurally prevented from failing due to overload, exhibiting high efficiency, and capable of explosion-proofing function, thereby securing safety.

1 is a sectional view showing an installation state of the present invention;
2 is a plan view showing an installation state of the present invention;
3 is a sectional view showing the structure of the present invention.
4A and 4B are perspective views showing a structure of a support bar and a platform according to the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the technical structure of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 4A and 4B, the sludge agitating apparatus of the present invention comprises: a support rod 10 vertically installed on both sides of a digester T; A support plate 20 rotatably supporting a lower portion of the support rod 10; A platform (30) mounted on the support bar (10) movably up and down; A hydraulic motor (40) fixed to one side of the platform (30) and having a stirring propeller (41); An elevating member 50 installed on the upper portion of the supporting bar 10 and raising and lowering the platform 30 through the pulley 51 and the wire 52; And a rotary member 60 installed on both sides of the digester T to rotate the support bar 10 to the left and right.

The sludge agitator according to the present invention is installed on both sides of the digester T to allow the sludge to be stirred more efficiently. The sludge agitator according to the present invention includes a support rod 10, a support plate 20, 30, a hydraulic motor 40, an elevating member 50, and a rotating member 60.

The support rods 10 are vertically installed on both sides of the inner side of the digester T. The support rods 10 serve to support the platform 30 in which the hydraulic motors 40 are fixed, do. At this time, the support rod 10 is rotatably installed on the support plate 20

According to the present invention, the support rod 10 includes a lower square pipe 12 rotatably supported by a bearing 11 on a support plate 20, and a lower square pipe 12 disposed above the lower square pipe 12 And an upper rectangular pipe 13 provided with a small width.

The support plate 20 rotatably supports the lower portion of the support rod 10 and the support plate 20 is fixed to the bottoms of the inner sides of the anaerobic digestion tank T, respectively.

The platform 30 is assembled to the support bar 10 so as to be vertically movable. A hydraulic motor 40 for stirring is fixed to one side of the platform 30.

According to the present invention, the platform 30 is formed as a rectangular pipe that is vertically movably fitted in the lower square pipe 12 of the support rod 10, and has an opening portion having a larger width than the upper square pipe 13 31 are vertically formed. 4B, when the platform 30 is moved to the upper rectangular pipe 13, the opening 31 and the upper rectangular pipe 13 face each other. At this time, the width of the opening 31 It is possible to easily separate the platform 30 from the support bar 10 and to open the opening 31 to the side of the upper rectangular pipe 13 because the opening 31 is larger than the width of the upper square pipe 13. [ So that the platform 30 can be easily assembled to the upper rectangular pipe 13 of the support rod 10.

The hydraulic motor 40 is fixed to one side of the platform 30 and the hydraulic motor 40 is provided with a stirring propeller 41 for stirring the sludge.

According to the present invention, the hydraulic motor 40 is configured to control the rotation speed (RPM) by adjusting the pressure of the hydraulic pump according to the sludge viscosity in the digester T and to maximize the stirring efficiency. Further, according to the present invention, The hydraulic motor 40 is configured to be able to secure an explosion-proof explosion-proof function. At this time, the hydraulic motor 40 can be used semi-permanently, RPM control of the agitation device is possible, and there is no need of maintenance cost and repair because there is no wire phenomenon relative to an electric motor, and there is no explosion due to methane gas The safety function can be secured because explosion-proof function is possible, and it is possible to use for a long time by bypass function when load is caused by load during sludge agitation with high viscosity.

The elevating member 50 is installed on the upper portion of the supporting bar 10 to elevate and lower the platform 30 through the pulley 51 and the wire 52. The elevating member 50 includes a platform 30, (40) simultaneously up and down.

According to the present invention, the elevating member 50 includes a motor 53 for raising and lowering the wires 52, a control unit 54 for alternately raising and lowering the both side hydraulic motors 40 by controlling the motor 53, And a bracket 55 for supporting the motor 53. Therefore, according to the present invention, the both side hydraulic motors 40 can be agitated while being alternately lifted and lowered as shown in Fig. 1 through the elevation member 50, so that the sludge can be structurally more uniformly stirred have.

The rotary member 60 is installed at both upper sides of the anaerobic digestion tank T. The rotary member 60 rotates the support rod 10, the platform 30 and the hydraulic motor 40 simultaneously .

According to the present invention, the rotary member 60 includes a worm 61 and a worm wheel 62 for rotating the support rod 10 by 180 degrees to the left and right, a bracket 62 for rotatably supporting the support rod 10 through the bearing 63, (64); And a motor 65 mounted on the bracket 64 for driving the worm 61. At this time, the worm wheel 62 is installed in the upper rectangular pipe 13 of the support rod 10. Therefore, according to the present invention, the both side hydraulic motors 40 can be rotated through the rotary member 60 while being rotated left and right at 180 degrees as shown in FIG. 2, so that the sludge can be structurally more uniformly stirred have.

4b, when the opening 31 is drawn out to the side of the upper rectangular pipe 13 in a state where the platform 30 is moved to the upper square pipe 13, The hydraulic motor 40 can be easily separated from the support rod 10 and conversely the platform 30 and the hydraulic motor 40 can be easily moved to the upper rectangular pipe 13 of the support rod 10 through the opening 31 There is an advantage that it can be assembled.

1, the two side hydraulic motors 40 can be agitated while being raised and lowered alternately as shown in Fig. 1 through the lifting member 50, It is possible to maximize the generation of biogas by optimizing the anaerobic digestion agitation so that the mixing can be uniformly structured.

In addition, since the present invention uses the hydraulic motor 40, it is possible to prevent a failure due to an overload, to exhibit high efficiency, and to have an explosion-proof function, thereby securing safety.

10: support rod 11: bearing
12: lower square pipe 13: upper square pipe
20: support plate 30: platform
31: opening 40: hydraulic motor
41: propeller 50: elevating member
51: pulley 52: wire
53: motor 54:
55: bracket 60: rotating member
61: Worm 62: Worm wheel
63: bearing 64: bracket
65: motor T: digester

Claims (6)

A support rod (10) vertically installed on both inner sides of the digester (T); A support plate 20 rotatably supporting a lower portion of the support rod 10; A platform (30) mounted on the support bar (10) movably up and down; A hydraulic motor (40) fixed to one side of the platform (30) and having a stirring propeller (41); An elevating member 50 installed on the upper portion of the supporting bar 10 and raising and lowering the platform 30 through the pulley 51 and the wire 52; And a rotary member (60) installed on both sides of the digester (T) to rotate the support bar (10) to the left and right,
The support rod 10 is installed on the support plate 20 in a smaller width than the lower square pipe 12 on an upper portion of the lower square pipe 12, And the upper square pipe 13 has a width larger than that of the upper square pipe 13 on the other side of the lower square pipe 12, In the sludge hydraulic drive type stirring apparatus in which the openings 31 are formed vertically,
The rotation member 60 includes a worm 61 and a worm wheel 62 for rotating the support bar 10 to the left and right by 180 degrees and a bracket 64 for supporting the support rod 10 rotatably through the bearing 63 And a motor 65 installed on the bracket 64 for driving the worm 61,
The hydraulic motor 40 has an explosion-proof function for preventing explosion and is provided with an elevating member 50 (see FIG. 1) for controlling the rotation speed (RPM) by adjusting the pressure of the hydraulic pump according to the sludge viscosity in the digester T, And the agitator can be rotated while being rotated 180 degrees to the left and right. delete delete delete delete delete

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